Echoing of user function calls has been enabled.


=============================
= System / functional tests =
=============================


relax> pipe.create(pipe_name='relax_disp', pipe_type='relax_disp', bundle=None)
debug> Lock 'pipe_lock':  Acquisition by 'create'.
debug> Lock 'pipe_lock':  Release by 'create'.

relax> pipe.create(pipe_name='base pipe', pipe_type='relax_disp', bundle='relax_disp')
debug> Lock 'pipe_lock':  Acquisition by 'create'.
debug> Lock 'pipe_lock':  Release by 'create'.

relax> spectrum.read_spins(file='1_0_46_0_max_standard.ser', dir='/Users/tlinnet/software/relax_trunk/test_suite/shared_data/dispersion/Kjaergaard_et_al_2013/peak_lists', dim=1, spin_id_col=None, mol_name_col=None, res_num_col=None, res_name_col=None, spin_num_col=None, spin_name_col=None, sep=None, spin_id=None)
Opening the file '/Users/tlinnet/software/relax_trunk/test_suite/shared_data/dispersion/Kjaergaard_et_al_2013/peak_lists/1_0_46_0_max_standard.ser' for reading.
NMRPipe SeriesTab formatted data file.

debug> Lock 'spin_lock':  Acquisition by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_spin'.

relax> spin.isotope(isotope='15N', spin_id=None, force=False)

relax> chemical_shift.read(file='1_0_46_0_max_standard.ser', dir='/Users/tlinnet/software/relax_trunk/test_suite/shared_data/dispersion/Kjaergaard_et_al_2013/peak_lists', spin_id_col=None, mol_name_col=None, res_num_col=None, res_name_col=None, spin_num_col=None, spin_name_col=None, sep=None, spin_id=None)
Opening the file '/Users/tlinnet/software/relax_trunk/test_suite/shared_data/dispersion/Kjaergaard_et_al_2013/peak_lists/1_0_46_0_max_standard.ser' for reading.
NMRPipe SeriesTab formatted data file.

RelaxWarning: Cannot find the spin :5@HN within the sequence.
RelaxWarning: Cannot find the spin :6@HN within the sequence.
RelaxWarning: Cannot find the spin :8@HN within the sequence.
RelaxWarning: Cannot find the spin :9@HN within the sequence.
RelaxWarning: Cannot find the spin :10@HN within the sequence.
RelaxWarning: Cannot find the spin :11@HN within the sequence.
RelaxWarning: Cannot find the spin :12@HN within the sequence.
RelaxWarning: Cannot find the spin :13@HN within the sequence.
RelaxWarning: Cannot find the spin :14@HN within the sequence.
RelaxWarning: Cannot find the spin :15@HN within the sequence.
RelaxWarning: Cannot find the spin :16@HN within the sequence.
RelaxWarning: Cannot find the spin :17@HN within the sequence.
RelaxWarning: Cannot find the spin :18@HN within the sequence.
RelaxWarning: Cannot find the spin :19@HN within the sequence.
RelaxWarning: Cannot find the spin :21@HN within the sequence.
RelaxWarning: Cannot find the spin :24@HN within the sequence.
RelaxWarning: Cannot find the spin :25@HN within the sequence.
RelaxWarning: Cannot find the spin :26@HN within the sequence.
RelaxWarning: Cannot find the spin :27@HN within the sequence.
RelaxWarning: Cannot find the spin :28@HN within the sequence.
RelaxWarning: Cannot find the spin :29@HN within the sequence.
RelaxWarning: Cannot find the spin :30@HN within the sequence.
RelaxWarning: Cannot find the spin :31@HN within the sequence.
RelaxWarning: Cannot find the spin :32@HN within the sequence.
RelaxWarning: Cannot find the spin :33@HN within the sequence.
RelaxWarning: Cannot find the spin :34@HN within the sequence.
RelaxWarning: Cannot find the spin :35@HN within the sequence.
RelaxWarning: Cannot find the spin :36@HN within the sequence.
RelaxWarning: Cannot find the spin :38@HN within the sequence.
RelaxWarning: Cannot find the spin :39@HN within the sequence.
RelaxWarning: Cannot find the spin :40@HN within the sequence.
RelaxWarning: Cannot find the spin :41@HN within the sequence.
RelaxWarning: Cannot find the spin :42@HN within the sequence.
RelaxWarning: Cannot find the spin :43@HN within the sequence.
RelaxWarning: Cannot find the spin :44@HN within the sequence.
RelaxWarning: Cannot find the spin :45@HN within the sequence.
RelaxWarning: Cannot find the spin :46@HN within the sequence.
RelaxWarning: Cannot find the spin :48@HN within the sequence.
RelaxWarning: Cannot find the spin :49@HN within the sequence.
RelaxWarning: Cannot find the spin :50@HN within the sequence.
RelaxWarning: Cannot find the spin :51@HN within the sequence.
RelaxWarning: Cannot find the spin :52@HN within the sequence.
RelaxWarning: Cannot find the spin :53@HN within the sequence.
RelaxWarning: Cannot find the spin :54@HN within the sequence.
RelaxWarning: Cannot find the spin :55@HN within the sequence.
RelaxWarning: Cannot find the spin :57@HN within the sequence.
RelaxWarning: Cannot find the spin :58@HN within the sequence.
RelaxWarning: Cannot find the spin :59@HN within the sequence.

The following chemical shifts have been loaded into the relax data store:

# Spin_ID    Chemical shift    
:5@N         122.223           
:6@N         122.162           
:8@N         114.25            
:9@N         125.852           
:10@N        118.626           
:11@N        117.449           
:12@N        119.999           
:13@N        122.61            
:14@N        118.602           
:15@N        118.291           
:16@N        115.393           
:17@N        121.288           
:18@N        117.448           
:19@N        116.378           
:21@N        116.316           
:24@N        117.263           
:25@N        122.211           
:26@N        118.748           
:27@N        118.103           
:28@N        119.421           
:29@N        119.317           
:30@N        119.386           
:31@N        117.279           
:32@N        122.103           
:33@N        120.038           
:34@N        116.698           
:35@N        111.811           
:36@N        118.639           
:38@N        118.285           
:39@N        121.318           
:40@N        117.77            
:41@N        119.948           
:42@N        119.759           
:43@N        118.314           
:44@N        118.16            
:45@N        121.442           
:46@N        118.714           
:48@N        113.08            
:49@N        125.706           
:50@N        119.183           
:51@N        120.966           
:52@N        122.361           
:53@N        126.675           
:54@N        117.069           
:55@N        120.875           
:57@N        109.372           
:58@N        119.811           
:59@N        126.048           

relax> spectrum.read_intensities(file='46_0_35_0_max_standard.ser', dir='/Users/tlinnet/software/relax_trunk/test_suite/shared_data/dispersion/Kjaergaard_et_al_2013/peak_lists', spectrum_id='46_0_35_0', dim=1, int_method='height', int_col=None, spin_id_col=None, mol_name_col=None, res_num_col=None, res_name_col=None, spin_num_col=None, spin_name_col=None, sep=None, spin_id=None, ncproc=None)
Opening the file '/Users/tlinnet/software/relax_trunk/test_suite/shared_data/dispersion/Kjaergaard_et_al_2013/peak_lists/46_0_35_0_max_standard.ser' for reading.
NMRPipe SeriesTab formatted data file.


The following intensities have been loaded into the relax data store:

# Spin_ID    Intensity    
:5@N         164216.6     
:6@N         109098.3     
:8@N         19009.66     
:9@N         75483.75     
:10@N        116018.4     
:11@N        223126.4     
:12@N        133237.0     
:13@N        96968.82     
:14@N        141015.8     
:15@N        182593.1     
:16@N        113079.6     
:17@N        72190.5      
:18@N        57536.3      
:19@N        66169.48     
:21@N        53999.34     
:24@N        56563.85     
:25@N        105231.9     
:26@N        113260.3     
:27@N        121391.2     
:28@N        272563.3     
:29@N        204830.4     
:30@N        196301.9     
:31@N        138939.5     
:32@N        138645.9     
:33@N        245831.6     
:34@N        58909.1      
:35@N        149006.0     
:36@N        64431.73     
:38@N        52636.97     
:39@N        154075.2     
:40@N        117904.1     
:41@N        133946.6     
:42@N        185669.5     
:43@N        62526.08     
:44@N        61388.69     
:45@N        127232.2     
:46@N        76688.7      
:48@N        28060.95     
:49@N        36741.01     
:50@N        90130.55     
:51@N        161961.5     
:52@N        202831.1     
:53@N        167673.0     
:54@N        84393.3      
:55@N        238158.5     
:57@N        139910.7     
:58@N        295700.8     
:59@N        620717.3     


relax> spectrum.baseplane_rmsd(error=745.77, spectrum_id='46_0_35_0', spin_id=None)

relax> relax_disp.exp_type(spectrum_id='46_0_35_0', exp_type='R1rho')
The spectrum ID '46_0_35_0' is now set to the R1rho-type experiment.

relax> relax_disp.spin_lock_field(spectrum_id='46_0_35_0', field=431.0)
The spectrum ID '46_0_35_0' spin-lock field strength is set to 0.431 kHz.

relax> relax_disp.spin_lock_offset(spectrum_id='46_0_35_0', offset=118.078)
Setting the '46_0_35_0' spectrum spin-lock offset to 118.078 ppm.

relax> relax_disp.relax_time(spectrum_id='46_0_35_0', time=0.0)
Setting the '46_0_35_0' spectrum relaxation time period to 0.0 s.

relax> spectrometer.frequency(id='46_0_35_0', frq=799.7773991, units='MHz')

relax> spectrum.read_intensities(file='48_0_35_4_max_standard.ser', dir='/Users/tlinnet/software/relax_trunk/test_suite/shared_data/dispersion/Kjaergaard_et_al_2013/peak_lists', spectrum_id='48_0_35_4', dim=1, int_method='height', int_col=None, spin_id_col=None, mol_name_col=None, res_num_col=None, res_name_col=None, spin_num_col=None, spin_name_col=None, sep=None, spin_id=None, ncproc=None)
Opening the file '/Users/tlinnet/software/relax_trunk/test_suite/shared_data/dispersion/Kjaergaard_et_al_2013/peak_lists/48_0_35_4_max_standard.ser' for reading.
NMRPipe SeriesTab formatted data file.


The following intensities have been loaded into the relax data store:

# Spin_ID    Intensity    
:5@N         149849.7     
:6@N         96288.01     
:8@N         14513.49     
:9@N         63526.93     
:10@N        70097.91     
:11@N        158253.5     
:12@N        82074.14     
:13@N        70191.91     
:14@N        96278.5      
:15@N        119833.1     
:16@N        57537.02     
:17@N        50426.59     
:18@N        32550.07     
:19@N        46355.05     
:21@N        36332.93     
:24@N        37702.83     
:25@N        60484.21     
:26@N        69500.77     
:27@N        79905.49     
:28@N        167143.8     
:29@N        138343.1     
:30@N        123185.2     
:31@N        91513.02     
:32@N        97790.97     
:33@N        160000.5     
:34@N        40956.08     
:35@N        122121.5     
:36@N        38443.22     
:38@N        34947.33     
:39@N        107559.1     
:40@N        63995.03     
:41@N        85918.45     
:42@N        120002.2     
:43@N        30277.92     
:44@N        28446.77     
:45@N        85619.88     
:46@N        44623.69     
:48@N        22080.44     
:49@N        33040.2      
:50@N        60880.43     
:51@N        130425.6     
:52@N        143636.2     
:53@N        160942.8     
:54@N        72405.3      
:55@N        218348.8     
:57@N        132600.9     
:58@N        276446.8     
:59@N        610676.1     


relax> spectrum.baseplane_rmsd(error=1274.17, spectrum_id='48_0_35_4', spin_id=None)

relax> relax_disp.exp_type(spectrum_id='48_0_35_4', exp_type='R1rho')
The spectrum ID '48_0_35_4' is now set to the R1rho-type experiment.

relax> relax_disp.spin_lock_field(spectrum_id='48_0_35_4', field=431.0)
The spectrum ID '48_0_35_4' spin-lock field strength is set to 0.431 kHz.

relax> relax_disp.spin_lock_offset(spectrum_id='48_0_35_4', offset=118.078)
Setting the '48_0_35_4' spectrum spin-lock offset to 118.078 ppm.

relax> relax_disp.relax_time(spectrum_id='48_0_35_4', time=0.04)
Setting the '48_0_35_4' spectrum relaxation time period to 0.04 s.

relax> spectrometer.frequency(id='48_0_35_4', frq=799.7773991, units='MHz')

relax> spectrum.read_intensities(file='47_0_35_10_max_standard.ser', dir='/Users/tlinnet/software/relax_trunk/test_suite/shared_data/dispersion/Kjaergaard_et_al_2013/peak_lists', spectrum_id='47_0_35_10', dim=1, int_method='height', int_col=None, spin_id_col=None, mol_name_col=None, res_num_col=None, res_name_col=None, spin_num_col=None, spin_name_col=None, sep=None, spin_id=None, ncproc=None)
Opening the file '/Users/tlinnet/software/relax_trunk/test_suite/shared_data/dispersion/Kjaergaard_et_al_2013/peak_lists/47_0_35_10_max_standard.ser' for reading.
NMRPipe SeriesTab formatted data file.


The following intensities have been loaded into the relax data store:

# Spin_ID    Intensity    
:5@N         122504.8     
:6@N         73489.0      
:8@N         9960.985     
:9@N         49433.79     
:10@N        33387.1      
:11@N        89642.05     
:12@N        41655.3      
:13@N        43496.53     
:14@N        54661.78     
:15@N        67980.79     
:16@N        20414.53     
:17@N        30028.36     
:18@N        11296.02     
:19@N        26158.48     
:21@N        21682.56     
:24@N        21560.17     
:25@N        27424.38     
:26@N        33952.39     
:27@N        42244.87     
:28@N        82097.48     
:29@N        75924.38     
:30@N        61444.36     
:31@N        51660.53     
:32@N        59615.23     
:33@N        90316.21     
:34@N        24148.84     
:35@N        84158.74     
:36@N        17368.19     
:38@N        19430.38     
:39@N        63109.39     
:40@N        25470.99     
:41@N        47641.96     
:42@N        65077.24     
:43@N        11793.3      
:44@N        9208.39      
:45@N        45293.97     
:46@N        19067.36     
:48@N        12763.73     
:49@N        25862.18     
:50@N        34582.67     
:51@N        91814.96     
:52@N        84398.87     
:53@N        132118.4     
:54@N        57387.2      
:55@N        186665.7     
:57@N        119395.0     
:58@N        243421.4     
:59@N        565474.6     


relax> spectrum.baseplane_rmsd(error=732.333, spectrum_id='47_0_35_10', spin_id=None)

relax> relax_disp.exp_type(spectrum_id='47_0_35_10', exp_type='R1rho')
The spectrum ID '47_0_35_10' is now set to the R1rho-type experiment.

relax> relax_disp.spin_lock_field(spectrum_id='47_0_35_10', field=431.0)
The spectrum ID '47_0_35_10' spin-lock field strength is set to 0.431 kHz.

relax> relax_disp.spin_lock_offset(spectrum_id='47_0_35_10', offset=118.078)
Setting the '47_0_35_10' spectrum spin-lock offset to 118.078 ppm.

relax> relax_disp.relax_time(spectrum_id='47_0_35_10', time=0.1)
Setting the '47_0_35_10' spectrum relaxation time period to 0.1 s.

relax> spectrometer.frequency(id='47_0_35_10', frq=799.7773991, units='MHz')

relax> spectrum.read_intensities(file='49_0_35_20_max_standard.ser', dir='/Users/tlinnet/software/relax_trunk/test_suite/shared_data/dispersion/Kjaergaard_et_al_2013/peak_lists', spectrum_id='49_0_35_20', dim=1, int_method='height', int_col=None, spin_id_col=None, mol_name_col=None, res_num_col=None, res_name_col=None, spin_num_col=None, spin_name_col=None, sep=None, spin_id=None, ncproc=None)
Opening the file '/Users/tlinnet/software/relax_trunk/test_suite/shared_data/dispersion/Kjaergaard_et_al_2013/peak_lists/49_0_35_20_max_standard.ser' for reading.
NMRPipe SeriesTab formatted data file.


The following intensities have been loaded into the relax data store:

# Spin_ID    Intensity    
:5@N         95164.25     
:6@N         53031.48     
:8@N         6082.488     
:9@N         35004.95     
:10@N        10606.15     
:11@N        38038.59     
:12@N        15426.73     
:13@N        19777.91     
:14@N        22942.86     
:15@N        28079.9      
:16@N        3234.393     
:17@N        13196.98     
:18@N        1569.858     
:19@N        12241.83     
:21@N        10207.13     
:24@N        10890.85     
:25@N        7741.394     
:26@N        12173.44     
:27@N        16758.04     
:28@N        29808.56     
:29@N        31120.48     
:30@N        22922.0      
:31@N        20906.61     
:32@N        27672.69     
:33@N        36840.88     
:34@N        10433.32     
:35@N        50543.0      
:36@N        4752.671     
:38@N        8097.416     
:39@N        27827.1      
:40@N        6083.212     
:41@N        17329.03     
:42@N        24543.58     
:43@N        2456.284     
:44@N        2191.505     
:45@N        17033.99     
:46@N        5438.158     
:48@N        6391.876     
:49@N        19125.69     
:50@N        16168.11     
:51@N        55114.49     
:52@N        36912.8      
:53@N        100624.7     
:54@N        43374.43     
:55@N        153474.2     
:57@N        108919.9     
:58@N        205412.7     
:59@N        518680.2     


relax> spectrum.baseplane_rmsd(error=687.014, spectrum_id='49_0_35_20', spin_id=None)

relax> relax_disp.exp_type(spectrum_id='49_0_35_20', exp_type='R1rho')
The spectrum ID '49_0_35_20' is now set to the R1rho-type experiment.

relax> relax_disp.spin_lock_field(spectrum_id='49_0_35_20', field=431.0)
The spectrum ID '49_0_35_20' spin-lock field strength is set to 0.431 kHz.

relax> relax_disp.spin_lock_offset(spectrum_id='49_0_35_20', offset=118.078)
Setting the '49_0_35_20' spectrum spin-lock offset to 118.078 ppm.

relax> relax_disp.relax_time(spectrum_id='49_0_35_20', time=0.2)
Setting the '49_0_35_20' spectrum relaxation time period to 0.2 s.

relax> spectrometer.frequency(id='49_0_35_20', frq=799.7773991, units='MHz')

relax> spectrum.read_intensities(file='36_0_39_0_max_standard.ser', dir='/Users/tlinnet/software/relax_trunk/test_suite/shared_data/dispersion/Kjaergaard_et_al_2013/peak_lists', spectrum_id='36_0_39_0', dim=1, int_method='height', int_col=None, spin_id_col=None, mol_name_col=None, res_num_col=None, res_name_col=None, spin_num_col=None, spin_name_col=None, sep=None, spin_id=None, ncproc=None)
Opening the file '/Users/tlinnet/software/relax_trunk/test_suite/shared_data/dispersion/Kjaergaard_et_al_2013/peak_lists/36_0_39_0_max_standard.ser' for reading.
NMRPipe SeriesTab formatted data file.


The following intensities have been loaded into the relax data store:

# Spin_ID    Intensity    
:5@N         169517.1     
:6@N         111117.9     
:8@N         19560.64     
:9@N         81906.77     
:10@N        124146.0     
:11@N        234930.6     
:12@N        138587.1     
:13@N        99094.32     
:14@N        146331.9     
:15@N        188829.6     
:16@N        116680.4     
:17@N        70766.66     
:18@N        61095.75     
:19@N        68361.58     
:21@N        54725.7      
:24@N        58992.34     
:25@N        106228.0     
:26@N        118092.8     
:27@N        129443.2     
:28@N        282788.3     
:29@N        211800.2     
:30@N        206211.5     
:31@N        142106.1     
:32@N        141607.7     
:33@N        250062.7     
:34@N        60045.62     
:35@N        154846.2     
:36@N        68844.89     
:38@N        54521.03     
:39@N        154271.3     
:40@N        123273.8     
:41@N        138249.4     
:42@N        192774.9     
:43@N        64339.95     
:44@N        63838.22     
:45@N        129264.3     
:46@N        80260.17     
:48@N        28806.14     
:49@N        39828.04     
:50@N        94074.26     
:51@N        166373.7     
:52@N        207908.6     
:53@N        201895.9     
:54@N        87383.02     
:55@N        244135.5     
:57@N        142375.7     
:58@N        306608.6     
:59@N        692673.4     


relax> spectrum.baseplane_rmsd(error=865.854, spectrum_id='36_0_39_0', spin_id=None)

relax> relax_disp.exp_type(spectrum_id='36_0_39_0', exp_type='R1rho')
The spectrum ID '36_0_39_0' is now set to the R1rho-type experiment.

relax> relax_disp.spin_lock_field(spectrum_id='36_0_39_0', field=651.2)
The spectrum ID '36_0_39_0' spin-lock field strength is set to 0.6512 kHz.

relax> relax_disp.spin_lock_offset(spectrum_id='36_0_39_0', offset=118.078)
Setting the '36_0_39_0' spectrum spin-lock offset to 118.078 ppm.

relax> relax_disp.relax_time(spectrum_id='36_0_39_0', time=0.0)
Setting the '36_0_39_0' spectrum relaxation time period to 0.0 s.

relax> spectrometer.frequency(id='36_0_39_0', frq=799.7773991, units='MHz')

relax> spectrum.read_intensities(file='39_0_39_4_max_standard.ser', dir='/Users/tlinnet/software/relax_trunk/test_suite/shared_data/dispersion/Kjaergaard_et_al_2013/peak_lists', spectrum_id='39_0_39_4', dim=1, int_method='height', int_col=None, spin_id_col=None, mol_name_col=None, res_num_col=None, res_name_col=None, spin_num_col=None, spin_name_col=None, sep=None, spin_id=None, ncproc=None)
Opening the file '/Users/tlinnet/software/relax_trunk/test_suite/shared_data/dispersion/Kjaergaard_et_al_2013/peak_lists/39_0_39_4_max_standard.ser' for reading.
NMRPipe SeriesTab formatted data file.


The following intensities have been loaded into the relax data store:

# Spin_ID    Intensity    
:5@N         145242.5     
:6@N         92999.1      
:8@N         13855.34     
:9@N         62890.88     
:10@N        72799.1      
:11@N        158214.7     
:12@N        80612.99     
:13@N        65828.4      
:14@N        97033.45     
:15@N        123613.7     
:16@N        52659.3      
:17@N        48601.62     
:18@N        32399.43     
:19@N        45651.11     
:21@N        35841.7      
:24@N        38446.54     
:25@N        53415.08     
:26@N        70417.52     
:27@N        80758.98     
:28@N        167601.0     
:29@N        137570.7     
:30@N        122669.5     
:31@N        92629.39     
:32@N        94228.74     
:33@N        160543.2     
:34@N        40572.11     
:35@N        109383.8     
:36@N        38261.12     
:38@N        35436.62     
:39@N        103835.2     
:40@N        66519.92     
:41@N        86097.33     
:42@N        120989.7     
:43@N        31881.7      
:44@N        28649.07     
:45@N        79872.07     
:46@N        43680.18     
:48@N        17740.34     
:49@N        31815.06     
:50@N        61535.46     
:51@N        128274.2     
:52@N        133061.6     
:53@N        170105.1     
:54@N        71662.41     
:55@N        216550.0     
:57@N        127951.9     
:58@N        280615.7     
:59@N        657902.2     


relax> spectrum.baseplane_rmsd(error=757.117, spectrum_id='39_0_39_4', spin_id=None)

relax> relax_disp.exp_type(spectrum_id='39_0_39_4', exp_type='R1rho')
The spectrum ID '39_0_39_4' is now set to the R1rho-type experiment.

relax> relax_disp.spin_lock_field(spectrum_id='39_0_39_4', field=651.2)
The spectrum ID '39_0_39_4' spin-lock field strength is set to 0.6512 kHz.

relax> relax_disp.spin_lock_offset(spectrum_id='39_0_39_4', offset=118.078)
Setting the '39_0_39_4' spectrum spin-lock offset to 118.078 ppm.

relax> relax_disp.relax_time(spectrum_id='39_0_39_4', time=0.04)
Setting the '39_0_39_4' spectrum relaxation time period to 0.04 s.

relax> spectrometer.frequency(id='39_0_39_4', frq=799.7773991, units='MHz')

relax> spectrum.read_intensities(file='37_0_39_10_max_standard.ser', dir='/Users/tlinnet/software/relax_trunk/test_suite/shared_data/dispersion/Kjaergaard_et_al_2013/peak_lists', spectrum_id='37_0_39_10', dim=1, int_method='height', int_col=None, spin_id_col=None, mol_name_col=None, res_num_col=None, res_name_col=None, spin_num_col=None, spin_name_col=None, sep=None, spin_id=None, ncproc=None)
Opening the file '/Users/tlinnet/software/relax_trunk/test_suite/shared_data/dispersion/Kjaergaard_et_al_2013/peak_lists/37_0_39_10_max_standard.ser' for reading.
NMRPipe SeriesTab formatted data file.


The following intensities have been loaded into the relax data store:

# Spin_ID    Intensity    
:5@N         120138.6     
:6@N         70641.77     
:8@N         10264.14     
:9@N         47537.18     
:10@N        35570.95     
:11@N        91501.0      
:12@N        41665.43     
:13@N        38178.02     
:14@N        57671.41     
:15@N        70532.67     
:16@N        16511.11     
:17@N        27753.27     
:18@N        12465.07     
:19@N        25620.42     
:21@N        20178.09     
:24@N        23251.76     
:25@N        20438.34     
:26@N        35844.86     
:27@N        44666.86     
:28@N        83938.72     
:29@N        77927.64     
:30@N        62077.19     
:31@N        52777.12     
:32@N        53010.91     
:33@N        90108.19     
:34@N        23488.3      
:35@N        71092.84     
:36@N        17996.34     
:38@N        20165.1      
:39@N        57510.12     
:40@N        27089.45     
:41@N        46039.11     
:42@N        64943.38     
:43@N        11545.79     
:44@N        10239.84     
:45@N        40717.42     
:46@N        19957.59     
:48@N        10164.15     
:49@N        25451.47     
:50@N        36727.29     
:51@N        89730.92     
:52@N        73965.84     
:53@N        136664.1     
:54@N        60371.84     
:55@N        188110.5     
:57@N        117887.0     
:58@N        249478.3     
:59@N        620787.5     


relax> spectrum.baseplane_rmsd(error=740.789, spectrum_id='37_0_39_10', spin_id=None)

relax> relax_disp.exp_type(spectrum_id='37_0_39_10', exp_type='R1rho')
The spectrum ID '37_0_39_10' is now set to the R1rho-type experiment.

relax> relax_disp.spin_lock_field(spectrum_id='37_0_39_10', field=651.2)
The spectrum ID '37_0_39_10' spin-lock field strength is set to 0.6512 kHz.

relax> relax_disp.spin_lock_offset(spectrum_id='37_0_39_10', offset=118.078)
Setting the '37_0_39_10' spectrum spin-lock offset to 118.078 ppm.

relax> relax_disp.relax_time(spectrum_id='37_0_39_10', time=0.1)
Setting the '37_0_39_10' spectrum relaxation time period to 0.1 s.

relax> spectrometer.frequency(id='37_0_39_10', frq=799.7773991, units='MHz')

relax> spectrum.read_intensities(file='40_0_39_20_max_standard.ser', dir='/Users/tlinnet/software/relax_trunk/test_suite/shared_data/dispersion/Kjaergaard_et_al_2013/peak_lists', spectrum_id='40_0_39_20', dim=1, int_method='height', int_col=None, spin_id_col=None, mol_name_col=None, res_num_col=None, res_name_col=None, spin_num_col=None, spin_name_col=None, sep=None, spin_id=None, ncproc=None)
Opening the file '/Users/tlinnet/software/relax_trunk/test_suite/shared_data/dispersion/Kjaergaard_et_al_2013/peak_lists/40_0_39_20_max_standard.ser' for reading.
NMRPipe SeriesTab formatted data file.


The following intensities have been loaded into the relax data store:

# Spin_ID    Intensity    
:5@N         89833.51     
:6@N         49478.77     
:8@N         5373.877     
:9@N         29402.49     
:10@N        10400.13     
:11@N        36879.38     
:12@N        13851.41     
:13@N        15277.67     
:14@N        24653.84     
:15@N        28641.27     
:16@N        1205.62      
:17@N        11496.17     
:18@N        1796.632     
:19@N        10856.92     
:21@N        10145.82     
:24@N        10333.73     
:25@N        4781.391     
:26@N        10966.82     
:27@N        17505.02     
:28@N        28906.12     
:29@N        31325.95     
:30@N        21349.14     
:31@N        21861.49     
:32@N        23460.54     
:33@N        35444.8      
:34@N        8273.013     
:35@N        33717.7      
:36@N        4213.665     
:38@N        8898.446     
:39@N        23613.28     
:40@N        7374.252     
:41@N        16548.07     
:42@N        23600.28     
:43@N        2516.638     
:44@N        2158.669     
:45@N        13710.65     
:46@N        4271.1       
:48@N        3886.89      
:49@N        16312.84     
:50@N        16927.94     
:51@N        51889.57     
:52@N        26776.73     
:53@N        93086.44     
:54@N        46082.12     
:55@N        150154.7     
:57@N        102334.4     
:58@N        207046.9     
:59@N        555984.9     


relax> spectrum.baseplane_rmsd(error=626.303, spectrum_id='40_0_39_20', spin_id=None)

relax> relax_disp.exp_type(spectrum_id='40_0_39_20', exp_type='R1rho')
The spectrum ID '40_0_39_20' is now set to the R1rho-type experiment.

relax> relax_disp.spin_lock_field(spectrum_id='40_0_39_20', field=651.2)
The spectrum ID '40_0_39_20' spin-lock field strength is set to 0.6512 kHz.

relax> relax_disp.spin_lock_offset(spectrum_id='40_0_39_20', offset=118.078)
Setting the '40_0_39_20' spectrum spin-lock offset to 118.078 ppm.

relax> relax_disp.relax_time(spectrum_id='40_0_39_20', time=0.2)
Setting the '40_0_39_20' spectrum relaxation time period to 0.2 s.

relax> spectrometer.frequency(id='40_0_39_20', frq=799.7773991, units='MHz')

relax> spectrum.read_intensities(file='38_0_39_40_max_standard.ser', dir='/Users/tlinnet/software/relax_trunk/test_suite/shared_data/dispersion/Kjaergaard_et_al_2013/peak_lists', spectrum_id='38_0_39_40', dim=1, int_method='height', int_col=None, spin_id_col=None, mol_name_col=None, res_num_col=None, res_name_col=None, spin_num_col=None, spin_name_col=None, sep=None, spin_id=None, ncproc=None)
Opening the file '/Users/tlinnet/software/relax_trunk/test_suite/shared_data/dispersion/Kjaergaard_et_al_2013/peak_lists/38_0_39_40_max_standard.ser' for reading.
NMRPipe SeriesTab formatted data file.


The following intensities have been loaded into the relax data store:

# Spin_ID    Intensity    
:5@N         51856.96     
:6@N         24645.17     
:8@N         1180.274     
:9@N         11855.48     
:10@N        2027.036     
:11@N        8019.545     
:12@N        2603.069     
:13@N        2683.047     
:14@N        4422.904     
:15@N        5653.004     
:16@N        44.45021     
:17@N        1598.793     
:18@N        762.8802     
:19@N        1535.488     
:21@N        1312.322     
:24@N        2178.345     
:25@N        659.4448     
:26@N        1717.809     
:27@N        2898.991     
:28@N        5430.556     
:29@N        7008.172     
:30@N        4315.781     
:31@N        4004.027     
:32@N        4699.542     
:33@N        6213.187     
:34@N        2295.426     
:35@N        9901.879     
:36@N        1603.844     
:38@N        1862.205     
:39@N        4367.072     
:40@N        928.9344     
:41@N        3163.245     
:42@N        3944.938     
:43@N        515.0369     
:44@N        -309.8384    
:45@N        1948.562     
:46@N        165.0491     
:48@N        828.8845     
:49@N        6878.829     
:50@N        5913.474     
:51@N        18303.98     
:52@N        4508.786     
:53@N        46837.52     
:54@N        25865.79     
:55@N        102443.4     
:57@N        82000.08     
:58@N        149975.5     
:59@N        450957.8     


relax> spectrum.baseplane_rmsd(error=702.82, spectrum_id='38_0_39_40', spin_id=None)

relax> relax_disp.exp_type(spectrum_id='38_0_39_40', exp_type='R1rho')
The spectrum ID '38_0_39_40' is now set to the R1rho-type experiment.

relax> relax_disp.spin_lock_field(spectrum_id='38_0_39_40', field=651.2)
The spectrum ID '38_0_39_40' spin-lock field strength is set to 0.6512 kHz.

relax> relax_disp.spin_lock_offset(spectrum_id='38_0_39_40', offset=118.078)
Setting the '38_0_39_40' spectrum spin-lock offset to 118.078 ppm.

relax> relax_disp.relax_time(spectrum_id='38_0_39_40', time=0.4)
Setting the '38_0_39_40' spectrum relaxation time period to 0.4 s.

relax> spectrometer.frequency(id='38_0_39_40', frq=799.7773991, units='MHz')

relax> spectrum.read_intensities(file='41_0_41_0_max_standard.ser', dir='/Users/tlinnet/software/relax_trunk/test_suite/shared_data/dispersion/Kjaergaard_et_al_2013/peak_lists', spectrum_id='41_0_41_0', dim=1, int_method='height', int_col=None, spin_id_col=None, mol_name_col=None, res_num_col=None, res_name_col=None, spin_num_col=None, spin_name_col=None, sep=None, spin_id=None, ncproc=None)
Opening the file '/Users/tlinnet/software/relax_trunk/test_suite/shared_data/dispersion/Kjaergaard_et_al_2013/peak_lists/41_0_41_0_max_standard.ser' for reading.
NMRPipe SeriesTab formatted data file.


The following intensities have been loaded into the relax data store:

# Spin_ID    Intensity    
:5@N         165640.6     
:6@N         108871.5     
:8@N         18813.54     
:9@N         79426.71     
:10@N        120871.2     
:11@N        228684.2     
:12@N        133477.5     
:13@N        98317.52     
:14@N        145427.2     
:15@N        187081.0     
:16@N        113320.3     
:17@N        71386.93     
:18@N        58325.76     
:19@N        66889.04     
:21@N        53609.21     
:24@N        55612.82     
:25@N        103844.4     
:26@N        114893.9     
:27@N        126361.1     
:28@N        277690.2     
:29@N        209404.2     
:30@N        200810.2     
:31@N        139209.4     
:32@N        140112.8     
:33@N        247276.0     
:34@N        60575.81     
:35@N        147898.2     
:36@N        66131.84     
:38@N        53497.28     
:39@N        153041.0     
:40@N        120916.0     
:41@N        135002.2     
:42@N        188586.9     
:43@N        63831.36     
:44@N        62764.57     
:45@N        126348.2     
:46@N        78419.66     
:48@N        27638.28     
:49@N        38720.89     
:50@N        92340.98     
:51@N        162995.6     
:52@N        203014.2     
:53@N        199895.3     
:54@N        86003.12     
:55@N        238142.3     
:57@N        138507.0     
:58@N        300363.8     
:59@N        681928.9     


relax> spectrum.baseplane_rmsd(error=824.849, spectrum_id='41_0_41_0', spin_id=None)

relax> relax_disp.exp_type(spectrum_id='41_0_41_0', exp_type='R1rho')
The spectrum ID '41_0_41_0' is now set to the R1rho-type experiment.

relax> relax_disp.spin_lock_field(spectrum_id='41_0_41_0', field=800.5)
The spectrum ID '41_0_41_0' spin-lock field strength is set to 0.8005 kHz.

relax> relax_disp.spin_lock_offset(spectrum_id='41_0_41_0', offset=118.078)
Setting the '41_0_41_0' spectrum spin-lock offset to 118.078 ppm.

relax> relax_disp.relax_time(spectrum_id='41_0_41_0', time=0.0)
Setting the '41_0_41_0' spectrum relaxation time period to 0.0 s.

relax> spectrometer.frequency(id='41_0_41_0', frq=799.7773991, units='MHz')

relax> spectrum.read_intensities(file='44_0_41_4_max_standard.ser', dir='/Users/tlinnet/software/relax_trunk/test_suite/shared_data/dispersion/Kjaergaard_et_al_2013/peak_lists', spectrum_id='44_0_41_4', dim=1, int_method='height', int_col=None, spin_id_col=None, mol_name_col=None, res_num_col=None, res_name_col=None, spin_num_col=None, spin_name_col=None, sep=None, spin_id=None, ncproc=None)
Opening the file '/Users/tlinnet/software/relax_trunk/test_suite/shared_data/dispersion/Kjaergaard_et_al_2013/peak_lists/44_0_41_4_max_standard.ser' for reading.
NMRPipe SeriesTab formatted data file.


The following intensities have been loaded into the relax data store:

# Spin_ID    Intensity    
:5@N         146280.3     
:6@N         92458.76     
:8@N         13364.65     
:9@N         61132.41     
:10@N        71020.19     
:11@N        156665.7     
:12@N        81421.81     
:13@N        66079.92     
:14@N        98054.49     
:15@N        124841.8     
:16@N        51692.12     
:17@N        46708.06     
:18@N        29621.94     
:19@N        45613.18     
:21@N        37142.73     
:24@N        38053.59     
:25@N        52697.07     
:26@N        70383.73     
:27@N        80638.67     
:28@N        167202.4     
:29@N        138443.7     
:30@N        119873.0     
:31@N        94303.48     
:32@N        93616.03     
:33@N        163146.5     
:34@N        39379.69     
:35@N        103843.4     
:36@N        38716.79     
:38@N        36345.6      
:39@N        101223.9     
:40@N        66791.13     
:41@N        86430.94     
:42@N        119593.0     
:43@N        33204.71     
:44@N        29518.45     
:45@N        78670.3      
:46@N        44773.87     
:48@N        18007.81     
:49@N        29899.43     
:50@N        61531.33     
:51@N        128973.6     
:52@N        132905.0     
:53@N        169231.5     
:54@N        73112.78     
:55@N        218991.6     
:57@N        127406.6     
:58@N        282018.0     
:59@N        657300.4     


relax> spectrum.baseplane_rmsd(error=793.67, spectrum_id='44_0_41_4', spin_id=None)

relax> relax_disp.exp_type(spectrum_id='44_0_41_4', exp_type='R1rho')
The spectrum ID '44_0_41_4' is now set to the R1rho-type experiment.

relax> relax_disp.spin_lock_field(spectrum_id='44_0_41_4', field=800.5)
The spectrum ID '44_0_41_4' spin-lock field strength is set to 0.8005 kHz.

relax> relax_disp.spin_lock_offset(spectrum_id='44_0_41_4', offset=118.078)
Setting the '44_0_41_4' spectrum spin-lock offset to 118.078 ppm.

relax> relax_disp.relax_time(spectrum_id='44_0_41_4', time=0.04)
Setting the '44_0_41_4' spectrum relaxation time period to 0.04 s.

relax> spectrometer.frequency(id='44_0_41_4', frq=799.7773991, units='MHz')

relax> spectrum.read_intensities(file='42_0_41_10_max_standard.ser', dir='/Users/tlinnet/software/relax_trunk/test_suite/shared_data/dispersion/Kjaergaard_et_al_2013/peak_lists', spectrum_id='42_0_41_10', dim=1, int_method='height', int_col=None, spin_id_col=None, mol_name_col=None, res_num_col=None, res_name_col=None, spin_num_col=None, spin_name_col=None, sep=None, spin_id=None, ncproc=None)
Opening the file '/Users/tlinnet/software/relax_trunk/test_suite/shared_data/dispersion/Kjaergaard_et_al_2013/peak_lists/42_0_41_10_max_standard.ser' for reading.
NMRPipe SeriesTab formatted data file.


The following intensities have been loaded into the relax data store:

# Spin_ID    Intensity    
:5@N         119495.9     
:6@N         70712.68     
:8@N         9310.867     
:9@N         43500.18     
:10@N        33257.3      
:11@N        89739.17     
:12@N        42030.78     
:13@N        36144.48     
:14@N        56746.12     
:15@N        70856.96     
:16@N        15806.09     
:17@N        27511.89     
:18@N        11733.94     
:19@N        24004.27     
:21@N        21284.42     
:24@N        22289.3      
:25@N        19538.5      
:26@N        35796.01     
:27@N        43004.62     
:28@N        83001.55     
:29@N        78996.42     
:30@N        60282.24     
:31@N        52741.25     
:32@N        50711.19     
:33@N        88990.63     
:34@N        21951.97     
:35@N        63761.16     
:36@N        16116.27     
:38@N        19392.89     
:39@N        57525.52     
:40@N        27395.04     
:41@N        44852.93     
:42@N        63409.3      
:43@N        11506.39     
:44@N        9573.515     
:45@N        39171.98     
:46@N        18744.59     
:48@N        8206.893     
:49@N        23435.2      
:50@N        36699.8      
:51@N        88421.8      
:52@N        69379.66     
:53@N        129859.5     
:54@N        60106.89     
:55@N        187452.3     
:57@N        115701.4     
:58@N        247826.7     
:59@N        611876.3     


relax> spectrum.baseplane_rmsd(error=766.071, spectrum_id='42_0_41_10', spin_id=None)

relax> relax_disp.exp_type(spectrum_id='42_0_41_10', exp_type='R1rho')
The spectrum ID '42_0_41_10' is now set to the R1rho-type experiment.

relax> relax_disp.spin_lock_field(spectrum_id='42_0_41_10', field=800.5)
The spectrum ID '42_0_41_10' spin-lock field strength is set to 0.8005 kHz.

relax> relax_disp.spin_lock_offset(spectrum_id='42_0_41_10', offset=118.078)
Setting the '42_0_41_10' spectrum spin-lock offset to 118.078 ppm.

relax> relax_disp.relax_time(spectrum_id='42_0_41_10', time=0.1)
Setting the '42_0_41_10' spectrum relaxation time period to 0.1 s.

relax> spectrometer.frequency(id='42_0_41_10', frq=799.7773991, units='MHz')

relax> spectrum.read_intensities(file='45_0_41_20_max_standard.ser', dir='/Users/tlinnet/software/relax_trunk/test_suite/shared_data/dispersion/Kjaergaard_et_al_2013/peak_lists', spectrum_id='45_0_41_20', dim=1, int_method='height', int_col=None, spin_id_col=None, mol_name_col=None, res_num_col=None, res_name_col=None, spin_num_col=None, spin_name_col=None, sep=None, spin_id=None, ncproc=None)
Opening the file '/Users/tlinnet/software/relax_trunk/test_suite/shared_data/dispersion/Kjaergaard_et_al_2013/peak_lists/45_0_41_20_max_standard.ser' for reading.
NMRPipe SeriesTab formatted data file.


The following intensities have been loaded into the relax data store:

# Spin_ID    Intensity    
:5@N         88497.12     
:6@N         49139.14     
:8@N         6236.74      
:9@N         24541.62     
:10@N        9588.354     
:11@N        35481.47     
:12@N        14408.22     
:13@N        14128.74     
:14@N        23314.4      
:15@N        29341.98     
:16@N        2835.558     
:17@N        10839.7      
:18@N        2405.101     
:19@N        9759.307     
:21@N        8350.86      
:24@N        10377.12     
:25@N        5289.119     
:26@N        10448.12     
:27@N        15777.16     
:28@N        29657.28     
:29@N        31965.61     
:30@N        20706.06     
:31@N        22202.4      
:32@N        21010.71     
:33@N        35495.28     
:34@N        10237.02     
:35@N        28471.81     
:36@N        3278.2       
:38@N        9184.829     
:39@N        21652.42     
:40@N        6133.221     
:41@N        15407.38     
:42@N        22984.76     
:43@N        3383.231     
:44@N        1189.831     
:45@N        12322.71     
:46@N        4597.263     
:48@N        3793.615     
:49@N        15410.09     
:50@N        16527.38     
:51@N        51537.91     
:52@N        26104.16     
:53@N        86446.05     
:54@N        46107.06     
:55@N        151544.2     
:57@N        100640.3     
:58@N        206082.8     
:59@N        549097.5     


relax> spectrum.baseplane_rmsd(error=661.662, spectrum_id='45_0_41_20', spin_id=None)

relax> relax_disp.exp_type(spectrum_id='45_0_41_20', exp_type='R1rho')
The spectrum ID '45_0_41_20' is now set to the R1rho-type experiment.

relax> relax_disp.spin_lock_field(spectrum_id='45_0_41_20', field=800.5)
The spectrum ID '45_0_41_20' spin-lock field strength is set to 0.8005 kHz.

relax> relax_disp.spin_lock_offset(spectrum_id='45_0_41_20', offset=118.078)
Setting the '45_0_41_20' spectrum spin-lock offset to 118.078 ppm.

relax> relax_disp.relax_time(spectrum_id='45_0_41_20', time=0.2)
Setting the '45_0_41_20' spectrum relaxation time period to 0.2 s.

relax> spectrometer.frequency(id='45_0_41_20', frq=799.7773991, units='MHz')

relax> spectrum.read_intensities(file='43_0_41_40_max_standard.ser', dir='/Users/tlinnet/software/relax_trunk/test_suite/shared_data/dispersion/Kjaergaard_et_al_2013/peak_lists', spectrum_id='43_0_41_40', dim=1, int_method='height', int_col=None, spin_id_col=None, mol_name_col=None, res_num_col=None, res_name_col=None, spin_num_col=None, spin_name_col=None, sep=None, spin_id=None, ncproc=None)
Opening the file '/Users/tlinnet/software/relax_trunk/test_suite/shared_data/dispersion/Kjaergaard_et_al_2013/peak_lists/43_0_41_40_max_standard.ser' for reading.
NMRPipe SeriesTab formatted data file.


The following intensities have been loaded into the relax data store:

# Spin_ID    Intensity    
:5@N         50595.28     
:6@N         23647.55     
:8@N         1276.387     
:9@N         8811.942     
:10@N        1041.268     
:11@N        8137.774     
:12@N        3473.281     
:13@N        2480.206     
:14@N        5989.771     
:15@N        6720.632     
:16@N        -150.4502    
:17@N        1769.273     
:18@N        62.07805     
:19@N        1994.729     
:21@N        2164.905     
:24@N        1943.071     
:25@N        1254.598     
:26@N        1689.695     
:27@N        2182.486     
:28@N        5475.135     
:29@N        6544.857     
:30@N        3540.443     
:31@N        3730.333     
:32@N        3295.52      
:33@N        7438.711     
:34@N        2426.163     
:35@N        7865.007     
:36@N        102.4912     
:38@N        2438.75      
:39@N        3712.179     
:40@N        2058.888     
:41@N        2412.294     
:42@N        3317.07      
:43@N        612.4332     
:44@N        219.4909     
:45@N        1509.911     
:46@N        795.3485     
:48@N        1032.999     
:49@N        6901.656     
:50@N        4117.841     
:51@N        19438.47     
:52@N        4608.32      
:53@N        39120.12     
:54@N        27954.31     
:55@N        101836.8     
:57@N        78609.68     
:58@N        145359.2     
:59@N        437284.2     


relax> spectrum.baseplane_rmsd(error=682.675, spectrum_id='43_0_41_40', spin_id=None)

relax> relax_disp.exp_type(spectrum_id='43_0_41_40', exp_type='R1rho')
The spectrum ID '43_0_41_40' is now set to the R1rho-type experiment.

relax> relax_disp.spin_lock_field(spectrum_id='43_0_41_40', field=800.5)
The spectrum ID '43_0_41_40' spin-lock field strength is set to 0.8005 kHz.

relax> relax_disp.spin_lock_offset(spectrum_id='43_0_41_40', offset=118.078)
Setting the '43_0_41_40' spectrum spin-lock offset to 118.078 ppm.

relax> relax_disp.relax_time(spectrum_id='43_0_41_40', time=0.4)
Setting the '43_0_41_40' spectrum relaxation time period to 0.4 s.

relax> spectrometer.frequency(id='43_0_41_40', frq=799.7773991, units='MHz')

relax> spectrum.read_intensities(file='31_0_43_0_max_standard.ser', dir='/Users/tlinnet/software/relax_trunk/test_suite/shared_data/dispersion/Kjaergaard_et_al_2013/peak_lists', spectrum_id='31_0_43_0', dim=1, int_method='height', int_col=None, spin_id_col=None, mol_name_col=None, res_num_col=None, res_name_col=None, spin_num_col=None, spin_name_col=None, sep=None, spin_id=None, ncproc=None)
Opening the file '/Users/tlinnet/software/relax_trunk/test_suite/shared_data/dispersion/Kjaergaard_et_al_2013/peak_lists/31_0_43_0_max_standard.ser' for reading.
NMRPipe SeriesTab formatted data file.


The following intensities have been loaded into the relax data store:

# Spin_ID    Intensity    
:5@N         161510.2     
:6@N         104913.0     
:8@N         18453.42     
:9@N         77737.72     
:10@N        129007.3     
:11@N        222466.3     
:12@N        108553.2     
:13@N        95521.07     
:14@N        141320.7     
:15@N        185390.8     
:16@N        113158.9     
:17@N        66062.57     
:18@N        63911.27     
:19@N        67367.78     
:21@N        52502.87     
:24@N        53765.46     
:25@N        105599.7     
:26@N        113498.2     
:27@N        139200.7     
:28@N        270437.6     
:29@N        197592.8     
:30@N        218117.3     
:31@N        137212.1     
:32@N        138884.6     
:33@N        259765.5     
:34@N        55935.53     
:35@N        147843.4     
:36@N        71505.98     
:38@N        50720.72     
:39@N        154960.3     
:40@N        120299.1     
:41@N        131828.7     
:42@N        188875.9     
:43@N        67168.41     
:44@N        63253.6      
:45@N        126821.8     
:46@N        77979.59     
:48@N        26724.56     
:49@N        38952.91     
:50@N        87151.91     
:51@N        159215.1     
:52@N        205303.2     
:53@N        189186.3     
:54@N        85893.41     
:55@N        224565.1     
:57@N        131780.9     
:58@N        291771.5     
:59@N        680530.9     


relax> spectrum.baseplane_rmsd(error=911.772, spectrum_id='31_0_43_0', spin_id=None)

relax> relax_disp.exp_type(spectrum_id='31_0_43_0', exp_type='R1rho')
The spectrum ID '31_0_43_0' is now set to the R1rho-type experiment.

relax> relax_disp.spin_lock_field(spectrum_id='31_0_43_0', field=984.0)
The spectrum ID '31_0_43_0' spin-lock field strength is set to 0.984 kHz.

relax> relax_disp.spin_lock_offset(spectrum_id='31_0_43_0', offset=118.078)
Setting the '31_0_43_0' spectrum spin-lock offset to 118.078 ppm.

relax> relax_disp.relax_time(spectrum_id='31_0_43_0', time=0.0)
Setting the '31_0_43_0' spectrum relaxation time period to 0.0 s.

relax> spectrometer.frequency(id='31_0_43_0', frq=799.7773991, units='MHz')

relax> spectrum.read_intensities(file='34_0_43_4_max_standard.ser', dir='/Users/tlinnet/software/relax_trunk/test_suite/shared_data/dispersion/Kjaergaard_et_al_2013/peak_lists', spectrum_id='34_0_43_4', dim=1, int_method='height', int_col=None, spin_id_col=None, mol_name_col=None, res_num_col=None, res_name_col=None, spin_num_col=None, spin_name_col=None, sep=None, spin_id=None, ncproc=None)
Opening the file '/Users/tlinnet/software/relax_trunk/test_suite/shared_data/dispersion/Kjaergaard_et_al_2013/peak_lists/34_0_43_4_max_standard.ser' for reading.
NMRPipe SeriesTab formatted data file.


The following intensities have been loaded into the relax data store:

# Spin_ID    Intensity    
:5@N         141806.5     
:6@N         88269.33     
:8@N         11019.09     
:9@N         58561.05     
:10@N        74389.33     
:11@N        153174.6     
:12@N        75147.23     
:13@N        62910.69     
:14@N        98307.77     
:15@N        126236.8     
:16@N        50313.26     
:17@N        46027.53     
:18@N        32101.4      
:19@N        44036.82     
:21@N        35302.79     
:24@N        36518.63     
:25@N        51281.51     
:26@N        68504.91     
:27@N        84563.52     
:28@N        164293.2     
:29@N        135469.0     
:30@N        124401.7     
:31@N        93643.73     
:32@N        89699.59     
:33@N        162208.2     
:34@N        38640.65     
:35@N        99639.3      
:36@N        40259.54     
:38@N        34209.11     
:39@N        101346.4     
:40@N        65868.13     
:41@N        83038.66     
:42@N        119449.5     
:43@N        31947.56     
:44@N        28906.18     
:45@N        77156.46     
:46@N        42932.44     
:48@N        16534.35     
:49@N        29168.35     
:50@N        57082.55     
:51@N        123780.5     
:52@N        129295.0     
:53@N        160660.6     
:54@N        71955.53     
:55@N        209528.0     
:57@N        122112.4     
:58@N        274719.8     
:59@N        649521.1     


relax> spectrum.baseplane_rmsd(error=755.809, spectrum_id='34_0_43_4', spin_id=None)

relax> relax_disp.exp_type(spectrum_id='34_0_43_4', exp_type='R1rho')
The spectrum ID '34_0_43_4' is now set to the R1rho-type experiment.

relax> relax_disp.spin_lock_field(spectrum_id='34_0_43_4', field=984.0)
The spectrum ID '34_0_43_4' spin-lock field strength is set to 0.984 kHz.

relax> relax_disp.spin_lock_offset(spectrum_id='34_0_43_4', offset=118.078)
Setting the '34_0_43_4' spectrum spin-lock offset to 118.078 ppm.

relax> relax_disp.relax_time(spectrum_id='34_0_43_4', time=0.04)
Setting the '34_0_43_4' spectrum relaxation time period to 0.04 s.

relax> spectrometer.frequency(id='34_0_43_4', frq=799.7773991, units='MHz')

relax> spectrum.read_intensities(file='32_0_43_10_max_standard.ser', dir='/Users/tlinnet/software/relax_trunk/test_suite/shared_data/dispersion/Kjaergaard_et_al_2013/peak_lists', spectrum_id='32_0_43_10', dim=1, int_method='height', int_col=None, spin_id_col=None, mol_name_col=None, res_num_col=None, res_name_col=None, spin_num_col=None, spin_name_col=None, sep=None, spin_id=None, ncproc=None)
Opening the file '/Users/tlinnet/software/relax_trunk/test_suite/shared_data/dispersion/Kjaergaard_et_al_2013/peak_lists/32_0_43_10_max_standard.ser' for reading.
NMRPipe SeriesTab formatted data file.


The following intensities have been loaded into the relax data store:

# Spin_ID    Intensity    
:5@N         116203.9     
:6@N         66280.78     
:8@N         8896.56      
:9@N         39224.24     
:10@N        36990.68     
:11@N        89379.28     
:12@N        34868.19     
:13@N        35149.32     
:14@N        57440.7      
:15@N        71301.03     
:16@N        15898.09     
:17@N        24203.13     
:18@N        12532.44     
:19@N        24498.21     
:21@N        19903.67     
:24@N        21774.34     
:25@N        19162.31     
:26@N        34410.12     
:27@N        49127.51     
:28@N        82574.1      
:29@N        75351.97     
:30@N        64971.59     
:31@N        51127.62     
:32@N        48584.36     
:33@N        90096.62     
:34@N        20924.55     
:35@N        58390.85     
:36@N        18693.63     
:38@N        19575.84     
:39@N        56614.58     
:40@N        28396.66     
:41@N        45099.63     
:42@N        62860.87     
:43@N        12509.89     
:44@N        11119.24     
:45@N        37210.25     
:46@N        19976.24     
:48@N        8409.945     
:49@N        21967.66     
:50@N        34713.28     
:51@N        85647.23     
:52@N        67943.2      
:53@N        121173.8     
:54@N        58719.15     
:55@N        178510.4     
:57@N        109309.7     
:58@N        240843.4     
:59@N        608518.7     


relax> spectrum.baseplane_rmsd(error=741.339, spectrum_id='32_0_43_10', spin_id=None)

relax> relax_disp.exp_type(spectrum_id='32_0_43_10', exp_type='R1rho')
The spectrum ID '32_0_43_10' is now set to the R1rho-type experiment.

relax> relax_disp.spin_lock_field(spectrum_id='32_0_43_10', field=984.0)
The spectrum ID '32_0_43_10' spin-lock field strength is set to 0.984 kHz.

relax> relax_disp.spin_lock_offset(spectrum_id='32_0_43_10', offset=118.078)
Setting the '32_0_43_10' spectrum spin-lock offset to 118.078 ppm.

relax> relax_disp.relax_time(spectrum_id='32_0_43_10', time=0.1)
Setting the '32_0_43_10' spectrum relaxation time period to 0.1 s.

relax> spectrometer.frequency(id='32_0_43_10', frq=799.7773991, units='MHz')

relax> spectrum.read_intensities(file='35_0_43_20_max_standard.ser', dir='/Users/tlinnet/software/relax_trunk/test_suite/shared_data/dispersion/Kjaergaard_et_al_2013/peak_lists', spectrum_id='35_0_43_20', dim=1, int_method='height', int_col=None, spin_id_col=None, mol_name_col=None, res_num_col=None, res_name_col=None, spin_num_col=None, spin_name_col=None, sep=None, spin_id=None, ncproc=None)
Opening the file '/Users/tlinnet/software/relax_trunk/test_suite/shared_data/dispersion/Kjaergaard_et_al_2013/peak_lists/35_0_43_20_max_standard.ser' for reading.
NMRPipe SeriesTab formatted data file.


The following intensities have been loaded into the relax data store:

# Spin_ID    Intensity    
:5@N         85777.64     
:6@N         46484.1      
:8@N         4318.202     
:9@N         22069.37     
:10@N        11263.01     
:11@N        36538.09     
:12@N        13004.79     
:13@N        13610.61     
:14@N        25118.43     
:15@N        29677.31     
:16@N        2475.135     
:17@N        9570.026     
:18@N        3005.472     
:19@N        9042.054     
:21@N        8699.241     
:24@N        9530.299     
:25@N        4233.335     
:26@N        11267.99     
:27@N        15393.58     
:28@N        28651.41     
:29@N        32000.23     
:30@N        20129.26     
:31@N        21418.73     
:32@N        19094.46     
:33@N        34625.04     
:34@N        9554.047     
:35@N        23724.26     
:36@N        4706.067     
:38@N        7753.835     
:39@N        21313.43     
:40@N        5239.017     
:41@N        14225.53     
:42@N        21068.57     
:43@N        2020.488     
:44@N        1698.124     
:45@N        11881.23     
:46@N        5408.778     
:48@N        3925.309     
:49@N        13084.39     
:50@N        16106.57     
:51@N        49890.04     
:52@N        25598.1      
:53@N        79332.7      
:54@N        44192.88     
:55@N        148236.7     
:57@N        96252.9      
:58@N        200547.0     
:59@N        540031.9     


relax> spectrum.baseplane_rmsd(error=736.933, spectrum_id='35_0_43_20', spin_id=None)

relax> relax_disp.exp_type(spectrum_id='35_0_43_20', exp_type='R1rho')
The spectrum ID '35_0_43_20' is now set to the R1rho-type experiment.

relax> relax_disp.spin_lock_field(spectrum_id='35_0_43_20', field=984.0)
The spectrum ID '35_0_43_20' spin-lock field strength is set to 0.984 kHz.

relax> relax_disp.spin_lock_offset(spectrum_id='35_0_43_20', offset=118.078)
Setting the '35_0_43_20' spectrum spin-lock offset to 118.078 ppm.

relax> relax_disp.relax_time(spectrum_id='35_0_43_20', time=0.2)
Setting the '35_0_43_20' spectrum relaxation time period to 0.2 s.

relax> spectrometer.frequency(id='35_0_43_20', frq=799.7773991, units='MHz')

relax> spectrum.read_intensities(file='33_0_43_40_max_standard.ser', dir='/Users/tlinnet/software/relax_trunk/test_suite/shared_data/dispersion/Kjaergaard_et_al_2013/peak_lists', spectrum_id='33_0_43_40', dim=1, int_method='height', int_col=None, spin_id_col=None, mol_name_col=None, res_num_col=None, res_name_col=None, spin_num_col=None, spin_name_col=None, sep=None, spin_id=None, ncproc=None)
Opening the file '/Users/tlinnet/software/relax_trunk/test_suite/shared_data/dispersion/Kjaergaard_et_al_2013/peak_lists/33_0_43_40_max_standard.ser' for reading.
NMRPipe SeriesTab formatted data file.


The following intensities have been loaded into the relax data store:

# Spin_ID    Intensity    
:5@N         47844.55     
:6@N         21177.63     
:8@N         782.5243     
:9@N         6792.242     
:10@N        1793.543     
:11@N        7467.084     
:12@N        2332.722     
:13@N        2734.603     
:14@N        5367.983     
:15@N        6313.096     
:16@N        1137.008     
:17@N        1593.213     
:18@N        903.6733     
:19@N        983.9544     
:21@N        2633.878     
:24@N        2594.466     
:25@N        433.9841     
:26@N        1409.682     
:27@N        3112.988     
:28@N        5390.9       
:29@N        6372.389     
:30@N        3681.52      
:31@N        4417.648     
:32@N        4184.176     
:33@N        6994.362     
:34@N        2285.837     
:35@N        5308.402     
:36@N        -50.4685     
:38@N        1529.634     
:39@N        4018.393     
:40@N        865.1779     
:41@N        2681.606     
:42@N        3195.403     
:43@N        1087.367     
:44@N        -114.3622    
:45@N        1314.764     
:46@N        -226.7909    
:48@N        235.9553     
:49@N        5614.052     
:50@N        3527.092     
:51@N        17397.81     
:52@N        4543.588     
:53@N        33907.33     
:54@N        25571.64     
:55@N        96593.44     
:57@N        70174.77     
:58@N        141053.4     
:59@N        429854.4     


relax> spectrum.baseplane_rmsd(error=698.923, spectrum_id='33_0_43_40', spin_id=None)

relax> relax_disp.exp_type(spectrum_id='33_0_43_40', exp_type='R1rho')
The spectrum ID '33_0_43_40' is now set to the R1rho-type experiment.

relax> relax_disp.spin_lock_field(spectrum_id='33_0_43_40', field=984.0)
The spectrum ID '33_0_43_40' spin-lock field strength is set to 0.984 kHz.

relax> relax_disp.spin_lock_offset(spectrum_id='33_0_43_40', offset=118.078)
Setting the '33_0_43_40' spectrum spin-lock offset to 118.078 ppm.

relax> relax_disp.relax_time(spectrum_id='33_0_43_40', time=0.4)
Setting the '33_0_43_40' spectrum relaxation time period to 0.4 s.

relax> spectrometer.frequency(id='33_0_43_40', frq=799.7773991, units='MHz')

relax> spectrum.read_intensities(file='1_0_46_0_max_standard.ser', dir='/Users/tlinnet/software/relax_trunk/test_suite/shared_data/dispersion/Kjaergaard_et_al_2013/peak_lists', spectrum_id='1_0_46_0', dim=1, int_method='height', int_col=None, spin_id_col=None, mol_name_col=None, res_num_col=None, res_name_col=None, spin_num_col=None, spin_name_col=None, sep=None, spin_id=None, ncproc=None)
Opening the file '/Users/tlinnet/software/relax_trunk/test_suite/shared_data/dispersion/Kjaergaard_et_al_2013/peak_lists/1_0_46_0_max_standard.ser' for reading.
NMRPipe SeriesTab formatted data file.


The following intensities have been loaded into the relax data store:

# Spin_ID    Intensity    
:5@N         177530.3     
:6@N         112892.7     
:8@N         18193.19     
:9@N         80534.11     
:10@N        154485.7     
:11@N        239676.6     
:12@N        94341.11     
:13@N        105907.1     
:14@N        152483.3     
:15@N        208771.8     
:16@N        115784.7     
:17@N        70573.56     
:18@N        74163.19     
:19@N        74389.51     
:21@N        55427.95     
:24@N        56463.83     
:25@N        129938.8     
:26@N        118361.8     
:27@N        175042.9     
:28@N        299068.9     
:29@N        197102.0     
:30@N        256001.0     
:31@N        149461.6     
:32@N        145406.3     
:33@N        311683.4     
:34@N        59594.51     
:35@N        159916.9     
:36@N        85251.71     
:38@N        53720.45     
:39@N        186326.0     
:40@N        139446.2     
:41@N        144611.9     
:42@N        188289.1     
:43@N        89280.27     
:44@N        72096.65     
:45@N        143733.2     
:46@N        83709.22     
:48@N        26680.43     
:49@N        39506.12     
:50@N        85150.25     
:51@N        163989.6     
:52@N        220915.2     
:53@N        202053.0     
:54@N        93380.32     
:55@N        230152.2     
:57@N        133213.1     
:58@N        318363.0     
:59@N        734714.7     


relax> spectrum.baseplane_rmsd(error=926.678, spectrum_id='1_0_46_0', spin_id=None)

relax> relax_disp.exp_type(spectrum_id='1_0_46_0', exp_type='R1rho')
The spectrum ID '1_0_46_0' is now set to the R1rho-type experiment.

relax> relax_disp.spin_lock_field(spectrum_id='1_0_46_0', field=1341.11)
The spectrum ID '1_0_46_0' spin-lock field strength is set to 1.34111 kHz.

relax> relax_disp.spin_lock_offset(spectrum_id='1_0_46_0', offset=118.078)
Setting the '1_0_46_0' spectrum spin-lock offset to 118.078 ppm.

relax> relax_disp.relax_time(spectrum_id='1_0_46_0', time=0.0)
Setting the '1_0_46_0' spectrum relaxation time period to 0.0 s.

relax> spectrometer.frequency(id='1_0_46_0', frq=799.7773991, units='MHz')

relax> spectrum.read_intensities(file='4_0_46_4_max_standard.ser', dir='/Users/tlinnet/software/relax_trunk/test_suite/shared_data/dispersion/Kjaergaard_et_al_2013/peak_lists', spectrum_id='4_0_46_4', dim=1, int_method='height', int_col=None, spin_id_col=None, mol_name_col=None, res_num_col=None, res_name_col=None, spin_num_col=None, spin_name_col=None, sep=None, spin_id=None, ncproc=None)
Opening the file '/Users/tlinnet/software/relax_trunk/test_suite/shared_data/dispersion/Kjaergaard_et_al_2013/peak_lists/4_0_46_4_max_standard.ser' for reading.
NMRPipe SeriesTab formatted data file.


The following intensities have been loaded into the relax data store:

# Spin_ID    Intensity    
:5@N         151613.1     
:6@N         91833.23     
:8@N         12233.49     
:9@N         56352.4      
:10@N        93424.25     
:11@N        163427.8     
:12@N        53787.01     
:13@N        69686.74     
:14@N        102441.5     
:15@N        140756.5     
:16@N        49502.11     
:17@N        46967.36     
:18@N        38168.03     
:19@N        50091.21     
:21@N        36233.11     
:24@N        33770.86     
:25@N        67797.62     
:26@N        70712.41     
:27@N        111540.5     
:28@N        181699.6     
:29@N        126844.0     
:30@N        149348.1     
:31@N        99153.12     
:32@N        89405.48     
:33@N        199632.1     
:34@N        40984.54     
:35@N        102309.2     
:36@N        49231.81     
:38@N        34591.29     
:39@N        125050.1     
:40@N        75587.04     
:41@N        91038.22     
:42@N        112789.7     
:43@N        46770.1      
:44@N        34912.88     
:45@N        86584.03     
:46@N        46300.1      
:48@N        16017.18     
:49@N        29903.57     
:50@N        55777.99     
:51@N        125551.7     
:52@N        140131.9     
:53@N        165371.2     
:54@N        76521.52     
:55@N        204377.4     
:57@N        116081.9     
:58@N        297320.9     
:59@N        698072.7     


relax> spectrum.baseplane_rmsd(error=700.352, spectrum_id='4_0_46_4', spin_id=None)

relax> relax_disp.exp_type(spectrum_id='4_0_46_4', exp_type='R1rho')
The spectrum ID '4_0_46_4' is now set to the R1rho-type experiment.

relax> relax_disp.spin_lock_field(spectrum_id='4_0_46_4', field=1341.11)
The spectrum ID '4_0_46_4' spin-lock field strength is set to 1.34111 kHz.

relax> relax_disp.spin_lock_offset(spectrum_id='4_0_46_4', offset=118.078)
Setting the '4_0_46_4' spectrum spin-lock offset to 118.078 ppm.

relax> relax_disp.relax_time(spectrum_id='4_0_46_4', time=0.04)
Setting the '4_0_46_4' spectrum relaxation time period to 0.04 s.

relax> spectrometer.frequency(id='4_0_46_4', frq=799.7773991, units='MHz')

relax> spectrum.read_intensities(file='2_0_46_10_max_standard.ser', dir='/Users/tlinnet/software/relax_trunk/test_suite/shared_data/dispersion/Kjaergaard_et_al_2013/peak_lists', spectrum_id='2_0_46_10', dim=1, int_method='height', int_col=None, spin_id_col=None, mol_name_col=None, res_num_col=None, res_name_col=None, spin_num_col=None, spin_name_col=None, sep=None, spin_id=None, ncproc=None)
Opening the file '/Users/tlinnet/software/relax_trunk/test_suite/shared_data/dispersion/Kjaergaard_et_al_2013/peak_lists/2_0_46_10_max_standard.ser' for reading.
NMRPipe SeriesTab formatted data file.


The following intensities have been loaded into the relax data store:

# Spin_ID    Intensity    
:5@N         123068.7     
:6@N         69793.83     
:8@N         8067.453     
:9@N         36541.77     
:10@N        45635.6      
:11@N        95273.62     
:12@N        28741.02     
:13@N        37716.6      
:14@N        60841.23     
:15@N        81997.38     
:16@N        14510.96     
:17@N        25024.64     
:18@N        15718.18     
:19@N        26919.15     
:21@N        22028.85     
:24@N        22019.01     
:25@N        26537.68     
:26@N        36843.05     
:27@N        59581.45     
:28@N        90042.59     
:29@N        75549.47     
:30@N        71368.69     
:31@N        57833.93     
:32@N        46765.47     
:33@N        105708.8     
:34@N        22931.62     
:35@N        58075.9      
:36@N        22986.89     
:38@N        19780.04     
:39@N        68917.95     
:40@N        33666.95     
:41@N        48534.26     
:42@N        59432.27     
:43@N        18178.7      
:44@N        12762.74     
:45@N        43321.09     
:46@N        21671.93     
:48@N        7764.058     
:49@N        21596.75     
:50@N        30591.43     
:51@N        86279.02     
:52@N        75448.36     
:53@N        123021.2     
:54@N        60751.07     
:55@N        181850.6     
:57@N        105246.2     
:58@N        260072.4     
:59@N        650489.5     


relax> spectrum.baseplane_rmsd(error=744.02, spectrum_id='2_0_46_10', spin_id=None)

relax> relax_disp.exp_type(spectrum_id='2_0_46_10', exp_type='R1rho')
The spectrum ID '2_0_46_10' is now set to the R1rho-type experiment.

relax> relax_disp.spin_lock_field(spectrum_id='2_0_46_10', field=1341.11)
The spectrum ID '2_0_46_10' spin-lock field strength is set to 1.34111 kHz.

relax> relax_disp.spin_lock_offset(spectrum_id='2_0_46_10', offset=118.078)
Setting the '2_0_46_10' spectrum spin-lock offset to 118.078 ppm.

relax> relax_disp.relax_time(spectrum_id='2_0_46_10', time=0.1)
Setting the '2_0_46_10' spectrum relaxation time period to 0.1 s.

relax> spectrometer.frequency(id='2_0_46_10', frq=799.7773991, units='MHz')

relax> spectrum.read_intensities(file='5_0_46_20_max_standard.ser', dir='/Users/tlinnet/software/relax_trunk/test_suite/shared_data/dispersion/Kjaergaard_et_al_2013/peak_lists', spectrum_id='5_0_46_20', dim=1, int_method='height', int_col=None, spin_id_col=None, mol_name_col=None, res_num_col=None, res_name_col=None, spin_num_col=None, spin_name_col=None, sep=None, spin_id=None, ncproc=None)
Opening the file '/Users/tlinnet/software/relax_trunk/test_suite/shared_data/dispersion/Kjaergaard_et_al_2013/peak_lists/5_0_46_20_max_standard.ser' for reading.
NMRPipe SeriesTab formatted data file.


The following intensities have been loaded into the relax data store:

# Spin_ID    Intensity    
:5@N         89591.89     
:6@N         47770.71     
:8@N         3798.041     
:9@N         19541.22     
:10@N        13692.06     
:11@N        38321.6      
:12@N        9729.236     
:13@N        13555.06     
:14@N        25915.67     
:15@N        34714.96     
:16@N        1800.377     
:17@N        9005.754     
:18@N        2822.798     
:19@N        9903.243     
:21@N        9024.404     
:24@N        9245.484     
:25@N        7173.894     
:26@N        12222.64     
:27@N        22062.7      
:28@N        31129.03     
:29@N        28741.52     
:30@N        22294.77     
:31@N        23890.03     
:32@N        16335.29     
:33@N        42228.4      
:34@N        6926.721     
:35@N        25190.8      
:36@N        7101.925     
:38@N        8241.797     
:39@N        27221.28     
:40@N        8295.661     
:41@N        18074.67     
:42@N        18460.7      
:43@N        4219.781     
:44@N        2538.257     
:45@N        16237.65     
:46@N        6333.795     
:48@N        1762.009     
:49@N        12427.52     
:50@N        10707.32     
:51@N        45680.81     
:52@N        28107.91     
:53@N        77574.25     
:54@N        44899.95     
:55@N        142373.8     
:57@N        88358.52     
:58@N        218720.6     
:59@N        579320.9     


relax> spectrum.baseplane_rmsd(error=783.571, spectrum_id='5_0_46_20', spin_id=None)

relax> relax_disp.exp_type(spectrum_id='5_0_46_20', exp_type='R1rho')
The spectrum ID '5_0_46_20' is now set to the R1rho-type experiment.

relax> relax_disp.spin_lock_field(spectrum_id='5_0_46_20', field=1341.11)
The spectrum ID '5_0_46_20' spin-lock field strength is set to 1.34111 kHz.

relax> relax_disp.spin_lock_offset(spectrum_id='5_0_46_20', offset=118.078)
Setting the '5_0_46_20' spectrum spin-lock offset to 118.078 ppm.

relax> relax_disp.relax_time(spectrum_id='5_0_46_20', time=0.2)
Setting the '5_0_46_20' spectrum relaxation time period to 0.2 s.

relax> spectrometer.frequency(id='5_0_46_20', frq=799.7773991, units='MHz')

relax> spectrum.read_intensities(file='3_0_46_40_max_standard.ser', dir='/Users/tlinnet/software/relax_trunk/test_suite/shared_data/dispersion/Kjaergaard_et_al_2013/peak_lists', spectrum_id='3_0_46_40', dim=1, int_method='height', int_col=None, spin_id_col=None, mol_name_col=None, res_num_col=None, res_name_col=None, spin_num_col=None, spin_name_col=None, sep=None, spin_id=None, ncproc=None)
Opening the file '/Users/tlinnet/software/relax_trunk/test_suite/shared_data/dispersion/Kjaergaard_et_al_2013/peak_lists/3_0_46_40_max_standard.ser' for reading.
NMRPipe SeriesTab formatted data file.


The following intensities have been loaded into the relax data store:

# Spin_ID    Intensity    
:5@N         48203.68     
:6@N         22566.15     
:8@N         1167.291     
:9@N         6455.179     
:10@N        1773.227     
:11@N        5547.266     
:12@N        875.7068     
:13@N        2793.003     
:14@N        4336.615     
:15@N        8745.823     
:16@N        538.6494     
:17@N        1019.341     
:18@N        -434.4776    
:19@N        313.4971     
:21@N        1574.983     
:24@N        2884.548     
:25@N        1126.656     
:26@N        1923.479     
:27@N        2304.631     
:28@N        5219.693     
:29@N        6196.08      
:30@N        2880.958     
:31@N        7459.275     
:32@N        1792.197     
:33@N        9639.511     
:34@N        1072.994     
:35@N        7369.781     
:36@N        863.0136     
:38@N        1991.384     
:39@N        4695.866     
:40@N        1068.278     
:41@N        3564.362     
:42@N        2262.154     
:43@N        1340.808     
:44@N        -508.7592    
:45@N        3033.931     
:46@N        144.8337     
:48@N        466.3373     
:49@N        5331.34      
:50@N        -400.3945    
:51@N        16262.82     
:52@N        4984.609     
:53@N        32000.41     
:54@N        24901.24     
:55@N        93910.11     
:57@N        62155.66     
:58@N        149759.1     
:59@N        451484.2     


relax> spectrum.baseplane_rmsd(error=664.398, spectrum_id='3_0_46_40', spin_id=None)

relax> relax_disp.exp_type(spectrum_id='3_0_46_40', exp_type='R1rho')
The spectrum ID '3_0_46_40' is now set to the R1rho-type experiment.

relax> relax_disp.spin_lock_field(spectrum_id='3_0_46_40', field=1341.11)
The spectrum ID '3_0_46_40' spin-lock field strength is set to 1.34111 kHz.

relax> relax_disp.spin_lock_offset(spectrum_id='3_0_46_40', offset=118.078)
Setting the '3_0_46_40' spectrum spin-lock offset to 118.078 ppm.

relax> relax_disp.relax_time(spectrum_id='3_0_46_40', time=0.4)
Setting the '3_0_46_40' spectrum relaxation time period to 0.4 s.

relax> spectrometer.frequency(id='3_0_46_40', frq=799.7773991, units='MHz')

relax> spectrum.read_intensities(file='60_0_48_0_max_standard.ser', dir='/Users/tlinnet/software/relax_trunk/test_suite/shared_data/dispersion/Kjaergaard_et_al_2013/peak_lists', spectrum_id='60_0_48_0', dim=1, int_method='height', int_col=None, spin_id_col=None, mol_name_col=None, res_num_col=None, res_name_col=None, spin_num_col=None, spin_name_col=None, sep=None, spin_id=None, ncproc=None)
Opening the file '/Users/tlinnet/software/relax_trunk/test_suite/shared_data/dispersion/Kjaergaard_et_al_2013/peak_lists/60_0_48_0_max_standard.ser' for reading.
NMRPipe SeriesTab formatted data file.


The following intensities have been loaded into the relax data store:

# Spin_ID    Intensity    
:5@N         169700.2     
:6@N         109440.8     
:8@N         20810.26     
:9@N         84006.2      
:10@N        127574.2     
:11@N        232068.9     
:12@N        122046.4     
:13@N        94039.11     
:14@N        143026.9     
:15@N        180269.7     
:16@N        114313.4     
:17@N        67316.88     
:18@N        67686.32     
:19@N        69247.44     
:21@N        54670.11     
:24@N        60681.25     
:25@N        104697.5     
:26@N        118958.5     
:27@N        144308.0     
:28@N        278664.6     
:29@N        202037.9     
:30@N        232773.5     
:31@N        137889.4     
:32@N        140611.3     
:33@N        262385.8     
:34@N        55662.19     
:35@N        159267.0     
:36@N        73896.73     
:38@N        54551.56     
:39@N        153016.0     
:40@N        115644.9     
:41@N        139144.0     
:42@N        197689.0     
:43@N        57391.68     
:44@N        61325.47     
:45@N        130976.5     
:46@N        86559.45     
:48@N        28605.17     
:49@N        39733.34     
:50@N        96838.92     
:51@N        166846.9     
:52@N        207500.7     
:53@N        197375.6     
:54@N        93626.0      
:55@N        240158.9     
:57@N        147443.6     
:58@N        314082.0     
:59@N        697828.9     


relax> spectrum.baseplane_rmsd(error=857.934, spectrum_id='60_0_48_0', spin_id=None)

relax> relax_disp.exp_type(spectrum_id='60_0_48_0', exp_type='R1rho')
The spectrum ID '60_0_48_0' is now set to the R1rho-type experiment.

relax> relax_disp.spin_lock_field(spectrum_id='60_0_48_0', field=1648.5)
The spectrum ID '60_0_48_0' spin-lock field strength is set to 1.6485 kHz.

relax> relax_disp.spin_lock_offset(spectrum_id='60_0_48_0', offset=118.078)
Setting the '60_0_48_0' spectrum spin-lock offset to 118.078 ppm.

relax> relax_disp.relax_time(spectrum_id='60_0_48_0', time=0.0)
Setting the '60_0_48_0' spectrum relaxation time period to 0.0 s.

relax> spectrometer.frequency(id='60_0_48_0', frq=799.7773991, units='MHz')

relax> spectrum.read_intensities(file='63_0_48_4_max_standard.ser', dir='/Users/tlinnet/software/relax_trunk/test_suite/shared_data/dispersion/Kjaergaard_et_al_2013/peak_lists', spectrum_id='63_0_48_4', dim=1, int_method='height', int_col=None, spin_id_col=None, mol_name_col=None, res_num_col=None, res_name_col=None, spin_num_col=None, spin_name_col=None, sep=None, spin_id=None, ncproc=None)
Opening the file '/Users/tlinnet/software/relax_trunk/test_suite/shared_data/dispersion/Kjaergaard_et_al_2013/peak_lists/63_0_48_4_max_standard.ser' for reading.
NMRPipe SeriesTab formatted data file.


The following intensities have been loaded into the relax data store:

# Spin_ID    Intensity    
:5@N         149821.4     
:6@N         92567.18     
:8@N         15548.34     
:9@N         59807.73     
:10@N        74030.89     
:11@N        162653.0     
:12@N        77654.41     
:13@N        63184.89     
:14@N        98906.41     
:15@N        125754.1     
:16@N        52001.2      
:17@N        46294.72     
:18@N        32568.31     
:19@N        47841.49     
:21@N        36655.54     
:24@N        41255.61     
:25@N        54335.09     
:26@N        75189.57     
:27@N        90194.22     
:28@N        171176.9     
:29@N        138300.2     
:30@N        133104.3     
:31@N        94527.83     
:32@N        92434.62     
:33@N        171736.6     
:34@N        41201.89     
:35@N        101805.7     
:36@N        41579.08     
:38@N        36679.01     
:39@N        103066.8     
:40@N        63631.68     
:41@N        86432.49     
:42@N        125462.8     
:43@N        30990.0      
:44@N        31091.43     
:45@N        80295.82     
:46@N        48968.26     
:48@N        17279.3      
:49@N        31982.78     
:50@N        65949.93     
:51@N        132393.3     
:52@N        134206.2     
:53@N        167668.4     
:54@N        79521.16     
:55@N        223851.5     
:57@N        135590.2     
:58@N        294855.7     
:59@N        665912.4     


relax> spectrum.baseplane_rmsd(error=729.332, spectrum_id='63_0_48_4', spin_id=None)

relax> relax_disp.exp_type(spectrum_id='63_0_48_4', exp_type='R1rho')
The spectrum ID '63_0_48_4' is now set to the R1rho-type experiment.

relax> relax_disp.spin_lock_field(spectrum_id='63_0_48_4', field=1648.5)
The spectrum ID '63_0_48_4' spin-lock field strength is set to 1.6485 kHz.

relax> relax_disp.spin_lock_offset(spectrum_id='63_0_48_4', offset=118.078)
Setting the '63_0_48_4' spectrum spin-lock offset to 118.078 ppm.

relax> relax_disp.relax_time(spectrum_id='63_0_48_4', time=0.04)
Setting the '63_0_48_4' spectrum relaxation time period to 0.04 s.

relax> spectrometer.frequency(id='63_0_48_4', frq=799.7773991, units='MHz')

relax> spectrum.read_intensities(file='61_0_48_10_max_standard.ser', dir='/Users/tlinnet/software/relax_trunk/test_suite/shared_data/dispersion/Kjaergaard_et_al_2013/peak_lists', spectrum_id='61_0_48_10', dim=1, int_method='height', int_col=None, spin_id_col=None, mol_name_col=None, res_num_col=None, res_name_col=None, spin_num_col=None, spin_name_col=None, sep=None, spin_id=None, ncproc=None)
Opening the file '/Users/tlinnet/software/relax_trunk/test_suite/shared_data/dispersion/Kjaergaard_et_al_2013/peak_lists/61_0_48_10_max_standard.ser' for reading.
NMRPipe SeriesTab formatted data file.


The following intensities have been loaded into the relax data store:

# Spin_ID    Intensity    
:5@N         119898.4     
:6@N         71864.52     
:8@N         8738.85      
:9@N         37663.28     
:10@N        34350.12     
:11@N        90326.66     
:12@N        41465.62     
:13@N        33805.88     
:14@N        58009.84     
:15@N        72194.91     
:16@N        16185.67     
:17@N        25461.86     
:18@N        11095.82     
:19@N        24738.03     
:21@N        21012.27     
:24@N        24582.48     
:25@N        21329.29     
:26@N        37622.04     
:27@N        42905.09     
:28@N        84081.34     
:29@N        80852.8      
:30@N        60274.75     
:31@N        52784.89     
:32@N        48488.7      
:33@N        92346.74     
:34@N        23495.76     
:35@N        53227.23     
:36@N        18880.1      
:38@N        19853.59     
:39@N        56455.64     
:40@N        28339.04     
:41@N        43053.15     
:42@N        62263.11     
:43@N        12792.19     
:44@N        12178.42     
:45@N        38424.21     
:46@N        21580.2      
:48@N        9833.344     
:49@N        22314.13     
:50@N        37903.87     
:51@N        90792.47     
:52@N        72319.41     
:53@N        120371.6     
:54@N        62634.27     
:55@N        192067.0     
:57@N        117022.7     
:58@N        252330.7     
:59@N        606629.2     


relax> spectrum.baseplane_rmsd(error=724.76, spectrum_id='61_0_48_10', spin_id=None)

relax> relax_disp.exp_type(spectrum_id='61_0_48_10', exp_type='R1rho')
The spectrum ID '61_0_48_10' is now set to the R1rho-type experiment.

relax> relax_disp.spin_lock_field(spectrum_id='61_0_48_10', field=1648.5)
The spectrum ID '61_0_48_10' spin-lock field strength is set to 1.6485 kHz.

relax> relax_disp.spin_lock_offset(spectrum_id='61_0_48_10', offset=118.078)
Setting the '61_0_48_10' spectrum spin-lock offset to 118.078 ppm.

relax> relax_disp.relax_time(spectrum_id='61_0_48_10', time=0.1)
Setting the '61_0_48_10' spectrum relaxation time period to 0.1 s.

relax> spectrometer.frequency(id='61_0_48_10', frq=799.7773991, units='MHz')

relax> spectrum.read_intensities(file='62_0_48_14_max_standard.ser', dir='/Users/tlinnet/software/relax_trunk/test_suite/shared_data/dispersion/Kjaergaard_et_al_2013/peak_lists', spectrum_id='62_0_48_14', dim=1, int_method='height', int_col=None, spin_id_col=None, mol_name_col=None, res_num_col=None, res_name_col=None, spin_num_col=None, spin_name_col=None, sep=None, spin_id=None, ncproc=None)
Opening the file '/Users/tlinnet/software/relax_trunk/test_suite/shared_data/dispersion/Kjaergaard_et_al_2013/peak_lists/62_0_48_14_max_standard.ser' for reading.
NMRPipe SeriesTab formatted data file.


The following intensities have been loaded into the relax data store:

# Spin_ID    Intensity    
:5@N         102821.3     
:6@N         61266.38     
:8@N         7571.013     
:9@N         28804.59     
:10@N        19942.86     
:11@N        58178.15     
:12@N        27062.32     
:13@N        23092.55     
:14@N        41630.43     
:15@N        51851.57     
:16@N        6786.936     
:17@N        19261.79     
:18@N        6409.172     
:19@N        14739.06     
:21@N        14028.82     
:24@N        17493.86     
:25@N        11368.23     
:26@N        24394.08     
:27@N        26598.9      
:28@N        53887.49     
:29@N        55399.72     
:30@N        36993.84     
:31@N        37891.57     
:32@N        33156.52     
:33@N        62623.42     
:34@N        18571.58     
:35@N        32224.52     
:36@N        9102.232     
:38@N        13901.41     
:39@N        37880.61     
:40@N        16786.35     
:41@N        26574.52     
:42@N        37387.56     
:43@N        7575.435     
:44@N        6280.209     
:45@N        22655.69     
:46@N        13089.22     
:48@N        5707.226     
:49@N        17184.85     
:50@N        27636.74     
:51@N        71706.46     
:52@N        48047.65     
:53@N        99807.8      
:54@N        55696.06     
:55@N        173602.2     
:57@N        108124.7     
:58@N        227597.2     
:59@N        569971.9     


relax> spectrum.baseplane_rmsd(error=730.64, spectrum_id='62_0_48_14', spin_id=None)

relax> relax_disp.exp_type(spectrum_id='62_0_48_14', exp_type='R1rho')
The spectrum ID '62_0_48_14' is now set to the R1rho-type experiment.

relax> relax_disp.spin_lock_field(spectrum_id='62_0_48_14', field=1648.5)
The spectrum ID '62_0_48_14' spin-lock field strength is set to 1.6485 kHz.

relax> relax_disp.spin_lock_offset(spectrum_id='62_0_48_14', offset=118.078)
Setting the '62_0_48_14' spectrum spin-lock offset to 118.078 ppm.

relax> relax_disp.relax_time(spectrum_id='62_0_48_14', time=0.14)
Setting the '62_0_48_14' spectrum relaxation time period to 0.14 s.

relax> spectrometer.frequency(id='62_0_48_14', frq=799.7773991, units='MHz')

relax> spectrum.read_intensities(file='64_0_48_20_max_standard.ser', dir='/Users/tlinnet/software/relax_trunk/test_suite/shared_data/dispersion/Kjaergaard_et_al_2013/peak_lists', spectrum_id='64_0_48_20', dim=1, int_method='height', int_col=None, spin_id_col=None, mol_name_col=None, res_num_col=None, res_name_col=None, spin_num_col=None, spin_name_col=None, sep=None, spin_id=None, ncproc=None)
Opening the file '/Users/tlinnet/software/relax_trunk/test_suite/shared_data/dispersion/Kjaergaard_et_al_2013/peak_lists/64_0_48_20_max_standard.ser' for reading.
NMRPipe SeriesTab formatted data file.


The following intensities have been loaded into the relax data store:

# Spin_ID    Intensity    
:5@N         83575.52     
:6@N         48846.05     
:8@N         4202.147     
:9@N         17263.37     
:10@N        8893.846     
:11@N        26769.65     
:12@N        13833.12     
:13@N        11505.61     
:14@N        25658.59     
:15@N        33860.75     
:16@N        3081.476     
:17@N        11876.27     
:18@N        1617.229     
:19@N        5566.895     
:21@N        9491.648     
:24@N        10467.82     
:25@N        3920.566     
:26@N        11835.1      
:27@N        10796.21     
:28@N        27732.9      
:29@N        33859.32     
:30@N        16493.68     
:31@N        22912.35     
:32@N        17714.53     
:33@N        36227.44     
:34@N        11054.67     
:35@N        17578.37     
:36@N        3495.189     
:38@N        8597.484     
:39@N        19421.69     
:40@N        6284.261     
:41@N        12573.95     
:42@N        15687.33     
:43@N        2262.254     
:44@N        1872.539     
:45@N        10383.69     
:46@N        6029.788     
:48@N        4079.572     
:49@N        13459.69     
:50@N        16103.59     
:51@N        51616.58     
:52@N        26239.87     
:53@N        71469.55     
:54@N        45828.64     
:55@N        147701.8     
:57@N        93438.73     
:58@N        185883.4     
:59@N        507245.3     


relax> spectrum.baseplane_rmsd(error=835.327, spectrum_id='64_0_48_20', spin_id=None)

relax> relax_disp.exp_type(spectrum_id='64_0_48_20', exp_type='R1rho')
The spectrum ID '64_0_48_20' is now set to the R1rho-type experiment.

relax> relax_disp.spin_lock_field(spectrum_id='64_0_48_20', field=1648.5)
The spectrum ID '64_0_48_20' spin-lock field strength is set to 1.6485 kHz.

relax> relax_disp.spin_lock_offset(spectrum_id='64_0_48_20', offset=118.078)
Setting the '64_0_48_20' spectrum spin-lock offset to 118.078 ppm.

relax> relax_disp.relax_time(spectrum_id='64_0_48_20', time=0.2)
Setting the '64_0_48_20' spectrum relaxation time period to 0.2 s.

relax> spectrometer.frequency(id='64_0_48_20', frq=799.7773991, units='MHz')

relax> spectrum.read_intensities(file='11_500_46_0_max_standard.ser', dir='/Users/tlinnet/software/relax_trunk/test_suite/shared_data/dispersion/Kjaergaard_et_al_2013/peak_lists', spectrum_id='11_500_46_0', dim=1, int_method='height', int_col=None, spin_id_col=None, mol_name_col=None, res_num_col=None, res_name_col=None, spin_num_col=None, spin_name_col=None, sep=None, spin_id=None, ncproc=None)
Opening the file '/Users/tlinnet/software/relax_trunk/test_suite/shared_data/dispersion/Kjaergaard_et_al_2013/peak_lists/11_500_46_0_max_standard.ser' for reading.
NMRPipe SeriesTab formatted data file.


The following intensities have been loaded into the relax data store:

# Spin_ID    Intensity    
:5@N         175507.3     
:6@N         111822.6     
:8@N         16599.85     
:9@N         75789.83     
:10@N        154575.0     
:11@N        235556.6     
:12@N        84129.06     
:13@N        105157.9     
:14@N        148419.0     
:15@N        210930.0     
:16@N        112779.7     
:17@N        71900.5      
:18@N        73481.22     
:19@N        75366.48     
:21@N        55082.98     
:24@N        53013.55     
:25@N        133852.7     
:26@N        116245.5     
:27@N        177593.2     
:28@N        301425.5     
:29@N        181432.5     
:30@N        256645.7     
:31@N        148358.9     
:32@N        139546.0     
:33@N        317645.6     
:34@N        61739.3      
:35@N        157681.0     
:36@N        86701.39     
:38@N        53720.91     
:39@N        190585.2     
:40@N        139510.6     
:41@N        141468.9     
:42@N        179850.5     
:43@N        94401.02     
:44@N        73614.1      
:45@N        143222.4     
:46@N        83926.83     
:48@N        27439.64     
:49@N        37057.0      
:50@N        86503.57     
:51@N        162338.7     
:52@N        217728.8     
:53@N        200953.3     
:54@N        95562.4      
:55@N        219138.6     
:57@N        128328.6     
:58@N        319326.6     
:59@N        727211.4     


relax> spectrum.baseplane_rmsd(error=855.441, spectrum_id='11_500_46_0', spin_id=None)

relax> relax_disp.exp_type(spectrum_id='11_500_46_0', exp_type='R1rho')
The spectrum ID '11_500_46_0' is now set to the R1rho-type experiment.

relax> relax_disp.spin_lock_field(spectrum_id='11_500_46_0', field=1341.11)
The spectrum ID '11_500_46_0' spin-lock field strength is set to 1.34111 kHz.

relax> relax_disp.spin_lock_offset(spectrum_id='11_500_46_0', offset=124.24703146206046)
Setting the '11_500_46_0' spectrum spin-lock offset to 124.247031462 ppm.

relax> relax_disp.relax_time(spectrum_id='11_500_46_0', time=0.0)
Setting the '11_500_46_0' spectrum relaxation time period to 0.0 s.

relax> spectrometer.frequency(id='11_500_46_0', frq=799.7773991, units='MHz')

relax> spectrum.read_intensities(file='14_500_46_4_max_standard.ser', dir='/Users/tlinnet/software/relax_trunk/test_suite/shared_data/dispersion/Kjaergaard_et_al_2013/peak_lists', spectrum_id='14_500_46_4', dim=1, int_method='height', int_col=None, spin_id_col=None, mol_name_col=None, res_num_col=None, res_name_col=None, spin_num_col=None, spin_name_col=None, sep=None, spin_id=None, ncproc=None)
Opening the file '/Users/tlinnet/software/relax_trunk/test_suite/shared_data/dispersion/Kjaergaard_et_al_2013/peak_lists/14_500_46_4_max_standard.ser' for reading.
NMRPipe SeriesTab formatted data file.


The following intensities have been loaded into the relax data store:

# Spin_ID    Intensity    
:5@N         150875.4     
:6@N         90771.68     
:8@N         12822.88     
:9@N         53099.88     
:10@N        99652.92     
:11@N        170539.7     
:12@N        52585.48     
:13@N        66867.45     
:14@N        105272.2     
:15@N        148434.6     
:16@N        55997.17     
:17@N        46658.84     
:18@N        41928.32     
:19@N        54510.03     
:21@N        39545.0      
:24@N        35646.21     
:25@N        65949.58     
:26@N        73967.27     
:27@N        120269.0     
:28@N        189304.2     
:29@N        126479.0     
:30@N        155619.6     
:31@N        103308.1     
:32@N        86548.55     
:33@N        205657.5     
:34@N        44302.7      
:35@N        113972.5     
:36@N        54442.25     
:38@N        35806.57     
:39@N        126504.2     
:40@N        83711.38     
:41@N        92097.8      
:42@N        114779.8     
:43@N        51533.46     
:44@N        38255.61     
:45@N        87238.34     
:46@N        50404.39     
:48@N        17667.92     
:49@N        27481.25     
:50@N        58077.43     
:51@N        124147.4     
:52@N        136495.9     
:53@N        156857.2     
:54@N        76396.92     
:55@N        199316.3     
:57@N        115034.2     
:58@N        296401.3     
:59@N        689908.6     


relax> spectrum.baseplane_rmsd(error=778.605, spectrum_id='14_500_46_4', spin_id=None)

relax> relax_disp.exp_type(spectrum_id='14_500_46_4', exp_type='R1rho')
The spectrum ID '14_500_46_4' is now set to the R1rho-type experiment.

relax> relax_disp.spin_lock_field(spectrum_id='14_500_46_4', field=1341.11)
The spectrum ID '14_500_46_4' spin-lock field strength is set to 1.34111 kHz.

relax> relax_disp.spin_lock_offset(spectrum_id='14_500_46_4', offset=124.24703146206046)
Setting the '14_500_46_4' spectrum spin-lock offset to 124.247031462 ppm.

relax> relax_disp.relax_time(spectrum_id='14_500_46_4', time=0.04)
Setting the '14_500_46_4' spectrum relaxation time period to 0.04 s.

relax> spectrometer.frequency(id='14_500_46_4', frq=799.7773991, units='MHz')

relax> spectrum.read_intensities(file='12_500_46_10_max_standard.ser', dir='/Users/tlinnet/software/relax_trunk/test_suite/shared_data/dispersion/Kjaergaard_et_al_2013/peak_lists', spectrum_id='12_500_46_10', dim=1, int_method='height', int_col=None, spin_id_col=None, mol_name_col=None, res_num_col=None, res_name_col=None, spin_num_col=None, spin_name_col=None, sep=None, spin_id=None, ncproc=None)
Opening the file '/Users/tlinnet/software/relax_trunk/test_suite/shared_data/dispersion/Kjaergaard_et_al_2013/peak_lists/12_500_46_10_max_standard.ser' for reading.
NMRPipe SeriesTab formatted data file.


The following intensities have been loaded into the relax data store:

# Spin_ID    Intensity    
:5@N         122636.9     
:6@N         70607.46     
:8@N         8971.755     
:9@N         32282.47     
:10@N        50828.46     
:11@N        105588.2     
:12@N        26678.16     
:13@N        35648.54     
:14@N        64281.48     
:15@N        89616.23     
:16@N        22367.74     
:17@N        25484.82     
:18@N        18061.65     
:19@N        32092.49     
:21@N        25099.69     
:24@N        22928.47     
:25@N        26446.82     
:26@N        40664.99     
:27@N        68393.01     
:28@N        98933.84     
:29@N        76414.21     
:30@N        79481.12     
:31@N        65119.45     
:32@N        43190.81     
:33@N        113397.6     
:34@N        26817.26     
:35@N        73453.47     
:36@N        26103.88     
:38@N        21501.82     
:39@N        70807.89     
:40@N        40700.99     
:41@N        49648.56     
:42@N        59186.07     
:43@N        22704.51     
:44@N        15136.71     
:45@N        42505.89     
:46@N        24741.49     
:48@N        9504.973     
:49@N        19402.47     
:50@N        32347.1      
:51@N        85932.27     
:52@N        71685.28     
:53@N        112839.4     
:54@N        63445.32     
:55@N        177207.3     
:57@N        105426.9     
:58@N        264188.5     
:59@N        642375.8     


relax> spectrum.baseplane_rmsd(error=678.029, spectrum_id='12_500_46_10', spin_id=None)

relax> relax_disp.exp_type(spectrum_id='12_500_46_10', exp_type='R1rho')
The spectrum ID '12_500_46_10' is now set to the R1rho-type experiment.

relax> relax_disp.spin_lock_field(spectrum_id='12_500_46_10', field=1341.11)
The spectrum ID '12_500_46_10' spin-lock field strength is set to 1.34111 kHz.

relax> relax_disp.spin_lock_offset(spectrum_id='12_500_46_10', offset=124.24703146206046)
Setting the '12_500_46_10' spectrum spin-lock offset to 124.247031462 ppm.

relax> relax_disp.relax_time(spectrum_id='12_500_46_10', time=0.1)
Setting the '12_500_46_10' spectrum relaxation time period to 0.1 s.

relax> spectrometer.frequency(id='12_500_46_10', frq=799.7773991, units='MHz')

relax> spectrum.read_intensities(file='15_500_46_20_max_standard.ser', dir='/Users/tlinnet/software/relax_trunk/test_suite/shared_data/dispersion/Kjaergaard_et_al_2013/peak_lists', spectrum_id='15_500_46_20', dim=1, int_method='height', int_col=None, spin_id_col=None, mol_name_col=None, res_num_col=None, res_name_col=None, spin_num_col=None, spin_name_col=None, sep=None, spin_id=None, ncproc=None)
Opening the file '/Users/tlinnet/software/relax_trunk/test_suite/shared_data/dispersion/Kjaergaard_et_al_2013/peak_lists/15_500_46_20_max_standard.ser' for reading.
NMRPipe SeriesTab formatted data file.


The following intensities have been loaded into the relax data store:

# Spin_ID    Intensity    
:5@N         87461.12     
:6@N         45408.62     
:8@N         5022.352     
:9@N         16135.4      
:10@N        17039.67     
:11@N        46703.75     
:12@N        9519.455     
:13@N        12081.35     
:14@N        29957.12     
:15@N        41511.81     
:16@N        4332.704     
:17@N        7872.974     
:18@N        4608.063     
:19@N        13632.81     
:21@N        12110.18     
:24@N        11101.81     
:25@N        6983.599     
:26@N        15072.05     
:27@N        26891.04     
:28@N        36131.46     
:29@N        33640.07     
:30@N        26818.36     
:31@N        30098.89     
:32@N        14351.75     
:33@N        46321.75     
:34@N        12581.16     
:35@N        35002.29     
:36@N        8241.168     
:38@N        9637.02      
:39@N        27553.19     
:40@N        12228.57     
:41@N        19991.33     
:42@N        20816.4      
:43@N        5471.406     
:44@N        2662.948     
:45@N        15179.72     
:46@N        8307.822     
:48@N        4973.323     
:49@N        10971.67     
:50@N        11702.28     
:51@N        47534.38     
:52@N        24566.45     
:53@N        65357.46     
:54@N        47805.72     
:55@N        142532.5     
:57@N        88575.62     
:58@N        219924.7     
:59@N        568369.9     


relax> spectrum.baseplane_rmsd(error=690.859, spectrum_id='15_500_46_20', spin_id=None)

relax> relax_disp.exp_type(spectrum_id='15_500_46_20', exp_type='R1rho')
The spectrum ID '15_500_46_20' is now set to the R1rho-type experiment.

relax> relax_disp.spin_lock_field(spectrum_id='15_500_46_20', field=1341.11)
The spectrum ID '15_500_46_20' spin-lock field strength is set to 1.34111 kHz.

relax> relax_disp.spin_lock_offset(spectrum_id='15_500_46_20', offset=124.24703146206046)
Setting the '15_500_46_20' spectrum spin-lock offset to 124.247031462 ppm.

relax> relax_disp.relax_time(spectrum_id='15_500_46_20', time=0.2)
Setting the '15_500_46_20' spectrum relaxation time period to 0.2 s.

relax> spectrometer.frequency(id='15_500_46_20', frq=799.7773991, units='MHz')

relax> spectrum.read_intensities(file='13_500_46_40_max_standard.ser', dir='/Users/tlinnet/software/relax_trunk/test_suite/shared_data/dispersion/Kjaergaard_et_al_2013/peak_lists', spectrum_id='13_500_46_40', dim=1, int_method='height', int_col=None, spin_id_col=None, mol_name_col=None, res_num_col=None, res_name_col=None, spin_num_col=None, spin_name_col=None, sep=None, spin_id=None, ncproc=None)
Opening the file '/Users/tlinnet/software/relax_trunk/test_suite/shared_data/dispersion/Kjaergaard_et_al_2013/peak_lists/13_500_46_40_max_standard.ser' for reading.
NMRPipe SeriesTab formatted data file.


The following intensities have been loaded into the relax data store:

# Spin_ID    Intensity    
:5@N         47922.4      
:6@N         22213.97     
:8@N         1659.128     
:9@N         4910.522     
:10@N        2582.575     
:11@N        9419.862     
:12@N        401.8315     
:13@N        2079.545     
:14@N        7959.937     
:15@N        10837.61     
:16@N        -917.6337    
:17@N        1087.957     
:18@N        716.2526     
:19@N        2195.145     
:21@N        3290.161     
:24@N        3710.682     
:25@N        -79.04773    
:26@N        1881.412     
:27@N        5520.8       
:28@N        6000.057     
:29@N        6920.911     
:30@N        3637.814     
:31@N        9330.063     
:32@N        1078.533     
:33@N        10804.5      
:34@N        2884.469     
:35@N        9992.439     
:36@N        1961.416     
:38@N        3019.415     
:39@N        4628.324     
:40@N        1525.643     
:41@N        4025.697     
:42@N        2665.664     
:43@N        118.3337     
:44@N        -124.9042    
:45@N        2657.749     
:46@N        1620.754     
:48@N        929.2921     
:49@N        4049.51      
:50@N        313.8725     
:51@N        15994.55     
:52@N        3474.482     
:53@N        24099.17     
:54@N        27746.36     
:55@N        91886.52     
:57@N        65756.7      
:58@N        154676.7     
:59@N        441470.1     


relax> spectrum.baseplane_rmsd(error=706.319, spectrum_id='13_500_46_40', spin_id=None)

relax> relax_disp.exp_type(spectrum_id='13_500_46_40', exp_type='R1rho')
The spectrum ID '13_500_46_40' is now set to the R1rho-type experiment.

relax> relax_disp.spin_lock_field(spectrum_id='13_500_46_40', field=1341.11)
The spectrum ID '13_500_46_40' spin-lock field strength is set to 1.34111 kHz.

relax> relax_disp.spin_lock_offset(spectrum_id='13_500_46_40', offset=124.24703146206046)
Setting the '13_500_46_40' spectrum spin-lock offset to 124.247031462 ppm.

relax> relax_disp.relax_time(spectrum_id='13_500_46_40', time=0.4)
Setting the '13_500_46_40' spectrum relaxation time period to 0.4 s.

relax> spectrometer.frequency(id='13_500_46_40', frq=799.7773991, units='MHz')

relax> spectrum.read_intensities(file='50_1000_41_0_max_standard.ser', dir='/Users/tlinnet/software/relax_trunk/test_suite/shared_data/dispersion/Kjaergaard_et_al_2013/peak_lists', spectrum_id='50_1000_41_0', dim=1, int_method='height', int_col=None, spin_id_col=None, mol_name_col=None, res_num_col=None, res_name_col=None, spin_num_col=None, spin_name_col=None, sep=None, spin_id=None, ncproc=None)
Opening the file '/Users/tlinnet/software/relax_trunk/test_suite/shared_data/dispersion/Kjaergaard_et_al_2013/peak_lists/50_1000_41_0_max_standard.ser' for reading.
NMRPipe SeriesTab formatted data file.


The following intensities have been loaded into the relax data store:

# Spin_ID    Intensity    
:5@N         169158.5     
:6@N         112321.7     
:8@N         19576.71     
:9@N         81443.56     
:10@N        121900.9     
:11@N        236642.3     
:12@N        141553.6     
:13@N        102688.3     
:14@N        150771.1     
:15@N        193208.2     
:16@N        119931.9     
:17@N        75065.95     
:18@N        61299.41     
:19@N        70022.43     
:21@N        56576.16     
:24@N        60578.56     
:25@N        111365.1     
:26@N        121127.2     
:27@N        127515.3     
:28@N        288943.5     
:29@N        217754.1     
:30@N        205648.3     
:31@N        145441.9     
:32@N        144017.9     
:33@N        254999.4     
:34@N        63876.03     
:35@N        152713.3     
:36@N        67815.66     
:38@N        55908.37     
:39@N        158849.6     
:40@N        125765.6     
:41@N        139822.2     
:42@N        194892.6     
:43@N        66785.56     
:44@N        66638.87     
:45@N        133167.9     
:46@N        84605.52     
:48@N        30014.37     
:49@N        40273.48     
:50@N        96643.59     
:51@N        168616.2     
:52@N        213116.7     
:53@N        203188.3     
:54@N        89437.91     
:55@N        244555.2     
:57@N        141273.2     
:58@N        304180.8     
:59@N        686423.5     


relax> spectrum.baseplane_rmsd(error=888.885, spectrum_id='50_1000_41_0', spin_id=None)

relax> relax_disp.exp_type(spectrum_id='50_1000_41_0', exp_type='R1rho')
The spectrum ID '50_1000_41_0' is now set to the R1rho-type experiment.

relax> relax_disp.spin_lock_field(spectrum_id='50_1000_41_0', field=800.5)
The spectrum ID '50_1000_41_0' spin-lock field strength is set to 0.8005 kHz.

relax> relax_disp.spin_lock_offset(spectrum_id='50_1000_41_0', offset=130.41606292412092)
Setting the '50_1000_41_0' spectrum spin-lock offset to 130.416062924 ppm.

relax> relax_disp.relax_time(spectrum_id='50_1000_41_0', time=0.0)
Setting the '50_1000_41_0' spectrum relaxation time period to 0.0 s.

relax> spectrometer.frequency(id='50_1000_41_0', frq=799.7773991, units='MHz')

relax> spectrum.read_intensities(file='53_1000_41_4_max_standard.ser', dir='/Users/tlinnet/software/relax_trunk/test_suite/shared_data/dispersion/Kjaergaard_et_al_2013/peak_lists', spectrum_id='53_1000_41_4', dim=1, int_method='height', int_col=None, spin_id_col=None, mol_name_col=None, res_num_col=None, res_name_col=None, spin_num_col=None, spin_name_col=None, sep=None, spin_id=None, ncproc=None)
Opening the file '/Users/tlinnet/software/relax_trunk/test_suite/shared_data/dispersion/Kjaergaard_et_al_2013/peak_lists/53_1000_41_4_max_standard.ser' for reading.
NMRPipe SeriesTab formatted data file.


The following intensities have been loaded into the relax data store:

# Spin_ID    Intensity    
:5@N         151580.6     
:6@N         97016.3      
:8@N         16050.67     
:9@N         59217.96     
:10@N        94222.27     
:11@N        196560.0     
:12@N        105365.1     
:13@N        75665.2      
:14@N        123221.6     
:15@N        158139.5     
:16@N        87370.66     
:17@N        57809.2      
:18@N        45054.96     
:19@N        57786.96     
:21@N        46042.81     
:24@N        48541.86     
:25@N        67424.75     
:26@N        93984.91     
:27@N        103608.3     
:28@N        221452.8     
:29@N        173980.6     
:30@N        158193.8     
:31@N        118957.0     
:32@N        106245.4     
:33@N        203491.0     
:34@N        52630.62     
:35@N        128279.5     
:36@N        52364.28     
:38@N        45637.44     
:39@N        122697.8     
:40@N        95076.13     
:41@N        108202.4     
:42@N        150185.0     
:43@N        49309.66     
:44@N        47473.92     
:45@N        95994.95     
:46@N        62302.08     
:48@N        23856.43     
:49@N        30155.29     
:50@N        76757.88     
:51@N        142235.8     
:52@N        153459.4     
:53@N        160130.8     
:54@N        79029.27     
:55@N        224595.6     
:57@N        129961.5     
:58@N        288433.8     
:59@N        652492.8     


relax> spectrum.baseplane_rmsd(error=737.131, spectrum_id='53_1000_41_4', spin_id=None)

relax> relax_disp.exp_type(spectrum_id='53_1000_41_4', exp_type='R1rho')
The spectrum ID '53_1000_41_4' is now set to the R1rho-type experiment.

relax> relax_disp.spin_lock_field(spectrum_id='53_1000_41_4', field=800.5)
The spectrum ID '53_1000_41_4' spin-lock field strength is set to 0.8005 kHz.

relax> relax_disp.spin_lock_offset(spectrum_id='53_1000_41_4', offset=130.41606292412092)
Setting the '53_1000_41_4' spectrum spin-lock offset to 130.416062924 ppm.

relax> relax_disp.relax_time(spectrum_id='53_1000_41_4', time=0.04)
Setting the '53_1000_41_4' spectrum relaxation time period to 0.04 s.

relax> spectrometer.frequency(id='53_1000_41_4', frq=799.7773991, units='MHz')

relax> spectrum.read_intensities(file='51_1000_41_10_max_standard.ser', dir='/Users/tlinnet/software/relax_trunk/test_suite/shared_data/dispersion/Kjaergaard_et_al_2013/peak_lists', spectrum_id='51_1000_41_10', dim=1, int_method='height', int_col=None, spin_id_col=None, mol_name_col=None, res_num_col=None, res_name_col=None, spin_num_col=None, spin_name_col=None, sep=None, spin_id=None, ncproc=None)
Opening the file '/Users/tlinnet/software/relax_trunk/test_suite/shared_data/dispersion/Kjaergaard_et_al_2013/peak_lists/51_1000_41_10_max_standard.ser' for reading.
NMRPipe SeriesTab formatted data file.


The following intensities have been loaded into the relax data store:

# Spin_ID    Intensity    
:5@N         127499.4     
:6@N         79866.72     
:8@N         13586.39     
:9@N         39684.29     
:10@N        64456.0      
:11@N        152143.8     
:12@N        73957.31     
:13@N        48970.55     
:14@N        93529.38     
:15@N        120849.3     
:16@N        55744.09     
:17@N        38224.16     
:18@N        29780.36     
:19@N        44564.55     
:21@N        36904.3      
:24@N        38102.87     
:25@N        32510.9      
:26@N        66998.49     
:27@N        75521.23     
:28@N        151482.3     
:29@N        129870.4     
:30@N        106723.4     
:31@N        92915.98     
:32@N        69806.01     
:33@N        142627.6     
:34@N        41825.95     
:35@N        101557.0     
:36@N        33375.55     
:38@N        35031.62     
:39@N        83129.45     
:40@N        63194.19     
:41@N        76292.96     
:42@N        106617.4     
:43@N        31831.37     
:44@N        29636.99     
:45@N        61689.08     
:46@N        42619.39     
:48@N        17866.58     
:49@N        20911.5      
:50@N        58209.23     
:51@N        111657.5     
:52@N        96051.31     
:53@N        113185.0     
:54@N        69890.93     
:55@N        201633.4     
:57@N        121232.2     
:58@N        261850.7     
:59@N        606660.0     


relax> spectrum.baseplane_rmsd(error=1059.64, spectrum_id='51_1000_41_10', spin_id=None)

relax> relax_disp.exp_type(spectrum_id='51_1000_41_10', exp_type='R1rho')
The spectrum ID '51_1000_41_10' is now set to the R1rho-type experiment.

relax> relax_disp.spin_lock_field(spectrum_id='51_1000_41_10', field=800.5)
The spectrum ID '51_1000_41_10' spin-lock field strength is set to 0.8005 kHz.

relax> relax_disp.spin_lock_offset(spectrum_id='51_1000_41_10', offset=130.41606292412092)
Setting the '51_1000_41_10' spectrum spin-lock offset to 130.416062924 ppm.

relax> relax_disp.relax_time(spectrum_id='51_1000_41_10', time=0.1)
Setting the '51_1000_41_10' spectrum relaxation time period to 0.1 s.

relax> spectrometer.frequency(id='51_1000_41_10', frq=799.7773991, units='MHz')

relax> spectrum.read_intensities(file='54_1000_41_20_max_standard.ser', dir='/Users/tlinnet/software/relax_trunk/test_suite/shared_data/dispersion/Kjaergaard_et_al_2013/peak_lists', spectrum_id='54_1000_41_20', dim=1, int_method='height', int_col=None, spin_id_col=None, mol_name_col=None, res_num_col=None, res_name_col=None, spin_num_col=None, spin_name_col=None, sep=None, spin_id=None, ncproc=None)
Opening the file '/Users/tlinnet/software/relax_trunk/test_suite/shared_data/dispersion/Kjaergaard_et_al_2013/peak_lists/54_1000_41_20_max_standard.ser' for reading.
NMRPipe SeriesTab formatted data file.


The following intensities have been loaded into the relax data store:

# Spin_ID    Intensity    
:5@N         100345.1     
:6@N         60875.92     
:8@N         10838.67     
:9@N         20768.5      
:10@N        32631.4      
:11@N        96124.52     
:12@N        38765.86     
:13@N        23500.16     
:14@N        59128.8      
:15@N        76249.89     
:16@N        26336.69     
:17@N        21884.38     
:18@N        13644.38     
:19@N        28152.61     
:21@N        24935.04     
:24@N        26137.68     
:25@N        11297.32     
:26@N        36899.31     
:27@N        42647.52     
:28@N        80603.37     
:29@N        79079.75     
:30@N        55970.35     
:31@N        59787.62     
:32@N        35651.59     
:33@N        81464.61     
:34@N        27463.86     
:35@N        68793.14     
:36@N        18295.86     
:38@N        21564.5      
:39@N        45850.8      
:40@N        32935.48     
:41@N        41315.19     
:42@N        57652.21     
:43@N        15050.14     
:44@N        13347.87     
:45@N        27688.65     
:46@N        21489.73     
:48@N        11999.96     
:49@N        13315.71     
:50@N        35595.52     
:51@N        76386.86     
:52@N        44082.95     
:53@N        66126.27     
:54@N        59516.12     
:55@N        168994.2     
:57@N        108198.2     
:58@N        222867.3     
:59@N        537377.9     


relax> spectrum.baseplane_rmsd(error=787.825, spectrum_id='54_1000_41_20', spin_id=None)

relax> relax_disp.exp_type(spectrum_id='54_1000_41_20', exp_type='R1rho')
The spectrum ID '54_1000_41_20' is now set to the R1rho-type experiment.

relax> relax_disp.spin_lock_field(spectrum_id='54_1000_41_20', field=800.5)
The spectrum ID '54_1000_41_20' spin-lock field strength is set to 0.8005 kHz.

relax> relax_disp.spin_lock_offset(spectrum_id='54_1000_41_20', offset=130.41606292412092)
Setting the '54_1000_41_20' spectrum spin-lock offset to 130.416062924 ppm.

relax> relax_disp.relax_time(spectrum_id='54_1000_41_20', time=0.2)
Setting the '54_1000_41_20' spectrum relaxation time period to 0.2 s.

relax> spectrometer.frequency(id='54_1000_41_20', frq=799.7773991, units='MHz')

relax> spectrum.read_intensities(file='52_1000_41_40_max_standard.ser', dir='/Users/tlinnet/software/relax_trunk/test_suite/shared_data/dispersion/Kjaergaard_et_al_2013/peak_lists', spectrum_id='52_1000_41_40', dim=1, int_method='height', int_col=None, spin_id_col=None, mol_name_col=None, res_num_col=None, res_name_col=None, spin_num_col=None, spin_name_col=None, sep=None, spin_id=None, ncproc=None)
Opening the file '/Users/tlinnet/software/relax_trunk/test_suite/shared_data/dispersion/Kjaergaard_et_al_2013/peak_lists/52_1000_41_40_max_standard.ser' for reading.
NMRPipe SeriesTab formatted data file.


The following intensities have been loaded into the relax data store:

# Spin_ID    Intensity    
:5@N         64817.7      
:6@N         35285.61     
:8@N         5141.051     
:9@N         7930.102     
:10@N        10402.1      
:11@N        41010.65     
:12@N        13781.77     
:13@N        5591.053     
:14@N        24666.58     
:15@N        32278.38     
:16@N        5639.111     
:17@N        7163.641     
:18@N        3137.911     
:19@N        12704.9      
:21@N        11700.15     
:24@N        11774.69     
:25@N        2153.976     
:26@N        11893.5      
:27@N        14394.96     
:28@N        26687.99     
:29@N        30338.23     
:30@N        17687.15     
:31@N        26380.67     
:32@N        11127.97     
:33@N        30339.93     
:34@N        12912.03     
:35@N        31889.08     
:36@N        5411.625     
:38@N        10010.05     
:39@N        13733.34     
:40@N        8421.335     
:41@N        13571.87     
:42@N        17897.59     
:43@N        4930.409     
:44@N        2977.83      
:45@N        6943.994     
:46@N        5210.234     
:48@N        6778.083     
:49@N        3712.661     
:50@N        16232.25     
:51@N        37494.23     
:52@N        11389.59     
:53@N        24377.87     
:54@N        41459.38     
:55@N        125241.1     
:57@N        88590.47     
:58@N        169617.3     
:59@N        426393.9     


relax> spectrum.baseplane_rmsd(error=731.615, spectrum_id='52_1000_41_40', spin_id=None)

relax> relax_disp.exp_type(spectrum_id='52_1000_41_40', exp_type='R1rho')
The spectrum ID '52_1000_41_40' is now set to the R1rho-type experiment.

relax> relax_disp.spin_lock_field(spectrum_id='52_1000_41_40', field=800.5)
The spectrum ID '52_1000_41_40' spin-lock field strength is set to 0.8005 kHz.

relax> relax_disp.spin_lock_offset(spectrum_id='52_1000_41_40', offset=130.41606292412092)
Setting the '52_1000_41_40' spectrum spin-lock offset to 130.416062924 ppm.

relax> relax_disp.relax_time(spectrum_id='52_1000_41_40', time=0.4)
Setting the '52_1000_41_40' spectrum relaxation time period to 0.4 s.

relax> spectrometer.frequency(id='52_1000_41_40', frq=799.7773991, units='MHz')

relax> spectrum.read_intensities(file='21_1000_46_0_max_standard.ser', dir='/Users/tlinnet/software/relax_trunk/test_suite/shared_data/dispersion/Kjaergaard_et_al_2013/peak_lists', spectrum_id='21_1000_46_0', dim=1, int_method='height', int_col=None, spin_id_col=None, mol_name_col=None, res_num_col=None, res_name_col=None, spin_num_col=None, spin_name_col=None, sep=None, spin_id=None, ncproc=None)
Opening the file '/Users/tlinnet/software/relax_trunk/test_suite/shared_data/dispersion/Kjaergaard_et_al_2013/peak_lists/21_1000_46_0_max_standard.ser' for reading.
NMRPipe SeriesTab formatted data file.


The following intensities have been loaded into the relax data store:

# Spin_ID    Intensity    
:5@N         174806.5     
:6@N         111804.7     
:8@N         17402.2      
:9@N         76741.67     
:10@N        155631.6     
:11@N        236696.8     
:12@N        81281.64     
:13@N        104736.3     
:14@N        148330.5     
:15@N        210637.4     
:16@N        115959.0     
:17@N        71524.78     
:18@N        75329.58     
:19@N        76442.48     
:21@N        54987.12     
:24@N        52185.93     
:25@N        133364.9     
:26@N        118688.8     
:27@N        177516.1     
:28@N        302466.9     
:29@N        182584.5     
:30@N        259556.0     
:31@N        147180.1     
:32@N        142356.4     
:33@N        316577.3     
:34@N        61796.41     
:35@N        159886.5     
:36@N        87021.86     
:38@N        53056.09     
:39@N        190774.1     
:40@N        139964.4     
:41@N        142065.0     
:42@N        184090.0     
:43@N        92721.69     
:44@N        72189.38     
:45@N        142852.2     
:46@N        86947.39     
:48@N        26016.21     
:49@N        37963.21     
:50@N        86310.68     
:51@N        161164.4     
:52@N        220595.9     
:53@N        198806.0     
:54@N        93838.49     
:55@N        218346.5     
:57@N        129145.0     
:58@N        316283.3     
:59@N        722994.1     


relax> spectrum.baseplane_rmsd(error=760.649, spectrum_id='21_1000_46_0', spin_id=None)

relax> relax_disp.exp_type(spectrum_id='21_1000_46_0', exp_type='R1rho')
The spectrum ID '21_1000_46_0' is now set to the R1rho-type experiment.

relax> relax_disp.spin_lock_field(spectrum_id='21_1000_46_0', field=1341.11)
The spectrum ID '21_1000_46_0' spin-lock field strength is set to 1.34111 kHz.

relax> relax_disp.spin_lock_offset(spectrum_id='21_1000_46_0', offset=130.41606292412092)
Setting the '21_1000_46_0' spectrum spin-lock offset to 130.416062924 ppm.

relax> relax_disp.relax_time(spectrum_id='21_1000_46_0', time=0.0)
Setting the '21_1000_46_0' spectrum relaxation time period to 0.0 s.

relax> spectrometer.frequency(id='21_1000_46_0', frq=799.7773991, units='MHz')

relax> spectrum.read_intensities(file='24_1000_46_4_max_standard.ser', dir='/Users/tlinnet/software/relax_trunk/test_suite/shared_data/dispersion/Kjaergaard_et_al_2013/peak_lists', spectrum_id='24_1000_46_4', dim=1, int_method='height', int_col=None, spin_id_col=None, mol_name_col=None, res_num_col=None, res_name_col=None, spin_num_col=None, spin_name_col=None, sep=None, spin_id=None, ncproc=None)
Opening the file '/Users/tlinnet/software/relax_trunk/test_suite/shared_data/dispersion/Kjaergaard_et_al_2013/peak_lists/24_1000_46_4_max_standard.ser' for reading.
NMRPipe SeriesTab formatted data file.


The following intensities have been loaded into the relax data store:

# Spin_ID    Intensity    
:5@N         148032.0     
:6@N         90841.59     
:8@N         14002.27     
:9@N         53708.5      
:10@N        105769.2     
:11@N        182159.6     
:12@N        55642.09     
:13@N        69727.67     
:14@N        109888.0     
:15@N        154791.3     
:16@N        70150.38     
:17@N        49005.72     
:18@N        48523.95     
:19@N        56812.45     
:21@N        41917.61     
:24@N        38081.53     
:25@N        70346.66     
:26@N        82009.22     
:27@N        124157.3     
:28@N        203286.4     
:29@N        140018.8     
:30@N        171709.1     
:31@N        109561.3     
:32@N        95209.8      
:33@N        218214.1     
:34@N        46151.66     
:35@N        121897.1     
:36@N        57802.59     
:38@N        38977.06     
:39@N        131783.9     
:40@N        93271.31     
:41@N        98902.92     
:42@N        130529.0     
:43@N        57279.92     
:44@N        43424.23     
:45@N        92952.38     
:46@N        55168.51     
:48@N        18946.91     
:49@N        29374.83     
:50@N        62251.08     
:51@N        127797.6     
:52@N        145588.0     
:53@N        152888.2     
:54@N        76807.61     
:55@N        195438.8     
:57@N        113816.2     
:58@N        285721.2     
:59@N        672974.8     


relax> spectrum.baseplane_rmsd(error=697.069, spectrum_id='24_1000_46_4', spin_id=None)

relax> relax_disp.exp_type(spectrum_id='24_1000_46_4', exp_type='R1rho')
The spectrum ID '24_1000_46_4' is now set to the R1rho-type experiment.

relax> relax_disp.spin_lock_field(spectrum_id='24_1000_46_4', field=1341.11)
The spectrum ID '24_1000_46_4' spin-lock field strength is set to 1.34111 kHz.

relax> relax_disp.spin_lock_offset(spectrum_id='24_1000_46_4', offset=130.41606292412092)
Setting the '24_1000_46_4' spectrum spin-lock offset to 130.416062924 ppm.

relax> relax_disp.relax_time(spectrum_id='24_1000_46_4', time=0.04)
Setting the '24_1000_46_4' spectrum relaxation time period to 0.04 s.

relax> spectrometer.frequency(id='24_1000_46_4', frq=799.7773991, units='MHz')

relax> spectrum.read_intensities(file='22_1000_46_10_max_standard.ser', dir='/Users/tlinnet/software/relax_trunk/test_suite/shared_data/dispersion/Kjaergaard_et_al_2013/peak_lists', spectrum_id='22_1000_46_10', dim=1, int_method='height', int_col=None, spin_id_col=None, mol_name_col=None, res_num_col=None, res_name_col=None, spin_num_col=None, spin_name_col=None, sep=None, spin_id=None, ncproc=None)
Opening the file '/Users/tlinnet/software/relax_trunk/test_suite/shared_data/dispersion/Kjaergaard_et_al_2013/peak_lists/22_1000_46_10_max_standard.ser' for reading.
NMRPipe SeriesTab formatted data file.


The following intensities have been loaded into the relax data store:

# Spin_ID    Intensity    
:5@N         127128.1     
:6@N         73715.21     
:8@N         10374.56     
:9@N         33811.79     
:10@N        64606.86     
:11@N        126843.1     
:12@N        33966.49     
:13@N        42238.41     
:14@N        77356.89     
:15@N        108491.7     
:16@N        34903.76     
:17@N        31066.3      
:18@N        26186.29     
:19@N        38937.81     
:21@N        30681.1      
:24@N        27574.06     
:25@N        34897.66     
:26@N        51617.69     
:27@N        83331.47     
:28@N        125565.4     
:29@N        91031.23     
:30@N        99413.67     
:31@N        78117.96     
:32@N        54108.3      
:33@N        139381.0     
:34@N        31518.95     
:35@N        87489.49     
:36@N        33340.59     
:38@N        26081.39     
:39@N        85455.42     
:40@N        55145.3      
:41@N        62717.77     
:42@N        75437.32     
:43@N        31597.98     
:44@N        23663.27     
:45@N        54193.47     
:46@N        31647.58     
:48@N        12211.33     
:49@N        21032.86     
:50@N        39104.82     
:51@N        96797.24     
:52@N        87501.42     
:53@N        113967.8     
:54@N        68326.77     
:55@N        179279.4     
:57@N        105652.2     
:58@N        264811.7     
:59@N        639007.1     


relax> spectrum.baseplane_rmsd(error=715.097, spectrum_id='22_1000_46_10', spin_id=None)

relax> relax_disp.exp_type(spectrum_id='22_1000_46_10', exp_type='R1rho')
The spectrum ID '22_1000_46_10' is now set to the R1rho-type experiment.

relax> relax_disp.spin_lock_field(spectrum_id='22_1000_46_10', field=1341.11)
The spectrum ID '22_1000_46_10' spin-lock field strength is set to 1.34111 kHz.

relax> relax_disp.spin_lock_offset(spectrum_id='22_1000_46_10', offset=130.41606292412092)
Setting the '22_1000_46_10' spectrum spin-lock offset to 130.416062924 ppm.

relax> relax_disp.relax_time(spectrum_id='22_1000_46_10', time=0.1)
Setting the '22_1000_46_10' spectrum relaxation time period to 0.1 s.

relax> spectrometer.frequency(id='22_1000_46_10', frq=799.7773991, units='MHz')

relax> spectrum.read_intensities(file='25_1000_46_20_max_standard.ser', dir='/Users/tlinnet/software/relax_trunk/test_suite/shared_data/dispersion/Kjaergaard_et_al_2013/peak_lists', spectrum_id='25_1000_46_20', dim=1, int_method='height', int_col=None, spin_id_col=None, mol_name_col=None, res_num_col=None, res_name_col=None, spin_num_col=None, spin_name_col=None, sep=None, spin_id=None, ncproc=None)
Opening the file '/Users/tlinnet/software/relax_trunk/test_suite/shared_data/dispersion/Kjaergaard_et_al_2013/peak_lists/25_1000_46_20_max_standard.ser' for reading.
NMRPipe SeriesTab formatted data file.


The following intensities have been loaded into the relax data store:

# Spin_ID    Intensity    
:5@N         91544.77     
:6@N         50208.32     
:8@N         6451.406     
:9@N         18632.33     
:10@N        26661.94     
:11@N        66084.72     
:12@N        13991.23     
:13@N        16573.12     
:14@N        40508.78     
:15@N        57559.3      
:16@N        10194.76     
:17@N        12765.48     
:18@N        8572.019     
:19@N        19454.06     
:21@N        16750.97     
:24@N        15411.31     
:25@N        9326.331     
:26@N        23171.6      
:27@N        37302.5      
:28@N        54055.49     
:29@N        48364.77     
:30@N        40466.3      
:31@N        42552.62     
:32@N        21656.47     
:33@N        62967.95     
:34@N        17801.2      
:35@N        47389.54     
:36@N        13832.86     
:38@N        14252.18     
:39@N        37106.16     
:40@N        21970.36     
:41@N        27645.27     
:42@N        31995.41     
:43@N        10075.74     
:44@N        6536.112     
:45@N        21334.29     
:46@N        13145.78     
:48@N        7066.318     
:49@N        11382.48     
:50@N        20347.05     
:51@N        58843.18     
:52@N        36144.12     
:53@N        65380.01     
:54@N        51550.3      
:55@N        147044.1     
:57@N        90466.05     
:58@N        217055.8     
:59@N        559263.7     


relax> spectrum.baseplane_rmsd(error=683.879, spectrum_id='25_1000_46_20', spin_id=None)

relax> relax_disp.exp_type(spectrum_id='25_1000_46_20', exp_type='R1rho')
The spectrum ID '25_1000_46_20' is now set to the R1rho-type experiment.

relax> relax_disp.spin_lock_field(spectrum_id='25_1000_46_20', field=1341.11)
The spectrum ID '25_1000_46_20' spin-lock field strength is set to 1.34111 kHz.

relax> relax_disp.spin_lock_offset(spectrum_id='25_1000_46_20', offset=130.41606292412092)
Setting the '25_1000_46_20' spectrum spin-lock offset to 130.416062924 ppm.

relax> relax_disp.relax_time(spectrum_id='25_1000_46_20', time=0.2)
Setting the '25_1000_46_20' spectrum relaxation time period to 0.2 s.

relax> spectrometer.frequency(id='25_1000_46_20', frq=799.7773991, units='MHz')

relax> spectrum.read_intensities(file='23_1000_46_40_max_standard.ser', dir='/Users/tlinnet/software/relax_trunk/test_suite/shared_data/dispersion/Kjaergaard_et_al_2013/peak_lists', spectrum_id='23_1000_46_40', dim=1, int_method='height', int_col=None, spin_id_col=None, mol_name_col=None, res_num_col=None, res_name_col=None, spin_num_col=None, spin_name_col=None, sep=None, spin_id=None, ncproc=None)
Opening the file '/Users/tlinnet/software/relax_trunk/test_suite/shared_data/dispersion/Kjaergaard_et_al_2013/peak_lists/23_1000_46_40_max_standard.ser' for reading.
NMRPipe SeriesTab formatted data file.


The following intensities have been loaded into the relax data store:

# Spin_ID    Intensity    
:5@N         54760.35     
:6@N         26621.28     
:8@N         3019.233     
:9@N         5359.56      
:10@N        5257.619     
:11@N        18517.79     
:12@N        2240.014     
:13@N        4456.143     
:14@N        13343.12     
:15@N        19363.23     
:16@N        762.2267     
:17@N        2147.273     
:18@N        1208.769     
:19@N        4386.736     
:21@N        6529.438     
:24@N        5756.724     
:25@N        1847.388     
:26@N        6351.163     
:27@N        8489.849     
:28@N        13894.4      
:29@N        14931.15     
:30@N        9735.223     
:31@N        16113.02     
:32@N        4591.842     
:33@N        18395.42     
:34@N        5846.695     
:35@N        16848.91     
:36@N        3081.379     
:38@N        5358.285     
:39@N        7665.959     
:40@N        4089.089     
:41@N        6062.876     
:42@N        5564.132     
:43@N        1644.645     
:44@N        1436.9       
:45@N        4654.88      
:46@N        2013.475     
:48@N        2288.909     
:49@N        4002.323     
:50@N        3582.817     
:51@N        22818.87     
:52@N        7215.139     
:53@N        24280.91     
:54@N        32498.48     
:55@N        98995.55     
:57@N        68994.76     
:58@N        158734.6     
:59@N        440733.6     


relax> spectrum.baseplane_rmsd(error=675.037, spectrum_id='23_1000_46_40', spin_id=None)

relax> relax_disp.exp_type(spectrum_id='23_1000_46_40', exp_type='R1rho')
The spectrum ID '23_1000_46_40' is now set to the R1rho-type experiment.

relax> relax_disp.spin_lock_field(spectrum_id='23_1000_46_40', field=1341.11)
The spectrum ID '23_1000_46_40' spin-lock field strength is set to 1.34111 kHz.

relax> relax_disp.spin_lock_offset(spectrum_id='23_1000_46_40', offset=130.41606292412092)
Setting the '23_1000_46_40' spectrum spin-lock offset to 130.416062924 ppm.

relax> relax_disp.relax_time(spectrum_id='23_1000_46_40', time=0.4)
Setting the '23_1000_46_40' spectrum relaxation time period to 0.4 s.

relax> spectrometer.frequency(id='23_1000_46_40', frq=799.7773991, units='MHz')

relax> spectrum.read_intensities(file='65_1000_48_0_max_standard.ser', dir='/Users/tlinnet/software/relax_trunk/test_suite/shared_data/dispersion/Kjaergaard_et_al_2013/peak_lists', spectrum_id='65_1000_48_0', dim=1, int_method='height', int_col=None, spin_id_col=None, mol_name_col=None, res_num_col=None, res_name_col=None, spin_num_col=None, spin_name_col=None, sep=None, spin_id=None, ncproc=None)
Opening the file '/Users/tlinnet/software/relax_trunk/test_suite/shared_data/dispersion/Kjaergaard_et_al_2013/peak_lists/65_1000_48_0_max_standard.ser' for reading.
NMRPipe SeriesTab formatted data file.


The following intensities have been loaded into the relax data store:

# Spin_ID    Intensity    
:5@N         170600.2     
:6@N         110931.0     
:8@N         21531.98     
:9@N         85284.73     
:10@N        128370.7     
:11@N        237807.8     
:12@N        125445.7     
:13@N        97063.8      
:14@N        145326.2     
:15@N        188048.5     
:16@N        120184.9     
:17@N        68324.05     
:18@N        69012.39     
:19@N        70534.05     
:21@N        56002.47     
:24@N        62468.27     
:25@N        111203.0     
:26@N        123796.1     
:27@N        145189.3     
:28@N        285501.6     
:29@N        206319.0     
:30@N        234339.2     
:31@N        142324.0     
:32@N        143863.3     
:33@N        267607.4     
:34@N        59075.54     
:35@N        159666.1     
:36@N        75203.34     
:38@N        56839.01     
:39@N        153091.4     
:40@N        117332.9     
:41@N        138412.7     
:42@N        203053.0     
:43@N        60388.72     
:44@N        63636.36     
:45@N        134093.1     
:46@N        89569.08     
:48@N        29933.14     
:49@N        42146.48     
:50@N        101337.4     
:51@N        168808.8     
:52@N        211855.7     
:53@N        201756.6     
:54@N        93512.51     
:55@N        242731.2     
:57@N        149246.9     
:58@N        316192.7     
:59@N        698869.8     


relax> spectrum.baseplane_rmsd(error=885.384, spectrum_id='65_1000_48_0', spin_id=None)

relax> relax_disp.exp_type(spectrum_id='65_1000_48_0', exp_type='R1rho')
The spectrum ID '65_1000_48_0' is now set to the R1rho-type experiment.

relax> relax_disp.spin_lock_field(spectrum_id='65_1000_48_0', field=1648.5)
The spectrum ID '65_1000_48_0' spin-lock field strength is set to 1.6485 kHz.

relax> relax_disp.spin_lock_offset(spectrum_id='65_1000_48_0', offset=130.41606292412092)
Setting the '65_1000_48_0' spectrum spin-lock offset to 130.416062924 ppm.

relax> relax_disp.relax_time(spectrum_id='65_1000_48_0', time=0.0)
Setting the '65_1000_48_0' spectrum relaxation time period to 0.0 s.

relax> spectrometer.frequency(id='65_1000_48_0', frq=799.7773991, units='MHz')

relax> spectrum.read_intensities(file='68_1000_48_4_max_standard.ser', dir='/Users/tlinnet/software/relax_trunk/test_suite/shared_data/dispersion/Kjaergaard_et_al_2013/peak_lists', spectrum_id='68_1000_48_4', dim=1, int_method='height', int_col=None, spin_id_col=None, mol_name_col=None, res_num_col=None, res_name_col=None, spin_num_col=None, spin_name_col=None, sep=None, spin_id=None, ncproc=None)
Opening the file '/Users/tlinnet/software/relax_trunk/test_suite/shared_data/dispersion/Kjaergaard_et_al_2013/peak_lists/68_1000_48_4_max_standard.ser' for reading.
NMRPipe SeriesTab formatted data file.


The following intensities have been loaded into the relax data store:

# Spin_ID    Intensity    
:5@N         152318.5     
:6@N         95090.98     
:8@N         16290.21     
:9@N         61780.04     
:10@N        83492.93     
:11@N        180913.5     
:12@N        83633.52     
:13@N        66335.6      
:14@N        107164.0     
:15@N        139587.9     
:16@N        69730.39     
:17@N        49063.9      
:18@N        40624.85     
:19@N        55032.81     
:21@N        41376.77     
:24@N        44669.62     
:25@N        60840.79     
:26@N        86410.3      
:27@N        103285.2     
:28@N        194425.9     
:29@N        150480.8     
:30@N        153544.0     
:31@N        105233.6     
:32@N        98649.96     
:33@N        189714.2     
:34@N        44151.25     
:35@N        120252.8     
:36@N        48245.75     
:38@N        40852.11     
:39@N        110439.1     
:40@N        76615.36     
:41@N        97066.5      
:42@N        140331.9     
:43@N        38179.94     
:44@N        38558.07     
:45@N        88735.16     
:46@N        57435.17     
:48@N        22263.12     
:49@N        32607.3      
:50@N        72190.23     
:51@N        138209.6     
:52@N        145040.9     
:53@N        163555.7     
:54@N        82963.33     
:55@N        226816.9     
:57@N        138054.2     
:58@N        301251.2     
:59@N        667384.6     


relax> spectrum.baseplane_rmsd(error=1035.79, spectrum_id='68_1000_48_4', spin_id=None)

relax> relax_disp.exp_type(spectrum_id='68_1000_48_4', exp_type='R1rho')
The spectrum ID '68_1000_48_4' is now set to the R1rho-type experiment.

relax> relax_disp.spin_lock_field(spectrum_id='68_1000_48_4', field=1648.5)
The spectrum ID '68_1000_48_4' spin-lock field strength is set to 1.6485 kHz.

relax> relax_disp.spin_lock_offset(spectrum_id='68_1000_48_4', offset=130.41606292412092)
Setting the '68_1000_48_4' spectrum spin-lock offset to 130.416062924 ppm.

relax> relax_disp.relax_time(spectrum_id='68_1000_48_4', time=0.04)
Setting the '68_1000_48_4' spectrum relaxation time period to 0.04 s.

relax> spectrometer.frequency(id='68_1000_48_4', frq=799.7773991, units='MHz')

relax> spectrum.read_intensities(file='66_1000_48_10_max_standard.ser', dir='/Users/tlinnet/software/relax_trunk/test_suite/shared_data/dispersion/Kjaergaard_et_al_2013/peak_lists', spectrum_id='66_1000_48_10', dim=1, int_method='height', int_col=None, spin_id_col=None, mol_name_col=None, res_num_col=None, res_name_col=None, spin_num_col=None, spin_name_col=None, sep=None, spin_id=None, ncproc=None)
Opening the file '/Users/tlinnet/software/relax_trunk/test_suite/shared_data/dispersion/Kjaergaard_et_al_2013/peak_lists/66_1000_48_10_max_standard.ser' for reading.
NMRPipe SeriesTab formatted data file.


The following intensities have been loaded into the relax data store:

# Spin_ID    Intensity    
:5@N         121699.5     
:6@N         73765.52     
:8@N         12117.35     
:9@N         37047.19     
:10@N        43794.54     
:11@N        113207.7     
:12@N        50858.53     
:13@N        38112.52     
:14@N        69686.41     
:15@N        90941.94     
:16@N        30399.0      
:17@N        32014.62     
:18@N        17441.16     
:19@N        32873.73     
:21@N        29000.78     
:24@N        31071.31     
:25@N        23770.16     
:26@N        49610.3      
:27@N        56983.84     
:28@N        108632.1     
:29@N        98805.77     
:30@N        77441.81     
:31@N        68820.89     
:32@N        54292.84     
:33@N        112473.2     
:34@N        30252.74     
:35@N        72980.91     
:36@N        23709.26     
:38@N        26451.12     
:39@N        65958.81     
:40@N        41231.11     
:41@N        55213.62     
:42@N        77523.15     
:43@N        18937.23     
:44@N        19120.37     
:45@N        45718.8      
:46@N        29417.18     
:48@N        13901.23     
:49@N        20971.09     
:50@N        45759.68     
:51@N        98560.38     
:52@N        81374.47     
:53@N        115126.1     
:54@N        66656.45     
:55@N        195559.4     
:57@N        121201.2     
:58@N        256486.1     
:59@N        602523.3     


relax> spectrum.baseplane_rmsd(error=782.57, spectrum_id='66_1000_48_10', spin_id=None)

relax> relax_disp.exp_type(spectrum_id='66_1000_48_10', exp_type='R1rho')
The spectrum ID '66_1000_48_10' is now set to the R1rho-type experiment.

relax> relax_disp.spin_lock_field(spectrum_id='66_1000_48_10', field=1648.5)
The spectrum ID '66_1000_48_10' spin-lock field strength is set to 1.6485 kHz.

relax> relax_disp.spin_lock_offset(spectrum_id='66_1000_48_10', offset=130.41606292412092)
Setting the '66_1000_48_10' spectrum spin-lock offset to 130.416062924 ppm.

relax> relax_disp.relax_time(spectrum_id='66_1000_48_10', time=0.1)
Setting the '66_1000_48_10' spectrum relaxation time period to 0.1 s.

relax> spectrometer.frequency(id='66_1000_48_10', frq=799.7773991, units='MHz')

relax> spectrum.read_intensities(file='67_1000_48_14_max_standard.ser', dir='/Users/tlinnet/software/relax_trunk/test_suite/shared_data/dispersion/Kjaergaard_et_al_2013/peak_lists', spectrum_id='67_1000_48_14', dim=1, int_method='height', int_col=None, spin_id_col=None, mol_name_col=None, res_num_col=None, res_name_col=None, spin_num_col=None, spin_name_col=None, sep=None, spin_id=None, ncproc=None)
Opening the file '/Users/tlinnet/software/relax_trunk/test_suite/shared_data/dispersion/Kjaergaard_et_al_2013/peak_lists/67_1000_48_14_max_standard.ser' for reading.
NMRPipe SeriesTab formatted data file.


The following intensities have been loaded into the relax data store:

# Spin_ID    Intensity    
:5@N         107176.8     
:6@N         64377.84     
:8@N         9030.649     
:9@N         27350.56     
:10@N        28982.04     
:11@N        80312.63     
:12@N        35737.13     
:13@N        26663.7      
:14@N        54251.31     
:15@N        69980.31     
:16@N        17332.86     
:17@N        22695.8      
:18@N        9993.794     
:19@N        23308.15     
:21@N        20990.39     
:24@N        23375.6      
:25@N        13661.41     
:26@N        34739.35     
:27@N        36289.11     
:28@N        73241.34     
:29@N        73852.11     
:30@N        49119.54     
:31@N        53127.64     
:32@N        39235.13     
:33@N        80204.1      
:34@N        24642.38     
:35@N        50625.16     
:36@N        13410.98     
:38@N        19269.41     
:39@N        46568.45     
:40@N        26551.84     
:41@N        36307.59     
:42@N        49398.75     
:43@N        12842.33     
:44@N        11932.77     
:45@N        29031.96     
:46@N        17877.56     
:48@N        9639.786     
:49@N        18510.91     
:50@N        36062.16     
:51@N        80170.57     
:52@N        55286.82     
:53@N        94442.23     
:54@N        60365.68     
:55@N        178866.6     
:57@N        110412.6     
:58@N        232942.7     
:59@N        567611.6     


relax> spectrum.baseplane_rmsd(error=824.988, spectrum_id='67_1000_48_14', spin_id=None)

relax> relax_disp.exp_type(spectrum_id='67_1000_48_14', exp_type='R1rho')
The spectrum ID '67_1000_48_14' is now set to the R1rho-type experiment.

relax> relax_disp.spin_lock_field(spectrum_id='67_1000_48_14', field=1648.5)
The spectrum ID '67_1000_48_14' spin-lock field strength is set to 1.6485 kHz.

relax> relax_disp.spin_lock_offset(spectrum_id='67_1000_48_14', offset=130.41606292412092)
Setting the '67_1000_48_14' spectrum spin-lock offset to 130.416062924 ppm.

relax> relax_disp.relax_time(spectrum_id='67_1000_48_14', time=0.14)
Setting the '67_1000_48_14' spectrum relaxation time period to 0.14 s.

relax> spectrometer.frequency(id='67_1000_48_14', frq=799.7773991, units='MHz')

relax> spectrum.read_intensities(file='69_1000_48_20_max_standard.ser', dir='/Users/tlinnet/software/relax_trunk/test_suite/shared_data/dispersion/Kjaergaard_et_al_2013/peak_lists', spectrum_id='69_1000_48_20', dim=1, int_method='height', int_col=None, spin_id_col=None, mol_name_col=None, res_num_col=None, res_name_col=None, spin_num_col=None, spin_name_col=None, sep=None, spin_id=None, ncproc=None)
Opening the file '/Users/tlinnet/software/relax_trunk/test_suite/shared_data/dispersion/Kjaergaard_et_al_2013/peak_lists/69_1000_48_20_max_standard.ser' for reading.
NMRPipe SeriesTab formatted data file.


The following intensities have been loaded into the relax data store:

# Spin_ID    Intensity    
:5@N         88250.68     
:6@N         52365.93     
:8@N         5713.104     
:9@N         17414.73     
:10@N        12110.56     
:11@N        42656.77     
:12@N        23109.08     
:13@N        13378.68     
:14@N        35699.66     
:15@N        45612.86     
:16@N        7241.733     
:17@N        15195.36     
:18@N        4740.962     
:19@N        8214.174     
:21@N        11160.89     
:24@N        15430.17     
:25@N        6611.364     
:26@N        18732.2      
:27@N        17205.49     
:28@N        40405.22     
:29@N        48312.0      
:30@N        23337.69     
:31@N        36596.21     
:32@N        24674.35     
:33@N        51801.5      
:34@N        18159.59     
:35@N        28068.54     
:36@N        4980.529     
:38@N        12585.45     
:39@N        25671.94     
:40@N        14496.29     
:41@N        22344.15     
:42@N        22552.05     
:43@N        6332.416     
:44@N        3984.336     
:45@N        13307.09     
:46@N        9076.298     
:48@N        4998.127     
:49@N        12911.35     
:50@N        24337.52     
:51@N        56216.59     
:52@N        31720.62     
:53@N        64522.11     
:54@N        49908.52     
:55@N        150401.5     
:57@N        97199.52     
:58@N        190012.6     
:59@N        499122.5     


relax> spectrum.baseplane_rmsd(error=1219.07, spectrum_id='69_1000_48_20', spin_id=None)

relax> relax_disp.exp_type(spectrum_id='69_1000_48_20', exp_type='R1rho')
The spectrum ID '69_1000_48_20' is now set to the R1rho-type experiment.

relax> relax_disp.spin_lock_field(spectrum_id='69_1000_48_20', field=1648.5)
The spectrum ID '69_1000_48_20' spin-lock field strength is set to 1.6485 kHz.

relax> relax_disp.spin_lock_offset(spectrum_id='69_1000_48_20', offset=130.41606292412092)
Setting the '69_1000_48_20' spectrum spin-lock offset to 130.416062924 ppm.

relax> relax_disp.relax_time(spectrum_id='69_1000_48_20', time=0.2)
Setting the '69_1000_48_20' spectrum relaxation time period to 0.2 s.

relax> spectrometer.frequency(id='69_1000_48_20', frq=799.7773991, units='MHz')

relax> spectrum.read_intensities(file='55_2000_41_0_max_standard.ser', dir='/Users/tlinnet/software/relax_trunk/test_suite/shared_data/dispersion/Kjaergaard_et_al_2013/peak_lists', spectrum_id='55_2000_41_0', dim=1, int_method='height', int_col=None, spin_id_col=None, mol_name_col=None, res_num_col=None, res_name_col=None, spin_num_col=None, spin_name_col=None, sep=None, spin_id=None, ncproc=None)
Opening the file '/Users/tlinnet/software/relax_trunk/test_suite/shared_data/dispersion/Kjaergaard_et_al_2013/peak_lists/55_2000_41_0_max_standard.ser' for reading.
NMRPipe SeriesTab formatted data file.


The following intensities have been loaded into the relax data store:

# Spin_ID    Intensity    
:5@N         167549.4     
:6@N         111336.3     
:8@N         20056.99     
:9@N         81765.86     
:10@N        120760.0     
:11@N        235234.0     
:12@N        138580.3     
:13@N        103622.9     
:14@N        149060.1     
:15@N        193654.0     
:16@N        119196.2     
:17@N        75097.48     
:18@N        61173.04     
:19@N        68331.15     
:21@N        55273.58     
:24@N        60231.63     
:25@N        114861.5     
:26@N        121579.0     
:27@N        127766.1     
:28@N        288518.2     
:29@N        216631.6     
:30@N        208131.5     
:31@N        145745.5     
:32@N        144586.8     
:33@N        257858.0     
:34@N        62969.6      
:35@N        150168.2     
:36@N        67365.79     
:38@N        56586.41     
:39@N        159248.5     
:40@N        124307.5     
:41@N        138315.2     
:42@N        194219.4     
:43@N        66472.88     
:44@N        66177.85     
:45@N        133819.4     
:46@N        84208.38     
:48@N        29551.48     
:49@N        41177.4      
:50@N        95184.3      
:51@N        167054.2     
:52@N        214775.3     
:53@N        203353.5     
:54@N        88049.63     
:55@N        241272.5     
:57@N        140089.7     
:58@N        299844.7     
:59@N        679494.3     


relax> spectrum.baseplane_rmsd(error=826.211, spectrum_id='55_2000_41_0', spin_id=None)

relax> relax_disp.exp_type(spectrum_id='55_2000_41_0', exp_type='R1rho')
The spectrum ID '55_2000_41_0' is now set to the R1rho-type experiment.

relax> relax_disp.spin_lock_field(spectrum_id='55_2000_41_0', field=800.5)
The spectrum ID '55_2000_41_0' spin-lock field strength is set to 0.8005 kHz.

relax> relax_disp.spin_lock_offset(spectrum_id='55_2000_41_0', offset=142.75412584824184)
Setting the '55_2000_41_0' spectrum spin-lock offset to 142.754125848 ppm.

relax> relax_disp.relax_time(spectrum_id='55_2000_41_0', time=0.0)
Setting the '55_2000_41_0' spectrum relaxation time period to 0.0 s.

relax> spectrometer.frequency(id='55_2000_41_0', frq=799.7773991, units='MHz')

relax> spectrum.read_intensities(file='58_2000_41_4_max_standard.ser', dir='/Users/tlinnet/software/relax_trunk/test_suite/shared_data/dispersion/Kjaergaard_et_al_2013/peak_lists', spectrum_id='58_2000_41_4', dim=1, int_method='height', int_col=None, spin_id_col=None, mol_name_col=None, res_num_col=None, res_name_col=None, spin_num_col=None, spin_name_col=None, sep=None, spin_id=None, ncproc=None)
Opening the file '/Users/tlinnet/software/relax_trunk/test_suite/shared_data/dispersion/Kjaergaard_et_al_2013/peak_lists/58_2000_41_4_max_standard.ser' for reading.
NMRPipe SeriesTab formatted data file.


The following intensities have been loaded into the relax data store:

# Spin_ID    Intensity    
:5@N         156062.6     
:6@N         103727.5     
:8@N         16993.32     
:9@N         70111.03     
:10@N        105215.9     
:11@N        213699.0     
:12@N        121134.5     
:13@N        91274.18     
:14@N        135194.4     
:15@N        173223.0     
:16@N        101326.9     
:17@N        67487.45     
:18@N        52034.99     
:19@N        62216.55     
:21@N        48517.12     
:24@N        52540.89     
:25@N        93806.98     
:26@N        106833.2     
:27@N        113666.8     
:28@N        255461.0     
:29@N        194016.6     
:30@N        181128.2     
:31@N        130982.8     
:32@N        126678.2     
:33@N        230280.3     
:34@N        57006.27     
:35@N        134938.3     
:36@N        58314.9      
:38@N        48687.7      
:39@N        142183.8     
:40@N        109625.3     
:41@N        122158.8     
:42@N        171670.3     
:43@N        57434.99     
:44@N        58089.28     
:45@N        114317.3     
:46@N        74048.39     
:48@N        24560.6      
:49@N        34571.09     
:50@N        83892.88     
:51@N        153109.7     
:52@N        187579.6     
:53@N        183631.8     
:54@N        81588.47     
:55@N        227274.2     
:57@N        131688.7     
:58@N        290785.4     
:59@N        657438.2     


relax> spectrum.baseplane_rmsd(error=773.778, spectrum_id='58_2000_41_4', spin_id=None)

relax> relax_disp.exp_type(spectrum_id='58_2000_41_4', exp_type='R1rho')
The spectrum ID '58_2000_41_4' is now set to the R1rho-type experiment.

relax> relax_disp.spin_lock_field(spectrum_id='58_2000_41_4', field=800.5)
The spectrum ID '58_2000_41_4' spin-lock field strength is set to 0.8005 kHz.

relax> relax_disp.spin_lock_offset(spectrum_id='58_2000_41_4', offset=142.75412584824184)
Setting the '58_2000_41_4' spectrum spin-lock offset to 142.754125848 ppm.

relax> relax_disp.relax_time(spectrum_id='58_2000_41_4', time=0.04)
Setting the '58_2000_41_4' spectrum relaxation time period to 0.04 s.

relax> spectrometer.frequency(id='58_2000_41_4', frq=799.7773991, units='MHz')

relax> spectrum.read_intensities(file='56_2000_41_10_max_standard.ser', dir='/Users/tlinnet/software/relax_trunk/test_suite/shared_data/dispersion/Kjaergaard_et_al_2013/peak_lists', spectrum_id='56_2000_41_10', dim=1, int_method='height', int_col=None, spin_id_col=None, mol_name_col=None, res_num_col=None, res_name_col=None, spin_num_col=None, spin_name_col=None, sep=None, spin_id=None, ncproc=None)
Opening the file '/Users/tlinnet/software/relax_trunk/test_suite/shared_data/dispersion/Kjaergaard_et_al_2013/peak_lists/56_2000_41_10_max_standard.ser' for reading.
NMRPipe SeriesTab formatted data file.


The following intensities have been loaded into the relax data store:

# Spin_ID    Intensity    
:5@N         140513.4     
:6@N         91717.19     
:8@N         15741.1      
:9@N         59509.73     
:10@N        86824.73     
:11@N        184232.5     
:12@N        103126.4     
:13@N        75542.84     
:14@N        117236.5     
:15@N        152240.5     
:16@N        82654.63     
:17@N        56510.81     
:18@N        42238.18     
:19@N        53139.77     
:21@N        43410.49     
:24@N        46002.3      
:25@N        71916.48     
:26@N        91197.35     
:27@N        94976.39     
:28@N        213114.1     
:29@N        169384.7     
:30@N        149416.9     
:31@N        113455.9     
:32@N        105807.9     
:33@N        194079.2     
:34@N        50685.33     
:35@N        115706.3     
:36@N        48179.02     
:38@N        42336.37     
:39@N        120287.2     
:40@N        91974.06     
:41@N        103710.0     
:42@N        142797.2     
:43@N        47441.7      
:44@N        47729.04     
:45@N        94468.54     
:46@N        59819.82     
:48@N        22121.29     
:49@N        29576.68     
:50@N        72359.73     
:51@N        133559.1     
:52@N        155589.6     
:53@N        156845.2     
:54@N        74504.79     
:55@N        209803.8     
:57@N        121453.4     
:58@N        265358.2     
:59@N        620253.2     


relax> spectrum.baseplane_rmsd(error=746.752, spectrum_id='56_2000_41_10', spin_id=None)

relax> relax_disp.exp_type(spectrum_id='56_2000_41_10', exp_type='R1rho')
The spectrum ID '56_2000_41_10' is now set to the R1rho-type experiment.

relax> relax_disp.spin_lock_field(spectrum_id='56_2000_41_10', field=800.5)
The spectrum ID '56_2000_41_10' spin-lock field strength is set to 0.8005 kHz.

relax> relax_disp.spin_lock_offset(spectrum_id='56_2000_41_10', offset=142.75412584824184)
Setting the '56_2000_41_10' spectrum spin-lock offset to 142.754125848 ppm.

relax> relax_disp.relax_time(spectrum_id='56_2000_41_10', time=0.1)
Setting the '56_2000_41_10' spectrum relaxation time period to 0.1 s.

relax> spectrometer.frequency(id='56_2000_41_10', frq=799.7773991, units='MHz')

relax> spectrum.read_intensities(file='59_2000_41_20_max_standard.ser', dir='/Users/tlinnet/software/relax_trunk/test_suite/shared_data/dispersion/Kjaergaard_et_al_2013/peak_lists', spectrum_id='59_2000_41_20', dim=1, int_method='height', int_col=None, spin_id_col=None, mol_name_col=None, res_num_col=None, res_name_col=None, spin_num_col=None, spin_name_col=None, sep=None, spin_id=None, ncproc=None)
Opening the file '/Users/tlinnet/software/relax_trunk/test_suite/shared_data/dispersion/Kjaergaard_et_al_2013/peak_lists/59_2000_41_20_max_standard.ser' for reading.
NMRPipe SeriesTab formatted data file.


The following intensities have been loaded into the relax data store:

# Spin_ID    Intensity    
:5@N         120563.5     
:6@N         77696.77     
:8@N         12544.14     
:9@N         42118.75     
:10@N        61786.22     
:11@N        140239.1     
:12@N        78109.68     
:13@N        55149.26     
:14@N        90821.74     
:15@N        119647.4     
:16@N        58780.47     
:17@N        43178.84     
:18@N        28924.61     
:19@N        41775.48     
:21@N        34176.25     
:24@N        37927.43     
:25@N        45117.91     
:26@N        67825.94     
:27@N        68707.52     
:28@N        154406.5     
:29@N        130563.4     
:30@N        104786.5     
:31@N        89441.85     
:32@N        77312.04     
:33@N        146004.3     
:34@N        40614.25     
:35@N        87637.95     
:36@N        34185.48     
:38@N        33063.46     
:39@N        88401.89     
:40@N        65954.16     
:41@N        75279.22     
:42@N        104824.9     
:43@N        33056.42     
:44@N        32371.29     
:45@N        66106.12     
:46@N        43603.8      
:48@N        17873.59     
:49@N        22851.73     
:50@N        55318.21     
:51@N        108099.8     
:52@N        112181.6     
:53@N        122245.9     
:54@N        64931.04     
:55@N        182772.8     
:57@N        109969.2     
:58@N        232919.5     
:59@N        564517.6     


relax> spectrum.baseplane_rmsd(error=733.603, spectrum_id='59_2000_41_20', spin_id=None)

relax> relax_disp.exp_type(spectrum_id='59_2000_41_20', exp_type='R1rho')
The spectrum ID '59_2000_41_20' is now set to the R1rho-type experiment.

relax> relax_disp.spin_lock_field(spectrum_id='59_2000_41_20', field=800.5)
The spectrum ID '59_2000_41_20' spin-lock field strength is set to 0.8005 kHz.

relax> relax_disp.spin_lock_offset(spectrum_id='59_2000_41_20', offset=142.75412584824184)
Setting the '59_2000_41_20' spectrum spin-lock offset to 142.754125848 ppm.

relax> relax_disp.relax_time(spectrum_id='59_2000_41_20', time=0.2)
Setting the '59_2000_41_20' spectrum relaxation time period to 0.2 s.

relax> spectrometer.frequency(id='59_2000_41_20', frq=799.7773991, units='MHz')

relax> spectrum.read_intensities(file='57_2000_41_40_max_standard.ser', dir='/Users/tlinnet/software/relax_trunk/test_suite/shared_data/dispersion/Kjaergaard_et_al_2013/peak_lists', spectrum_id='57_2000_41_40', dim=1, int_method='height', int_col=None, spin_id_col=None, mol_name_col=None, res_num_col=None, res_name_col=None, spin_num_col=None, spin_name_col=None, sep=None, spin_id=None, ncproc=None)
Opening the file '/Users/tlinnet/software/relax_trunk/test_suite/shared_data/dispersion/Kjaergaard_et_al_2013/peak_lists/57_2000_41_40_max_standard.ser' for reading.
NMRPipe SeriesTab formatted data file.


The following intensities have been loaded into the relax data store:

# Spin_ID    Intensity    
:5@N         90564.55     
:6@N         56260.73     
:8@N         9240.009     
:9@N         24657.26     
:10@N        31827.73     
:11@N        80638.38     
:12@N        44524.54     
:13@N        29989.46     
:14@N        55665.2      
:15@N        74421.83     
:16@N        27409.66     
:17@N        26047.5      
:18@N        12772.07     
:19@N        24636.71     
:21@N        24252.8      
:24@N        25469.93     
:25@N        17949.73     
:26@N        37825.92     
:27@N        36110.16     
:28@N        83304.73     
:29@N        79053.2      
:30@N        52521.55     
:31@N        56542.66     
:32@N        40835.3      
:33@N        82256.32     
:34@N        24689.74     
:35@N        52541.12     
:36@N        15810.9      
:38@N        20422.98     
:39@N        47779.01     
:40@N        35110.51     
:41@N        40494.37     
:42@N        54328.91     
:43@N        17382.84     
:44@N        15586.23     
:45@N        33095.26     
:46@N        23610.88     
:48@N        13078.86     
:49@N        15637.43     
:50@N        34873.62     
:51@N        73871.65     
:52@N        58569.01     
:53@N        74027.7      
:54@N        50016.82     
:55@N        145942.9     
:57@N        90329.84     
:58@N        183183.4     
:59@N        463656.1     


relax> spectrum.baseplane_rmsd(error=711.024, spectrum_id='57_2000_41_40', spin_id=None)

relax> relax_disp.exp_type(spectrum_id='57_2000_41_40', exp_type='R1rho')
The spectrum ID '57_2000_41_40' is now set to the R1rho-type experiment.

relax> relax_disp.spin_lock_field(spectrum_id='57_2000_41_40', field=800.5)
The spectrum ID '57_2000_41_40' spin-lock field strength is set to 0.8005 kHz.

relax> relax_disp.spin_lock_offset(spectrum_id='57_2000_41_40', offset=142.75412584824184)
Setting the '57_2000_41_40' spectrum spin-lock offset to 142.754125848 ppm.

relax> relax_disp.relax_time(spectrum_id='57_2000_41_40', time=0.4)
Setting the '57_2000_41_40' spectrum relaxation time period to 0.4 s.

relax> spectrometer.frequency(id='57_2000_41_40', frq=799.7773991, units='MHz')

relax> spectrum.read_intensities(file='6_2000_46_0_max_standard.ser', dir='/Users/tlinnet/software/relax_trunk/test_suite/shared_data/dispersion/Kjaergaard_et_al_2013/peak_lists', spectrum_id='6_2000_46_0', dim=1, int_method='height', int_col=None, spin_id_col=None, mol_name_col=None, res_num_col=None, res_name_col=None, spin_num_col=None, spin_name_col=None, sep=None, spin_id=None, ncproc=None)
Opening the file '/Users/tlinnet/software/relax_trunk/test_suite/shared_data/dispersion/Kjaergaard_et_al_2013/peak_lists/6_2000_46_0_max_standard.ser' for reading.
NMRPipe SeriesTab formatted data file.


The following intensities have been loaded into the relax data store:

# Spin_ID    Intensity    
:5@N         178348.5     
:6@N         114305.7     
:8@N         18844.43     
:9@N         78702.98     
:10@N        161413.9     
:11@N        242851.9     
:12@N        89761.46     
:13@N        109164.9     
:14@N        153013.5     
:15@N        217418.6     
:16@N        119949.8     
:17@N        74347.26     
:18@N        78156.5      
:19@N        77584.48     
:21@N        57025.21     
:24@N        53874.7      
:25@N        141426.1     
:26@N        121036.9     
:27@N        180141.3     
:28@N        313151.3     
:29@N        190731.2     
:30@N        266017.4     
:31@N        152229.9     
:32@N        146909.9     
:33@N        325902.4     
:34@N        62793.46     
:35@N        162299.1     
:36@N        90680.84     
:38@N        55204.18     
:39@N        196142.9     
:40@N        144884.7     
:41@N        145686.2     
:42@N        187573.0     
:43@N        98429.52     
:44@N        76251.98     
:45@N        148839.8     
:46@N        88317.91     
:48@N        27613.17     
:49@N        38483.25     
:50@N        87733.12     
:51@N        165148.7     
:52@N        228563.1     
:53@N        204572.8     
:54@N        95253.96     
:55@N        222340.1     
:57@N        130226.2     
:58@N        321628.1     
:59@N        733576.6     


relax> spectrum.baseplane_rmsd(error=801.76, spectrum_id='6_2000_46_0', spin_id=None)

relax> relax_disp.exp_type(spectrum_id='6_2000_46_0', exp_type='R1rho')
The spectrum ID '6_2000_46_0' is now set to the R1rho-type experiment.

relax> relax_disp.spin_lock_field(spectrum_id='6_2000_46_0', field=1341.11)
The spectrum ID '6_2000_46_0' spin-lock field strength is set to 1.34111 kHz.

relax> relax_disp.spin_lock_offset(spectrum_id='6_2000_46_0', offset=142.75412584824184)
Setting the '6_2000_46_0' spectrum spin-lock offset to 142.754125848 ppm.

relax> relax_disp.relax_time(spectrum_id='6_2000_46_0', time=0.0)
Setting the '6_2000_46_0' spectrum relaxation time period to 0.0 s.

relax> spectrometer.frequency(id='6_2000_46_0', frq=799.7773991, units='MHz')

relax> spectrum.read_intensities(file='9_2000_46_4_max_standard.ser', dir='/Users/tlinnet/software/relax_trunk/test_suite/shared_data/dispersion/Kjaergaard_et_al_2013/peak_lists', spectrum_id='9_2000_46_4', dim=1, int_method='height', int_col=None, spin_id_col=None, mol_name_col=None, res_num_col=None, res_name_col=None, spin_num_col=None, spin_name_col=None, sep=None, spin_id=None, ncproc=None)
Opening the file '/Users/tlinnet/software/relax_trunk/test_suite/shared_data/dispersion/Kjaergaard_et_al_2013/peak_lists/9_2000_46_4_max_standard.ser' for reading.
NMRPipe SeriesTab formatted data file.


The following intensities have been loaded into the relax data store:

# Spin_ID    Intensity    
:5@N         162053.2     
:6@N         100349.2     
:8@N         14772.58     
:9@N         61594.01     
:10@N        131825.6     
:11@N        209921.3     
:12@N        74386.27     
:13@N        89605.05     
:14@N        130798.3     
:15@N        185310.7     
:16@N        88227.06     
:17@N        63596.71     
:18@N        59335.35     
:19@N        67490.45     
:21@N        48442.94     
:24@N        44682.47     
:25@N        103433.4     
:26@N        98724.99     
:27@N        147851.8     
:28@N        257189.1     
:29@N        157471.3     
:30@N        207526.4     
:31@N        129781.8     
:32@N        114877.0     
:33@N        266299.9     
:34@N        55071.09     
:35@N        136025.0     
:36@N        73478.31     
:38@N        44896.48     
:39@N        163772.3     
:40@N        118262.7     
:41@N        119047.0     
:42@N        147467.7     
:43@N        78698.45     
:44@N        60053.12     
:45@N        116745.7     
:46@N        68687.66     
:48@N        21061.62     
:49@N        31015.84     
:50@N        72948.31     
:51@N        143587.7     
:52@N        181972.6     
:53@N        177984.1     
:54@N        83894.19     
:55@N        207016.2     
:57@N        118489.3     
:58@N        305070.1     
:59@N        700249.6     


relax> spectrum.baseplane_rmsd(error=790.233, spectrum_id='9_2000_46_4', spin_id=None)

relax> relax_disp.exp_type(spectrum_id='9_2000_46_4', exp_type='R1rho')
The spectrum ID '9_2000_46_4' is now set to the R1rho-type experiment.

relax> relax_disp.spin_lock_field(spectrum_id='9_2000_46_4', field=1341.11)
The spectrum ID '9_2000_46_4' spin-lock field strength is set to 1.34111 kHz.

relax> relax_disp.spin_lock_offset(spectrum_id='9_2000_46_4', offset=142.75412584824184)
Setting the '9_2000_46_4' spectrum spin-lock offset to 142.754125848 ppm.

relax> relax_disp.relax_time(spectrum_id='9_2000_46_4', time=0.04)
Setting the '9_2000_46_4' spectrum relaxation time period to 0.04 s.

relax> spectrometer.frequency(id='9_2000_46_4', frq=799.7773991, units='MHz')

relax> spectrum.read_intensities(file='7_2000_46_10_max_standard.ser', dir='/Users/tlinnet/software/relax_trunk/test_suite/shared_data/dispersion/Kjaergaard_et_al_2013/peak_lists', spectrum_id='7_2000_46_10', dim=1, int_method='height', int_col=None, spin_id_col=None, mol_name_col=None, res_num_col=None, res_name_col=None, spin_num_col=None, spin_name_col=None, sep=None, spin_id=None, ncproc=None)
Opening the file '/Users/tlinnet/software/relax_trunk/test_suite/shared_data/dispersion/Kjaergaard_et_al_2013/peak_lists/7_2000_46_10_max_standard.ser' for reading.
NMRPipe SeriesTab formatted data file.


The following intensities have been loaded into the relax data store:

# Spin_ID    Intensity    
:5@N         142034.3     
:6@N         86758.97     
:8@N         11986.99     
:9@N         47093.49     
:10@N        99556.2      
:11@N        167409.2     
:12@N        57222.5      
:13@N        67139.28     
:14@N        106212.5     
:15@N        148861.3     
:16@N        59808.71     
:17@N        47480.76     
:18@N        41166.96     
:19@N        51753.64     
:21@N        39074.84     
:24@N        36246.36     
:25@N        67732.67     
:26@N        75763.73     
:27@N        113493.6     
:28@N        192934.6     
:29@N        125543.7     
:30@N        149701.0     
:31@N        104403.8     
:32@N        81374.18     
:33@N        203290.1     
:34@N        44986.2      
:35@N        109448.2     
:36@N        53759.11     
:38@N        34753.62     
:39@N        127682.8     
:40@N        89394.63     
:41@N        94220.99     
:42@N        106871.7     
:43@N        56137.46     
:44@N        44263.39     
:45@N        86406.88     
:46@N        51221.54     
:48@N        17860.83     
:49@N        26400.25     
:50@N        55546.28     
:51@N        118909.1     
:52@N        135525.4     
:53@N        145514.8     
:54@N        74283.43     
:55@N        190218.1     
:57@N        108240.0     
:58@N        277068.0     
:59@N        661178.1     


relax> spectrum.baseplane_rmsd(error=727.041, spectrum_id='7_2000_46_10', spin_id=None)

relax> relax_disp.exp_type(spectrum_id='7_2000_46_10', exp_type='R1rho')
The spectrum ID '7_2000_46_10' is now set to the R1rho-type experiment.

relax> relax_disp.spin_lock_field(spectrum_id='7_2000_46_10', field=1341.11)
The spectrum ID '7_2000_46_10' spin-lock field strength is set to 1.34111 kHz.

relax> relax_disp.spin_lock_offset(spectrum_id='7_2000_46_10', offset=142.75412584824184)
Setting the '7_2000_46_10' spectrum spin-lock offset to 142.754125848 ppm.

relax> relax_disp.relax_time(spectrum_id='7_2000_46_10', time=0.1)
Setting the '7_2000_46_10' spectrum relaxation time period to 0.1 s.

relax> spectrometer.frequency(id='7_2000_46_10', frq=799.7773991, units='MHz')

relax> spectrum.read_intensities(file='10_2000_46_20_max_standard.ser', dir='/Users/tlinnet/software/relax_trunk/test_suite/shared_data/dispersion/Kjaergaard_et_al_2013/peak_lists', spectrum_id='10_2000_46_20', dim=1, int_method='height', int_col=None, spin_id_col=None, mol_name_col=None, res_num_col=None, res_name_col=None, spin_num_col=None, spin_name_col=None, sep=None, spin_id=None, ncproc=None)
Opening the file '/Users/tlinnet/software/relax_trunk/test_suite/shared_data/dispersion/Kjaergaard_et_al_2013/peak_lists/10_2000_46_20_max_standard.ser' for reading.
NMRPipe SeriesTab formatted data file.


The following intensities have been loaded into the relax data store:

# Spin_ID    Intensity    
:5@N         115571.4     
:6@N         68377.52     
:8@N         9141.689     
:9@N         29123.77     
:10@N        58914.94     
:11@N        108668.5     
:12@N        38119.77     
:13@N        39730.57     
:14@N        73029.67     
:15@N        102066.7     
:16@N        28526.98     
:17@N        29713.69     
:18@N        20737.31     
:19@N        30919.48     
:21@N        28331.06     
:24@N        23629.07     
:25@N        32225.43     
:26@N        47120.66     
:27@N        67415.76     
:28@N        116707.4     
:29@N        82912.72     
:30@N        82625.3      
:31@N        71593.86     
:32@N        45390.18     
:33@N        126534.5     
:34@N        30325.44     
:35@N        72882.44     
:36@N        28419.89     
:38@N        23622.4      
:39@N        78696.22     
:40@N        53636.87     
:41@N        58566.02     
:42@N        57720.91     
:43@N        32668.76     
:44@N        24524.8      
:45@N        49767.74     
:46@N        27918.2      
:48@N        12762.87     
:49@N        17557.25     
:50@N        36645.4      
:51@N        86797.56     
:52@N        82796.97     
:53@N        103314.1     
:54@N        60475.84     
:55@N        162460.7     
:57@N        94470.47     
:58@N        238976.2     
:59@N        593450.6     


relax> spectrum.baseplane_rmsd(error=720.919, spectrum_id='10_2000_46_20', spin_id=None)

relax> relax_disp.exp_type(spectrum_id='10_2000_46_20', exp_type='R1rho')
The spectrum ID '10_2000_46_20' is now set to the R1rho-type experiment.

relax> relax_disp.spin_lock_field(spectrum_id='10_2000_46_20', field=1341.11)
The spectrum ID '10_2000_46_20' spin-lock field strength is set to 1.34111 kHz.

relax> relax_disp.spin_lock_offset(spectrum_id='10_2000_46_20', offset=142.75412584824184)
Setting the '10_2000_46_20' spectrum spin-lock offset to 142.754125848 ppm.

relax> relax_disp.relax_time(spectrum_id='10_2000_46_20', time=0.2)
Setting the '10_2000_46_20' spectrum relaxation time period to 0.2 s.

relax> spectrometer.frequency(id='10_2000_46_20', frq=799.7773991, units='MHz')

relax> spectrum.read_intensities(file='8_2000_46_40_max_standard.ser', dir='/Users/tlinnet/software/relax_trunk/test_suite/shared_data/dispersion/Kjaergaard_et_al_2013/peak_lists', spectrum_id='8_2000_46_40', dim=1, int_method='height', int_col=None, spin_id_col=None, mol_name_col=None, res_num_col=None, res_name_col=None, spin_num_col=None, spin_name_col=None, sep=None, spin_id=None, ncproc=None)
Opening the file '/Users/tlinnet/software/relax_trunk/test_suite/shared_data/dispersion/Kjaergaard_et_al_2013/peak_lists/8_2000_46_40_max_standard.ser' for reading.
NMRPipe SeriesTab formatted data file.


The following intensities have been loaded into the relax data store:

# Spin_ID    Intensity    
:5@N         76482.55     
:6@N         43011.82     
:8@N         5233.957     
:9@N         12998.54     
:10@N        21740.38     
:11@N        42942.16     
:12@N        16096.56     
:13@N        14964.94     
:14@N        34343.8      
:15@N        49315.75     
:16@N        5496.281     
:17@N        12088.08     
:18@N        4881.353     
:19@N        10815.41     
:21@N        14927.0      
:24@N        13240.35     
:25@N        6652.607     
:26@N        19441.83     
:27@N        24054.83     
:28@N        44059.62     
:29@N        36792.12     
:30@N        27324.93     
:31@N        36044.48     
:32@N        14283.74     
:33@N        54751.32     
:34@N        16492.41     
:35@N        31305.05     
:36@N        7974.456     
:38@N        12500.97     
:39@N        28844.49     
:40@N        21228.86     
:41@N        23210.99     
:42@N        16269.51     
:43@N        11549.6      
:44@N        7883.314     
:45@N        15702.71     
:46@N        9549.168     
:48@N        5723.693     
:49@N        9248.387     
:50@N        15963.38     
:51@N        46632.22     
:52@N        30418.13     
:53@N        53141.68     
:54@N        40010.17     
:55@N        118620.5     
:57@N        72383.52     
:58@N        177714.1     
:59@N        475677.5     


relax> spectrum.baseplane_rmsd(error=690.838, spectrum_id='8_2000_46_40', spin_id=None)

relax> relax_disp.exp_type(spectrum_id='8_2000_46_40', exp_type='R1rho')
The spectrum ID '8_2000_46_40' is now set to the R1rho-type experiment.

relax> relax_disp.spin_lock_field(spectrum_id='8_2000_46_40', field=1341.11)
The spectrum ID '8_2000_46_40' spin-lock field strength is set to 1.34111 kHz.

relax> relax_disp.spin_lock_offset(spectrum_id='8_2000_46_40', offset=142.75412584824184)
Setting the '8_2000_46_40' spectrum spin-lock offset to 142.754125848 ppm.

relax> relax_disp.relax_time(spectrum_id='8_2000_46_40', time=0.4)
Setting the '8_2000_46_40' spectrum relaxation time period to 0.4 s.

relax> spectrometer.frequency(id='8_2000_46_40', frq=799.7773991, units='MHz')

relax> spectrum.read_intensities(file='16_5000_46_0_max_standard.ser', dir='/Users/tlinnet/software/relax_trunk/test_suite/shared_data/dispersion/Kjaergaard_et_al_2013/peak_lists', spectrum_id='16_5000_46_0', dim=1, int_method='height', int_col=None, spin_id_col=None, mol_name_col=None, res_num_col=None, res_name_col=None, spin_num_col=None, spin_name_col=None, sep=None, spin_id=None, ncproc=None)
Opening the file '/Users/tlinnet/software/relax_trunk/test_suite/shared_data/dispersion/Kjaergaard_et_al_2013/peak_lists/16_5000_46_0_max_standard.ser' for reading.
NMRPipe SeriesTab formatted data file.


The following intensities have been loaded into the relax data store:

# Spin_ID    Intensity    
:5@N         177147.1     
:6@N         113582.5     
:8@N         16336.6      
:9@N         80161.77     
:10@N        162222.6     
:11@N        241816.4     
:12@N        86301.96     
:13@N        109526.5     
:14@N        152150.3     
:15@N        219043.7     
:16@N        119861.6     
:17@N        74204.44     
:18@N        78390.27     
:19@N        78333.18     
:21@N        56807.52     
:24@N        53568.77     
:25@N        143726.0     
:26@N        120999.1     
:27@N        184217.7     
:28@N        315092.0     
:29@N        185219.4     
:30@N        269199.2     
:31@N        151197.2     
:32@N        147249.1     
:33@N        329486.6     
:34@N        63745.81     
:35@N        162706.7     
:36@N        91523.44     
:38@N        55292.01     
:39@N        197846.2     
:40@N        146134.8     
:41@N        145162.8     
:42@N        186725.6     
:43@N        99983.45     
:44@N        78815.96     
:45@N        150306.5     
:46@N        89855.37     
:48@N        27106.14     
:49@N        39004.15     
:50@N        87698.12     
:51@N        164264.1     
:52@N        229266.1     
:53@N        205122.1     
:54@N        95668.91     
:55@N        217412.8     
:57@N        129117.0     
:58@N        319393.2     
:59@N        727707.8     


relax> spectrum.baseplane_rmsd(error=810.43, spectrum_id='16_5000_46_0', spin_id=None)

relax> relax_disp.exp_type(spectrum_id='16_5000_46_0', exp_type='R1rho')
The spectrum ID '16_5000_46_0' is now set to the R1rho-type experiment.

relax> relax_disp.spin_lock_field(spectrum_id='16_5000_46_0', field=1341.11)
The spectrum ID '16_5000_46_0' spin-lock field strength is set to 1.34111 kHz.

relax> relax_disp.spin_lock_offset(spectrum_id='16_5000_46_0', offset=179.76831462060457)
Setting the '16_5000_46_0' spectrum spin-lock offset to 179.768314621 ppm.

relax> relax_disp.relax_time(spectrum_id='16_5000_46_0', time=0.0)
Setting the '16_5000_46_0' spectrum relaxation time period to 0.0 s.

relax> spectrometer.frequency(id='16_5000_46_0', frq=799.7773991, units='MHz')

relax> spectrum.read_intensities(file='19_5000_46_4_max_standard.ser', dir='/Users/tlinnet/software/relax_trunk/test_suite/shared_data/dispersion/Kjaergaard_et_al_2013/peak_lists', spectrum_id='19_5000_46_4', dim=1, int_method='height', int_col=None, spin_id_col=None, mol_name_col=None, res_num_col=None, res_name_col=None, spin_num_col=None, spin_name_col=None, sep=None, spin_id=None, ncproc=None)
Opening the file '/Users/tlinnet/software/relax_trunk/test_suite/shared_data/dispersion/Kjaergaard_et_al_2013/peak_lists/19_5000_46_4_max_standard.ser' for reading.
NMRPipe SeriesTab formatted data file.


The following intensities have been loaded into the relax data store:

# Spin_ID    Intensity    
:5@N         165160.5     
:6@N         103606.8     
:8@N         14900.78     
:9@N         71056.34     
:10@N        145945.6     
:11@N        225978.9     
:12@N        81600.11     
:13@N        102413.9     
:14@N        140701.3     
:15@N        199901.2     
:16@N        103672.6     
:17@N        71811.28     
:18@N        67971.53     
:19@N        71765.66     
:21@N        51355.15     
:24@N        46987.71     
:25@N        128021.7     
:26@N        110569.0     
:27@N        162016.2     
:28@N        291669.8     
:29@N        171175.1     
:30@N        236432.9     
:31@N        138498.3     
:32@N        131358.0     
:33@N        298636.6     
:34@N        60798.2      
:35@N        145220.3     
:36@N        81599.02     
:38@N        48255.79     
:39@N        184011.8     
:40@N        134910.1     
:41@N        134878.5     
:42@N        165557.8     
:43@N        90928.5      
:44@N        70594.66     
:45@N        135314.9     
:46@N        78723.84     
:48@N        24864.24     
:49@N        33199.32     
:50@N        79494.77     
:51@N        152342.2     
:52@N        207807.7     
:53@N        192289.5     
:54@N        85444.28     
:55@N        206467.7     
:57@N        118200.8     
:58@N        305189.0     
:59@N        701398.4     


relax> spectrum.baseplane_rmsd(error=744.755, spectrum_id='19_5000_46_4', spin_id=None)

relax> relax_disp.exp_type(spectrum_id='19_5000_46_4', exp_type='R1rho')
The spectrum ID '19_5000_46_4' is now set to the R1rho-type experiment.

relax> relax_disp.spin_lock_field(spectrum_id='19_5000_46_4', field=1341.11)
The spectrum ID '19_5000_46_4' spin-lock field strength is set to 1.34111 kHz.

relax> relax_disp.spin_lock_offset(spectrum_id='19_5000_46_4', offset=179.76831462060457)
Setting the '19_5000_46_4' spectrum spin-lock offset to 179.768314621 ppm.

relax> relax_disp.relax_time(spectrum_id='19_5000_46_4', time=0.04)
Setting the '19_5000_46_4' spectrum relaxation time period to 0.04 s.

relax> spectrometer.frequency(id='19_5000_46_4', frq=799.7773991, units='MHz')

relax> spectrum.read_intensities(file='17_5000_46_10_max_standard.ser', dir='/Users/tlinnet/software/relax_trunk/test_suite/shared_data/dispersion/Kjaergaard_et_al_2013/peak_lists', spectrum_id='17_5000_46_10', dim=1, int_method='height', int_col=None, spin_id_col=None, mol_name_col=None, res_num_col=None, res_name_col=None, spin_num_col=None, spin_name_col=None, sep=None, spin_id=None, ncproc=None)
Opening the file '/Users/tlinnet/software/relax_trunk/test_suite/shared_data/dispersion/Kjaergaard_et_al_2013/peak_lists/17_5000_46_10_max_standard.ser' for reading.
NMRPipe SeriesTab formatted data file.


The following intensities have been loaded into the relax data store:

# Spin_ID    Intensity    
:5@N         150355.8     
:6@N         95531.77     
:8@N         13627.14     
:9@N         61398.41     
:10@N        128673.8     
:11@N        201167.5     
:12@N        74905.32     
:13@N        92366.41     
:14@N        129724.8     
:15@N        184656.9     
:16@N        87230.95     
:17@N        64764.04     
:18@N        58310.98     
:19@N        62593.95     
:21@N        47416.31     
:24@N        43193.62     
:25@N        111191.4     
:26@N        100542.2     
:27@N        142353.8     
:28@N        262460.0     
:29@N        154718.7     
:30@N        203360.3     
:31@N        127250.7     
:32@N        114107.7     
:33@N        264166.0     
:34@N        55343.79     
:35@N        129065.2     
:36@N        70478.72     
:38@N        44026.66     
:39@N        168503.6     
:40@N        125046.5     
:41@N        121693.6     
:42@N        139750.2     
:43@N        84714.19     
:44@N        64416.77     
:45@N        118907.7     
:46@N        68404.66     
:48@N        22522.61     
:49@N        30900.42     
:50@N        67939.18     
:51@N        136691.2     
:52@N        183845.0     
:53@N        175108.0     
:54@N        78859.34     
:55@N        192742.7     
:57@N        108453.7     
:58@N        281498.1     
:59@N        667256.5     


relax> spectrum.baseplane_rmsd(error=690.233, spectrum_id='17_5000_46_10', spin_id=None)

relax> relax_disp.exp_type(spectrum_id='17_5000_46_10', exp_type='R1rho')
The spectrum ID '17_5000_46_10' is now set to the R1rho-type experiment.

relax> relax_disp.spin_lock_field(spectrum_id='17_5000_46_10', field=1341.11)
The spectrum ID '17_5000_46_10' spin-lock field strength is set to 1.34111 kHz.

relax> relax_disp.spin_lock_offset(spectrum_id='17_5000_46_10', offset=179.76831462060457)
Setting the '17_5000_46_10' spectrum spin-lock offset to 179.768314621 ppm.

relax> relax_disp.relax_time(spectrum_id='17_5000_46_10', time=0.1)
Setting the '17_5000_46_10' spectrum relaxation time period to 0.1 s.

relax> spectrometer.frequency(id='17_5000_46_10', frq=799.7773991, units='MHz')

relax> spectrum.read_intensities(file='20_5000_46_20_max_standard.ser', dir='/Users/tlinnet/software/relax_trunk/test_suite/shared_data/dispersion/Kjaergaard_et_al_2013/peak_lists', spectrum_id='20_5000_46_20', dim=1, int_method='height', int_col=None, spin_id_col=None, mol_name_col=None, res_num_col=None, res_name_col=None, spin_num_col=None, spin_name_col=None, sep=None, spin_id=None, ncproc=None)
Opening the file '/Users/tlinnet/software/relax_trunk/test_suite/shared_data/dispersion/Kjaergaard_et_al_2013/peak_lists/20_5000_46_20_max_standard.ser' for reading.
NMRPipe SeriesTab formatted data file.


The following intensities have been loaded into the relax data store:

# Spin_ID    Intensity    
:5@N         131156.5     
:6@N         83344.17     
:8@N         11840.18     
:9@N         48819.79     
:10@N        98728.72     
:11@N        157441.1     
:12@N        65040.92     
:13@N        76367.25     
:14@N        107335.1     
:15@N        153111.6     
:16@N        58837.33     
:17@N        55366.09     
:18@N        41324.5      
:19@N        44536.98     
:21@N        39534.41     
:24@N        35428.61     
:25@N        83067.95     
:26@N        81324.7      
:27@N        103812.7     
:28@N        207133.5     
:29@N        126553.0     
:30@N        144402.2     
:31@N        105730.0     
:32@N        88077.19     
:33@N        209058.8     
:34@N        47250.15     
:35@N        97967.7      
:36@N        50777.73     
:38@N        35582.91     
:39@N        136563.2     
:40@N        101911.7     
:41@N        98974.92     
:42@N        98991.37     
:43@N        69338.84     
:44@N        53676.65     
:45@N        93301.41     
:46@N        52662.3      
:48@N        17565.93     
:49@N        27174.26     
:50@N        56275.67     
:51@N        113783.7     
:52@N        148030.0     
:53@N        150796.1     
:54@N        68231.36     
:55@N        170448.3     
:57@N        95991.87     
:58@N        247835.7     
:59@N        608184.8     


relax> spectrum.baseplane_rmsd(error=762.591, spectrum_id='20_5000_46_20', spin_id=None)

relax> relax_disp.exp_type(spectrum_id='20_5000_46_20', exp_type='R1rho')
The spectrum ID '20_5000_46_20' is now set to the R1rho-type experiment.

relax> relax_disp.spin_lock_field(spectrum_id='20_5000_46_20', field=1341.11)
The spectrum ID '20_5000_46_20' spin-lock field strength is set to 1.34111 kHz.

relax> relax_disp.spin_lock_offset(spectrum_id='20_5000_46_20', offset=179.76831462060457)
Setting the '20_5000_46_20' spectrum spin-lock offset to 179.768314621 ppm.

relax> relax_disp.relax_time(spectrum_id='20_5000_46_20', time=0.2)
Setting the '20_5000_46_20' spectrum relaxation time period to 0.2 s.

relax> spectrometer.frequency(id='20_5000_46_20', frq=799.7773991, units='MHz')

relax> spectrum.read_intensities(file='18_5000_46_40_max_standard.ser', dir='/Users/tlinnet/software/relax_trunk/test_suite/shared_data/dispersion/Kjaergaard_et_al_2013/peak_lists', spectrum_id='18_5000_46_40', dim=1, int_method='height', int_col=None, spin_id_col=None, mol_name_col=None, res_num_col=None, res_name_col=None, spin_num_col=None, spin_name_col=None, sep=None, spin_id=None, ncproc=None)
Opening the file '/Users/tlinnet/software/relax_trunk/test_suite/shared_data/dispersion/Kjaergaard_et_al_2013/peak_lists/18_5000_46_40_max_standard.ser' for reading.
NMRPipe SeriesTab formatted data file.


The following intensities have been loaded into the relax data store:

# Spin_ID    Intensity    
:5@N         99204.48     
:6@N         62756.17     
:8@N         8046.107     
:9@N         31816.88     
:10@N        59560.23     
:11@N        85941.9      
:12@N        47612.11     
:13@N        51311.18     
:14@N        75089.71     
:15@N        106697.5     
:16@N        23554.88     
:17@N        37628.34     
:18@N        17879.98     
:19@N        21560.44     
:21@N        29136.72     
:24@N        22430.66     
:25@N        41536.33     
:26@N        53323.54     
:27@N        52210.57     
:28@N        123801.6     
:29@N        81982.82     
:30@N        74344.46     
:31@N        73618.21     
:32@N        49034.48     
:33@N        135708.5     
:34@N        35828.39     
:35@N        54931.25     
:36@N        22997.02     
:38@N        26149.93     
:39@N        82690.06     
:40@N        67351.03     
:41@N        64577.78     
:42@N        43329.61     
:43@N        47318.98     
:44@N        36036.6      
:45@N        52972.78     
:46@N        30192.38     
:48@N        12875.51     
:49@N        18843.43     
:50@N        37809.8      
:51@N        79749.21     
:52@N        93918.73     
:53@N        110175.6     
:54@N        51175.56     
:55@N        130946.7     
:57@N        74783.55     
:58@N        190804.8     
:59@N        501286.1     


relax> spectrum.baseplane_rmsd(error=678.745, spectrum_id='18_5000_46_40', spin_id=None)

relax> relax_disp.exp_type(spectrum_id='18_5000_46_40', exp_type='R1rho')
The spectrum ID '18_5000_46_40' is now set to the R1rho-type experiment.

relax> relax_disp.spin_lock_field(spectrum_id='18_5000_46_40', field=1341.11)
The spectrum ID '18_5000_46_40' spin-lock field strength is set to 1.34111 kHz.

relax> relax_disp.spin_lock_offset(spectrum_id='18_5000_46_40', offset=179.76831462060457)
Setting the '18_5000_46_40' spectrum spin-lock offset to 179.768314621 ppm.

relax> relax_disp.relax_time(spectrum_id='18_5000_46_40', time=0.4)
Setting the '18_5000_46_40' spectrum relaxation time period to 0.4 s.

relax> spectrometer.frequency(id='18_5000_46_40', frq=799.7773991, units='MHz')

relax> spectrum.read_intensities(file='26_10000_46_0_max_standard.ser', dir='/Users/tlinnet/software/relax_trunk/test_suite/shared_data/dispersion/Kjaergaard_et_al_2013/peak_lists', spectrum_id='26_10000_46_0', dim=1, int_method='height', int_col=None, spin_id_col=None, mol_name_col=None, res_num_col=None, res_name_col=None, spin_num_col=None, spin_name_col=None, sep=None, spin_id=None, ncproc=None)
Opening the file '/Users/tlinnet/software/relax_trunk/test_suite/shared_data/dispersion/Kjaergaard_et_al_2013/peak_lists/26_10000_46_0_max_standard.ser' for reading.
NMRPipe SeriesTab formatted data file.


The following intensities have been loaded into the relax data store:

# Spin_ID    Intensity    
:5@N         169740.7     
:6@N         108933.4     
:8@N         17824.41     
:9@N         79774.09     
:10@N        152268.2     
:11@N        236444.6     
:12@N        84226.82     
:13@N        104281.7     
:14@N        148391.1     
:15@N        206104.6     
:16@N        122191.2     
:17@N        72100.92     
:18@N        75501.26     
:19@N        74142.14     
:21@N        53938.12     
:24@N        53941.69     
:25@N        132460.8     
:26@N        119828.5     
:27@N        169650.3     
:28@N        300786.1     
:29@N        192595.9     
:30@N        260659.9     
:31@N        145427.4     
:32@N        146688.4     
:33@N        308596.5     
:34@N        60243.26     
:35@N        157857.9     
:36@N        85375.25     
:38@N        51984.11     
:39@N        183324.1     
:40@N        138940.3     
:41@N        142965.9     
:42@N        194348.2     
:43@N        88312.02     
:44@N        71742.32     
:45@N        142638.6     
:46@N        86522.88     
:48@N        26047.45     
:49@N        39459.66     
:50@N        86916.83     
:51@N        159468.1     
:52@N        224990.1     
:53@N        196179.5     
:54@N        91527.23     
:55@N        215130.9     
:57@N        128934.4     
:58@N        302869.7     
:59@N        705797.6     


relax> spectrum.baseplane_rmsd(error=836.599, spectrum_id='26_10000_46_0', spin_id=None)

relax> relax_disp.exp_type(spectrum_id='26_10000_46_0', exp_type='R1rho')
The spectrum ID '26_10000_46_0' is now set to the R1rho-type experiment.

relax> relax_disp.spin_lock_field(spectrum_id='26_10000_46_0', field=1341.11)
The spectrum ID '26_10000_46_0' spin-lock field strength is set to 1.34111 kHz.

relax> relax_disp.spin_lock_offset(spectrum_id='26_10000_46_0', offset=241.45862924120914)
Setting the '26_10000_46_0' spectrum spin-lock offset to 241.458629241 ppm.

relax> relax_disp.relax_time(spectrum_id='26_10000_46_0', time=0.0)
Setting the '26_10000_46_0' spectrum relaxation time period to 0.0 s.

relax> spectrometer.frequency(id='26_10000_46_0', frq=799.7773991, units='MHz')

relax> spectrum.read_intensities(file='29_10000_46_4_max_standard.ser', dir='/Users/tlinnet/software/relax_trunk/test_suite/shared_data/dispersion/Kjaergaard_et_al_2013/peak_lists', spectrum_id='29_10000_46_4', dim=1, int_method='height', int_col=None, spin_id_col=None, mol_name_col=None, res_num_col=None, res_name_col=None, spin_num_col=None, spin_name_col=None, sep=None, spin_id=None, ncproc=None)
Opening the file '/Users/tlinnet/software/relax_trunk/test_suite/shared_data/dispersion/Kjaergaard_et_al_2013/peak_lists/29_10000_46_4_max_standard.ser' for reading.
NMRPipe SeriesTab formatted data file.


The following intensities have been loaded into the relax data store:

# Spin_ID    Intensity    
:5@N         159170.1     
:6@N         102521.3     
:8@N         16140.48     
:9@N         72185.4      
:10@N        129267.8     
:11@N        220822.7     
:12@N        99861.97     
:13@N        98988.27     
:14@N        137636.9     
:15@N        186828.7     
:16@N        111564.3     
:17@N        68001.62     
:18@N        64400.71     
:19@N        66800.49     
:21@N        51148.02     
:24@N        49363.73     
:25@N        114927.2     
:26@N        110476.8     
:27@N        136868.2     
:28@N        274031.7     
:29@N        192795.7     
:30@N        216293.3     
:31@N        134594.6     
:32@N        135563.5     
:33@N        263770.8     
:34@N        56657.17     
:35@N        141735.0     
:36@N        71662.91     
:38@N        48606.67     
:39@N        160960.9     
:40@N        124562.3     
:41@N        128568.2     
:42@N        182960.5     
:43@N        73835.17     
:44@N        64544.9      
:45@N        128290.3     
:46@N        76564.83     
:48@N        24537.19     
:49@N        35557.38     
:50@N        81220.81     
:51@N        152539.9     
:52@N        206589.8     
:53@N        186247.6     
:54@N        81941.0      
:55@N        212817.9     
:57@N        120962.2     
:58@N        287263.2     
:59@N        666137.5     


relax> spectrum.baseplane_rmsd(error=762.828, spectrum_id='29_10000_46_4', spin_id=None)

relax> relax_disp.exp_type(spectrum_id='29_10000_46_4', exp_type='R1rho')
The spectrum ID '29_10000_46_4' is now set to the R1rho-type experiment.

relax> relax_disp.spin_lock_field(spectrum_id='29_10000_46_4', field=1341.11)
The spectrum ID '29_10000_46_4' spin-lock field strength is set to 1.34111 kHz.

relax> relax_disp.spin_lock_offset(spectrum_id='29_10000_46_4', offset=241.45862924120914)
Setting the '29_10000_46_4' spectrum spin-lock offset to 241.458629241 ppm.

relax> relax_disp.relax_time(spectrum_id='29_10000_46_4', time=0.04)
Setting the '29_10000_46_4' spectrum relaxation time period to 0.04 s.

relax> spectrometer.frequency(id='29_10000_46_4', frq=799.7773991, units='MHz')

relax> spectrum.read_intensities(file='27_10000_46_10_max_standard.ser', dir='/Users/tlinnet/software/relax_trunk/test_suite/shared_data/dispersion/Kjaergaard_et_al_2013/peak_lists', spectrum_id='27_10000_46_10', dim=1, int_method='height', int_col=None, spin_id_col=None, mol_name_col=None, res_num_col=None, res_name_col=None, spin_num_col=None, spin_name_col=None, sep=None, spin_id=None, ncproc=None)
Opening the file '/Users/tlinnet/software/relax_trunk/test_suite/shared_data/dispersion/Kjaergaard_et_al_2013/peak_lists/27_10000_46_10_max_standard.ser' for reading.
NMRPipe SeriesTab formatted data file.


The following intensities have been loaded into the relax data store:

# Spin_ID    Intensity    
:5@N         146170.8     
:6@N         94607.2      
:8@N         14947.37     
:9@N         64732.9      
:10@N        123696.7     
:11@N        202538.7     
:12@N        79181.57     
:13@N        94050.03     
:14@N        129612.4     
:15@N        182058.1     
:16@N        97311.78     
:17@N        65310.93     
:18@N        59307.89     
:19@N        60608.95     
:21@N        46600.6      
:24@N        45054.34     
:25@N        111272.6     
:26@N        102076.4     
:27@N        133156.0     
:28@N        259591.3     
:29@N        171537.8     
:30@N        201491.5     
:31@N        125098.8     
:32@N        122912.9     
:33@N        256108.1     
:34@N        54598.89     
:35@N        128148.8     
:36@N        66876.89     
:38@N        44142.98     
:39@N        161897.3     
:40@N        122760.4     
:41@N        123265.0     
:42@N        157460.8     
:43@N        76819.77     
:44@N        63204.11     
:45@N        122160.8     
:46@N        71333.97     
:48@N        22829.28     
:49@N        33440.91     
:50@N        69882.07     
:51@N        138216.0     
:52@N        190602.6     
:53@N        172468.3     
:54@N        76535.98     
:55@N        192524.5     
:57@N        108658.0     
:58@N        265970.1     
:59@N        643978.9     


relax> spectrum.baseplane_rmsd(error=640.03, spectrum_id='27_10000_46_10', spin_id=None)

relax> relax_disp.exp_type(spectrum_id='27_10000_46_10', exp_type='R1rho')
The spectrum ID '27_10000_46_10' is now set to the R1rho-type experiment.

relax> relax_disp.spin_lock_field(spectrum_id='27_10000_46_10', field=1341.11)
The spectrum ID '27_10000_46_10' spin-lock field strength is set to 1.34111 kHz.

relax> relax_disp.spin_lock_offset(spectrum_id='27_10000_46_10', offset=241.45862924120914)
Setting the '27_10000_46_10' spectrum spin-lock offset to 241.458629241 ppm.

relax> relax_disp.relax_time(spectrum_id='27_10000_46_10', time=0.1)
Setting the '27_10000_46_10' spectrum relaxation time period to 0.1 s.

relax> spectrometer.frequency(id='27_10000_46_10', frq=799.7773991, units='MHz')

relax> spectrum.read_intensities(file='30_10000_46_20_max_standard.ser', dir='/Users/tlinnet/software/relax_trunk/test_suite/shared_data/dispersion/Kjaergaard_et_al_2013/peak_lists', spectrum_id='30_10000_46_20', dim=1, int_method='height', int_col=None, spin_id_col=None, mol_name_col=None, res_num_col=None, res_name_col=None, spin_num_col=None, spin_name_col=None, sep=None, spin_id=None, ncproc=None)
Opening the file '/Users/tlinnet/software/relax_trunk/test_suite/shared_data/dispersion/Kjaergaard_et_al_2013/peak_lists/30_10000_46_20_max_standard.ser' for reading.
NMRPipe SeriesTab formatted data file.


The following intensities have been loaded into the relax data store:

# Spin_ID    Intensity    
:5@N         125710.7     
:6@N         84219.28     
:8@N         14160.38     
:9@N         54012.45     
:10@N        85891.43     
:11@N        157041.2     
:12@N        89390.08     
:13@N        82340.27     
:14@N        113167.0     
:15@N        155869.4     
:16@N        76667.88     
:17@N        58406.95     
:18@N        37424.43     
:19@N        43559.3      
:21@N        40615.62     
:24@N        39740.02     
:25@N        83418.98     
:26@N        83841.57     
:27@N        85512.7      
:28@N        203410.5     
:29@N        159866.7     
:30@N        135013.9     
:31@N        110985.9     
:32@N        103442.3     
:33@N        196342.8     
:34@N        50936.15     
:35@N        93678.81     
:36@N        44916.81     
:38@N        37170.25     
:39@N        126523.2     
:40@N        97904.52     
:41@N        96519.52     
:42@N        120454.4     
:43@N        60510.59     
:44@N        52419.38     
:45@N        94913.88     
:46@N        53596.12     
:48@N        18793.07     
:49@N        28838.07     
:50@N        61468.45     
:51@N        119330.5     
:52@N        158953.0     
:53@N        149744.0     
:54@N        66038.51     
:55@N        179137.5     
:57@N        100918.2     
:58@N        225472.9     
:59@N        569669.8     


relax> spectrum.baseplane_rmsd(error=749.149, spectrum_id='30_10000_46_20', spin_id=None)

relax> relax_disp.exp_type(spectrum_id='30_10000_46_20', exp_type='R1rho')
The spectrum ID '30_10000_46_20' is now set to the R1rho-type experiment.

relax> relax_disp.spin_lock_field(spectrum_id='30_10000_46_20', field=1341.11)
The spectrum ID '30_10000_46_20' spin-lock field strength is set to 1.34111 kHz.

relax> relax_disp.spin_lock_offset(spectrum_id='30_10000_46_20', offset=241.45862924120914)
Setting the '30_10000_46_20' spectrum spin-lock offset to 241.458629241 ppm.

relax> relax_disp.relax_time(spectrum_id='30_10000_46_20', time=0.2)
Setting the '30_10000_46_20' spectrum relaxation time period to 0.2 s.

relax> spectrometer.frequency(id='30_10000_46_20', frq=799.7773991, units='MHz')

relax> spectrum.read_intensities(file='28_10000_46_40_max_standard.ser', dir='/Users/tlinnet/software/relax_trunk/test_suite/shared_data/dispersion/Kjaergaard_et_al_2013/peak_lists', spectrum_id='28_10000_46_40', dim=1, int_method='height', int_col=None, spin_id_col=None, mol_name_col=None, res_num_col=None, res_name_col=None, spin_num_col=None, spin_name_col=None, sep=None, spin_id=None, ncproc=None)
Opening the file '/Users/tlinnet/software/relax_trunk/test_suite/shared_data/dispersion/Kjaergaard_et_al_2013/peak_lists/28_10000_46_40_max_standard.ser' for reading.
NMRPipe SeriesTab formatted data file.


The following intensities have been loaded into the relax data store:

# Spin_ID    Intensity    
:5@N         99614.12     
:6@N         68665.22     
:8@N         9743.555     
:9@N         37087.91     
:10@N        57958.81     
:11@N        93318.31     
:12@N        59427.46     
:13@N        61812.3      
:14@N        86164.77     
:15@N        122279.2     
:16@N        39078.68     
:17@N        46296.56     
:18@N        19240.05     
:19@N        23161.4      
:21@N        29940.34     
:24@N        27921.46     
:25@N        52504.71     
:26@N        60023.39     
:27@N        49902.59     
:28@N        137242.8     
:29@N        111236.8     
:30@N        81081.89     
:31@N        85255.39     
:32@N        66753.57     
:33@N        146915.8     
:34@N        40875.38     
:35@N        54707.3      
:36@N        25751.95     
:38@N        28615.85     
:39@N        91008.79     
:40@N        74803.97     
:41@N        68553.61     
:42@N        60663.41     
:43@N        51927.18     
:44@N        40687.64     
:45@N        63337.03     
:46@N        37843.69     
:48@N        14541.72     
:49@N        21320.37     
:50@N        42528.81     
:51@N        87265.66     
:52@N        112749.3     
:53@N        115152.6     
:54@N        51173.92     
:55@N        137209.3     
:57@N        79580.97     
:58@N        176063.0     
:59@N        478729.6     


relax> spectrum.baseplane_rmsd(error=650.173, spectrum_id='28_10000_46_40', spin_id=None)

relax> relax_disp.exp_type(spectrum_id='28_10000_46_40', exp_type='R1rho')
The spectrum ID '28_10000_46_40' is now set to the R1rho-type experiment.

relax> relax_disp.spin_lock_field(spectrum_id='28_10000_46_40', field=1341.11)
The spectrum ID '28_10000_46_40' spin-lock field strength is set to 1.34111 kHz.

relax> relax_disp.spin_lock_offset(spectrum_id='28_10000_46_40', offset=241.45862924120914)
Setting the '28_10000_46_40' spectrum spin-lock offset to 241.458629241 ppm.

relax> relax_disp.relax_time(spectrum_id='28_10000_46_40', time=0.4)
Setting the '28_10000_46_40' spectrum relaxation time period to 0.4 s.

relax> spectrometer.frequency(id='28_10000_46_40', frq=799.7773991, units='MHz')
Testing the number of settings
Number of settings iterations is: 69. Number of cdp.exp_type.keys() is: 69
Adding spin :13@N to cluster

relax> relax_disp.cluster(cluster_id='model_cluster', spin_id=':13@N')
Adding spin :15@N to cluster

relax> relax_disp.cluster(cluster_id='model_cluster', spin_id=':15@N')
Adding spin :16@N to cluster

relax> relax_disp.cluster(cluster_id='model_cluster', spin_id=':16@N')
Adding spin :25@N to cluster

relax> relax_disp.cluster(cluster_id='model_cluster', spin_id=':25@N')
Adding spin :26@N to cluster

relax> relax_disp.cluster(cluster_id='model_cluster', spin_id=':26@N')
Adding spin :28@N to cluster

relax> relax_disp.cluster(cluster_id='model_cluster', spin_id=':28@N')
Adding spin :39@N to cluster

relax> relax_disp.cluster(cluster_id='model_cluster', spin_id=':39@N')
Adding spin :40@N to cluster

relax> relax_disp.cluster(cluster_id='model_cluster', spin_id=':40@N')
Adding spin :41@N to cluster

relax> relax_disp.cluster(cluster_id='model_cluster', spin_id=':41@N')
Adding spin :43@N to cluster

relax> relax_disp.cluster(cluster_id='model_cluster', spin_id=':43@N')
Adding spin :44@N to cluster

relax> relax_disp.cluster(cluster_id='model_cluster', spin_id=':44@N')
Adding spin :45@N to cluster

relax> relax_disp.cluster(cluster_id='model_cluster', spin_id=':45@N')
Adding spin :49@N to cluster

relax> relax_disp.cluster(cluster_id='model_cluster', spin_id=':49@N')
Adding spin :52@N to cluster

relax> relax_disp.cluster(cluster_id='model_cluster', spin_id=':52@N')
Adding spin :53@N to cluster

relax> relax_disp.cluster(cluster_id='model_cluster', spin_id=':53@N')
Deselecting free spin :5@N

relax> deselect.spin(spin_id=':5@N', boolean='AND', change_all=False)
Deselecting free spin :6@N

relax> deselect.spin(spin_id=':6@N', boolean='AND', change_all=False)
Deselecting free spin :8@N

relax> deselect.spin(spin_id=':8@N', boolean='AND', change_all=False)
Deselecting free spin :9@N

relax> deselect.spin(spin_id=':9@N', boolean='AND', change_all=False)
Deselecting free spin :10@N

relax> deselect.spin(spin_id=':10@N', boolean='AND', change_all=False)
Deselecting free spin :11@N

relax> deselect.spin(spin_id=':11@N', boolean='AND', change_all=False)
Deselecting free spin :12@N

relax> deselect.spin(spin_id=':12@N', boolean='AND', change_all=False)
Deselecting free spin :14@N

relax> deselect.spin(spin_id=':14@N', boolean='AND', change_all=False)
Deselecting free spin :17@N

relax> deselect.spin(spin_id=':17@N', boolean='AND', change_all=False)
Deselecting free spin :18@N

relax> deselect.spin(spin_id=':18@N', boolean='AND', change_all=False)
Deselecting free spin :19@N

relax> deselect.spin(spin_id=':19@N', boolean='AND', change_all=False)
Deselecting free spin :21@N

relax> deselect.spin(spin_id=':21@N', boolean='AND', change_all=False)
Deselecting free spin :24@N

relax> deselect.spin(spin_id=':24@N', boolean='AND', change_all=False)
Deselecting free spin :27@N

relax> deselect.spin(spin_id=':27@N', boolean='AND', change_all=False)
Deselecting free spin :29@N

relax> deselect.spin(spin_id=':29@N', boolean='AND', change_all=False)
Deselecting free spin :30@N

relax> deselect.spin(spin_id=':30@N', boolean='AND', change_all=False)
Deselecting free spin :31@N

relax> deselect.spin(spin_id=':31@N', boolean='AND', change_all=False)
Deselecting free spin :32@N

relax> deselect.spin(spin_id=':32@N', boolean='AND', change_all=False)
Deselecting free spin :33@N

relax> deselect.spin(spin_id=':33@N', boolean='AND', change_all=False)
Deselecting free spin :34@N

relax> deselect.spin(spin_id=':34@N', boolean='AND', change_all=False)
Deselecting free spin :35@N

relax> deselect.spin(spin_id=':35@N', boolean='AND', change_all=False)
Deselecting free spin :36@N

relax> deselect.spin(spin_id=':36@N', boolean='AND', change_all=False)
Deselecting free spin :38@N

relax> deselect.spin(spin_id=':38@N', boolean='AND', change_all=False)
Deselecting free spin :42@N

relax> deselect.spin(spin_id=':42@N', boolean='AND', change_all=False)
Deselecting free spin :46@N

relax> deselect.spin(spin_id=':46@N', boolean='AND', change_all=False)
Deselecting free spin :48@N

relax> deselect.spin(spin_id=':48@N', boolean='AND', change_all=False)
Deselecting free spin :50@N

relax> deselect.spin(spin_id=':50@N', boolean='AND', change_all=False)
Deselecting free spin :51@N

relax> deselect.spin(spin_id=':51@N', boolean='AND', change_all=False)
Deselecting free spin :54@N

relax> deselect.spin(spin_id=':54@N', boolean='AND', change_all=False)
Deselecting free spin :55@N

relax> deselect.spin(spin_id=':55@N', boolean='AND', change_all=False)
Deselecting free spin :57@N

relax> deselect.spin(spin_id=':57@N', boolean='AND', change_all=False)
Deselecting free spin :58@N

relax> deselect.spin(spin_id=':58@N', boolean='AND', change_all=False)
Deselecting free spin :59@N

relax> deselect.spin(spin_id=':59@N', boolean='AND', change_all=False)
spin_id :5@N NOT in cluster ids
spin_id :6@N NOT in cluster ids
spin_id :8@N NOT in cluster ids
spin_id :9@N NOT in cluster ids
spin_id :10@N NOT in cluster ids
spin_id :11@N NOT in cluster ids
spin_id :12@N NOT in cluster ids
spin_id :13@N in cluster ids
spin_id :14@N NOT in cluster ids
spin_id :15@N in cluster ids
spin_id :16@N in cluster ids
spin_id :17@N NOT in cluster ids
spin_id :18@N NOT in cluster ids
spin_id :19@N NOT in cluster ids
spin_id :21@N NOT in cluster ids
spin_id :24@N NOT in cluster ids
spin_id :25@N in cluster ids
spin_id :26@N in cluster ids
spin_id :27@N NOT in cluster ids
spin_id :28@N in cluster ids
spin_id :29@N NOT in cluster ids
spin_id :30@N NOT in cluster ids
spin_id :31@N NOT in cluster ids
spin_id :32@N NOT in cluster ids
spin_id :33@N NOT in cluster ids
spin_id :34@N NOT in cluster ids
spin_id :35@N NOT in cluster ids
spin_id :36@N NOT in cluster ids
spin_id :38@N NOT in cluster ids
spin_id :39@N in cluster ids
spin_id :40@N in cluster ids
spin_id :41@N in cluster ids
spin_id :42@N NOT in cluster ids
spin_id :43@N in cluster ids
spin_id :44@N in cluster ids
spin_id :45@N in cluster ids
spin_id :46@N NOT in cluster ids
spin_id :48@N NOT in cluster ids
spin_id :49@N in cluster ids
spin_id :50@N NOT in cluster ids
spin_id :51@N NOT in cluster ids
spin_id :52@N in cluster ids
spin_id :53@N in cluster ids
spin_id :54@N NOT in cluster ids
spin_id :55@N NOT in cluster ids
spin_id :57@N NOT in cluster ids
spin_id :58@N NOT in cluster ids
spin_id :59@N NOT in cluster ids

relax> relax_data.read(ri_id='R1', ri_type='R1', frq=799777399.1, file='R1_fitted_values.txt', dir='/Users/tlinnet/software/relax_trunk/test_suite/shared_data/dispersion/Kjaergaard_et_al_2013', spin_id_col=None, mol_name_col=1, res_num_col=2, res_name_col=3, spin_num_col=4, spin_name_col=5, data_col=6, error_col=7, sep=None, spin_id=None)
Opening the file '/Users/tlinnet/software/relax_trunk/test_suite/shared_data/dispersion/Kjaergaard_et_al_2013/R1_fitted_values.txt' for reading.

The following 799.7773991 MHz R1 relaxation data with the ID 'R1' has been loaded into the relax data store:

# Spin_ID    Value      Error      
:13@N        1.32394    0.14687    
:15@N        1.34428    0.14056    
:16@N        1.71514    0.13651    
:25@N        1.82412    0.15809    
:26@N        1.45746    0.14127    
:28@N        1.48095    0.14231    
:39@N        1.46094    0.14514    
:40@N        1.21381    0.14035    
:41@N        1.29296    0.14286    
:43@N        1.33626    0.14352    
:44@N        1.28487    0.1462     
:45@N        1.59227    0.14591    
:49@N        1.38521    0.14148    
:52@N        1.57531    0.15042    
:53@N        1.27214    0.13823    

relax> relax_disp.cluster(cluster_id='free spins', spin_id=':13@N')

relax> deselect.spin(spin_id=':13@N', boolean='AND', change_all=False)

relax> relax_disp.cluster(cluster_id='free spins', spin_id=':15@N')

relax> deselect.spin(spin_id=':15@N', boolean='AND', change_all=False)

relax> relax_disp.cluster(cluster_id='free spins', spin_id=':16@N')

relax> deselect.spin(spin_id=':16@N', boolean='AND', change_all=False)

relax> relax_disp.cluster(cluster_id='free spins', spin_id=':25@N')

relax> deselect.spin(spin_id=':25@N', boolean='AND', change_all=False)

relax> relax_disp.cluster(cluster_id='free spins', spin_id=':26@N')

relax> deselect.spin(spin_id=':26@N', boolean='AND', change_all=False)

relax> relax_disp.cluster(cluster_id='free spins', spin_id=':28@N')

relax> deselect.spin(spin_id=':28@N', boolean='AND', change_all=False)

relax> relax_disp.cluster(cluster_id='free spins', spin_id=':39@N')

relax> deselect.spin(spin_id=':39@N', boolean='AND', change_all=False)

relax> relax_disp.cluster(cluster_id='free spins', spin_id=':40@N')

relax> deselect.spin(spin_id=':40@N', boolean='AND', change_all=False)

relax> relax_disp.cluster(cluster_id='free spins', spin_id=':41@N')

relax> deselect.spin(spin_id=':41@N', boolean='AND', change_all=False)

relax> relax_disp.cluster(cluster_id='free spins', spin_id=':43@N')

relax> deselect.spin(spin_id=':43@N', boolean='AND', change_all=False)

relax> relax_disp.cluster(cluster_id='free spins', spin_id=':44@N')

relax> deselect.spin(spin_id=':44@N', boolean='AND', change_all=False)

relax> relax_disp.cluster(cluster_id='free spins', spin_id=':45@N')

relax> deselect.spin(spin_id=':45@N', boolean='AND', change_all=False)

relax> relax_disp.cluster(cluster_id='free spins', spin_id=':49@N')

relax> deselect.spin(spin_id=':49@N', boolean='AND', change_all=False)

relax> relax_disp.cluster(cluster_id='free spins', spin_id=':52@N')

relax> deselect.spin(spin_id=':52@N', boolean='AND', change_all=False)

relax> relax_disp.cluster(cluster_id='free spins', spin_id=':53@N')

relax> deselect.spin(spin_id=':53@N', boolean='AND', change_all=False)

relax> select.spin(spin_id=':52@N', boolean='OR', change_all=False)




=======================================
= Relaxation dispersion auto-analysis =
=======================================

debug> Execution lock:  Acquisition by 'relax_disp' ('auto-analysis' mode).


Variable checking
=================

The dispersion auto-analysis variables are OK.


Error analysis
==============


relax> spectrum.error_analysis(subset=['46_0_35_0', '48_0_35_4', '47_0_35_10', '49_0_35_20', '36_0_39_0', '39_0_39_4', '37_0_39_10', '40_0_39_20', '38_0_39_40', '41_0_41_0', '44_0_41_4', '42_0_41_10', '45_0_41_20', '43_0_41_40', '31_0_43_0', '34_0_43_4', '32_0_43_10', '35_0_43_20', '33_0_43_40', '1_0_46_0', '4_0_46_4', '2_0_46_10', '5_0_46_20', '3_0_46_40', '60_0_48_0', '63_0_48_4', '61_0_48_10', '62_0_48_14', '64_0_48_20', '11_500_46_0', '14_500_46_4', '12_500_46_10', '15_500_46_20', '13_500_46_40', '50_1000_41_0', '53_1000_41_4', '51_1000_41_10', '54_1000_41_20', '52_1000_41_40', '21_1000_46_0', '24_1000_46_4', '22_1000_46_10', '25_1000_46_20', '23_1000_46_40', '65_1000_48_0', '68_1000_48_4', '66_1000_48_10', '67_1000_48_14', '69_1000_48_20', '55_2000_41_0', '58_2000_41_4', '56_2000_41_10', '59_2000_41_20', '57_2000_41_40', '6_2000_46_0', '9_2000_46_4', '7_2000_46_10', '10_2000_46_20', '8_2000_46_40', '16_5000_46_0', '19_5000_46_4', '17_5000_46_10', '20_5000_46_20', '18_5000_46_40', '26_10000_46_0', '29_10000_46_4', '27_10000_46_10', '30_10000_46_20', '28_10000_46_40'])
Intensity measure:  Peak heights.
Replicated spectra:  No.
Spectra ID subset ignored.



---------------------
- The 'R2eff' model -
---------------------


relax> pipe.copy(pipe_from='base pipe', pipe_to='R2eff - relax_disp', bundle_to='relax_disp')
debug> Lock 'pipe_lock':  Acquisition by 'copy'.
debug> Lock 'pipe_lock':  Release by 'copy'.

relax> pipe.switch(pipe_name='R2eff - relax_disp')
debug> Lock 'pipe_lock':  Acquisition by 'switch'.
debug> Lock 'pipe_lock':  Release by 'switch'.

relax> relax_disp.select_model(model='R2eff')
The model for determining the R2eff/R1rho values from peak intensities.


Optimisation
============


Nesting and model equivalence checks
------------------------------------

No model nesting or model equivalence detected.

relax> minimise.grid_search(lower=None, upper=None, inc=21, verbosity=1, constraints=True, skip_preset=True)


Grid search setup:  the spin block [':52@N']
--------------------------------------------

# Parameter    Lower bound        Upper bound        Increments         Comment           
r2eff                      1.0               40.0                 21    Default bounds    
i0                      0.0001          1000000.0                 21    Default bounds    


Fitting to spin :52@N, frequency 799777399.1 and dispersion point 431.0
-----------------------------------------------------------------------

Unconstrained grid search size: 441 (constraints may decrease this size).


Grid search
~~~~~~~~~~~

Searching through 441 grid nodes.
k: 0        xk: [              1,          0.0001]    fk: 102847.114823       
k: 21       xk: [              1,      50000.0001]    fk: 50518.7750019       
k: 42       xk: [              1,     100000.0001]    fk: 24757.4125625       
k: 43       xk: [           2.95,     100000.0001]    fk: 21771.0903289       
k: 64       xk: [           2.95,     150000.0001]    fk: 11001.2493169       
k: 65       xk: [            4.9,     150000.0001]    fk: 6173.94815194       
k: 66       xk: [           6.85,     150000.0001]    fk: 5704.60321834       
k: 87       xk: [           6.85,     200000.0001]    fk: 970.718431966       
k: 88       xk: [            8.8,     200000.0001]    fk: 37.0428718161       


Fitting to spin :52@N, frequency 799777399.1 and dispersion point 651.2
-----------------------------------------------------------------------

Unconstrained grid search size: 441 (constraints may decrease this size).


Grid search
~~~~~~~~~~~

Searching through 441 grid nodes.
k: 0        xk: [              1,          0.0001]    fk: 100383.264226       
k: 21       xk: [              1,      50000.0001]    fk: 49588.7255351       
k: 42       xk: [              1,     100000.0001]    fk: 34067.8458393       
k: 43       xk: [           2.95,     100000.0001]    fk: 22424.3343673       
k: 44       xk: [            4.9,     100000.0001]    fk: 20819.0968472       
k: 64       xk: [           2.95,     150000.0001]    fk: 18667.0300291       
k: 65       xk: [            4.9,     150000.0001]    fk: 8005.64161621       
k: 66       xk: [           6.85,     150000.0001]    fk: 5490.52654889       
k: 87       xk: [           6.85,     200000.0001]    fk: 3644.36938377       
k: 88       xk: [            8.8,     200000.0001]    fk: 483.876812733       
k: 89       xk: [          10.75,     200000.0001]    fk: 195.44150271        


Fitting to spin :52@N, frequency 799777399.1 and dispersion point 800.5
-----------------------------------------------------------------------

Unconstrained grid search size: 441 (constraints may decrease this size).


Grid search
~~~~~~~~~~~

Searching through 441 grid nodes.
k: 0        xk: [              1,          0.0001]    fk: 98422.2434854       
k: 21       xk: [              1,      50000.0001]    fk: 49134.3405482       
k: 22       xk: [           2.95,      50000.0001]    fk: 48853.6337541       
k: 42       xk: [              1,     100000.0001]    fk: 33974.3924751       
k: 43       xk: [           2.95,     100000.0001]    fk: 22148.0362683       
k: 44       xk: [            4.9,     100000.0001]    fk: 20281.7302115       
k: 64       xk: [           2.95,     150000.0001]    fk: 18305.4510387       
k: 65       xk: [            4.9,     150000.0001]    fk: 7808.78298185       
k: 66       xk: [           6.85,     150000.0001]    fk: 5146.30894352       
k: 87       xk: [           6.85,     200000.0001]    fk: 3823.8996259        
k: 88       xk: [            8.8,     200000.0001]    fk: 584.056721536       
k: 89       xk: [          10.75,     200000.0001]    fk: 53.6697079659       


Fitting to spin :52@N, frequency 799777399.1 and dispersion point 984.0
-----------------------------------------------------------------------

Unconstrained grid search size: 441 (constraints may decrease this size).


Grid search
~~~~~~~~~~~

Searching through 441 grid nodes.
k: 0        xk: [              1,          0.0001]    fk: 89614.1065246       
k: 21       xk: [              1,      50000.0001]    fk: 43659.9594673       
k: 22       xk: [           2.95,      50000.0001]    fk: 43583.6158786       
k: 42       xk: [              1,     100000.0001]    fk: 30019.4720377       
k: 43       xk: [           2.95,     100000.0001]    fk: 19319.0610818       
k: 44       xk: [            4.9,     100000.0001]    fk: 17750.8478931       
k: 64       xk: [           2.95,     150000.0001]    fk: 16820.4421446       
k: 65       xk: [            4.9,     150000.0001]    fk: 7084.04864295       
k: 66       xk: [           6.85,     150000.0001]    fk: 4535.56158785       
k: 87       xk: [           6.85,     200000.0001]    fk: 4223.0024763        
k: 88       xk: [            8.8,     200000.0001]    fk: 816.737978961       
k: 89       xk: [          10.75,     200000.0001]    fk: 51.7580524349       


Fitting to spin :52@N, frequency 799777399.1 and dispersion point 1341.11
-------------------------------------------------------------------------

Unconstrained grid search size: 441 (constraints may decrease this size).


Grid search
~~~~~~~~~~~

Searching through 441 grid nodes.
k: 0        xk: [              1,          0.0001]    fk: 108493.509922       
k: 21       xk: [              1,      50000.0001]    fk: 55068.8446791       
k: 42       xk: [              1,     100000.0001]    fk: 34820.1786155       
k: 43       xk: [           2.95,     100000.0001]    fk: 25102.3475975       
k: 44       xk: [            4.9,     100000.0001]    fk: 24563.483356        
k: 64       xk: [           2.95,     150000.0001]    fk: 17084.9683451       
k: 65       xk: [            4.9,     150000.0001]    fk: 8806.94321036       
k: 66       xk: [           6.85,     150000.0001]    fk: 7456.43780286       
k: 87       xk: [           6.85,     200000.0001]    fk: 2945.17129281       
k: 88       xk: [            8.8,     200000.0001]    fk: 678.45248492        


Fitting to spin :52@N, frequency 799777399.1 and dispersion point 1648.5
------------------------------------------------------------------------

Unconstrained grid search size: 441 (constraints may decrease this size).


Grid search
~~~~~~~~~~~

Searching through 441 grid nodes.
k: 0        xk: [              1,          0.0001]    fk: 107625.40602        
k: 21       xk: [              1,      50000.0001]    fk: 49404.9522759       
k: 42       xk: [              1,     100000.0001]    fk: 26330.0680887       
k: 43       xk: [           2.95,     100000.0001]    fk: 21409.6086635       
k: 44       xk: [            4.9,     100000.0001]    fk: 21210.3995055       
k: 64       xk: [           2.95,     150000.0001]    fk: 16995.2265077       
k: 65       xk: [            4.9,     150000.0001]    fk: 8155.32164369       
k: 66       xk: [           6.85,     150000.0001]    fk: 5645.63480315       
k: 87       xk: [           6.85,     200000.0001]    fk: 4621.31497198       
k: 88       xk: [            8.8,     200000.0001]    fk: 664.19370463        
k: 89       xk: [          10.75,     200000.0001]    fk: 176.773890669       


Fitting to spin :52@N, frequency 799777399.1 and dispersion point 1341.11
-------------------------------------------------------------------------

Unconstrained grid search size: 441 (constraints may decrease this size).


Grid search
~~~~~~~~~~~

Searching through 441 grid nodes.
k: 0        xk: [              1,          0.0001]    fk: 107981.229305       
k: 21       xk: [              1,      50000.0001]    fk: 55243.0687297       
k: 42       xk: [              1,     100000.0001]    fk: 37381.3288376       
k: 43       xk: [           2.95,     100000.0001]    fk: 26183.4576905       
k: 44       xk: [            4.9,     100000.0001]    fk: 24617.1270715       
k: 64       xk: [           2.95,     150000.0001]    fk: 20595.8155995       
k: 65       xk: [            4.9,     150000.0001]    fk: 10178.2214802       
k: 66       xk: [           6.85,     150000.0001]    fk: 7595.18163061       
k: 87       xk: [           6.85,     200000.0001]    fk: 4298.44583664       
k: 88       xk: [            8.8,     200000.0001]    fk: 949.366136466       
k: 89       xk: [          10.75,     200000.0001]    fk: 527.020867661       


Fitting to spin :52@N, frequency 799777399.1 and dispersion point 800.5
-----------------------------------------------------------------------

Unconstrained grid search size: 441 (constraints may decrease this size).


Grid search
~~~~~~~~~~~

Searching through 441 grid nodes.
k: 0        xk: [              1,          0.0001]    fk: 112414.354396       
k: 21       xk: [              1,      50000.0001]    fk: 57357.5876757       
k: 42       xk: [              1,     100000.0001]    fk: 30366.5794545       
k: 43       xk: [           2.95,     100000.0001]    fk: 25193.7956686       
k: 64       xk: [           2.95,     150000.0001]    fk: 10715.8076899       
k: 65       xk: [            4.9,     150000.0001]    fk: 7148.68002476       
k: 86       xk: [            4.9,     200000.0001]    fk: 3134.76653235       
k: 87       xk: [           6.85,     200000.0001]    fk: 319.056557474       


Fitting to spin :52@N, frequency 799777399.1 and dispersion point 1341.11
-------------------------------------------------------------------------

Unconstrained grid search size: 441 (constraints may decrease this size).


Grid search
~~~~~~~~~~~

Searching through 441 grid nodes.
k: 0        xk: [              1,          0.0001]    fk: 145607.510559       
k: 21       xk: [              1,      50000.0001]    fk: 74943.0704885       
k: 42       xk: [              1,     100000.0001]    fk: 42521.3210559       
k: 43       xk: [           2.95,     100000.0001]    fk: 34098.3080532       
k: 64       xk: [           2.95,     150000.0001]    fk: 18108.4763689       
k: 65       xk: [            4.9,     150000.0001]    fk: 10966.8069936       
k: 66       xk: [           6.85,     150000.0001]    fk: 10958.8016859       
k: 86       xk: [            4.9,     200000.0001]    fk: 8062.7756369        
k: 87       xk: [           6.85,     200000.0001]    fk: 1698.19110526       
k: 88       xk: [            8.8,     200000.0001]    fk: 833.722383946       


Fitting to spin :52@N, frequency 799777399.1 and dispersion point 1648.5
------------------------------------------------------------------------

Unconstrained grid search size: 441 (constraints may decrease this size).


Grid search
~~~~~~~~~~~

Searching through 441 grid nodes.
k: 0        xk: [              1,          0.0001]    fk: 92844.363867        
k: 21       xk: [              1,      50000.0001]    fk: 44583.422765        
k: 42       xk: [              1,     100000.0001]    fk: 21494.9101614       
k: 43       xk: [           2.95,     100000.0001]    fk: 19532.1398361       
k: 64       xk: [           2.95,     150000.0001]    fk: 11128.2942855       
k: 65       xk: [            4.9,     150000.0001]    fk: 6511.02002685       
k: 66       xk: [           6.85,     150000.0001]    fk: 5864.93383995       
k: 87       xk: [           6.85,     200000.0001]    fk: 1759.00442142       
k: 88       xk: [            8.8,     200000.0001]    fk: 219.888050082       


Fitting to spin :52@N, frequency 799777399.1 and dispersion point 800.5
-----------------------------------------------------------------------

Unconstrained grid search size: 441 (constraints may decrease this size).


Grid search
~~~~~~~~~~~

Searching through 441 grid nodes.
k: 0        xk: [              1,          0.0001]    fk: 199924.019577       
k: 21       xk: [              1,      50000.0001]    fk: 104804.596312       
k: 42       xk: [              1,     100000.0001]    fk: 42731.4679796       
k: 63       xk: [              1,     150000.0001]    fk: 13704.6345793       
k: 85       xk: [           2.95,     200000.0001]    fk: 581.340499327       


Fitting to spin :52@N, frequency 799777399.1 and dispersion point 1341.11
-------------------------------------------------------------------------

Unconstrained grid search size: 441 (constraints may decrease this size).


Grid search
~~~~~~~~~~~

Searching through 441 grid nodes.
k: 0        xk: [              1,          0.0001]    fk: 184172.84181        
k: 21       xk: [              1,      50000.0001]    fk: 97139.0818819       
k: 42       xk: [              1,     100000.0001]    fk: 44175.493359        
k: 63       xk: [              1,     150000.0001]    fk: 25282.076241        
k: 64       xk: [           2.95,     150000.0001]    fk: 14985.3878853       
k: 85       xk: [           2.95,     200000.0001]    fk: 5170.96562044       
k: 86       xk: [            4.9,     200000.0001]    fk: 2208.94429094       
k: 108      xk: [           6.85,     250000.0001]    fk: 2132.56174664       


Fitting to spin :52@N, frequency 799777399.1 and dispersion point 1341.11
-------------------------------------------------------------------------

Unconstrained grid search size: 441 (constraints may decrease this size).


Grid search
~~~~~~~~~~~

Searching through 441 grid nodes.
k: 0        xk: [              1,          0.0001]    fk: 285656.476252       
k: 21       xk: [              1,      50000.0001]    fk: 162913.989259       
k: 42       xk: [              1,     100000.0001]    fk: 75338.0842092       
k: 63       xk: [              1,     150000.0001]    fk: 22928.761103        
k: 84       xk: [              1,     200000.0001]    fk: 5686.01994027       
k: 106      xk: [           2.95,     250000.0001]    fk: 1825.76871828       


Fitting to spin :52@N, frequency 799777399.1 and dispersion point 1341.11
-------------------------------------------------------------------------

Unconstrained grid search size: 441 (constraints may decrease this size).


Grid search
~~~~~~~~~~~

Searching through 441 grid nodes.
k: 0        xk: [              1,          0.0001]    fk: 309448.050817       
k: 21       xk: [              1,      50000.0001]    fk: 178200.646332       
k: 42       xk: [              1,     100000.0001]    fk: 83308.9205593       
k: 63       xk: [              1,     150000.0001]    fk: 24772.873497        
k: 84       xk: [              1,     200000.0001]    fk: 2592.50514563       

relax> minimise.execute(min_algor='simplex', line_search=None, hessian_mod=None, hessian_type=None, func_tol=1e-25, grad_tol=None, max_iter=10000000, constraints=True, scaling=True, verbosity=1)


Fitting to spin :52@N, frequency 799777399.1 and dispersion point 431.0
-----------------------------------------------------------------------



Logarithmic barrier function
~~~~~~~~~~~~~~~~~~~~~~~~~~~~
k: 0        xk: [            8.8,     200000.0001]    fk: 37.0428718161       
Entering sub-algorithm.
	
	Simplex minimisation
	~~~~~~~~~~~~~~~~~~~~

	k: 0        xk: [            8.8,     200000.0001]    fk: 37.0426754746       

	Parameter values: [8.6461922816474903, 202664.19111064545]
	Function value:   3.7577515985301249
	Iterations:       93
	Function calls:   209
	Gradient calls:   0
	Hessian calls:    0
	Warning:          Simplex has not moved.

k: 1        xk: [    8.646192282,     202664.1911]    fk: 3.75794790402       
Entering sub-algorithm.
	
	Simplex minimisation
	~~~~~~~~~~~~~~~~~~~~

	k: 0        xk: [    8.646192282,     202664.1911]    fk: 3.75794594096       

	Parameter values: [8.6461922816475258, 202664.19111064548]
	Function value:   3.7579459409631757
	Iterations:       97
	Function calls:   215
	Gradient calls:   0
	Hessian calls:    0
	Warning:          Simplex has not moved.

k: 2        xk: [    8.646192282,     202664.1911]    fk: 3.75794790402       
Entering sub-algorithm.
	
	Simplex minimisation
	~~~~~~~~~~~~~~~~~~~~

	k: 0        xk: [    8.646192282,     202664.1911]    fk: 3.75794788439       

	Parameter values: [8.6461922816475258, 202664.19111064548]
	Function value:   3.757947884387506
	Iterations:       90
	Function calls:   202
	Gradient calls:   0
	Hessian calls:    0
	Warning:          Simplex has not moved.

k: 3        xk: [    8.646192282,     202664.1911]    fk: 3.75794790402       
Entering sub-algorithm.
	
	Simplex minimisation
	~~~~~~~~~~~~~~~~~~~~

	k: 0        xk: [    8.646192282,     202664.1911]    fk: 3.75794790382       

	Parameter values: [8.6461922816475258, 202664.19111064548]
	Function value:   3.7579479038217496
	Iterations:       90
	Function calls:   202
	Gradient calls:   0
	Hessian calls:    0
	Warning:          Simplex has not moved.

k: 4        xk: [    8.646192282,     202664.1911]    fk: 3.75794790402       
Entering sub-algorithm.
	
	Simplex minimisation
	~~~~~~~~~~~~~~~~~~~~

	k: 0        xk: [    8.646192282,     202664.1911]    fk: 3.75794790402       

	Parameter values: [8.6461922816475258, 202664.19111064548]
	Function value:   3.7579479040160915
	Iterations:       90
	Function calls:   202
	Gradient calls:   0
	Hessian calls:    0
	Warning:          Simplex has not moved.

k: 5        xk: [    8.646192282,     202664.1911]    fk: 3.75794790402       
Entering sub-algorithm.
	
	Simplex minimisation
	~~~~~~~~~~~~~~~~~~~~

	k: 0        xk: [    8.646192282,     202664.1911]    fk: 3.75794790402       

	Parameter values: [8.6461922816475258, 202664.19111064548]
	Function value:   3.7579479040180348
	Iterations:       90
	Function calls:   202
	Gradient calls:   0
	Hessian calls:    0
	Warning:          Simplex has not moved.

k: 6        xk: [    8.646192282,     202664.1911]    fk: 3.75794790402       
Entering sub-algorithm.
	
	Simplex minimisation
	~~~~~~~~~~~~~~~~~~~~

	k: 0        xk: [    8.646192282,     202664.1911]    fk: 3.75794790402       

	Parameter values: [8.6461922816475258, 202664.19111064548]
	Function value:   3.7579479040180548
	Iterations:       90
	Function calls:   202
	Gradient calls:   0
	Hessian calls:    0
	Warning:          Simplex has not moved.

k: 7        xk: [    8.646192282,     202664.1911]    fk: 3.75794790402       
Entering sub-algorithm.
	
	Simplex minimisation
	~~~~~~~~~~~~~~~~~~~~

	k: 0        xk: [    8.646192282,     202664.1911]    fk: 3.75794790402       

	Parameter values: [8.6461922816475258, 202664.19111064548]
	Function value:   3.7579479040180548
	Iterations:       90
	Function calls:   202
	Gradient calls:   0
	Hessian calls:    0
	Warning:          Simplex has not moved.


Parameter values: [8.6461922816475258, 202664.19111064548]
Function value:   3.757947904018055
Iterations:       730
Function calls:   1636
Gradient calls:   0
Hessian calls:    0
Warning:          None



Fitting to spin :52@N, frequency 799777399.1 and dispersion point 651.2
-----------------------------------------------------------------------



Logarithmic barrier function
~~~~~~~~~~~~~~~~~~~~~~~~~~~~
k: 0        xk: [          10.75,     200000.0001]    fk: 195.44150271        
Entering sub-algorithm.
	
	Simplex minimisation
	~~~~~~~~~~~~~~~~~~~~

	k: 0        xk: [          10.75,     210000.0001]    fk: 56.5827816407       

	Parameter values: [10.377460492912451, 206049.5583617966]
	Function value:   27.29034412555999
	Iterations:       93
	Function calls:   218
	Gradient calls:   0
	Hessian calls:    0
	Warning:          Simplex has not moved.

k: 1        xk: [    10.37746049,     206049.5584]    fk: 27.290542331        
Entering sub-algorithm.
	
	Simplex minimisation
	~~~~~~~~~~~~~~~~~~~~

	k: 0        xk: [    10.37746049,     206049.5584]    fk: 27.2905403489       

	Parameter values: [10.377460504510836, 206049.55838227359]
	Function value:   27.290540348942098
	Iterations:       86
	Function calls:   202
	Gradient calls:   0
	Hessian calls:    0
	Warning:          Simplex has not moved.

k: 2        xk: [     10.3774605,     206049.5584]    fk: 27.290542331        
Entering sub-algorithm.
	
	Simplex minimisation
	~~~~~~~~~~~~~~~~~~~~

	k: 0        xk: [     10.3774605,     206049.5584]    fk: 27.2905423112       

	Parameter values: [10.377460497371715, 206049.55840450645]
	Function value:   27.290542311175873
	Iterations:       83
	Function calls:   197
	Gradient calls:   0
	Hessian calls:    0
	Warning:          Simplex has not moved.

k: 3        xk: [     10.3774605,     206049.5584]    fk: 27.290542331        
Entering sub-algorithm.
	
	Simplex minimisation
	~~~~~~~~~~~~~~~~~~~~

	k: 0        xk: [     10.3774605,     206049.5584]    fk: 27.2905423308       

	Parameter values: [10.377460497371736, 206049.55840450741]
	Function value:   27.290542330798207
	Iterations:       86
	Function calls:   198
	Gradient calls:   0
	Hessian calls:    0
	Warning:          Simplex has not moved.

k: 4        xk: [     10.3774605,     206049.5584]    fk: 27.290542331        
Entering sub-algorithm.
	
	Simplex minimisation
	~~~~~~~~~~~~~~~~~~~~

	k: 0        xk: [     10.3774605,     206049.5584]    fk: 27.290542331        

	Parameter values: [10.377460497282467, 206049.55840177558]
	Function value:   27.290542330994398
	Iterations:       89
	Function calls:   198
	Gradient calls:   0
	Hessian calls:    0
	Warning:          Simplex has not moved.

k: 5        xk: [     10.3774605,     206049.5584]    fk: 27.290542331        
Entering sub-algorithm.
	
	Simplex minimisation
	~~~~~~~~~~~~~~~~~~~~

	k: 0        xk: [     10.3774605,     206049.5584]    fk: 27.290542331        

	Parameter values: [10.377460497282467, 206049.55840177549]
	Function value:   27.290542330996352
	Iterations:       91
	Function calls:   206
	Gradient calls:   0
	Hessian calls:    0
	Warning:          Simplex has not moved.

k: 6        xk: [     10.3774605,     206049.5584]    fk: 27.290542331        
Entering sub-algorithm.
	
	Simplex minimisation
	~~~~~~~~~~~~~~~~~~~~

	k: 0        xk: [     10.3774605,     206049.5584]    fk: 27.290542331        

	Parameter values: [10.377460497989119, 206049.55841853117]
	Function value:   27.290542330996324
	Iterations:       90
	Function calls:   210
	Gradient calls:   0
	Hessian calls:    0
	Warning:          Simplex has not moved.

k: 7        xk: [     10.3774605,     206049.5584]    fk: 27.290542331        
Entering sub-algorithm.
	
	Simplex minimisation
	~~~~~~~~~~~~~~~~~~~~

	k: 0        xk: [     10.3774605,     206049.5584]    fk: 27.290542331        

	Parameter values: [10.377460497989119, 206049.55841853117]
	Function value:   27.290542330996324
	Iterations:       90
	Function calls:   208
	Gradient calls:   0
	Hessian calls:    0
	Warning:          Simplex has not moved.


Parameter values: [10.377460497989119, 206049.55841853117]
Function value:   27.290542330996324
Iterations:       708
Function calls:   1637
Gradient calls:   0
Hessian calls:    0
Warning:          None



Fitting to spin :52@N, frequency 799777399.1 and dispersion point 800.5
-----------------------------------------------------------------------



Logarithmic barrier function
~~~~~~~~~~~~~~~~~~~~~~~~~~~~
k: 0        xk: [          10.75,     200000.0001]    fk: 53.6697079659       
Entering sub-algorithm.
	
	Simplex minimisation
	~~~~~~~~~~~~~~~~~~~~

	k: 0        xk: [          10.75,     200000.0001]    fk: 53.6695097255       

	Parameter values: [10.506485894275947, 202586.33157661342]
	Function value:   13.356560016160692
	Iterations:       99
	Function calls:   223
	Gradient calls:   0
	Hessian calls:    0
	Warning:          Simplex has not moved.

k: 1        xk: [    10.50648589,     202586.3316]    fk: 13.3567581689       
Entering sub-algorithm.
	
	Simplex minimisation
	~~~~~~~~~~~~~~~~~~~~

	k: 0        xk: [    10.50648589,     202586.3316]    fk: 13.3567561873       

	Parameter values: [10.506485894275947, 202586.33157661342]
	Function value:   13.356756187323512
	Iterations:       92
	Function calls:   211
	Gradient calls:   0
	Hessian calls:    0
	Warning:          Simplex has not moved.

k: 2        xk: [    10.50648589,     202586.3316]    fk: 13.3567581689       
Entering sub-algorithm.
	
	Simplex minimisation
	~~~~~~~~~~~~~~~~~~~~

	k: 0        xk: [    10.50648589,     202586.3316]    fk: 13.356758149        

	Parameter values: [10.506485894275947, 202586.33157661342]
	Function value:   13.356758149035141
	Iterations:       92
	Function calls:   211
	Gradient calls:   0
	Hessian calls:    0
	Warning:          Simplex has not moved.

k: 3        xk: [    10.50648589,     202586.3316]    fk: 13.3567581689       
Entering sub-algorithm.
	
	Simplex minimisation
	~~~~~~~~~~~~~~~~~~~~

	k: 0        xk: [    10.50648589,     202586.3316]    fk: 13.3567581687       

	Parameter values: [10.506485894275947, 202586.33157661342]
	Function value:   13.356758168652256
	Iterations:       92
	Function calls:   211
	Gradient calls:   0
	Hessian calls:    0
	Warning:          Simplex has not moved.

k: 4        xk: [    10.50648589,     202586.3316]    fk: 13.3567581689       
Entering sub-algorithm.
	
	Simplex minimisation
	~~~~~~~~~~~~~~~~~~~~

	k: 0        xk: [    10.50648589,     202586.3316]    fk: 13.3567581688       

	Parameter values: [10.506485894275947, 202586.33157661342]
	Function value:   13.356758168848428
	Iterations:       92
	Function calls:   211
	Gradient calls:   0
	Hessian calls:    0
	Warning:          Simplex has not moved.

k: 5        xk: [    10.50648589,     202586.3316]    fk: 13.3567581689       
Entering sub-algorithm.
	
	Simplex minimisation
	~~~~~~~~~~~~~~~~~~~~

	k: 0        xk: [    10.50648589,     202586.3316]    fk: 13.3567581689       

	Parameter values: [10.506485894275947, 202586.33157661342]
	Function value:   13.356758168850389
	Iterations:       92
	Function calls:   211
	Gradient calls:   0
	Hessian calls:    0
	Warning:          Simplex has not moved.

k: 6        xk: [    10.50648589,     202586.3316]    fk: 13.3567581689       
Entering sub-algorithm.
	
	Simplex minimisation
	~~~~~~~~~~~~~~~~~~~~

	k: 0        xk: [    10.50648589,     202586.3316]    fk: 13.3567581689       

	Parameter values: [10.506485894275947, 202586.33157661342]
	Function value:   13.356758168850408
	Iterations:       92
	Function calls:   211
	Gradient calls:   0
	Hessian calls:    0
	Warning:          Simplex has not moved.

k: 7        xk: [    10.50648589,     202586.3316]    fk: 13.3567581689       
Entering sub-algorithm.
	
	Simplex minimisation
	~~~~~~~~~~~~~~~~~~~~

	k: 0        xk: [    10.50648589,     202586.3316]    fk: 13.3567581689       

	Parameter values: [10.506485894275947, 202586.33157661342]
	Function value:   13.356758168850408
	Iterations:       92
	Function calls:   211
	Gradient calls:   0
	Hessian calls:    0
	Warning:          Simplex has not moved.


Parameter values: [10.506485894275947, 202586.33157661342]
Function value:   13.356758168850408
Iterations:       743
Function calls:   1700
Gradient calls:   0
Hessian calls:    0
Warning:          None



Fitting to spin :52@N, frequency 799777399.1 and dispersion point 984.0
-----------------------------------------------------------------------



Logarithmic barrier function
~~~~~~~~~~~~~~~~~~~~~~~~~~~~
k: 0        xk: [          10.75,     200000.0001]    fk: 51.7580524349       
Entering sub-algorithm.
	
	Simplex minimisation
	~~~~~~~~~~~~~~~~~~~~

	k: 0        xk: [          10.75,     200000.0001]    fk: 51.7578541945       

	Parameter values: [10.902569013786703, 203455.02128122502]
	Function value:   33.632123826390419
	Iterations:       90
	Function calls:   210
	Gradient calls:   0
	Hessian calls:    0
	Warning:          Simplex has not moved.

k: 1        xk: [    10.90256901,     203455.0213]    fk: 33.632322371        
Entering sub-algorithm.
	
	Simplex minimisation
	~~~~~~~~~~~~~~~~~~~~

	k: 0        xk: [    10.90256901,     203455.0213]    fk: 33.6323203856       

	Parameter values: [10.902569013786703, 203455.02128122502]
	Function value:   33.632320385555069
	Iterations:       87
	Function calls:   214
	Gradient calls:   0
	Hessian calls:    0
	Warning:          Simplex has not moved.

k: 2        xk: [    10.90256901,     203455.0213]    fk: 33.632322371        
Entering sub-algorithm.
	
	Simplex minimisation
	~~~~~~~~~~~~~~~~~~~~

	k: 0        xk: [    10.90256901,     203455.0213]    fk: 33.6323223511       

	Parameter values: [10.902569013786703, 203455.02128122502]
	Function value:   33.632322351146705
	Iterations:       87
	Function calls:   214
	Gradient calls:   0
	Hessian calls:    0
	Warning:          Simplex has not moved.

k: 3        xk: [    10.90256901,     203455.0213]    fk: 33.632322371        
Entering sub-algorithm.
	
	Simplex minimisation
	~~~~~~~~~~~~~~~~~~~~

	k: 0        xk: [    10.90256901,     203455.0213]    fk: 33.6323223708       

	Parameter values: [10.902569013786703, 203455.02128122502]
	Function value:   33.632322370802626
	Iterations:       87
	Function calls:   214
	Gradient calls:   0
	Hessian calls:    0
	Warning:          Simplex has not moved.

k: 4        xk: [    10.90256901,     203455.0213]    fk: 33.632322371        
Entering sub-algorithm.
	
	Simplex minimisation
	~~~~~~~~~~~~~~~~~~~~

	k: 0        xk: [    10.90256901,     203455.0213]    fk: 33.632322371        

	Parameter values: [10.902569013786703, 203455.02128122502]
	Function value:   33.632322370999184
	Iterations:       87
	Function calls:   214
	Gradient calls:   0
	Hessian calls:    0
	Warning:          Simplex has not moved.

k: 5        xk: [    10.90256901,     203455.0213]    fk: 33.632322371        
Entering sub-algorithm.
	
	Simplex minimisation
	~~~~~~~~~~~~~~~~~~~~

	k: 0        xk: [    10.90256901,     203455.0213]    fk: 33.632322371        

	Parameter values: [10.902569013786703, 203455.02128122502]
	Function value:   33.632322371001152
	Iterations:       87
	Function calls:   214
	Gradient calls:   0
	Hessian calls:    0
	Warning:          Simplex has not moved.

k: 6        xk: [    10.90256901,     203455.0213]    fk: 33.632322371        
Entering sub-algorithm.
	
	Simplex minimisation
	~~~~~~~~~~~~~~~~~~~~

	k: 0        xk: [    10.90256901,     203455.0213]    fk: 33.632322371        

	Parameter values: [10.902569013786703, 203455.02128122502]
	Function value:   33.632322371001173
	Iterations:       87
	Function calls:   214
	Gradient calls:   0
	Hessian calls:    0
	Warning:          Simplex has not moved.

k: 7        xk: [    10.90256901,     203455.0213]    fk: 33.632322371        
Entering sub-algorithm.
	
	Simplex minimisation
	~~~~~~~~~~~~~~~~~~~~

	k: 0        xk: [    10.90256901,     203455.0213]    fk: 33.632322371        

	Parameter values: [10.902569013786703, 203455.02128122502]
	Function value:   33.632322371001173
	Iterations:       87
	Function calls:   214
	Gradient calls:   0
	Hessian calls:    0
	Warning:          Simplex has not moved.


Parameter values: [10.902569013786703, 203455.02128122502]
Function value:   33.63232237100117
Iterations:       699
Function calls:   1708
Gradient calls:   0
Hessian calls:    0
Warning:          None



Fitting to spin :52@N, frequency 799777399.1 and dispersion point 1341.11
-------------------------------------------------------------------------



Logarithmic barrier function
~~~~~~~~~~~~~~~~~~~~~~~~~~~~
k: 0        xk: [            8.8,     200000.0001]    fk: 678.45248492        
Entering sub-algorithm.
	
	Simplex minimisation
	~~~~~~~~~~~~~~~~~~~~

	k: 0        xk: [           9.24,     200000.0001]    fk: 563.861154671       
	k: 100      xk: [    10.68366775,     218670.4117]    fk: 35.8182486608       

	Parameter values: [10.683667751429518, 218670.41166297172]
	Function value:   35.81824866083123
	Iterations:       101
	Function calls:   225
	Gradient calls:   0
	Hessian calls:    0
	Warning:          Simplex has not moved.

k: 1        xk: [    10.68366775,     218670.4117]    fk: 35.8184477354       
Entering sub-algorithm.
	
	Simplex minimisation
	~~~~~~~~~~~~~~~~~~~~

	k: 0        xk: [    10.68366775,     218670.4117]    fk: 35.8184457446       

	Parameter values: [10.683667751486528, 218670.41166273309]
	Function value:   35.818445744649878
	Iterations:       85
	Function calls:   212
	Gradient calls:   0
	Hessian calls:    0
	Warning:          Simplex has not moved.

k: 2        xk: [    10.68366775,     218670.4117]    fk: 35.8184477354       
Entering sub-algorithm.
	
	Simplex minimisation
	~~~~~~~~~~~~~~~~~~~~

	k: 0        xk: [    10.68366775,     218670.4117]    fk: 35.8184477155       

	Parameter values: [10.683667751486528, 218670.41166273309]
	Function value:   35.818447715488062
	Iterations:       98
	Function calls:   222
	Gradient calls:   0
	Hessian calls:    0
	Warning:          Simplex has not moved.

k: 3        xk: [    10.68366775,     218670.4117]    fk: 35.8184477354       
Entering sub-algorithm.
	
	Simplex minimisation
	~~~~~~~~~~~~~~~~~~~~

	k: 0        xk: [    10.68366775,     218670.4117]    fk: 35.8184477352       

	Parameter values: [10.683667751486528, 218670.41166273309]
	Function value:   35.81844773519645
	Iterations:       98
	Function calls:   222
	Gradient calls:   0
	Hessian calls:    0
	Warning:          Simplex has not moved.

k: 4        xk: [    10.68366775,     218670.4117]    fk: 35.8184477354       
Entering sub-algorithm.
	
	Simplex minimisation
	~~~~~~~~~~~~~~~~~~~~

	k: 0        xk: [    10.68366775,     218670.4117]    fk: 35.8184477354       

	Parameter values: [10.683667751486528, 218670.41166273309]
	Function value:   35.818447735393534
	Iterations:       98
	Function calls:   222
	Gradient calls:   0
	Hessian calls:    0
	Warning:          Simplex has not moved.

k: 5        xk: [    10.68366775,     218670.4117]    fk: 35.8184477354       
Entering sub-algorithm.
	
	Simplex minimisation
	~~~~~~~~~~~~~~~~~~~~

	k: 0        xk: [    10.68366775,     218670.4117]    fk: 35.8184477354       

	Parameter values: [10.683667751486528, 218670.41166273309]
	Function value:   35.818447735395502
	Iterations:       98
	Function calls:   222
	Gradient calls:   0
	Hessian calls:    0
	Warning:          Simplex has not moved.

k: 6        xk: [    10.68366775,     218670.4117]    fk: 35.8184477354       
Entering sub-algorithm.
	
	Simplex minimisation
	~~~~~~~~~~~~~~~~~~~~

	k: 0        xk: [    10.68366775,     218670.4117]    fk: 35.8184477354       

	Parameter values: [10.683667751486528, 218670.41166273309]
	Function value:   35.818447735395523
	Iterations:       98
	Function calls:   222
	Gradient calls:   0
	Hessian calls:    0
	Warning:          Simplex has not moved.

k: 7        xk: [    10.68366775,     218670.4117]    fk: 35.8184477354       
Entering sub-algorithm.
	
	Simplex minimisation
	~~~~~~~~~~~~~~~~~~~~

	k: 0        xk: [    10.68366775,     218670.4117]    fk: 35.8184477354       

	Parameter values: [10.683667751486528, 218670.41166273309]
	Function value:   35.818447735395523
	Iterations:       98
	Function calls:   222
	Gradient calls:   0
	Hessian calls:    0
	Warning:          Simplex has not moved.


Parameter values: [10.683667751486528, 218670.41166273309]
Function value:   35.81844773539552
Iterations:       774
Function calls:   1769
Gradient calls:   0
Hessian calls:    0
Warning:          None



Fitting to spin :52@N, frequency 799777399.1 and dispersion point 1648.5
------------------------------------------------------------------------



Logarithmic barrier function
~~~~~~~~~~~~~~~~~~~~~~~~~~~~
k: 0        xk: [          10.75,     200000.0001]    fk: 176.773890669       
Entering sub-algorithm.
	
	Simplex minimisation
	~~~~~~~~~~~~~~~~~~~~

	k: 0        xk: [          10.75,     210000.0001]    fk: 28.4481001194       

	Parameter values: [10.501144970173454, 206502.51217546465]
	Function value:   7.3556128509857608
	Iterations:       97
	Function calls:   215
	Gradient calls:   0
	Hessian calls:    0
	Warning:          Simplex has not moved.

k: 1        xk: [    10.50114497,     206502.5122]    fk: 7.35581119034       
Entering sub-algorithm.
	
	Simplex minimisation
	~~~~~~~~~~~~~~~~~~~~

	k: 0        xk: [    10.50114497,     206502.5122]    fk: 7.35580920694       

	Parameter values: [10.501144970173442, 206502.51217546477]
	Function value:   7.3558092069435865
	Iterations:       89
	Function calls:   211
	Gradient calls:   0
	Hessian calls:    0
	Warning:          None

k: 2        xk: [    10.50114497,     206502.5122]    fk: 7.35581119034       
Entering sub-algorithm.
	
	Simplex minimisation
	~~~~~~~~~~~~~~~~~~~~

	k: 0        xk: [    10.50114497,     206502.5122]    fk: 7.3558111705        

	Parameter values: [10.501144970173442, 206502.51217546477]
	Function value:   7.3558111705031655
	Iterations:       89
	Function calls:   206
	Gradient calls:   0
	Hessian calls:    0
	Warning:          Simplex has not moved.

k: 3        xk: [    10.50114497,     206502.5122]    fk: 7.35581119034       
Entering sub-algorithm.
	
	Simplex minimisation
	~~~~~~~~~~~~~~~~~~~~

	k: 0        xk: [    10.50114497,     206502.5122]    fk: 7.35581119014       

	Parameter values: [10.501144970173442, 206502.51217546477]
	Function value:   7.3558111901387608
	Iterations:       89
	Function calls:   206
	Gradient calls:   0
	Hessian calls:    0
	Warning:          Simplex has not moved.

k: 4        xk: [    10.50114497,     206502.5122]    fk: 7.35581119034       
Entering sub-algorithm.
	
	Simplex minimisation
	~~~~~~~~~~~~~~~~~~~~

	k: 0        xk: [    10.50114497,     206502.5122]    fk: 7.35581119034       

	Parameter values: [10.501144970173442, 206502.51217546477]
	Function value:   7.3558111903351167
	Iterations:       89
	Function calls:   206
	Gradient calls:   0
	Hessian calls:    0
	Warning:          Simplex has not moved.

k: 5        xk: [    10.50114497,     206502.5122]    fk: 7.35581119034       
Entering sub-algorithm.
	
	Simplex minimisation
	~~~~~~~~~~~~~~~~~~~~

	k: 0        xk: [    10.50114497,     206502.5122]    fk: 7.35581119034       

	Parameter values: [10.501144970173442, 206502.51217546477]
	Function value:   7.3558111903370795
	Iterations:       89
	Function calls:   206
	Gradient calls:   0
	Hessian calls:    0
	Warning:          Simplex has not moved.

k: 6        xk: [    10.50114497,     206502.5122]    fk: 7.35581119034       
Entering sub-algorithm.
	
	Simplex minimisation
	~~~~~~~~~~~~~~~~~~~~

	k: 0        xk: [    10.50114497,     206502.5122]    fk: 7.35581119034       

	Parameter values: [10.501144970173442, 206502.51217546477]
	Function value:   7.3558111903371
	Iterations:       89
	Function calls:   206
	Gradient calls:   0
	Hessian calls:    0
	Warning:          Simplex has not moved.

k: 7        xk: [    10.50114497,     206502.5122]    fk: 7.35581119034       
Entering sub-algorithm.
	
	Simplex minimisation
	~~~~~~~~~~~~~~~~~~~~

	k: 0        xk: [    10.50114497,     206502.5122]    fk: 7.35581119034       

	Parameter values: [10.501144970173442, 206502.51217546477]
	Function value:   7.3558111903371
	Iterations:       89
	Function calls:   206
	Gradient calls:   0
	Hessian calls:    0
	Warning:          Simplex has not moved.


Parameter values: [10.501144970173442, 206502.51217546477]
Function value:   7.3558111903371
Iterations:       720
Function calls:   1662
Gradient calls:   0
Hessian calls:    0
Warning:          None



Fitting to spin :52@N, frequency 799777399.1 and dispersion point 1341.11
-------------------------------------------------------------------------



Logarithmic barrier function
~~~~~~~~~~~~~~~~~~~~~~~~~~~~
k: 0        xk: [          10.75,     200000.0001]    fk: 527.020867661       
Entering sub-algorithm.
	
	Simplex minimisation
	~~~~~~~~~~~~~~~~~~~~

	k: 0        xk: [          10.75,     210000.0001]    fk: 82.455601248        

	Parameter values: [11.117963878348352, 216447.24064700829]
	Function value:   15.587174856594956
	Iterations:       100
	Function calls:   234
	Gradient calls:   0
	Hessian calls:    0
	Warning:          Simplex has not moved.

k: 1        xk: [    11.11796388,     216447.2406]    fk: 15.5873742045       
Entering sub-algorithm.
	
	Simplex minimisation
	~~~~~~~~~~~~~~~~~~~~

	k: 0        xk: [    11.11796388,     216447.2406]    fk: 15.587372211        

	Parameter values: [11.117963878348352, 216447.24064700829]
	Function value:   15.587372210985711
	Iterations:       90
	Function calls:   207
	Gradient calls:   0
	Hessian calls:    0
	Warning:          Simplex has not moved.

k: 2        xk: [    11.11796388,     216447.2406]    fk: 15.5873742045       
Entering sub-algorithm.
	
	Simplex minimisation
	~~~~~~~~~~~~~~~~~~~~

	k: 0        xk: [    11.11796388,     216447.2406]    fk: 15.5873741845       

	Parameter values: [11.117963878348352, 216447.24064700829]
	Function value:   15.587374184529617
	Iterations:       90
	Function calls:   207
	Gradient calls:   0
	Hessian calls:    0
	Warning:          Simplex has not moved.

k: 3        xk: [    11.11796388,     216447.2406]    fk: 15.5873742045       
Entering sub-algorithm.
	
	Simplex minimisation
	~~~~~~~~~~~~~~~~~~~~

	k: 0        xk: [    11.11796388,     216447.2406]    fk: 15.5873742043       

	Parameter values: [11.117963878348352, 216447.24064700829]
	Function value:   15.587374204265057
	Iterations:       90
	Function calls:   207
	Gradient calls:   0
	Hessian calls:    0
	Warning:          Simplex has not moved.

k: 4        xk: [    11.11796388,     216447.2406]    fk: 15.5873742045       
Entering sub-algorithm.
	
	Simplex minimisation
	~~~~~~~~~~~~~~~~~~~~

	k: 0        xk: [    11.11796388,     216447.2406]    fk: 15.5873742045       

	Parameter values: [11.117963878348352, 216447.24064700829]
	Function value:   15.58737420446241
	Iterations:       90
	Function calls:   207
	Gradient calls:   0
	Hessian calls:    0
	Warning:          Simplex has not moved.

k: 5        xk: [    11.11796388,     216447.2406]    fk: 15.5873742045       
Entering sub-algorithm.
	
	Simplex minimisation
	~~~~~~~~~~~~~~~~~~~~

	k: 0        xk: [    11.11796388,     216447.2406]    fk: 15.5873742045       

	Parameter values: [11.117963878348352, 216447.24064700829]
	Function value:   15.587374204464385
	Iterations:       90
	Function calls:   207
	Gradient calls:   0
	Hessian calls:    0
	Warning:          Simplex has not moved.

k: 6        xk: [    11.11796388,     216447.2406]    fk: 15.5873742045       
Entering sub-algorithm.
	
	Simplex minimisation
	~~~~~~~~~~~~~~~~~~~~

	k: 0        xk: [    11.11796388,     216447.2406]    fk: 15.5873742045       

	Parameter values: [11.117963878348352, 216447.24064700829]
	Function value:   15.587374204464405
	Iterations:       90
	Function calls:   207
	Gradient calls:   0
	Hessian calls:    0
	Warning:          Simplex has not moved.

k: 7        xk: [    11.11796388,     216447.2406]    fk: 15.5873742045       
Entering sub-algorithm.
	
	Simplex minimisation
	~~~~~~~~~~~~~~~~~~~~

	k: 0        xk: [    11.11796388,     216447.2406]    fk: 15.5873742045       

	Parameter values: [11.117963878348352, 216447.24064700829]
	Function value:   15.587374204464405
	Iterations:       90
	Function calls:   207
	Gradient calls:   0
	Hessian calls:    0
	Warning:          Simplex has not moved.


Parameter values: [11.117963878348352, 216447.24064700829]
Function value:   15.587374204464405
Iterations:       730
Function calls:   1683
Gradient calls:   0
Hessian calls:    0
Warning:          None



Fitting to spin :52@N, frequency 799777399.1 and dispersion point 800.5
-----------------------------------------------------------------------



Logarithmic barrier function
~~~~~~~~~~~~~~~~~~~~~~~~~~~~
k: 0        xk: [           6.85,     200000.0001]    fk: 319.056557474       
Entering sub-algorithm.
	
	Simplex minimisation
	~~~~~~~~~~~~~~~~~~~~

	k: 0        xk: [         7.1925,     200000.0001]    fk: 259.855160159       

	Parameter values: [7.8659904595268024, 211869.71484012529]
	Function value:   14.584409382612112
	Iterations:       98
	Function calls:   226
	Gradient calls:   0
	Hessian calls:    0
	Warning:          Simplex has not moved.

k: 1        xk: [     7.86599046,     211869.7148]    fk: 14.5846052273       
Entering sub-algorithm.
	
	Simplex minimisation
	~~~~~~~~~~~~~~~~~~~~

	k: 0        xk: [     7.86599046,     211869.7148]    fk: 14.5846032688       

	Parameter values: [7.865990459523351, 211869.71484012212]
	Function value:   14.58460326884893
	Iterations:       94
	Function calls:   209
	Gradient calls:   0
	Hessian calls:    0
	Warning:          Simplex has not moved.

k: 2        xk: [     7.86599046,     211869.7148]    fk: 14.5846052273       
Entering sub-algorithm.
	
	Simplex minimisation
	~~~~~~~~~~~~~~~~~~~~

	k: 0        xk: [     7.86599046,     211869.7148]    fk: 14.5846052077       

	Parameter values: [7.865990459523351, 211869.71484012212]
	Function value:   14.584605207711299
	Iterations:       98
	Function calls:   225
	Gradient calls:   0
	Hessian calls:    0
	Warning:          Simplex has not moved.

k: 3        xk: [     7.86599046,     211869.7148]    fk: 14.5846052273       
Entering sub-algorithm.
	
	Simplex minimisation
	~~~~~~~~~~~~~~~~~~~~

	k: 0        xk: [     7.86599046,     211869.7148]    fk: 14.5846052271       

	Parameter values: [7.865990459523351, 211869.71484012212]
	Function value:   14.584605227099923
	Iterations:       98
	Function calls:   225
	Gradient calls:   0
	Hessian calls:    0
	Warning:          Simplex has not moved.

k: 4        xk: [     7.86599046,     211869.7148]    fk: 14.5846052273       
Entering sub-algorithm.
	
	Simplex minimisation
	~~~~~~~~~~~~~~~~~~~~

	k: 0        xk: [     7.86599046,     211869.7148]    fk: 14.5846052273       

	Parameter values: [7.865990459523351, 211869.71484012212]
	Function value:   14.58460522729381
	Iterations:       98
	Function calls:   225
	Gradient calls:   0
	Hessian calls:    0
	Warning:          Simplex has not moved.

k: 5        xk: [     7.86599046,     211869.7148]    fk: 14.5846052273       
Entering sub-algorithm.
	
	Simplex minimisation
	~~~~~~~~~~~~~~~~~~~~

	k: 0        xk: [     7.86599046,     211869.7148]    fk: 14.5846052273       

	Parameter values: [7.865990459523351, 211869.71484012212]
	Function value:   14.584605227295748
	Iterations:       98
	Function calls:   225
	Gradient calls:   0
	Hessian calls:    0
	Warning:          Simplex has not moved.

k: 6        xk: [     7.86599046,     211869.7148]    fk: 14.5846052273       
Entering sub-algorithm.
	
	Simplex minimisation
	~~~~~~~~~~~~~~~~~~~~

	k: 0        xk: [     7.86599046,     211869.7148]    fk: 14.5846052273       

	Parameter values: [7.865990459523351, 211869.71484012212]
	Function value:   14.584605227295768
	Iterations:       98
	Function calls:   225
	Gradient calls:   0
	Hessian calls:    0
	Warning:          Simplex has not moved.

k: 7        xk: [     7.86599046,     211869.7148]    fk: 14.5846052273       
Entering sub-algorithm.
	
	Simplex minimisation
	~~~~~~~~~~~~~~~~~~~~

	k: 0        xk: [     7.86599046,     211869.7148]    fk: 14.5846052273       

	Parameter values: [7.865990459523351, 211869.71484012212]
	Function value:   14.584605227295768
	Iterations:       98
	Function calls:   225
	Gradient calls:   0
	Hessian calls:    0
	Warning:          Simplex has not moved.


Parameter values: [7.865990459523351, 211869.71484012212]
Function value:   14.584605227295768
Iterations:       780
Function calls:   1785
Gradient calls:   0
Hessian calls:    0
Warning:          None



Fitting to spin :52@N, frequency 799777399.1 and dispersion point 1341.11
-------------------------------------------------------------------------



Logarithmic barrier function
~~~~~~~~~~~~~~~~~~~~~~~~~~~~
k: 0        xk: [            8.8,     200000.0001]    fk: 833.722383946       
Entering sub-algorithm.
	
	Simplex minimisation
	~~~~~~~~~~~~~~~~~~~~

	k: 0        xk: [            8.8,     210000.0001]    fk: 205.629837523       

	Parameter values: [9.2585700483083961, 217703.15074535046]
	Function value:   79.498114273018118
	Iterations:       97
	Function calls:   221
	Gradient calls:   0
	Hessian calls:    0
	Warning:          Simplex has not moved.

k: 1        xk: [    9.258570048,     217703.1507]    fk: 79.4983119466       
Entering sub-algorithm.
	
	Simplex minimisation
	~~~~~~~~~~~~~~~~~~~~

	k: 0        xk: [    9.258570048,     217703.1507]    fk: 79.4983099698       

	Parameter values: [9.2585700483083961, 217703.15074535046]
	Function value:   79.498309969843277
	Iterations:       86
	Function calls:   201
	Gradient calls:   0
	Hessian calls:    0
	Warning:          Simplex has not moved.

k: 2        xk: [    9.258570048,     217703.1507]    fk: 79.4983119466       
Entering sub-algorithm.
	
	Simplex minimisation
	~~~~~~~~~~~~~~~~~~~~

	k: 0        xk: [    9.258570048,     217703.1507]    fk: 79.4983119268       

	Parameter values: [9.2585700483083961, 217703.15074535046]
	Function value:   79.498311926811525
	Iterations:       86
	Function calls:   201
	Gradient calls:   0
	Hessian calls:    0
	Warning:          Simplex has not moved.

k: 3        xk: [    9.258570048,     217703.1507]    fk: 79.4983119466       
Entering sub-algorithm.
	
	Simplex minimisation
	~~~~~~~~~~~~~~~~~~~~

	k: 0        xk: [    9.258570048,     217703.1507]    fk: 79.4983119464       

	Parameter values: [9.2585700483083961, 217703.15074535046]
	Function value:   79.498311946381207
	Iterations:       86
	Function calls:   201
	Gradient calls:   0
	Hessian calls:    0
	Warning:          Simplex has not moved.

k: 4        xk: [    9.258570048,     217703.1507]    fk: 79.4983119466       
Entering sub-algorithm.
	
	Simplex minimisation
	~~~~~~~~~~~~~~~~~~~~

	k: 0        xk: [    9.258570048,     217703.1507]    fk: 79.4983119466       

	Parameter values: [9.2585700483083961, 217703.15074535046]
	Function value:   79.498311946576905
	Iterations:       86
	Function calls:   201
	Gradient calls:   0
	Hessian calls:    0
	Warning:          Simplex has not moved.

k: 5        xk: [    9.258570048,     217703.1507]    fk: 79.4983119466       
Entering sub-algorithm.
	
	Simplex minimisation
	~~~~~~~~~~~~~~~~~~~~

	k: 0        xk: [    9.258570048,     217703.1507]    fk: 79.4983119466       

	Parameter values: [9.2585700483083961, 217703.15074535046]
	Function value:   79.498311946578866
	Iterations:       86
	Function calls:   201
	Gradient calls:   0
	Hessian calls:    0
	Warning:          Simplex has not moved.

k: 6        xk: [    9.258570048,     217703.1507]    fk: 79.4983119466       
Entering sub-algorithm.
	
	Simplex minimisation
	~~~~~~~~~~~~~~~~~~~~

	k: 0        xk: [    9.258570048,     217703.1507]    fk: 79.4983119466       

	Parameter values: [9.2585700483083961, 217703.15074535046]
	Function value:   79.49831194657888
	Iterations:       86
	Function calls:   201
	Gradient calls:   0
	Hessian calls:    0
	Warning:          Simplex has not moved.

k: 7        xk: [    9.258570048,     217703.1507]    fk: 79.4983119466       
Entering sub-algorithm.
	
	Simplex minimisation
	~~~~~~~~~~~~~~~~~~~~

	k: 0        xk: [    9.258570048,     217703.1507]    fk: 79.4983119466       

	Parameter values: [9.2585700483083961, 217703.15074535046]
	Function value:   79.49831194657888
	Iterations:       86
	Function calls:   201
	Gradient calls:   0
	Hessian calls:    0
	Warning:          Simplex has not moved.


Parameter values: [9.2585700483083961, 217703.15074535046]
Function value:   79.49831194657888
Iterations:       699
Function calls:   1628
Gradient calls:   0
Hessian calls:    0
Warning:          None



Fitting to spin :52@N, frequency 799777399.1 and dispersion point 1648.5
------------------------------------------------------------------------



Logarithmic barrier function
~~~~~~~~~~~~~~~~~~~~~~~~~~~~
k: 0        xk: [            8.8,     200000.0001]    fk: 219.888050082       
Entering sub-algorithm.
	
	Simplex minimisation
	~~~~~~~~~~~~~~~~~~~~

	k: 0        xk: [            8.8,     210000.0001]    fk: 130.019582349       
	k: 100      xk: [    9.564873617,     211988.9388]    fk: 0.447202588912      

	Parameter values: [9.5648736169374153, 211988.93875995599]
	Function value:   0.4472025889124937
	Iterations:       102
	Function calls:   231
	Gradient calls:   0
	Hessian calls:    0
	Warning:          Simplex has not moved.

k: 1        xk: [    9.564873617,     211988.9388]    fk: 0.447400305896      
Entering sub-algorithm.
	
	Simplex minimisation
	~~~~~~~~~~~~~~~~~~~~

	k: 0        xk: [    9.564873617,     211988.9388]    fk: 0.447398328726      

	Parameter values: [9.5648736169376889, 211988.9387599589]
	Function value:   0.44739832872624374
	Iterations:       88
	Function calls:   205
	Gradient calls:   0
	Hessian calls:    0
	Warning:          Simplex has not moved.

k: 2        xk: [    9.564873617,     211988.9388]    fk: 0.447400305896      
Entering sub-algorithm.
	
	Simplex minimisation
	~~~~~~~~~~~~~~~~~~~~

	k: 0        xk: [    9.564873617,     211988.9388]    fk: 0.447400286124      

	Parameter values: [9.5648736169376889, 211988.9387599589]
	Function value:   0.44740028612438132
	Iterations:       91
	Function calls:   200
	Gradient calls:   0
	Hessian calls:    0
	Warning:          Simplex has not moved.

k: 3        xk: [    9.564873617,     211988.9388]    fk: 0.447400305896      
Entering sub-algorithm.
	
	Simplex minimisation
	~~~~~~~~~~~~~~~~~~~~

	k: 0        xk: [    9.564873617,     211988.9388]    fk: 0.447400305698      

	Parameter values: [9.5648736169376889, 211988.9387599589]
	Function value:   0.44740030569836264
	Iterations:       91
	Function calls:   200
	Gradient calls:   0
	Hessian calls:    0
	Warning:          Simplex has not moved.

k: 4        xk: [    9.564873617,     211988.9388]    fk: 0.447400305896      
Entering sub-algorithm.
	
	Simplex minimisation
	~~~~~~~~~~~~~~~~~~~~

	k: 0        xk: [    9.564873617,     211988.9388]    fk: 0.447400305894      

	Parameter values: [9.5648736169376889, 211988.9387599589]
	Function value:   0.44740030589410251
	Iterations:       91
	Function calls:   200
	Gradient calls:   0
	Hessian calls:    0
	Warning:          Simplex has not moved.

k: 5        xk: [    9.564873617,     211988.9388]    fk: 0.447400305896      
Entering sub-algorithm.
	
	Simplex minimisation
	~~~~~~~~~~~~~~~~~~~~

	k: 0        xk: [    9.564873617,     211988.9388]    fk: 0.447400305896      

	Parameter values: [9.5648736169376889, 211988.9387599589]
	Function value:   0.44740030589605984
	Iterations:       91
	Function calls:   200
	Gradient calls:   0
	Hessian calls:    0
	Warning:          Simplex has not moved.

k: 6        xk: [    9.564873617,     211988.9388]    fk: 0.447400305896      
Entering sub-algorithm.
	
	Simplex minimisation
	~~~~~~~~~~~~~~~~~~~~

	k: 0        xk: [    9.564873617,     211988.9388]    fk: 0.447400305896      

	Parameter values: [9.5648736169376889, 211988.9387599589]
	Function value:   0.44740030589607949
	Iterations:       91
	Function calls:   200
	Gradient calls:   0
	Hessian calls:    0
	Warning:          Simplex has not moved.

k: 7        xk: [    9.564873617,     211988.9388]    fk: 0.447400305896      
Entering sub-algorithm.
	
	Simplex minimisation
	~~~~~~~~~~~~~~~~~~~~

	k: 0        xk: [    9.564873617,     211988.9388]    fk: 0.447400305896      

	Parameter values: [9.5648736169376889, 211988.9387599589]
	Function value:   0.44740030589607965
	Iterations:       91
	Function calls:   200
	Gradient calls:   0
	Hessian calls:    0
	Warning:          Simplex has not moved.

k: 8        xk: [    9.564873617,     211988.9388]    fk: 0.447400305896      
Entering sub-algorithm.
	
	Simplex minimisation
	~~~~~~~~~~~~~~~~~~~~

	k: 0        xk: [    9.564873617,     211988.9388]    fk: 0.447400305896      

	Parameter values: [9.5648736169376889, 211988.9387599589]
	Function value:   0.44740030589607965
	Iterations:       91
	Function calls:   200
	Gradient calls:   0
	Hessian calls:    0
	Warning:          Simplex has not moved.


Parameter values: [9.5648736169376889, 211988.9387599589]
Function value:   0.44740030589607965
Iterations:       827
Function calls:   1836
Gradient calls:   0
Hessian calls:    0
Warning:          None



Fitting to spin :52@N, frequency 799777399.1 and dispersion point 800.5
-----------------------------------------------------------------------



Logarithmic barrier function
~~~~~~~~~~~~~~~~~~~~~~~~~~~~
k: 0        xk: [           2.95,     200000.0001]    fk: 581.340499327       
Entering sub-algorithm.
	
	Simplex minimisation
	~~~~~~~~~~~~~~~~~~~~

	k: 0        xk: [           2.95,     210000.0001]    fk: 139.418749362       
	k: 100      xk: [     3.23971468,     214417.3816]    fk: 1.68091085923       

	Parameter values: [3.239714680416824, 214417.38159035097]
	Function value:   1.6809108592323159
	Iterations:       108
	Function calls:   239
	Gradient calls:   0
	Hessian calls:    0
	Warning:          Simplex has not moved.

k: 1        xk: [     3.23971468,     214417.3816]    fk: 1.68109819074       
Entering sub-algorithm.
	
	Simplex minimisation
	~~~~~~~~~~~~~~~~~~~~

	k: 0        xk: [     3.23971468,     214417.3816]    fk: 1.68109631743       

	Parameter values: [3.239714680416824, 214417.38159035097]
	Function value:   1.6810963174292166
	Iterations:       83
	Function calls:   199
	Gradient calls:   0
	Hessian calls:    0
	Warning:          Simplex has not moved.

k: 2        xk: [     3.23971468,     214417.3816]    fk: 1.68109819074       
Entering sub-algorithm.
	
	Simplex minimisation
	~~~~~~~~~~~~~~~~~~~~

	k: 0        xk: [     3.23971468,     214417.3816]    fk: 1.68109817201       

	Parameter values: [3.239714680416824, 214417.38159035097]
	Function value:   1.6810981720111855
	Iterations:       83
	Function calls:   199
	Gradient calls:   0
	Hessian calls:    0
	Warning:          Simplex has not moved.

k: 3        xk: [     3.23971468,     214417.3816]    fk: 1.68109819074       
Entering sub-algorithm.
	
	Simplex minimisation
	~~~~~~~~~~~~~~~~~~~~

	k: 0        xk: [     3.23971468,     214417.3816]    fk: 1.68109819056       

	Parameter values: [3.239714680416824, 214417.38159035097]
	Function value:   1.6810981905570053
	Iterations:       83
	Function calls:   199
	Gradient calls:   0
	Hessian calls:    0
	Warning:          Simplex has not moved.

k: 4        xk: [     3.23971468,     214417.3816]    fk: 1.68109819074       
Entering sub-algorithm.
	
	Simplex minimisation
	~~~~~~~~~~~~~~~~~~~~

	k: 0        xk: [     3.23971468,     214417.3816]    fk: 1.68109819074       

	Parameter values: [3.239714680416824, 214417.38159035097]
	Function value:   1.6810981907424636
	Iterations:       83
	Function calls:   199
	Gradient calls:   0
	Hessian calls:    0
	Warning:          Simplex has not moved.

k: 5        xk: [     3.23971468,     214417.3816]    fk: 1.68109819074       
Entering sub-algorithm.
	
	Simplex minimisation
	~~~~~~~~~~~~~~~~~~~~

	k: 0        xk: [     3.23971468,     214417.3816]    fk: 1.68109819074       

	Parameter values: [3.239714680416824, 214417.38159035097]
	Function value:   1.6810981907443181
	Iterations:       83
	Function calls:   199
	Gradient calls:   0
	Hessian calls:    0
	Warning:          Simplex has not moved.

k: 6        xk: [     3.23971468,     214417.3816]    fk: 1.68109819074       
Entering sub-algorithm.
	
	Simplex minimisation
	~~~~~~~~~~~~~~~~~~~~

	k: 0        xk: [     3.23971468,     214417.3816]    fk: 1.68109819074       

	Parameter values: [3.239714680416824, 214417.38159035097]
	Function value:   1.6810981907443365
	Iterations:       83
	Function calls:   199
	Gradient calls:   0
	Hessian calls:    0
	Warning:          Simplex has not moved.

k: 7        xk: [     3.23971468,     214417.3816]    fk: 1.68109819074       
Entering sub-algorithm.
	
	Simplex minimisation
	~~~~~~~~~~~~~~~~~~~~

	k: 0        xk: [     3.23971468,     214417.3816]    fk: 1.68109819074       

	Parameter values: [3.239714680416824, 214417.38159035097]
	Function value:   1.6810981907443368
	Iterations:       83
	Function calls:   199
	Gradient calls:   0
	Hessian calls:    0
	Warning:          Simplex has not moved.

k: 8        xk: [     3.23971468,     214417.3816]    fk: 1.68109819074       
Entering sub-algorithm.
	
	Simplex minimisation
	~~~~~~~~~~~~~~~~~~~~

	k: 0        xk: [     3.23971468,     214417.3816]    fk: 1.68109819074       

	Parameter values: [3.239714680416824, 214417.38159035097]
	Function value:   1.6810981907443368
	Iterations:       83
	Function calls:   199
	Gradient calls:   0
	Hessian calls:    0
	Warning:          Simplex has not moved.


Parameter values: [3.239714680416824, 214417.38159035097]
Function value:   1.6810981907443368
Iterations:       772
Function calls:   1831
Gradient calls:   0
Hessian calls:    0
Warning:          None



Fitting to spin :52@N, frequency 799777399.1 and dispersion point 1341.11
-------------------------------------------------------------------------



Logarithmic barrier function
~~~~~~~~~~~~~~~~~~~~~~~~~~~~
k: 0        xk: [           6.85,     250000.0001]    fk: 2132.56174664       
Entering sub-algorithm.
	
	Simplex minimisation
	~~~~~~~~~~~~~~~~~~~~

	k: 0        xk: [           6.85,     250000.0001]    fk: 2132.56155047       
	k: 100      xk: [    5.083840379,      226358.691]    fk: 23.1694885545       

	Parameter values: [5.0838403785217912, 226358.69101546973]
	Function value:   23.169488554489174
	Iterations:       105
	Function calls:   240
	Gradient calls:   0
	Hessian calls:    0
	Warning:          Simplex has not moved.

k: 1        xk: [    5.083840379,      226358.691]    fk: 23.1696808396       
Entering sub-algorithm.
	
	Simplex minimisation
	~~~~~~~~~~~~~~~~~~~~

	k: 0        xk: [    5.083840379,      226358.691]    fk: 23.1696789168       

	Parameter values: [5.0838403785217912, 226358.69101546973]
	Function value:   23.169678916764113
	Iterations:       89
	Function calls:   203
	Gradient calls:   0
	Hessian calls:    0
	Warning:          Simplex has not moved.

k: 2        xk: [    5.083840379,      226358.691]    fk: 23.1696808396       
Entering sub-algorithm.
	
	Simplex minimisation
	~~~~~~~~~~~~~~~~~~~~

	k: 0        xk: [    5.083840379,      226358.691]    fk: 23.1696808204       

	Parameter values: [5.0838403785217912, 226358.69101546973]
	Function value:   23.169680820386862
	Iterations:       89
	Function calls:   203
	Gradient calls:   0
	Hessian calls:    0
	Warning:          Simplex has not moved.

k: 3        xk: [    5.083840379,      226358.691]    fk: 23.1696808396       
Entering sub-algorithm.
	
	Simplex minimisation
	~~~~~~~~~~~~~~~~~~~~

	k: 0        xk: [    5.083840379,      226358.691]    fk: 23.1696808394       

	Parameter values: [5.0838403785217912, 226358.69101546973]
	Function value:   23.169680839423087
	Iterations:       89
	Function calls:   203
	Gradient calls:   0
	Hessian calls:    0
	Warning:          Simplex has not moved.

k: 4        xk: [    5.083840379,      226358.691]    fk: 23.1696808396       
Entering sub-algorithm.
	
	Simplex minimisation
	~~~~~~~~~~~~~~~~~~~~

	k: 0        xk: [    5.083840379,      226358.691]    fk: 23.1696808396       

	Parameter values: [5.0838403785217912, 226358.69101546973]
	Function value:   23.169680839613452
	Iterations:       89
	Function calls:   203
	Gradient calls:   0
	Hessian calls:    0
	Warning:          Simplex has not moved.

k: 5        xk: [    5.083840379,      226358.691]    fk: 23.1696808396       
Entering sub-algorithm.
	
	Simplex minimisation
	~~~~~~~~~~~~~~~~~~~~

	k: 0        xk: [    5.083840379,      226358.691]    fk: 23.1696808396       

	Parameter values: [5.0838403785217912, 226358.69101546973]
	Function value:   23.16968083961536
	Iterations:       89
	Function calls:   203
	Gradient calls:   0
	Hessian calls:    0
	Warning:          Simplex has not moved.

k: 6        xk: [    5.083840379,      226358.691]    fk: 23.1696808396       
Entering sub-algorithm.
	
	Simplex minimisation
	~~~~~~~~~~~~~~~~~~~~

	k: 0        xk: [    5.083840379,      226358.691]    fk: 23.1696808396       

	Parameter values: [5.0838403785217912, 226358.69101546973]
	Function value:   23.169680839615374
	Iterations:       89
	Function calls:   203
	Gradient calls:   0
	Hessian calls:    0
	Warning:          Simplex has not moved.

k: 7        xk: [    5.083840379,      226358.691]    fk: 23.1696808396       
Entering sub-algorithm.
	
	Simplex minimisation
	~~~~~~~~~~~~~~~~~~~~

	k: 0        xk: [    5.083840379,      226358.691]    fk: 23.1696808396       

	Parameter values: [5.0838403785217912, 226358.69101546973]
	Function value:   23.169680839615374
	Iterations:       89
	Function calls:   203
	Gradient calls:   0
	Hessian calls:    0
	Warning:          Simplex has not moved.


Parameter values: [5.0838403785217912, 226358.69101546973]
Function value:   23.169680839615374
Iterations:       728
Function calls:   1661
Gradient calls:   0
Hessian calls:    0
Warning:          None



Fitting to spin :52@N, frequency 799777399.1 and dispersion point 1341.11
-------------------------------------------------------------------------



Logarithmic barrier function
~~~~~~~~~~~~~~~~~~~~~~~~~~~~
k: 0        xk: [           2.95,     250000.0001]    fk: 1825.76871828       
Entering sub-algorithm.
	
	Simplex minimisation
	~~~~~~~~~~~~~~~~~~~~

	k: 0        xk: [           2.95,     250000.0001]    fk: 1825.76853033       

	Parameter values: [2.2080676993220445, 228620.55269215716]
	Function value:   7.7933276220580501
	Iterations:       100
	Function calls:   224
	Gradient calls:   0
	Hessian calls:    0
	Warning:          Simplex has not moved.

k: 1        xk: [    2.208067699,     228620.5527]    fk: 7.79351181358       
Entering sub-algorithm.
	
	Simplex minimisation
	~~~~~~~~~~~~~~~~~~~~

	k: 0        xk: [    2.208067699,     228620.5527]    fk: 7.79350997167       

	Parameter values: [2.2080676993899151, 228620.55270133878]
	Function value:   7.7935099716663441
	Iterations:       88
	Function calls:   201
	Gradient calls:   0
	Hessian calls:    0
	Warning:          Simplex has not moved.

k: 2        xk: [    2.208067699,     228620.5527]    fk: 7.79351181358       
Entering sub-algorithm.
	
	Simplex minimisation
	~~~~~~~~~~~~~~~~~~~~

	k: 0        xk: [    2.208067699,     228620.5527]    fk: 7.79351179516       

	Parameter values: [2.2080676993901305, 228620.55270133715]
	Function value:   7.7935117951624253
	Iterations:       86
	Function calls:   203
	Gradient calls:   0
	Hessian calls:    0
	Warning:          Simplex has not moved.

k: 3        xk: [    2.208067699,     228620.5527]    fk: 7.79351181358       
Entering sub-algorithm.
	
	Simplex minimisation
	~~~~~~~~~~~~~~~~~~~~

	k: 0        xk: [    2.208067699,     228620.5527]    fk: 7.7935118134        

	Parameter values: [2.208067699405738, 228620.55269941647]
	Function value:   7.7935118133973775
	Iterations:       97
	Function calls:   222
	Gradient calls:   0
	Hessian calls:    0
	Warning:          Simplex has not moved.

k: 4        xk: [    2.208067699,     228620.5527]    fk: 7.79351181358       
Entering sub-algorithm.
	
	Simplex minimisation
	~~~~~~~~~~~~~~~~~~~~

	k: 0        xk: [    2.208067699,     228620.5527]    fk: 7.79351181358       

	Parameter values: [2.208067699405738, 228620.55269941647]
	Function value:   7.7935118135797277
	Iterations:       92
	Function calls:   202
	Gradient calls:   0
	Hessian calls:    0
	Warning:          Simplex has not moved.

k: 5        xk: [    2.208067699,     228620.5527]    fk: 7.79351181358       
Entering sub-algorithm.
	
	Simplex minimisation
	~~~~~~~~~~~~~~~~~~~~

	k: 0        xk: [    2.208067699,     228620.5527]    fk: 7.79351181358       

	Parameter values: [2.208067699405738, 228620.55269941647]
	Function value:   7.7935118135815502
	Iterations:       92
	Function calls:   202
	Gradient calls:   0
	Hessian calls:    0
	Warning:          Simplex has not moved.

k: 6        xk: [    2.208067699,     228620.5527]    fk: 7.79351181358       
Entering sub-algorithm.
	
	Simplex minimisation
	~~~~~~~~~~~~~~~~~~~~

	k: 0        xk: [    2.208067699,     228620.5527]    fk: 7.79351181358       

	Parameter values: [2.208067699405738, 228620.55269941647]
	Function value:   7.7935118135815689
	Iterations:       92
	Function calls:   202
	Gradient calls:   0
	Hessian calls:    0
	Warning:          Simplex has not moved.

k: 7        xk: [    2.208067699,     228620.5527]    fk: 7.79351181358       
Entering sub-algorithm.
	
	Simplex minimisation
	~~~~~~~~~~~~~~~~~~~~

	k: 0        xk: [    2.208067699,     228620.5527]    fk: 7.79351181358       

	Parameter values: [2.208067699405738, 228620.55269941647]
	Function value:   7.7935118135815689
	Iterations:       92
	Function calls:   202
	Gradient calls:   0
	Hessian calls:    0
	Warning:          Simplex has not moved.


Parameter values: [2.208067699405738, 228620.55269941647]
Function value:   7.793511813581569
Iterations:       739
Function calls:   1658
Gradient calls:   0
Hessian calls:    0
Warning:          None



Fitting to spin :52@N, frequency 799777399.1 and dispersion point 1341.11
-------------------------------------------------------------------------



Logarithmic barrier function
~~~~~~~~~~~~~~~~~~~~~~~~~~~~
k: 0        xk: [              1,     200000.0001]    fk: 2592.50514563       
Entering sub-algorithm.
	
	Simplex minimisation
	~~~~~~~~~~~~~~~~~~~~

	k: 0        xk: [           1.05,     200000.0001]    fk: 2382.11466583       
	k: 100      xk: [     1.71079364,     224087.4863]    fk: 21.2298022411       

	Parameter values: [1.7107936399268215, 224087.48634589158]
	Function value:   21.229802241060273
	Iterations:       108
	Function calls:   244
	Gradient calls:   0
	Hessian calls:    0
	Warning:          Simplex has not moved.

k: 1        xk: [     1.71079364,     224087.4863]    fk: 21.2299837058       
Entering sub-algorithm.
	
	Simplex minimisation
	~~~~~~~~~~~~~~~~~~~~

	k: 0        xk: [     1.71079364,     224087.4863]    fk: 21.2299818912       

	Parameter values: [1.7107936399268215, 224087.48634589158]
	Function value:   21.229981891170706
	Iterations:       89
	Function calls:   213
	Gradient calls:   0
	Hessian calls:    0
	Warning:          Simplex has not moved.

k: 2        xk: [     1.71079364,     224087.4863]    fk: 21.2299837058       
Entering sub-algorithm.
	
	Simplex minimisation
	~~~~~~~~~~~~~~~~~~~~

	k: 0        xk: [     1.71079364,     224087.4863]    fk: 21.2299836877       

	Parameter values: [1.7107936399268215, 224087.48634589158]
	Function value:   21.229983687671812
	Iterations:       89
	Function calls:   213
	Gradient calls:   0
	Hessian calls:    0
	Warning:          Simplex has not moved.

k: 3        xk: [     1.71079364,     224087.4863]    fk: 21.2299837058       
Entering sub-algorithm.
	
	Simplex minimisation
	~~~~~~~~~~~~~~~~~~~~

	k: 0        xk: [     1.71079364,     224087.4863]    fk: 21.2299837056       

	Parameter values: [1.7107936399268215, 224087.48634589158]
	Function value:   21.229983705636826
	Iterations:       89
	Function calls:   213
	Gradient calls:   0
	Hessian calls:    0
	Warning:          Simplex has not moved.

k: 4        xk: [     1.71079364,     224087.4863]    fk: 21.2299837058       
Entering sub-algorithm.
	
	Simplex minimisation
	~~~~~~~~~~~~~~~~~~~~

	k: 0        xk: [     1.71079364,     224087.4863]    fk: 21.2299837058       

	Parameter values: [1.7107936399268215, 224087.48634589158]
	Function value:   21.229983705816473
	Iterations:       89
	Function calls:   213
	Gradient calls:   0
	Hessian calls:    0
	Warning:          Simplex has not moved.

k: 5        xk: [     1.71079364,     224087.4863]    fk: 21.2299837058       
Entering sub-algorithm.
	
	Simplex minimisation
	~~~~~~~~~~~~~~~~~~~~

	k: 0        xk: [     1.71079364,     224087.4863]    fk: 21.2299837058       

	Parameter values: [1.7107936399268215, 224087.48634589158]
	Function value:   21.229983705818274
	Iterations:       89
	Function calls:   213
	Gradient calls:   0
	Hessian calls:    0
	Warning:          Simplex has not moved.

k: 6        xk: [     1.71079364,     224087.4863]    fk: 21.2299837058       
Entering sub-algorithm.
	
	Simplex minimisation
	~~~~~~~~~~~~~~~~~~~~

	k: 0        xk: [     1.71079364,     224087.4863]    fk: 21.2299837058       

	Parameter values: [1.7107936399268215, 224087.48634589158]
	Function value:   21.229983705818288
	Iterations:       89
	Function calls:   213
	Gradient calls:   0
	Hessian calls:    0
	Warning:          Simplex has not moved.

k: 7        xk: [     1.71079364,     224087.4863]    fk: 21.2299837058       
Entering sub-algorithm.
	
	Simplex minimisation
	~~~~~~~~~~~~~~~~~~~~

	k: 0        xk: [     1.71079364,     224087.4863]    fk: 21.2299837058       

	Parameter values: [1.7107936399268215, 224087.48634589158]
	Function value:   21.229983705818288
	Iterations:       89
	Function calls:   213
	Gradient calls:   0
	Hessian calls:    0
	Warning:          Simplex has not moved.


Parameter values: [1.7107936399268215, 224087.48634589158]
Function value:   21.229983705818288
Iterations:       731
Function calls:   1735
Gradient calls:   0
Hessian calls:    0
Warning:          None


relax> eliminate(function=None, args=None)

relax> monte_carlo.setup(number=2000)

relax> monte_carlo.create_data(method='back_calc')

relax> monte_carlo.initial_values()

relax> minimise.execute(min_algor='simplex', line_search=None, hessian_mod=None, hessian_type=None, func_tol=1e-25, grad_tol=None, max_iter=10000000, constraints=True, scaling=True, verbosity=1)
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relax> eliminate(function=None, args=None)

relax> monte_carlo.error_analysis()


Results writing
===============


relax> relax_disp.plot_exp_curves(file='intensities.agr', dir='/Users/tlinnet/test/R2eff', force=True, norm=False)
Opening the file '/Users/tlinnet/test/R2eff/intensities.agr' for writing.

relax> relax_disp.plot_exp_curves(file='intensities_norm.agr', dir='/Users/tlinnet/test/R2eff', force=True, norm=True)
Opening the file '/Users/tlinnet/test/R2eff/intensities_norm.agr' for writing.

relax> relax_disp.plot_disp_curves(dir='/Users/tlinnet/test/R2eff', y_axis='r2_eff', x_axis='disp', num_points=1000, extend_hz=500.0, extend_ppm=500.0, interpolate='disp', force=True)
Opening the file '/Users/tlinnet/test/R2eff/disp_52_N.agr' for writing.
Opening the file '/Users/tlinnet/test/R2eff/grace2images.py' for writing.

relax> relax_disp.write_disp_curves(dir='/Users/tlinnet/test/R2eff', force=True)
Opening the file '/Users/tlinnet/test/R2eff/disp_52_N.out' for writing.
Opening the file '/Users/tlinnet/test/R2eff/disp_theta_52_N.out' for writing.

relax> relax_disp.plot_disp_curves(dir='/Users/tlinnet/test/R2eff', y_axis='r2_eff', x_axis='theta', num_points=1000, extend_hz=500.0, extend_ppm=500.0, interpolate='disp', force=True)
Opening the file '/Users/tlinnet/test/R2eff/r1rho_vs_theta_inter_disp_52_N.agr' for writing.
Opening the file '/Users/tlinnet/test/R2eff/grace2images.py' for writing.

relax> relax_disp.plot_disp_curves(dir='/Users/tlinnet/test/R2eff', y_axis='r2_r1rho', x_axis='w_eff', num_points=1000, extend_hz=500.0, extend_ppm=500.0, interpolate='disp', force=True)
Opening the file '/Users/tlinnet/test/R2eff/r2_r1rho_vs_w_eff_inter_disp_52_N.agr' for writing.
Opening the file '/Users/tlinnet/test/R2eff/grace2images.py' for writing.

relax> relax_disp.plot_disp_curves(dir='/Users/tlinnet/test/R2eff', y_axis='r2_eff', x_axis='theta', num_points=1000, extend_hz=500.0, extend_ppm=500.0, interpolate='offset', force=True)
Opening the file '/Users/tlinnet/test/R2eff/r1rho_vs_theta_inter_offset_52_N.agr' for writing.
Opening the file '/Users/tlinnet/test/R2eff/grace2images.py' for writing.

relax> value.write(param='r2eff', file='r2eff.out', dir='/Users/tlinnet/test/R2eff', scaling=1.0, comment=None, bc=False, force=True)
Opening the file '/Users/tlinnet/test/R2eff/r2eff.out' for writing.

relax> grace.write(x_data_type='res_num', y_data_type='r2eff', spin_id=None, plot_data='value', file='r2eff.agr', dir='/Users/tlinnet/test/R2eff', force=True, norm=False)
Opening the file '/Users/tlinnet/test/R2eff/r2eff.agr' for writing.

relax> value.write(param='i0', file='i0.out', dir='/Users/tlinnet/test/R2eff', scaling=1.0, comment=None, bc=False, force=True)
Opening the file '/Users/tlinnet/test/R2eff/i0.out' for writing.

relax> grace.write(x_data_type='res_num', y_data_type='i0', spin_id=None, plot_data='value', file='i0.agr', dir='/Users/tlinnet/test/R2eff', force=True, norm=False)
Opening the file '/Users/tlinnet/test/R2eff/i0.agr' for writing.

relax> value.write(param='theta', file='theta.out', dir='/Users/tlinnet/test/R2eff', scaling=1.0, comment=None, bc=False, force=True)
Opening the file '/Users/tlinnet/test/R2eff/theta.out' for writing.

relax> value.write(param='w_eff', file='w_eff.out', dir='/Users/tlinnet/test/R2eff', scaling=1.0, comment=None, bc=False, force=True)
Opening the file '/Users/tlinnet/test/R2eff/w_eff.out' for writing.

relax> value.write(param='chi2', file='chi2.out', dir='/Users/tlinnet/test/R2eff', scaling=1.0, comment=None, bc=False, force=True)
Opening the file '/Users/tlinnet/test/R2eff/chi2.out' for writing.

relax> grace.write(x_data_type='res_num', y_data_type='chi2', spin_id=None, plot_data='value', file='chi2.agr', dir='/Users/tlinnet/test/R2eff', force=True, norm=False)
Opening the file '/Users/tlinnet/test/R2eff/chi2.agr' for writing.

relax> results.write(file='results', dir='/Users/tlinnet/test/R2eff', compress_type=1, force=True)
Opening the file '/Users/tlinnet/test/R2eff/results.bz2' for writing.



----------------------
- The 'No Rex' model -
----------------------


relax> pipe.copy(pipe_from='base pipe', pipe_to='No Rex - relax_disp', bundle_to='relax_disp')
debug> Lock 'pipe_lock':  Acquisition by 'copy'.
debug> Lock 'pipe_lock':  Release by 'copy'.

relax> pipe.switch(pipe_name='No Rex - relax_disp')
debug> Lock 'pipe_lock':  Acquisition by 'switch'.
debug> Lock 'pipe_lock':  Release by 'switch'.

relax> relax_disp.select_model(model='No Rex')
The model for no chemical exchange relaxation.

relax> value.copy(pipe_from='R2eff - relax_disp', pipe_to='No Rex - relax_disp', param='r2eff')
debug> Lock 'pipe_lock':  Acquisition by 'switch'.
debug> Lock 'pipe_lock':  Release by 'switch'.
debug> Lock 'pipe_lock':  Acquisition by 'switch'.
debug> Lock 'pipe_lock':  Release by 'switch'.
debug> Lock 'pipe_lock':  Acquisition by 'switch'.
debug> Lock 'pipe_lock':  Release by 'switch'.
debug> Lock 'pipe_lock':  Acquisition by 'switch'.
debug> Lock 'pipe_lock':  Release by 'switch'.
debug> Lock 'pipe_lock':  Acquisition by 'switch'.
debug> Lock 'pipe_lock':  Release by 'switch'.
debug> Lock 'pipe_lock':  Acquisition by 'switch'.
debug> Lock 'pipe_lock':  Release by 'switch'.


Optimisation
============


Nesting and model equivalence checks
------------------------------------

No model nesting or model equivalence detected.

relax> minimise.grid_search(lower=None, upper=None, inc=21, verbosity=1, constraints=True, skip_preset=True)


Grid search setup:  the spin block [':52@N']
--------------------------------------------

# Parameter    Lower bound        Upper bound        Increments         Comment           
r2                         5.0               20.0                 21    Default bounds    


Fitting to the spin block [':52@N']
-----------------------------------

Unconstrained grid search size: 21 (constraints may decrease this size).


Grid search
~~~~~~~~~~~

Searching through 21 grid nodes.
k: 0        xk: [            0.5]    fk: 455818.298472       

Optimised parameter values:
r2 (R1rho - 799.77739910 MHz)         5.000000000000000

relax> minimise.execute(min_algor='simplex', line_search=None, hessian_mod=None, hessian_type=None, func_tol=1e-25, grad_tol=None, max_iter=10000000, constraints=True, scaling=True, verbosity=1)


Fitting to the spin block [':52@N']
-----------------------------------



Logarithmic barrier function
~~~~~~~~~~~~~~~~~~~~~~~~~~~~
k: 0        xk: [            0.5]    fk: 455818.298472       
Entering sub-algorithm.
	
	Simplex minimisation
	~~~~~~~~~~~~~~~~~~~~

	k: 0        xk: [            0.5]    fk: 455818.298449       

	Parameter values: [0.3481395244598387]
	Function value:   351744.8851259104
	Iterations:       28
	Function calls:   58
	Gradient calls:   0
	Hessian calls:    0
	Warning:          None

k: 1        xk: [   0.3481395245]    fk: 351744.885145       
Entering sub-algorithm.
	
	Simplex minimisation
	~~~~~~~~~~~~~~~~~~~~

	k: 0        xk: [   0.3481395245]    fk: 351744.885145       

	Parameter values: [0.3481395244598387]
	Function value:   351744.88514494832
	Iterations:       22
	Function calls:   46
	Gradient calls:   0
	Hessian calls:    0
	Warning:          None

k: 2        xk: [   0.3481395245]    fk: 351744.885145       
Entering sub-algorithm.
	
	Simplex minimisation
	~~~~~~~~~~~~~~~~~~~~

	k: 0        xk: [   0.3481395245]    fk: 351744.885145       

	Parameter values: [0.3481395244598387]
	Function value:   351744.88514513866
	Iterations:       22
	Function calls:   46
	Gradient calls:   0
	Hessian calls:    0
	Warning:          None

k: 3        xk: [   0.3481395245]    fk: 351744.885145       
Entering sub-algorithm.
	
	Simplex minimisation
	~~~~~~~~~~~~~~~~~~~~

	k: 0        xk: [   0.3481395245]    fk: 351744.885145       

	Parameter values: [0.3481395244598387]
	Function value:   351744.88514514052
	Iterations:       22
	Function calls:   46
	Gradient calls:   0
	Hessian calls:    0
	Warning:          None

k: 4        xk: [   0.3481395245]    fk: 351744.885145       
Entering sub-algorithm.
	
	Simplex minimisation
	~~~~~~~~~~~~~~~~~~~~

	k: 0        xk: [   0.3481395245]    fk: 351744.885145       

	Parameter values: [0.3481395244598387]
	Function value:   351744.88514514058
	Iterations:       22
	Function calls:   46
	Gradient calls:   0
	Hessian calls:    0
	Warning:          None

k: 5        xk: [   0.3481395245]    fk: 351744.885145       
Entering sub-algorithm.
	
	Simplex minimisation
	~~~~~~~~~~~~~~~~~~~~

	k: 0        xk: [   0.3481395245]    fk: 351744.885145       

	Parameter values: [0.3481395244598387]
	Function value:   351744.88514514058
	Iterations:       22
	Function calls:   46
	Gradient calls:   0
	Hessian calls:    0
	Warning:          None


Parameter values: [0.3481395244598387]
Function value:   351744.88514514058
Iterations:       138
Function calls:   288
Gradient calls:   0
Hessian calls:    0
Warning:          None


Optimised parameter values:
r2 (R1rho - 799.77739910 MHz)         3.481395244598387

relax> eliminate(function=None, args=None)


Results writing
===============


relax> relax_disp.plot_disp_curves(dir='/Users/tlinnet/test/No Rex', y_axis='r2_eff', x_axis='disp', num_points=1000, extend_hz=500.0, extend_ppm=500.0, interpolate='disp', force=True)
Opening the file '/Users/tlinnet/test/No Rex/disp_52_N.agr' for writing.
Opening the file '/Users/tlinnet/test/No Rex/grace2images.py' for writing.

relax> relax_disp.write_disp_curves(dir='/Users/tlinnet/test/No Rex', force=True)
Opening the file '/Users/tlinnet/test/No Rex/disp_52_N.out' for writing.
Opening the file '/Users/tlinnet/test/No Rex/disp_theta_52_N.out' for writing.

relax> relax_disp.plot_disp_curves(dir='/Users/tlinnet/test/No Rex', y_axis='r2_eff', x_axis='theta', num_points=1000, extend_hz=500.0, extend_ppm=500.0, interpolate='disp', force=True)
Opening the file '/Users/tlinnet/test/No Rex/r1rho_vs_theta_inter_disp_52_N.agr' for writing.
Opening the file '/Users/tlinnet/test/No Rex/grace2images.py' for writing.

relax> relax_disp.plot_disp_curves(dir='/Users/tlinnet/test/No Rex', y_axis='r2_r1rho', x_axis='w_eff', num_points=1000, extend_hz=500.0, extend_ppm=500.0, interpolate='disp', force=True)
Opening the file '/Users/tlinnet/test/No Rex/r2_r1rho_vs_w_eff_inter_disp_52_N.agr' for writing.
Opening the file '/Users/tlinnet/test/No Rex/grace2images.py' for writing.

relax> relax_disp.plot_disp_curves(dir='/Users/tlinnet/test/No Rex', y_axis='r2_eff', x_axis='theta', num_points=1000, extend_hz=500.0, extend_ppm=500.0, interpolate='offset', force=True)
Opening the file '/Users/tlinnet/test/No Rex/r1rho_vs_theta_inter_offset_52_N.agr' for writing.
Opening the file '/Users/tlinnet/test/No Rex/grace2images.py' for writing.

relax> value.write(param='theta', file='theta.out', dir='/Users/tlinnet/test/No Rex', scaling=1.0, comment=None, bc=False, force=True)
Opening the file '/Users/tlinnet/test/No Rex/theta.out' for writing.

relax> value.write(param='w_eff', file='w_eff.out', dir='/Users/tlinnet/test/No Rex', scaling=1.0, comment=None, bc=False, force=True)
Opening the file '/Users/tlinnet/test/No Rex/w_eff.out' for writing.

relax> value.write(param='r2', file='r1rho0.out', dir='/Users/tlinnet/test/No Rex', scaling=1.0, comment=None, bc=False, force=True)
Opening the file '/Users/tlinnet/test/No Rex/r1rho0.out' for writing.

relax> grace.write(x_data_type='res_num', y_data_type='r2', spin_id=None, plot_data='value', file='r1rho0.agr', dir='/Users/tlinnet/test/No Rex', force=True, norm=False)
Opening the file '/Users/tlinnet/test/No Rex/r1rho0.agr' for writing.

relax> value.write(param='chi2', file='chi2.out', dir='/Users/tlinnet/test/No Rex', scaling=1.0, comment=None, bc=False, force=True)
Opening the file '/Users/tlinnet/test/No Rex/chi2.out' for writing.

relax> grace.write(x_data_type='res_num', y_data_type='chi2', spin_id=None, plot_data='value', file='chi2.agr', dir='/Users/tlinnet/test/No Rex', force=True, norm=False)
Opening the file '/Users/tlinnet/test/No Rex/chi2.agr' for writing.

relax> results.write(file='results', dir='/Users/tlinnet/test/No Rex', compress_type=1, force=True)
Opening the file '/Users/tlinnet/test/No Rex/results.bz2' for writing.



---------------------
- The 'DPL94' model -
---------------------


relax> pipe.copy(pipe_from='base pipe', pipe_to='DPL94 - relax_disp', bundle_to='relax_disp')
debug> Lock 'pipe_lock':  Acquisition by 'copy'.
debug> Lock 'pipe_lock':  Release by 'copy'.

relax> pipe.switch(pipe_name='DPL94 - relax_disp')
debug> Lock 'pipe_lock':  Acquisition by 'switch'.
debug> Lock 'pipe_lock':  Release by 'switch'.

relax> relax_disp.select_model(model='DPL94')
The Davis, Perlman and London (1994) extension of the Meiboom (1961) model for off-resonance data.

relax> value.copy(pipe_from='R2eff - relax_disp', pipe_to='DPL94 - relax_disp', param='r2eff')
debug> Lock 'pipe_lock':  Acquisition by 'switch'.
debug> Lock 'pipe_lock':  Release by 'switch'.
debug> Lock 'pipe_lock':  Acquisition by 'switch'.
debug> Lock 'pipe_lock':  Release by 'switch'.
debug> Lock 'pipe_lock':  Acquisition by 'switch'.
debug> Lock 'pipe_lock':  Release by 'switch'.
debug> Lock 'pipe_lock':  Acquisition by 'switch'.
debug> Lock 'pipe_lock':  Release by 'switch'.
debug> Lock 'pipe_lock':  Acquisition by 'switch'.
debug> Lock 'pipe_lock':  Release by 'switch'.
debug> Lock 'pipe_lock':  Acquisition by 'switch'.
debug> Lock 'pipe_lock':  Release by 'switch'.


Optimisation
============


relax> relax_disp.insignificance(level=0.0)

Nesting and model equivalence checks
------------------------------------

No model nesting or model equivalence detected.

relax> minimise.grid_search(lower=None, upper=None, inc=21, verbosity=1, constraints=True, skip_preset=True)


Grid search setup:  the spin block [':52@N']
--------------------------------------------

# Parameter    Lower bound        Upper bound        Increments         Comment           
r2                         5.0               20.0                 21    Default bounds    
phi_ex            0.3601317693       0.3601317693                  1    Preset value      
kex                13193.82986        13193.82986                  1    Preset value      


Fitting to the spin block [':52@N']
-----------------------------------

Unconstrained grid search size: 21 (constraints may decrease this size).


Grid search
~~~~~~~~~~~

Searching through 21 grid nodes.
k: 0        xk: [            0.5,    0.3601317693,     1.319382986]    fk: 7584.45317831       
k: 1        xk: [          0.575,    0.3601317693,     1.319382986]    fk: 2074.00338267       

Optimised parameter values:
r2 (R1rho - 799.77739910 MHz)         5.750000000000000
phi_ex                       0.360131769300000
kex                      13193.829859999999826

relax> minimise.execute(min_algor='simplex', line_search=None, hessian_mod=None, hessian_type=None, func_tol=1e-25, grad_tol=None, max_iter=10000000, constraints=True, scaling=True, verbosity=1)


Fitting to the spin block [':52@N']
-----------------------------------



Logarithmic barrier function
~~~~~~~~~~~~~~~~~~~~~~~~~~~~
k: 0        xk: [          0.575,    0.3601317693,     1.319382986]    fk: 2074.00338267       
Entering sub-algorithm.
	
	Simplex minimisation
	~~~~~~~~~~~~~~~~~~~~

	k: 0        xk: [        0.60375,    0.3601317693,     1.319382986]    fk: 1543.63151655       
	k: 100      xk: [    1.020022694,   0.07034694119,    0.3978782595]    fk: 1168.22938089       
	k: 200      xk: [    1.020033683,   0.07034598373,    0.3978791469]    fk: 1168.22933311       

	Parameter values: [1.020033683266812, 0.070345983733178435, 0.39787914694859322]
	Function value:   1168.2293331070341
	Iterations:       209
	Function calls:   443
	Gradient calls:   0
	Hessian calls:    0
	Warning:          Simplex has not moved.

k: 1        xk: [    1.020033683,   0.07034598373,    0.3978791469]    fk: 1168.22937994       
Entering sub-algorithm.
	
	Simplex minimisation
	~~~~~~~~~~~~~~~~~~~~

	k: 0        xk: [    1.020033683,   0.07034598373,    0.3978791469]    fk: 1168.22937947       
	k: 100      xk: [    1.020033683,   0.07034598373,    0.3978791469]    fk: 1168.22937947       

	Parameter values: [1.020033683266812, 0.070345983733178435, 0.39787914694859322]
	Function value:   1168.2293794747638
	Iterations:       173
	Function calls:   357
	Gradient calls:   0
	Hessian calls:    0
	Warning:          Simplex has not moved.

k: 2        xk: [    1.020033683,   0.07034598373,    0.3978791469]    fk: 1168.22937994       
Entering sub-algorithm.
	
	Simplex minimisation
	~~~~~~~~~~~~~~~~~~~~

	k: 0        xk: [    1.020033683,   0.07034598373,    0.3978791469]    fk: 1168.22937994       
	k: 100      xk: [    1.020033683,   0.07034598373,    0.3978791469]    fk: 1168.22937994       

	Parameter values: [1.020033683266812, 0.070345983733178435, 0.39787914694859322]
	Function value:   1168.2293799384415
	Iterations:       173
	Function calls:   357
	Gradient calls:   0
	Hessian calls:    0
	Warning:          Simplex has not moved.

k: 3        xk: [    1.020033683,   0.07034598373,    0.3978791469]    fk: 1168.22937994       
Entering sub-algorithm.
	
	Simplex minimisation
	~~~~~~~~~~~~~~~~~~~~

	k: 0        xk: [    1.020033683,   0.07034598373,    0.3978791469]    fk: 1168.22937994       
	k: 100      xk: [    1.020033683,   0.07034598373,    0.3978791469]    fk: 1168.22937994       

	Parameter values: [1.020033683266812, 0.070345983733178435, 0.39787914694859322]
	Function value:   1168.2293799430784
	Iterations:       173
	Function calls:   357
	Gradient calls:   0
	Hessian calls:    0
	Warning:          Simplex has not moved.

k: 4        xk: [    1.020033683,   0.07034598373,    0.3978791469]    fk: 1168.22937994       
Entering sub-algorithm.
	
	Simplex minimisation
	~~~~~~~~~~~~~~~~~~~~

	k: 0        xk: [    1.020033683,   0.07034598373,    0.3978791469]    fk: 1168.22937994       
	k: 100      xk: [    1.020033683,   0.07034598373,    0.3978791469]    fk: 1168.22937994       

	Parameter values: [1.020033683266812, 0.070345983733178435, 0.39787914694859322]
	Function value:   1168.2293799431245
	Iterations:       173
	Function calls:   357
	Gradient calls:   0
	Hessian calls:    0
	Warning:          Simplex has not moved.

k: 5        xk: [    1.020033683,   0.07034598373,    0.3978791469]    fk: 1168.22937994       
Entering sub-algorithm.
	
	Simplex minimisation
	~~~~~~~~~~~~~~~~~~~~

	k: 0        xk: [    1.020033683,   0.07034598373,    0.3978791469]    fk: 1168.22937994       
	k: 100      xk: [    1.020033683,   0.07034598373,    0.3978791469]    fk: 1168.22937994       

	Parameter values: [1.020033683266812, 0.070345983733178435, 0.39787914694859322]
	Function value:   1168.229379943125
	Iterations:       173
	Function calls:   357
	Gradient calls:   0
	Hessian calls:    0
	Warning:          Simplex has not moved.

k: 6        xk: [    1.020033683,   0.07034598373,    0.3978791469]    fk: 1168.22937994       
Entering sub-algorithm.
	
	Simplex minimisation
	~~~~~~~~~~~~~~~~~~~~

	k: 0        xk: [    1.020033683,   0.07034598373,    0.3978791469]    fk: 1168.22937994       
	k: 100      xk: [    1.020033683,   0.07034598373,    0.3978791469]    fk: 1168.22937994       

	Parameter values: [1.020033683266812, 0.070345983733178435, 0.39787914694859322]
	Function value:   1168.229379943125
	Iterations:       173
	Function calls:   357
	Gradient calls:   0
	Hessian calls:    0
	Warning:          Simplex has not moved.


Parameter values: [1.020033683266812, 0.070345983733178435, 0.39787914694859322]
Function value:   1168.229379943125
Iterations:       1247
Function calls:   2585
Gradient calls:   0
Hessian calls:    0
Warning:          None


Optimised parameter values:
r2 (R1rho - 799.77739910 MHz)        10.200336832668119
phi_ex                       0.070345983733178
kex                       3978.791469485932339

relax> eliminate(function=None, args=None)


Results writing
===============


relax> relax_disp.plot_disp_curves(dir='/Users/tlinnet/test/DPL94', y_axis='r2_eff', x_axis='disp', num_points=1000, extend_hz=500.0, extend_ppm=500.0, interpolate='disp', force=True)
Opening the file '/Users/tlinnet/test/DPL94/disp_52_N.agr' for writing.
Opening the file '/Users/tlinnet/test/DPL94/grace2images.py' for writing.

relax> relax_disp.write_disp_curves(dir='/Users/tlinnet/test/DPL94', force=True)
Opening the file '/Users/tlinnet/test/DPL94/disp_52_N.out' for writing.
Opening the file '/Users/tlinnet/test/DPL94/disp_theta_52_N.out' for writing.

relax> relax_disp.plot_disp_curves(dir='/Users/tlinnet/test/DPL94', y_axis='r2_eff', x_axis='theta', num_points=1000, extend_hz=500.0, extend_ppm=500.0, interpolate='disp', force=True)
Opening the file '/Users/tlinnet/test/DPL94/r1rho_vs_theta_inter_disp_52_N.agr' for writing.
Opening the file '/Users/tlinnet/test/DPL94/grace2images.py' for writing.

relax> relax_disp.plot_disp_curves(dir='/Users/tlinnet/test/DPL94', y_axis='r2_r1rho', x_axis='w_eff', num_points=1000, extend_hz=500.0, extend_ppm=500.0, interpolate='disp', force=True)
Opening the file '/Users/tlinnet/test/DPL94/r2_r1rho_vs_w_eff_inter_disp_52_N.agr' for writing.
Opening the file '/Users/tlinnet/test/DPL94/grace2images.py' for writing.

relax> relax_disp.plot_disp_curves(dir='/Users/tlinnet/test/DPL94', y_axis='r2_eff', x_axis='theta', num_points=1000, extend_hz=500.0, extend_ppm=500.0, interpolate='offset', force=True)
Opening the file '/Users/tlinnet/test/DPL94/r1rho_vs_theta_inter_offset_52_N.agr' for writing.
Opening the file '/Users/tlinnet/test/DPL94/grace2images.py' for writing.

relax> value.write(param='theta', file='theta.out', dir='/Users/tlinnet/test/DPL94', scaling=1.0, comment=None, bc=False, force=True)
Opening the file '/Users/tlinnet/test/DPL94/theta.out' for writing.

relax> value.write(param='w_eff', file='w_eff.out', dir='/Users/tlinnet/test/DPL94', scaling=1.0, comment=None, bc=False, force=True)
Opening the file '/Users/tlinnet/test/DPL94/w_eff.out' for writing.

relax> value.write(param='r2', file='r1rho0.out', dir='/Users/tlinnet/test/DPL94', scaling=1.0, comment=None, bc=False, force=True)
Opening the file '/Users/tlinnet/test/DPL94/r1rho0.out' for writing.

relax> grace.write(x_data_type='res_num', y_data_type='r2', spin_id=None, plot_data='value', file='r1rho0.agr', dir='/Users/tlinnet/test/DPL94', force=True, norm=False)
Opening the file '/Users/tlinnet/test/DPL94/r1rho0.agr' for writing.

relax> value.write(param='phi_ex', file='phi_ex.out', dir='/Users/tlinnet/test/DPL94', scaling=1.0, comment=None, bc=False, force=True)
Opening the file '/Users/tlinnet/test/DPL94/phi_ex.out' for writing.

relax> grace.write(x_data_type='res_num', y_data_type='phi_ex', spin_id=None, plot_data='value', file='phi_ex.agr', dir='/Users/tlinnet/test/DPL94', force=True, norm=False)
Opening the file '/Users/tlinnet/test/DPL94/phi_ex.agr' for writing.

relax> value.write(param='k_AB', file='k_AB.out', dir='/Users/tlinnet/test/DPL94', scaling=1.0, comment=None, bc=False, force=True)
Opening the file '/Users/tlinnet/test/DPL94/k_AB.out' for writing.

relax> value.write(param='kex', file='kex.out', dir='/Users/tlinnet/test/DPL94', scaling=1.0, comment=None, bc=False, force=True)
Opening the file '/Users/tlinnet/test/DPL94/kex.out' for writing.

relax> value.write(param='tex', file='tex.out', dir='/Users/tlinnet/test/DPL94', scaling=1.0, comment=None, bc=False, force=True)
Opening the file '/Users/tlinnet/test/DPL94/tex.out' for writing.

relax> grace.write(x_data_type='res_num', y_data_type='k_AB', spin_id=None, plot_data='value', file='k_AB.agr', dir='/Users/tlinnet/test/DPL94', force=True, norm=False)
Opening the file '/Users/tlinnet/test/DPL94/k_AB.agr' for writing.
RelaxWarning: No data could be found, creating an empty file.

relax> grace.write(x_data_type='res_num', y_data_type='kex', spin_id=None, plot_data='value', file='kex.agr', dir='/Users/tlinnet/test/DPL94', force=True, norm=False)
Opening the file '/Users/tlinnet/test/DPL94/kex.agr' for writing.

relax> grace.write(x_data_type='res_num', y_data_type='tex', spin_id=None, plot_data='value', file='tex.agr', dir='/Users/tlinnet/test/DPL94', force=True, norm=False)
Opening the file '/Users/tlinnet/test/DPL94/tex.agr' for writing.

relax> value.write(param='chi2', file='chi2.out', dir='/Users/tlinnet/test/DPL94', scaling=1.0, comment=None, bc=False, force=True)
Opening the file '/Users/tlinnet/test/DPL94/chi2.out' for writing.

relax> grace.write(x_data_type='res_num', y_data_type='chi2', spin_id=None, plot_data='value', file='chi2.agr', dir='/Users/tlinnet/test/DPL94', force=True, norm=False)
Opening the file '/Users/tlinnet/test/DPL94/chi2.agr' for writing.

relax> results.write(file='results', dir='/Users/tlinnet/test/DPL94', compress_type=1, force=True)
Opening the file '/Users/tlinnet/test/DPL94/results.bz2' for writing.


Final results
=============


relax> model_selection(method='AIC', modsel_pipe='final - relax_disp', bundle='relax_disp', pipes=['No Rex - relax_disp', 'DPL94 - relax_disp'])
AIC model selection.


The spin cluster [':5@N'].
debug> Lock 'pipe_lock':  Acquisition by 'switch'.
debug> Lock 'pipe_lock':  Release by 'switch'.
debug> Lock 'pipe_lock':  Acquisition by 'switch'.
debug> Lock 'pipe_lock':  Release by 'switch'.
No model has been selected.


The spin cluster [':6@N'].
debug> Lock 'pipe_lock':  Acquisition by 'switch'.
debug> Lock 'pipe_lock':  Release by 'switch'.
debug> Lock 'pipe_lock':  Acquisition by 'switch'.
debug> Lock 'pipe_lock':  Release by 'switch'.
No model has been selected.


The spin cluster [':8@N'].
debug> Lock 'pipe_lock':  Acquisition by 'switch'.
debug> Lock 'pipe_lock':  Release by 'switch'.
debug> Lock 'pipe_lock':  Acquisition by 'switch'.
debug> Lock 'pipe_lock':  Release by 'switch'.
No model has been selected.


The spin cluster [':9@N'].
debug> Lock 'pipe_lock':  Acquisition by 'switch'.
debug> Lock 'pipe_lock':  Release by 'switch'.
debug> Lock 'pipe_lock':  Acquisition by 'switch'.
debug> Lock 'pipe_lock':  Release by 'switch'.
No model has been selected.


The spin cluster [':10@N'].
debug> Lock 'pipe_lock':  Acquisition by 'switch'.
debug> Lock 'pipe_lock':  Release by 'switch'.
debug> Lock 'pipe_lock':  Acquisition by 'switch'.
debug> Lock 'pipe_lock':  Release by 'switch'.
No model has been selected.


The spin cluster [':11@N'].
debug> Lock 'pipe_lock':  Acquisition by 'switch'.
debug> Lock 'pipe_lock':  Release by 'switch'.
debug> Lock 'pipe_lock':  Acquisition by 'switch'.
debug> Lock 'pipe_lock':  Release by 'switch'.
No model has been selected.


The spin cluster [':12@N'].
debug> Lock 'pipe_lock':  Acquisition by 'switch'.
debug> Lock 'pipe_lock':  Release by 'switch'.
debug> Lock 'pipe_lock':  Acquisition by 'switch'.
debug> Lock 'pipe_lock':  Release by 'switch'.
No model has been selected.


The spin cluster [':14@N'].
debug> Lock 'pipe_lock':  Acquisition by 'switch'.
debug> Lock 'pipe_lock':  Release by 'switch'.
debug> Lock 'pipe_lock':  Acquisition by 'switch'.
debug> Lock 'pipe_lock':  Release by 'switch'.
No model has been selected.


The spin cluster [':17@N'].
debug> Lock 'pipe_lock':  Acquisition by 'switch'.
debug> Lock 'pipe_lock':  Release by 'switch'.
debug> Lock 'pipe_lock':  Acquisition by 'switch'.
debug> Lock 'pipe_lock':  Release by 'switch'.
No model has been selected.


The spin cluster [':18@N'].
debug> Lock 'pipe_lock':  Acquisition by 'switch'.
debug> Lock 'pipe_lock':  Release by 'switch'.
debug> Lock 'pipe_lock':  Acquisition by 'switch'.
debug> Lock 'pipe_lock':  Release by 'switch'.
No model has been selected.


The spin cluster [':19@N'].
debug> Lock 'pipe_lock':  Acquisition by 'switch'.
debug> Lock 'pipe_lock':  Release by 'switch'.
debug> Lock 'pipe_lock':  Acquisition by 'switch'.
debug> Lock 'pipe_lock':  Release by 'switch'.
No model has been selected.


The spin cluster [':21@N'].
debug> Lock 'pipe_lock':  Acquisition by 'switch'.
debug> Lock 'pipe_lock':  Release by 'switch'.
debug> Lock 'pipe_lock':  Acquisition by 'switch'.
debug> Lock 'pipe_lock':  Release by 'switch'.
No model has been selected.


The spin cluster [':24@N'].
debug> Lock 'pipe_lock':  Acquisition by 'switch'.
debug> Lock 'pipe_lock':  Release by 'switch'.
debug> Lock 'pipe_lock':  Acquisition by 'switch'.
debug> Lock 'pipe_lock':  Release by 'switch'.
No model has been selected.


The spin cluster [':27@N'].
debug> Lock 'pipe_lock':  Acquisition by 'switch'.
debug> Lock 'pipe_lock':  Release by 'switch'.
debug> Lock 'pipe_lock':  Acquisition by 'switch'.
debug> Lock 'pipe_lock':  Release by 'switch'.
No model has been selected.


The spin cluster [':29@N'].
debug> Lock 'pipe_lock':  Acquisition by 'switch'.
debug> Lock 'pipe_lock':  Release by 'switch'.
debug> Lock 'pipe_lock':  Acquisition by 'switch'.
debug> Lock 'pipe_lock':  Release by 'switch'.
No model has been selected.


The spin cluster [':30@N'].
debug> Lock 'pipe_lock':  Acquisition by 'switch'.
debug> Lock 'pipe_lock':  Release by 'switch'.
debug> Lock 'pipe_lock':  Acquisition by 'switch'.
debug> Lock 'pipe_lock':  Release by 'switch'.
No model has been selected.


The spin cluster [':31@N'].
debug> Lock 'pipe_lock':  Acquisition by 'switch'.
debug> Lock 'pipe_lock':  Release by 'switch'.
debug> Lock 'pipe_lock':  Acquisition by 'switch'.
debug> Lock 'pipe_lock':  Release by 'switch'.
No model has been selected.


The spin cluster [':32@N'].
debug> Lock 'pipe_lock':  Acquisition by 'switch'.
debug> Lock 'pipe_lock':  Release by 'switch'.
debug> Lock 'pipe_lock':  Acquisition by 'switch'.
debug> Lock 'pipe_lock':  Release by 'switch'.
No model has been selected.


The spin cluster [':33@N'].
debug> Lock 'pipe_lock':  Acquisition by 'switch'.
debug> Lock 'pipe_lock':  Release by 'switch'.
debug> Lock 'pipe_lock':  Acquisition by 'switch'.
debug> Lock 'pipe_lock':  Release by 'switch'.
No model has been selected.


The spin cluster [':34@N'].
debug> Lock 'pipe_lock':  Acquisition by 'switch'.
debug> Lock 'pipe_lock':  Release by 'switch'.
debug> Lock 'pipe_lock':  Acquisition by 'switch'.
debug> Lock 'pipe_lock':  Release by 'switch'.
No model has been selected.


The spin cluster [':35@N'].
debug> Lock 'pipe_lock':  Acquisition by 'switch'.
debug> Lock 'pipe_lock':  Release by 'switch'.
debug> Lock 'pipe_lock':  Acquisition by 'switch'.
debug> Lock 'pipe_lock':  Release by 'switch'.
No model has been selected.


The spin cluster [':36@N'].
debug> Lock 'pipe_lock':  Acquisition by 'switch'.
debug> Lock 'pipe_lock':  Release by 'switch'.
debug> Lock 'pipe_lock':  Acquisition by 'switch'.
debug> Lock 'pipe_lock':  Release by 'switch'.
No model has been selected.


The spin cluster [':38@N'].
debug> Lock 'pipe_lock':  Acquisition by 'switch'.
debug> Lock 'pipe_lock':  Release by 'switch'.
debug> Lock 'pipe_lock':  Acquisition by 'switch'.
debug> Lock 'pipe_lock':  Release by 'switch'.
No model has been selected.


The spin cluster [':42@N'].
debug> Lock 'pipe_lock':  Acquisition by 'switch'.
debug> Lock 'pipe_lock':  Release by 'switch'.
debug> Lock 'pipe_lock':  Acquisition by 'switch'.
debug> Lock 'pipe_lock':  Release by 'switch'.
No model has been selected.


The spin cluster [':46@N'].
debug> Lock 'pipe_lock':  Acquisition by 'switch'.
debug> Lock 'pipe_lock':  Release by 'switch'.
debug> Lock 'pipe_lock':  Acquisition by 'switch'.
debug> Lock 'pipe_lock':  Release by 'switch'.
No model has been selected.


The spin cluster [':48@N'].
debug> Lock 'pipe_lock':  Acquisition by 'switch'.
debug> Lock 'pipe_lock':  Release by 'switch'.
debug> Lock 'pipe_lock':  Acquisition by 'switch'.
debug> Lock 'pipe_lock':  Release by 'switch'.
No model has been selected.


The spin cluster [':50@N'].
debug> Lock 'pipe_lock':  Acquisition by 'switch'.
debug> Lock 'pipe_lock':  Release by 'switch'.
debug> Lock 'pipe_lock':  Acquisition by 'switch'.
debug> Lock 'pipe_lock':  Release by 'switch'.
No model has been selected.


The spin cluster [':51@N'].
debug> Lock 'pipe_lock':  Acquisition by 'switch'.
debug> Lock 'pipe_lock':  Release by 'switch'.
debug> Lock 'pipe_lock':  Acquisition by 'switch'.
debug> Lock 'pipe_lock':  Release by 'switch'.
No model has been selected.


The spin cluster [':54@N'].
debug> Lock 'pipe_lock':  Acquisition by 'switch'.
debug> Lock 'pipe_lock':  Release by 'switch'.
debug> Lock 'pipe_lock':  Acquisition by 'switch'.
debug> Lock 'pipe_lock':  Release by 'switch'.
No model has been selected.


The spin cluster [':55@N'].
debug> Lock 'pipe_lock':  Acquisition by 'switch'.
debug> Lock 'pipe_lock':  Release by 'switch'.
debug> Lock 'pipe_lock':  Acquisition by 'switch'.
debug> Lock 'pipe_lock':  Release by 'switch'.
No model has been selected.


The spin cluster [':57@N'].
debug> Lock 'pipe_lock':  Acquisition by 'switch'.
debug> Lock 'pipe_lock':  Release by 'switch'.
debug> Lock 'pipe_lock':  Acquisition by 'switch'.
debug> Lock 'pipe_lock':  Release by 'switch'.
No model has been selected.


The spin cluster [':58@N'].
debug> Lock 'pipe_lock':  Acquisition by 'switch'.
debug> Lock 'pipe_lock':  Release by 'switch'.
debug> Lock 'pipe_lock':  Acquisition by 'switch'.
debug> Lock 'pipe_lock':  Release by 'switch'.
No model has been selected.


The spin cluster [':59@N'].
debug> Lock 'pipe_lock':  Acquisition by 'switch'.
debug> Lock 'pipe_lock':  Release by 'switch'.
debug> Lock 'pipe_lock':  Acquisition by 'switch'.
debug> Lock 'pipe_lock':  Release by 'switch'.
No model has been selected.


The spin cluster [':13@N'].
debug> Lock 'pipe_lock':  Acquisition by 'switch'.
debug> Lock 'pipe_lock':  Release by 'switch'.
debug> Lock 'pipe_lock':  Acquisition by 'switch'.
debug> Lock 'pipe_lock':  Release by 'switch'.
No model has been selected.


The spin cluster [':15@N'].
debug> Lock 'pipe_lock':  Acquisition by 'switch'.
debug> Lock 'pipe_lock':  Release by 'switch'.
debug> Lock 'pipe_lock':  Acquisition by 'switch'.
debug> Lock 'pipe_lock':  Release by 'switch'.
No model has been selected.


The spin cluster [':16@N'].
debug> Lock 'pipe_lock':  Acquisition by 'switch'.
debug> Lock 'pipe_lock':  Release by 'switch'.
debug> Lock 'pipe_lock':  Acquisition by 'switch'.
debug> Lock 'pipe_lock':  Release by 'switch'.
No model has been selected.


The spin cluster [':25@N'].
debug> Lock 'pipe_lock':  Acquisition by 'switch'.
debug> Lock 'pipe_lock':  Release by 'switch'.
debug> Lock 'pipe_lock':  Acquisition by 'switch'.
debug> Lock 'pipe_lock':  Release by 'switch'.
No model has been selected.


The spin cluster [':26@N'].
debug> Lock 'pipe_lock':  Acquisition by 'switch'.
debug> Lock 'pipe_lock':  Release by 'switch'.
debug> Lock 'pipe_lock':  Acquisition by 'switch'.
debug> Lock 'pipe_lock':  Release by 'switch'.
No model has been selected.


The spin cluster [':28@N'].
debug> Lock 'pipe_lock':  Acquisition by 'switch'.
debug> Lock 'pipe_lock':  Release by 'switch'.
debug> Lock 'pipe_lock':  Acquisition by 'switch'.
debug> Lock 'pipe_lock':  Release by 'switch'.
No model has been selected.


The spin cluster [':39@N'].
debug> Lock 'pipe_lock':  Acquisition by 'switch'.
debug> Lock 'pipe_lock':  Release by 'switch'.
debug> Lock 'pipe_lock':  Acquisition by 'switch'.
debug> Lock 'pipe_lock':  Release by 'switch'.
No model has been selected.


The spin cluster [':40@N'].
debug> Lock 'pipe_lock':  Acquisition by 'switch'.
debug> Lock 'pipe_lock':  Release by 'switch'.
debug> Lock 'pipe_lock':  Acquisition by 'switch'.
debug> Lock 'pipe_lock':  Release by 'switch'.
No model has been selected.


The spin cluster [':41@N'].
debug> Lock 'pipe_lock':  Acquisition by 'switch'.
debug> Lock 'pipe_lock':  Release by 'switch'.
debug> Lock 'pipe_lock':  Acquisition by 'switch'.
debug> Lock 'pipe_lock':  Release by 'switch'.
No model has been selected.


The spin cluster [':43@N'].
debug> Lock 'pipe_lock':  Acquisition by 'switch'.
debug> Lock 'pipe_lock':  Release by 'switch'.
debug> Lock 'pipe_lock':  Acquisition by 'switch'.
debug> Lock 'pipe_lock':  Release by 'switch'.
No model has been selected.


The spin cluster [':44@N'].
debug> Lock 'pipe_lock':  Acquisition by 'switch'.
debug> Lock 'pipe_lock':  Release by 'switch'.
debug> Lock 'pipe_lock':  Acquisition by 'switch'.
debug> Lock 'pipe_lock':  Release by 'switch'.
No model has been selected.


The spin cluster [':45@N'].
debug> Lock 'pipe_lock':  Acquisition by 'switch'.
debug> Lock 'pipe_lock':  Release by 'switch'.
debug> Lock 'pipe_lock':  Acquisition by 'switch'.
debug> Lock 'pipe_lock':  Release by 'switch'.
No model has been selected.


The spin cluster [':49@N'].
debug> Lock 'pipe_lock':  Acquisition by 'switch'.
debug> Lock 'pipe_lock':  Release by 'switch'.
debug> Lock 'pipe_lock':  Acquisition by 'switch'.
debug> Lock 'pipe_lock':  Release by 'switch'.
No model has been selected.


The spin cluster [':52@N'].
debug> Lock 'pipe_lock':  Acquisition by 'switch'.
debug> Lock 'pipe_lock':  Release by 'switch'.
debug> Lock 'pipe_lock':  Acquisition by 'switch'.
debug> Lock 'pipe_lock':  Release by 'switch'.
# Data pipe            Num_params_(k)    Num_data_sets_(n)    Chi2            Criterion       
No Rex - relax_disp    1                 14                   351744.88515    351746.88515    
DPL94 - relax_disp     3                 14                   1168.22938      1174.22938      
The model from the data pipe 'DPL94 - relax_disp' has been selected.
debug> Lock 'pipe_lock':  Acquisition by 'switch'.
debug> Lock 'pipe_lock':  Release by 'switch'.
debug> Lock 'pipe_lock':  Acquisition by 'create'.
debug> Lock 'pipe_lock':  Release by 'create'.
debug> Lock 'spin_lock':  Acquisition by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_spin'.
debug> Lock 'spin_lock':  Acquisition by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_residue'.
debug> Lock 'spin_lock':  Release by 'create_spin'.


The spin cluster [':53@N'].
debug> Lock 'pipe_lock':  Acquisition by 'switch'.
debug> Lock 'pipe_lock':  Release by 'switch'.
debug> Lock 'pipe_lock':  Acquisition by 'switch'.
debug> Lock 'pipe_lock':  Release by 'switch'.
No model has been selected.
debug> Lock 'pipe_lock':  Acquisition by 'switch'.
debug> Lock 'pipe_lock':  Release by 'switch'.

relax> monte_carlo.setup(number=2000)

relax> monte_carlo.create_data(method='back_calc')

relax> monte_carlo.initial_values()

relax> minimise.execute(min_algor='simplex', line_search=None, hessian_mod=None, hessian_type=None, func_tol=1e-25, grad_tol=None, max_iter=10000000, constraints=True, scaling=True, verbosity=1)
Simulation 1, cluster [':52@N']
Simulation 2, cluster [':52@N']
Simulation 3, cluster [':52@N']
Simulation 4, cluster [':52@N']
Simulation 5, cluster [':52@N']
Simulation 6, cluster [':52@N']
Simulation 7, cluster [':52@N']
Simulation 8, cluster [':52@N']
Simulation 9, cluster [':52@N']
Simulation 10, cluster [':52@N']
Simulation 11, cluster [':52@N']
Simulation 12, cluster [':52@N']
Simulation 13, cluster [':52@N']
Simulation 14, cluster [':52@N']
Simulation 15, cluster [':52@N']
Simulation 16, cluster [':52@N']
Simulation 17, cluster [':52@N']
Simulation 18, cluster [':52@N']
Simulation 19, cluster [':52@N']
Simulation 20, cluster [':52@N']
Simulation 21, cluster [':52@N']
Simulation 22, cluster [':52@N']
Simulation 23, cluster [':52@N']
Simulation 24, cluster [':52@N']
Simulation 25, cluster [':52@N']
Simulation 26, cluster [':52@N']
Simulation 27, cluster [':52@N']
Simulation 28, cluster [':52@N']
Simulation 29, cluster [':52@N']
Simulation 30, cluster [':52@N']
Simulation 31, cluster [':52@N']
Simulation 32, cluster [':52@N']
Simulation 33, cluster [':52@N']
Simulation 34, cluster [':52@N']
Simulation 35, cluster [':52@N']
Simulation 36, cluster [':52@N']
Simulation 37, cluster [':52@N']
Simulation 38, cluster [':52@N']
Simulation 39, cluster [':52@N']
Simulation 40, cluster [':52@N']
Simulation 41, cluster [':52@N']
Simulation 42, cluster [':52@N']
Simulation 43, cluster [':52@N']
Simulation 44, cluster [':52@N']
Simulation 45, cluster [':52@N']
Simulation 46, cluster [':52@N']
Simulation 47, cluster [':52@N']
Simulation 48, cluster [':52@N']
Simulation 49, cluster [':52@N']
Simulation 50, cluster [':52@N']
Simulation 51, cluster [':52@N']
Simulation 52, cluster [':52@N']
Simulation 53, cluster [':52@N']
Simulation 54, cluster [':52@N']
Simulation 55, cluster [':52@N']
Simulation 56, cluster [':52@N']
Simulation 57, cluster [':52@N']
Simulation 58, cluster [':52@N']
Simulation 59, cluster [':52@N']
Simulation 60, cluster [':52@N']
Simulation 61, cluster [':52@N']
Simulation 62, cluster [':52@N']
Simulation 63, cluster [':52@N']
Simulation 64, cluster [':52@N']
Simulation 65, cluster [':52@N']
Simulation 66, cluster [':52@N']
Simulation 67, cluster [':52@N']
Simulation 68, cluster [':52@N']
Simulation 69, cluster [':52@N']
Simulation 70, cluster [':52@N']
Simulation 71, cluster [':52@N']
Simulation 72, cluster [':52@N']
Simulation 73, cluster [':52@N']
Simulation 74, cluster [':52@N']
Simulation 75, cluster [':52@N']
Simulation 76, cluster [':52@N']
Simulation 77, cluster [':52@N']
Simulation 78, cluster [':52@N']
Simulation 79, cluster [':52@N']
Simulation 80, cluster [':52@N']
Simulation 81, cluster [':52@N']
Simulation 82, cluster [':52@N']
Simulation 83, cluster [':52@N']
Simulation 84, cluster [':52@N']
Simulation 85, cluster [':52@N']
Simulation 86, cluster [':52@N']
Simulation 87, cluster [':52@N']
Simulation 88, cluster [':52@N']
Simulation 89, cluster [':52@N']
Simulation 90, cluster [':52@N']
Simulation 91, cluster [':52@N']
Simulation 92, cluster [':52@N']
Simulation 93, cluster [':52@N']
Simulation 94, cluster [':52@N']
Simulation 95, cluster [':52@N']
Simulation 96, cluster [':52@N']
Simulation 97, cluster [':52@N']
Simulation 98, cluster [':52@N']
Simulation 99, cluster [':52@N']
Simulation 100, cluster [':52@N']
Simulation 101, cluster [':52@N']
Simulation 102, cluster [':52@N']
Simulation 103, cluster [':52@N']
Simulation 104, cluster [':52@N']
Simulation 105, cluster [':52@N']
Simulation 106, cluster [':52@N']
Simulation 107, cluster [':52@N']
Simulation 108, cluster [':52@N']
Simulation 109, cluster [':52@N']
Simulation 110, cluster [':52@N']
Simulation 111, cluster [':52@N']
Simulation 112, cluster [':52@N']
Simulation 113, cluster [':52@N']
Simulation 114, cluster [':52@N']
Simulation 115, cluster [':52@N']
Simulation 116, cluster [':52@N']
Simulation 117, cluster [':52@N']
Simulation 118, cluster [':52@N']
Simulation 119, cluster [':52@N']
Simulation 120, cluster [':52@N']
Simulation 121, cluster [':52@N']
Simulation 122, cluster [':52@N']
Simulation 123, cluster [':52@N']
Simulation 124, cluster [':52@N']
Simulation 125, cluster [':52@N']
Simulation 126, cluster [':52@N']
Simulation 127, cluster [':52@N']
Simulation 128, cluster [':52@N']
Simulation 129, cluster [':52@N']
Simulation 130, cluster [':52@N']
Simulation 131, cluster [':52@N']
Simulation 132, cluster [':52@N']
Simulation 133, cluster [':52@N']
Simulation 134, cluster [':52@N']
Simulation 135, cluster [':52@N']
Simulation 136, cluster [':52@N']
Simulation 137, cluster [':52@N']
Simulation 138, cluster [':52@N']
Simulation 139, cluster [':52@N']
Simulation 140, cluster [':52@N']
Simulation 141, cluster [':52@N']
Simulation 142, cluster [':52@N']
Simulation 143, cluster [':52@N']
Simulation 144, cluster [':52@N']
Simulation 145, cluster [':52@N']
Simulation 146, cluster [':52@N']
Simulation 147, cluster [':52@N']
Simulation 148, cluster [':52@N']
Simulation 149, cluster [':52@N']
Simulation 150, cluster [':52@N']
Simulation 151, cluster [':52@N']
Simulation 152, cluster [':52@N']
Simulation 153, cluster [':52@N']
Simulation 154, cluster [':52@N']
Simulation 155, cluster [':52@N']
Simulation 156, cluster [':52@N']
Simulation 157, cluster [':52@N']
Simulation 158, cluster [':52@N']
Simulation 159, cluster [':52@N']
Simulation 160, cluster [':52@N']
Simulation 161, cluster [':52@N']
Simulation 162, cluster [':52@N']
Simulation 163, cluster [':52@N']
Simulation 164, cluster [':52@N']
Simulation 165, cluster [':52@N']
Simulation 166, cluster [':52@N']
Simulation 167, cluster [':52@N']
Simulation 168, cluster [':52@N']
Simulation 169, cluster [':52@N']
Simulation 170, cluster [':52@N']
Simulation 171, cluster [':52@N']
Simulation 172, cluster [':52@N']
Simulation 173, cluster [':52@N']
Simulation 174, cluster [':52@N']
Simulation 175, cluster [':52@N']
Simulation 176, cluster [':52@N']
Simulation 177, cluster [':52@N']
Simulation 178, cluster [':52@N']
Simulation 179, cluster [':52@N']
Simulation 180, cluster [':52@N']
Simulation 181, cluster [':52@N']
Simulation 182, cluster [':52@N']
Simulation 183, cluster [':52@N']
Simulation 184, cluster [':52@N']
Simulation 185, cluster [':52@N']
Simulation 186, cluster [':52@N']
Simulation 187, cluster [':52@N']
Simulation 188, cluster [':52@N']
Simulation 189, cluster [':52@N']
Simulation 190, cluster [':52@N']
Simulation 191, cluster [':52@N']
Simulation 192, cluster [':52@N']
Simulation 193, cluster [':52@N']
Simulation 194, cluster [':52@N']
Simulation 195, cluster [':52@N']
Simulation 196, cluster [':52@N']
Simulation 197, cluster [':52@N']
Simulation 198, cluster [':52@N']
Simulation 199, cluster [':52@N']
Simulation 200, cluster [':52@N']
Simulation 201, cluster [':52@N']
Simulation 202, cluster [':52@N']
Simulation 203, cluster [':52@N']
Simulation 204, cluster [':52@N']
Simulation 205, cluster [':52@N']
Simulation 206, cluster [':52@N']
Simulation 207, cluster [':52@N']
Simulation 208, cluster [':52@N']
Simulation 209, cluster [':52@N']
Simulation 210, cluster [':52@N']
Simulation 211, cluster [':52@N']
Simulation 212, cluster [':52@N']
Simulation 213, cluster [':52@N']
Simulation 214, cluster [':52@N']
Simulation 215, cluster [':52@N']
Simulation 216, cluster [':52@N']
Simulation 217, cluster [':52@N']
Simulation 218, cluster [':52@N']
Simulation 219, cluster [':52@N']
Simulation 220, cluster [':52@N']
Simulation 221, cluster [':52@N']
Simulation 222, cluster [':52@N']
Simulation 223, cluster [':52@N']
Simulation 224, cluster [':52@N']
Simulation 225, cluster [':52@N']
Simulation 226, cluster [':52@N']
Simulation 227, cluster [':52@N']
Simulation 228, cluster [':52@N']
Simulation 229, cluster [':52@N']
Simulation 230, cluster [':52@N']
Simulation 231, cluster [':52@N']
Simulation 232, cluster [':52@N']
Simulation 233, cluster [':52@N']
Simulation 234, cluster [':52@N']
Simulation 235, cluster [':52@N']
Simulation 236, cluster [':52@N']
Simulation 237, cluster [':52@N']
Simulation 238, cluster [':52@N']
Simulation 239, cluster [':52@N']
Simulation 240, cluster [':52@N']
Simulation 241, cluster [':52@N']
Simulation 242, cluster [':52@N']
Simulation 243, cluster [':52@N']
Simulation 244, cluster [':52@N']
Simulation 245, cluster [':52@N']
Simulation 246, cluster [':52@N']
Simulation 247, cluster [':52@N']
Simulation 248, cluster [':52@N']
Simulation 249, cluster [':52@N']
Simulation 250, cluster [':52@N']
Simulation 251, cluster [':52@N']
Simulation 252, cluster [':52@N']
Simulation 253, cluster [':52@N']
Simulation 254, cluster [':52@N']
Simulation 255, cluster [':52@N']
Simulation 256, cluster [':52@N']
Simulation 257, cluster [':52@N']
Simulation 258, cluster [':52@N']
Simulation 259, cluster [':52@N']
Simulation 260, cluster [':52@N']
Simulation 261, cluster [':52@N']
Simulation 262, cluster [':52@N']
Simulation 263, cluster [':52@N']
Simulation 264, cluster [':52@N']
Simulation 265, cluster [':52@N']
Simulation 266, cluster [':52@N']
Simulation 267, cluster [':52@N']
Simulation 268, cluster [':52@N']
Simulation 269, cluster [':52@N']
Simulation 270, cluster [':52@N']
Simulation 271, cluster [':52@N']
Simulation 272, cluster [':52@N']
Simulation 273, cluster [':52@N']
Simulation 274, cluster [':52@N']
Simulation 275, cluster [':52@N']
Simulation 276, cluster [':52@N']
Simulation 277, cluster [':52@N']
Simulation 278, cluster [':52@N']
Simulation 279, cluster [':52@N']
Simulation 280, cluster [':52@N']
Simulation 281, cluster [':52@N']
Simulation 282, cluster [':52@N']
Simulation 283, cluster [':52@N']
Simulation 284, cluster [':52@N']
Simulation 285, cluster [':52@N']
Simulation 286, cluster [':52@N']
Simulation 287, cluster [':52@N']
Simulation 288, cluster [':52@N']
Simulation 289, cluster [':52@N']
Simulation 290, cluster [':52@N']
Simulation 291, cluster [':52@N']
Simulation 292, cluster [':52@N']
Simulation 293, cluster [':52@N']
Simulation 294, cluster [':52@N']
Simulation 295, cluster [':52@N']
Simulation 296, cluster [':52@N']
Simulation 297, cluster [':52@N']
Simulation 298, cluster [':52@N']
Simulation 299, cluster [':52@N']
Simulation 300, cluster [':52@N']
Simulation 301, cluster [':52@N']
Simulation 302, cluster [':52@N']
Simulation 303, cluster [':52@N']
Simulation 304, cluster [':52@N']
Simulation 305, cluster [':52@N']
Simulation 306, cluster [':52@N']
Simulation 307, cluster [':52@N']
Simulation 308, cluster [':52@N']
Simulation 309, cluster [':52@N']
Simulation 310, cluster [':52@N']
Simulation 311, cluster [':52@N']
Simulation 312, cluster [':52@N']
Simulation 313, cluster [':52@N']
Simulation 314, cluster [':52@N']
Simulation 315, cluster [':52@N']
Simulation 316, cluster [':52@N']
Simulation 317, cluster [':52@N']
Simulation 318, cluster [':52@N']
Simulation 319, cluster [':52@N']
Simulation 320, cluster [':52@N']
Simulation 321, cluster [':52@N']
Simulation 322, cluster [':52@N']
Simulation 323, cluster [':52@N']
Simulation 324, cluster [':52@N']
Simulation 325, cluster [':52@N']
Simulation 326, cluster [':52@N']
Simulation 327, cluster [':52@N']
Simulation 328, cluster [':52@N']
Simulation 329, cluster [':52@N']
Simulation 330, cluster [':52@N']
Simulation 331, cluster [':52@N']
Simulation 332, cluster [':52@N']
Simulation 333, cluster [':52@N']
Simulation 334, cluster [':52@N']
Simulation 335, cluster [':52@N']
Simulation 336, cluster [':52@N']
Simulation 337, cluster [':52@N']
Simulation 338, cluster [':52@N']
Simulation 339, cluster [':52@N']
Simulation 340, cluster [':52@N']
Simulation 341, cluster [':52@N']
Simulation 342, cluster [':52@N']
Simulation 343, cluster [':52@N']
Simulation 344, cluster [':52@N']
Simulation 345, cluster [':52@N']
Simulation 346, cluster [':52@N']
Simulation 347, cluster [':52@N']
Simulation 348, cluster [':52@N']
Simulation 349, cluster [':52@N']
Simulation 350, cluster [':52@N']
Simulation 351, cluster [':52@N']
Simulation 352, cluster [':52@N']
Simulation 353, cluster [':52@N']
Simulation 354, cluster [':52@N']
Simulation 355, cluster [':52@N']
Simulation 356, cluster [':52@N']
Simulation 357, cluster [':52@N']
Simulation 358, cluster [':52@N']
Simulation 359, cluster [':52@N']
Simulation 360, cluster [':52@N']
Simulation 361, cluster [':52@N']
Simulation 362, cluster [':52@N']
Simulation 363, cluster [':52@N']
Simulation 364, cluster [':52@N']
Simulation 365, cluster [':52@N']
Simulation 366, cluster [':52@N']
Simulation 367, cluster [':52@N']
Simulation 368, cluster [':52@N']
Simulation 369, cluster [':52@N']
Simulation 370, cluster [':52@N']
Simulation 371, cluster [':52@N']
Simulation 372, cluster [':52@N']
Simulation 373, cluster [':52@N']
Simulation 374, cluster [':52@N']
Simulation 375, cluster [':52@N']
Simulation 376, cluster [':52@N']
Simulation 377, cluster [':52@N']
Simulation 378, cluster [':52@N']
Simulation 379, cluster [':52@N']
Simulation 380, cluster [':52@N']
Simulation 381, cluster [':52@N']
Simulation 382, cluster [':52@N']
Simulation 383, cluster [':52@N']
Simulation 384, cluster [':52@N']
Simulation 385, cluster [':52@N']
Simulation 386, cluster [':52@N']
Simulation 387, cluster [':52@N']
Simulation 388, cluster [':52@N']
Simulation 389, cluster [':52@N']
Simulation 390, cluster [':52@N']
Simulation 391, cluster [':52@N']
Simulation 392, cluster [':52@N']
Simulation 393, cluster [':52@N']
Simulation 394, cluster [':52@N']
Simulation 395, cluster [':52@N']
Simulation 396, cluster [':52@N']
Simulation 397, cluster [':52@N']
Simulation 398, cluster [':52@N']
Simulation 399, cluster [':52@N']
Simulation 400, cluster [':52@N']
Simulation 401, cluster [':52@N']
Simulation 402, cluster [':52@N']
Simulation 403, cluster [':52@N']
Simulation 404, cluster [':52@N']
Simulation 405, cluster [':52@N']
Simulation 406, cluster [':52@N']
Simulation 407, cluster [':52@N']
Simulation 408, cluster [':52@N']
Simulation 409, cluster [':52@N']
Simulation 410, cluster [':52@N']
Simulation 411, cluster [':52@N']
Simulation 412, cluster [':52@N']
Simulation 413, cluster [':52@N']
Simulation 414, cluster [':52@N']
Simulation 415, cluster [':52@N']
Simulation 416, cluster [':52@N']
Simulation 417, cluster [':52@N']
Simulation 418, cluster [':52@N']
Simulation 419, cluster [':52@N']
Simulation 420, cluster [':52@N']
Simulation 421, cluster [':52@N']
Simulation 422, cluster [':52@N']
Simulation 423, cluster [':52@N']
Simulation 424, cluster [':52@N']
Simulation 425, cluster [':52@N']
Simulation 426, cluster [':52@N']
Simulation 427, cluster [':52@N']
Simulation 428, cluster [':52@N']
Simulation 429, cluster [':52@N']
Simulation 430, cluster [':52@N']
Simulation 431, cluster [':52@N']
Simulation 432, cluster [':52@N']
Simulation 433, cluster [':52@N']
Simulation 434, cluster [':52@N']
Simulation 435, cluster [':52@N']
Simulation 436, cluster [':52@N']
Simulation 437, cluster [':52@N']
Simulation 438, cluster [':52@N']
Simulation 439, cluster [':52@N']
Simulation 440, cluster [':52@N']
Simulation 441, cluster [':52@N']
Simulation 442, cluster [':52@N']
Simulation 443, cluster [':52@N']
Simulation 444, cluster [':52@N']
Simulation 445, cluster [':52@N']
Simulation 446, cluster [':52@N']
Simulation 447, cluster [':52@N']
Simulation 448, cluster [':52@N']
Simulation 449, cluster [':52@N']
Simulation 450, cluster [':52@N']
Simulation 451, cluster [':52@N']
Simulation 452, cluster [':52@N']
Simulation 453, cluster [':52@N']
Simulation 454, cluster [':52@N']
Simulation 455, cluster [':52@N']
Simulation 456, cluster [':52@N']
Simulation 457, cluster [':52@N']
Simulation 458, cluster [':52@N']
Simulation 459, cluster [':52@N']
Simulation 460, cluster [':52@N']
Simulation 461, cluster [':52@N']
Simulation 462, cluster [':52@N']
Simulation 463, cluster [':52@N']
Simulation 464, cluster [':52@N']
Simulation 465, cluster [':52@N']
Simulation 466, cluster [':52@N']
Simulation 467, cluster [':52@N']
Simulation 468, cluster [':52@N']
Simulation 469, cluster [':52@N']
Simulation 470, cluster [':52@N']
Simulation 471, cluster [':52@N']
Simulation 472, cluster [':52@N']
Simulation 473, cluster [':52@N']
Simulation 474, cluster [':52@N']
Simulation 475, cluster [':52@N']
Simulation 476, cluster [':52@N']
Simulation 477, cluster [':52@N']
Simulation 478, cluster [':52@N']
Simulation 479, cluster [':52@N']
Simulation 480, cluster [':52@N']
Simulation 481, cluster [':52@N']
Simulation 482, cluster [':52@N']
Simulation 483, cluster [':52@N']
Simulation 484, cluster [':52@N']
Simulation 485, cluster [':52@N']
Simulation 486, cluster [':52@N']
Simulation 487, cluster [':52@N']
Simulation 488, cluster [':52@N']
Simulation 489, cluster [':52@N']
Simulation 490, cluster [':52@N']
Simulation 491, cluster [':52@N']
Simulation 492, cluster [':52@N']
Simulation 493, cluster [':52@N']
Simulation 494, cluster [':52@N']
Simulation 495, cluster [':52@N']
Simulation 496, cluster [':52@N']
Simulation 497, cluster [':52@N']
Simulation 498, cluster [':52@N']
Simulation 499, cluster [':52@N']
Simulation 500, cluster [':52@N']
Simulation 501, cluster [':52@N']
Simulation 502, cluster [':52@N']
Simulation 503, cluster [':52@N']
Simulation 504, cluster [':52@N']
Simulation 505, cluster [':52@N']
Simulation 506, cluster [':52@N']
Simulation 507, cluster [':52@N']
Simulation 508, cluster [':52@N']
Simulation 509, cluster [':52@N']
Simulation 510, cluster [':52@N']
Simulation 511, cluster [':52@N']
Simulation 512, cluster [':52@N']
Simulation 513, cluster [':52@N']
Simulation 514, cluster [':52@N']
Simulation 515, cluster [':52@N']
Simulation 516, cluster [':52@N']
Simulation 517, cluster [':52@N']
Simulation 518, cluster [':52@N']
Simulation 519, cluster [':52@N']
Simulation 520, cluster [':52@N']
Simulation 521, cluster [':52@N']
Simulation 522, cluster [':52@N']
Simulation 523, cluster [':52@N']
Simulation 524, cluster [':52@N']
Simulation 525, cluster [':52@N']
Simulation 526, cluster [':52@N']
Simulation 527, cluster [':52@N']
Simulation 528, cluster [':52@N']
Simulation 529, cluster [':52@N']
Simulation 530, cluster [':52@N']
Simulation 531, cluster [':52@N']
Simulation 532, cluster [':52@N']
Simulation 533, cluster [':52@N']
Simulation 534, cluster [':52@N']
Simulation 535, cluster [':52@N']
Simulation 536, cluster [':52@N']
Simulation 537, cluster [':52@N']
Simulation 538, cluster [':52@N']
Simulation 539, cluster [':52@N']
Simulation 540, cluster [':52@N']
Simulation 541, cluster [':52@N']
Simulation 542, cluster [':52@N']
Simulation 543, cluster [':52@N']
Simulation 544, cluster [':52@N']
Simulation 545, cluster [':52@N']
Simulation 546, cluster [':52@N']
Simulation 547, cluster [':52@N']
Simulation 548, cluster [':52@N']
Simulation 549, cluster [':52@N']
Simulation 550, cluster [':52@N']
Simulation 551, cluster [':52@N']
Simulation 552, cluster [':52@N']
Simulation 553, cluster [':52@N']
Simulation 554, cluster [':52@N']
Simulation 555, cluster [':52@N']
Simulation 556, cluster [':52@N']
Simulation 557, cluster [':52@N']
Simulation 558, cluster [':52@N']
Simulation 559, cluster [':52@N']
Simulation 560, cluster [':52@N']
Simulation 561, cluster [':52@N']
Simulation 562, cluster [':52@N']
Simulation 563, cluster [':52@N']
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Simulation 1151, cluster [':52@N']
Simulation 1152, cluster [':52@N']
Simulation 1153, cluster [':52@N']
Simulation 1154, cluster [':52@N']
Simulation 1155, cluster [':52@N']
Simulation 1156, cluster [':52@N']
Simulation 1157, cluster [':52@N']
Simulation 1158, cluster [':52@N']
Simulation 1159, cluster [':52@N']
Simulation 1160, cluster [':52@N']
Simulation 1161, cluster [':52@N']
Simulation 1162, cluster [':52@N']
Simulation 1163, cluster [':52@N']
Simulation 1164, cluster [':52@N']
Simulation 1165, cluster [':52@N']
Simulation 1166, cluster [':52@N']
Simulation 1167, cluster [':52@N']
Simulation 1168, cluster [':52@N']
Simulation 1169, cluster [':52@N']
Simulation 1170, cluster [':52@N']
Simulation 1171, cluster [':52@N']
Simulation 1172, cluster [':52@N']
Simulation 1173, cluster [':52@N']
Simulation 1174, cluster [':52@N']
Simulation 1175, cluster [':52@N']
Simulation 1176, cluster [':52@N']
Simulation 1177, cluster [':52@N']
Simulation 1178, cluster [':52@N']
Simulation 1179, cluster [':52@N']
Simulation 1180, cluster [':52@N']
Simulation 1181, cluster [':52@N']
Simulation 1182, cluster [':52@N']
Simulation 1183, cluster [':52@N']
Simulation 1184, cluster [':52@N']
Simulation 1185, cluster [':52@N']
Simulation 1186, cluster [':52@N']
Simulation 1187, cluster [':52@N']
Simulation 1188, cluster [':52@N']
Simulation 1189, cluster [':52@N']
Simulation 1190, cluster [':52@N']
Simulation 1191, cluster [':52@N']
Simulation 1192, cluster [':52@N']
Simulation 1193, cluster [':52@N']
Simulation 1194, cluster [':52@N']
Simulation 1195, cluster [':52@N']
Simulation 1196, cluster [':52@N']
Simulation 1197, cluster [':52@N']
Simulation 1198, cluster [':52@N']
Simulation 1199, cluster [':52@N']
Simulation 1200, cluster [':52@N']
Simulation 1201, cluster [':52@N']
Simulation 1202, cluster [':52@N']
Simulation 1203, cluster [':52@N']
Simulation 1204, cluster [':52@N']
Simulation 1205, cluster [':52@N']
Simulation 1206, cluster [':52@N']
Simulation 1207, cluster [':52@N']
Simulation 1208, cluster [':52@N']
Simulation 1209, cluster [':52@N']
Simulation 1210, cluster [':52@N']
Simulation 1211, cluster [':52@N']
Simulation 1212, cluster [':52@N']
Simulation 1213, cluster [':52@N']
Simulation 1214, cluster [':52@N']
Simulation 1215, cluster [':52@N']
Simulation 1216, cluster [':52@N']
Simulation 1217, cluster [':52@N']
Simulation 1218, cluster [':52@N']
Simulation 1219, cluster [':52@N']
Simulation 1220, cluster [':52@N']
Simulation 1221, cluster [':52@N']
Simulation 1222, cluster [':52@N']
Simulation 1223, cluster [':52@N']
Simulation 1224, cluster [':52@N']
Simulation 1225, cluster [':52@N']
Simulation 1226, cluster [':52@N']
Simulation 1227, cluster [':52@N']
Simulation 1228, cluster [':52@N']
Simulation 1229, cluster [':52@N']
Simulation 1230, cluster [':52@N']
Simulation 1231, cluster [':52@N']
Simulation 1232, cluster [':52@N']
Simulation 1233, cluster [':52@N']
Simulation 1234, cluster [':52@N']
Simulation 1235, cluster [':52@N']
Simulation 1236, cluster [':52@N']
Simulation 1237, cluster [':52@N']
Simulation 1238, cluster [':52@N']
Simulation 1239, cluster [':52@N']
Simulation 1240, cluster [':52@N']
Simulation 1241, cluster [':52@N']
Simulation 1242, cluster [':52@N']
Simulation 1243, cluster [':52@N']
Simulation 1244, cluster [':52@N']
Simulation 1245, cluster [':52@N']
Simulation 1246, cluster [':52@N']
Simulation 1247, cluster [':52@N']
Simulation 1248, cluster [':52@N']
Simulation 1249, cluster [':52@N']
Simulation 1250, cluster [':52@N']
Simulation 1251, cluster [':52@N']
Simulation 1252, cluster [':52@N']
Simulation 1253, cluster [':52@N']
Simulation 1254, cluster [':52@N']
Simulation 1255, cluster [':52@N']
Simulation 1256, cluster [':52@N']
Simulation 1257, cluster [':52@N']
Simulation 1258, cluster [':52@N']
Simulation 1259, cluster [':52@N']
Simulation 1260, cluster [':52@N']
Simulation 1261, cluster [':52@N']
Simulation 1262, cluster [':52@N']
Simulation 1263, cluster [':52@N']
Simulation 1264, cluster [':52@N']
Simulation 1265, cluster [':52@N']
Simulation 1266, cluster [':52@N']
Simulation 1267, cluster [':52@N']
Simulation 1268, cluster [':52@N']
Simulation 1269, cluster [':52@N']
Simulation 1270, cluster [':52@N']
Simulation 1271, cluster [':52@N']
Simulation 1272, cluster [':52@N']
Simulation 1273, cluster [':52@N']
Simulation 1274, cluster [':52@N']
Simulation 1275, cluster [':52@N']
Simulation 1276, cluster [':52@N']
Simulation 1277, cluster [':52@N']
Simulation 1278, cluster [':52@N']
Simulation 1279, cluster [':52@N']
Simulation 1280, cluster [':52@N']
Simulation 1281, cluster [':52@N']
Simulation 1282, cluster [':52@N']
Simulation 1283, cluster [':52@N']
Simulation 1284, cluster [':52@N']
Simulation 1285, cluster [':52@N']
Simulation 1286, cluster [':52@N']
Simulation 1287, cluster [':52@N']
Simulation 1288, cluster [':52@N']
Simulation 1289, cluster [':52@N']
Simulation 1290, cluster [':52@N']
Simulation 1291, cluster [':52@N']
Simulation 1292, cluster [':52@N']
Simulation 1293, cluster [':52@N']
Simulation 1294, cluster [':52@N']
Simulation 1295, cluster [':52@N']
Simulation 1296, cluster [':52@N']
Simulation 1297, cluster [':52@N']
Simulation 1298, cluster [':52@N']
Simulation 1299, cluster [':52@N']
Simulation 1300, cluster [':52@N']
Simulation 1301, cluster [':52@N']
Simulation 1302, cluster [':52@N']
Simulation 1303, cluster [':52@N']
Simulation 1304, cluster [':52@N']
Simulation 1305, cluster [':52@N']
Simulation 1306, cluster [':52@N']
Simulation 1307, cluster [':52@N']
Simulation 1308, cluster [':52@N']
Simulation 1309, cluster [':52@N']
Simulation 1310, cluster [':52@N']
Simulation 1311, cluster [':52@N']
Simulation 1312, cluster [':52@N']
Simulation 1313, cluster [':52@N']
Simulation 1314, cluster [':52@N']
Simulation 1315, cluster [':52@N']
Simulation 1316, cluster [':52@N']
Simulation 1317, cluster [':52@N']
Simulation 1318, cluster [':52@N']
Simulation 1319, cluster [':52@N']
Simulation 1320, cluster [':52@N']
Simulation 1321, cluster [':52@N']
Simulation 1322, cluster [':52@N']
Simulation 1323, cluster [':52@N']
Simulation 1324, cluster [':52@N']
Simulation 1325, cluster [':52@N']
Simulation 1326, cluster [':52@N']
Simulation 1327, cluster [':52@N']
Simulation 1328, cluster [':52@N']
Simulation 1329, cluster [':52@N']
Simulation 1330, cluster [':52@N']
Simulation 1331, cluster [':52@N']
Simulation 1332, cluster [':52@N']
Simulation 1333, cluster [':52@N']
Simulation 1334, cluster [':52@N']
Simulation 1335, cluster [':52@N']
Simulation 1336, cluster [':52@N']
Simulation 1337, cluster [':52@N']
Simulation 1338, cluster [':52@N']
Simulation 1339, cluster [':52@N']
Simulation 1340, cluster [':52@N']
Simulation 1341, cluster [':52@N']
Simulation 1342, cluster [':52@N']
Simulation 1343, cluster [':52@N']
Simulation 1344, cluster [':52@N']
Simulation 1345, cluster [':52@N']
Simulation 1346, cluster [':52@N']
Simulation 1347, cluster [':52@N']
Simulation 1348, cluster [':52@N']
Simulation 1349, cluster [':52@N']
Simulation 1350, cluster [':52@N']
Simulation 1351, cluster [':52@N']
Simulation 1352, cluster [':52@N']
Simulation 1353, cluster [':52@N']
Simulation 1354, cluster [':52@N']
Simulation 1355, cluster [':52@N']
Simulation 1356, cluster [':52@N']
Simulation 1357, cluster [':52@N']
Simulation 1358, cluster [':52@N']
Simulation 1359, cluster [':52@N']
Simulation 1360, cluster [':52@N']
Simulation 1361, cluster [':52@N']
Simulation 1362, cluster [':52@N']
Simulation 1363, cluster [':52@N']
Simulation 1364, cluster [':52@N']
Simulation 1365, cluster [':52@N']
Simulation 1366, cluster [':52@N']
Simulation 1367, cluster [':52@N']
Simulation 1368, cluster [':52@N']
Simulation 1369, cluster [':52@N']
Simulation 1370, cluster [':52@N']
Simulation 1371, cluster [':52@N']
Simulation 1372, cluster [':52@N']
Simulation 1373, cluster [':52@N']
Simulation 1374, cluster [':52@N']
Simulation 1375, cluster [':52@N']
Simulation 1376, cluster [':52@N']
Simulation 1377, cluster [':52@N']
Simulation 1378, cluster [':52@N']
Simulation 1379, cluster [':52@N']
Simulation 1380, cluster [':52@N']
Simulation 1381, cluster [':52@N']
Simulation 1382, cluster [':52@N']
Simulation 1383, cluster [':52@N']
Simulation 1384, cluster [':52@N']
Simulation 1385, cluster [':52@N']
Simulation 1386, cluster [':52@N']
Simulation 1387, cluster [':52@N']
Simulation 1388, cluster [':52@N']
Simulation 1389, cluster [':52@N']
Simulation 1390, cluster [':52@N']
Simulation 1391, cluster [':52@N']
Simulation 1392, cluster [':52@N']
Simulation 1393, cluster [':52@N']
Simulation 1394, cluster [':52@N']
Simulation 1395, cluster [':52@N']
Simulation 1396, cluster [':52@N']
Simulation 1397, cluster [':52@N']
Simulation 1398, cluster [':52@N']
Simulation 1399, cluster [':52@N']
Simulation 1400, cluster [':52@N']
Simulation 1401, cluster [':52@N']
Simulation 1402, cluster [':52@N']
Simulation 1403, cluster [':52@N']
Simulation 1404, cluster [':52@N']
Simulation 1405, cluster [':52@N']
Simulation 1406, cluster [':52@N']
Simulation 1407, cluster [':52@N']
Simulation 1408, cluster [':52@N']
Simulation 1409, cluster [':52@N']
Simulation 1410, cluster [':52@N']
Simulation 1411, cluster [':52@N']
Simulation 1412, cluster [':52@N']
Simulation 1413, cluster [':52@N']
Simulation 1414, cluster [':52@N']
Simulation 1415, cluster [':52@N']
Simulation 1416, cluster [':52@N']
Simulation 1417, cluster [':52@N']
Simulation 1418, cluster [':52@N']
Simulation 1419, cluster [':52@N']
Simulation 1420, cluster [':52@N']
Simulation 1421, cluster [':52@N']
Simulation 1422, cluster [':52@N']
Simulation 1423, cluster [':52@N']
Simulation 1424, cluster [':52@N']
Simulation 1425, cluster [':52@N']
Simulation 1426, cluster [':52@N']
Simulation 1427, cluster [':52@N']
Simulation 1428, cluster [':52@N']
Simulation 1429, cluster [':52@N']
Simulation 1430, cluster [':52@N']
Simulation 1431, cluster [':52@N']
Simulation 1432, cluster [':52@N']
Simulation 1433, cluster [':52@N']
Simulation 1434, cluster [':52@N']
Simulation 1435, cluster [':52@N']
Simulation 1436, cluster [':52@N']
Simulation 1437, cluster [':52@N']
Simulation 1438, cluster [':52@N']
Simulation 1439, cluster [':52@N']
Simulation 1440, cluster [':52@N']
Simulation 1441, cluster [':52@N']
Simulation 1442, cluster [':52@N']
Simulation 1443, cluster [':52@N']
Simulation 1444, cluster [':52@N']
Simulation 1445, cluster [':52@N']
Simulation 1446, cluster [':52@N']
Simulation 1447, cluster [':52@N']
Simulation 1448, cluster [':52@N']
Simulation 1449, cluster [':52@N']
Simulation 1450, cluster [':52@N']
Simulation 1451, cluster [':52@N']
Simulation 1452, cluster [':52@N']
Simulation 1453, cluster [':52@N']
Simulation 1454, cluster [':52@N']
Simulation 1455, cluster [':52@N']
Simulation 1456, cluster [':52@N']
Simulation 1457, cluster [':52@N']
Simulation 1458, cluster [':52@N']
Simulation 1459, cluster [':52@N']
Simulation 1460, cluster [':52@N']
Simulation 1461, cluster [':52@N']
Simulation 1462, cluster [':52@N']
Simulation 1463, cluster [':52@N']
Simulation 1464, cluster [':52@N']
Simulation 1465, cluster [':52@N']
Simulation 1466, cluster [':52@N']
Simulation 1467, cluster [':52@N']
Simulation 1468, cluster [':52@N']
Simulation 1469, cluster [':52@N']
Simulation 1470, cluster [':52@N']
Simulation 1471, cluster [':52@N']
Simulation 1472, cluster [':52@N']
Simulation 1473, cluster [':52@N']
Simulation 1474, cluster [':52@N']
Simulation 1475, cluster [':52@N']
Simulation 1476, cluster [':52@N']
Simulation 1477, cluster [':52@N']
Simulation 1478, cluster [':52@N']
Simulation 1479, cluster [':52@N']
Simulation 1480, cluster [':52@N']
Simulation 1481, cluster [':52@N']
Simulation 1482, cluster [':52@N']
Simulation 1483, cluster [':52@N']
Simulation 1484, cluster [':52@N']
Simulation 1485, cluster [':52@N']
Simulation 1486, cluster [':52@N']
Simulation 1487, cluster [':52@N']
Simulation 1488, cluster [':52@N']
Simulation 1489, cluster [':52@N']
Simulation 1490, cluster [':52@N']
Simulation 1491, cluster [':52@N']
Simulation 1492, cluster [':52@N']
Simulation 1493, cluster [':52@N']
Simulation 1494, cluster [':52@N']
Simulation 1495, cluster [':52@N']
Simulation 1496, cluster [':52@N']
Simulation 1497, cluster [':52@N']
Simulation 1498, cluster [':52@N']
Simulation 1499, cluster [':52@N']
Simulation 1500, cluster [':52@N']
Simulation 1501, cluster [':52@N']
Simulation 1502, cluster [':52@N']
Simulation 1503, cluster [':52@N']
Simulation 1504, cluster [':52@N']
Simulation 1505, cluster [':52@N']
Simulation 1506, cluster [':52@N']
Simulation 1507, cluster [':52@N']
Simulation 1508, cluster [':52@N']
Simulation 1509, cluster [':52@N']
Simulation 1510, cluster [':52@N']
Simulation 1511, cluster [':52@N']
Simulation 1512, cluster [':52@N']
Simulation 1513, cluster [':52@N']
Simulation 1514, cluster [':52@N']
Simulation 1515, cluster [':52@N']
Simulation 1516, cluster [':52@N']
Simulation 1517, cluster [':52@N']
Simulation 1518, cluster [':52@N']
Simulation 1519, cluster [':52@N']
Simulation 1520, cluster [':52@N']
Simulation 1521, cluster [':52@N']
Simulation 1522, cluster [':52@N']
Simulation 1523, cluster [':52@N']
Simulation 1524, cluster [':52@N']
Simulation 1525, cluster [':52@N']
Simulation 1526, cluster [':52@N']
Simulation 1527, cluster [':52@N']
Simulation 1528, cluster [':52@N']
Simulation 1529, cluster [':52@N']
Simulation 1530, cluster [':52@N']
Simulation 1531, cluster [':52@N']
Simulation 1532, cluster [':52@N']
Simulation 1533, cluster [':52@N']
Simulation 1534, cluster [':52@N']
Simulation 1535, cluster [':52@N']
Simulation 1536, cluster [':52@N']
Simulation 1537, cluster [':52@N']
Simulation 1538, cluster [':52@N']
Simulation 1539, cluster [':52@N']
Simulation 1540, cluster [':52@N']
Simulation 1541, cluster [':52@N']
Simulation 1542, cluster [':52@N']
Simulation 1543, cluster [':52@N']
Simulation 1544, cluster [':52@N']
Simulation 1545, cluster [':52@N']
Simulation 1546, cluster [':52@N']
Simulation 1547, cluster [':52@N']
Simulation 1548, cluster [':52@N']
Simulation 1549, cluster [':52@N']
Simulation 1550, cluster [':52@N']
Simulation 1551, cluster [':52@N']
Simulation 1552, cluster [':52@N']
Simulation 1553, cluster [':52@N']
Simulation 1554, cluster [':52@N']
Simulation 1555, cluster [':52@N']
Simulation 1556, cluster [':52@N']
Simulation 1557, cluster [':52@N']
Simulation 1558, cluster [':52@N']
Simulation 1559, cluster [':52@N']
Simulation 1560, cluster [':52@N']
Simulation 1561, cluster [':52@N']
Simulation 1562, cluster [':52@N']
Simulation 1563, cluster [':52@N']
Simulation 1564, cluster [':52@N']
Simulation 1565, cluster [':52@N']
Simulation 1566, cluster [':52@N']
Simulation 1567, cluster [':52@N']
Simulation 1568, cluster [':52@N']
Simulation 1569, cluster [':52@N']
Simulation 1570, cluster [':52@N']
Simulation 1571, cluster [':52@N']
Simulation 1572, cluster [':52@N']
Simulation 1573, cluster [':52@N']
Simulation 1574, cluster [':52@N']
Simulation 1575, cluster [':52@N']
Simulation 1576, cluster [':52@N']
Simulation 1577, cluster [':52@N']
Simulation 1578, cluster [':52@N']
Simulation 1579, cluster [':52@N']
Simulation 1580, cluster [':52@N']
Simulation 1581, cluster [':52@N']
Simulation 1582, cluster [':52@N']
Simulation 1583, cluster [':52@N']
Simulation 1584, cluster [':52@N']
Simulation 1585, cluster [':52@N']
Simulation 1586, cluster [':52@N']
Simulation 1587, cluster [':52@N']
Simulation 1588, cluster [':52@N']
Simulation 1589, cluster [':52@N']
Simulation 1590, cluster [':52@N']
Simulation 1591, cluster [':52@N']
Simulation 1592, cluster [':52@N']
Simulation 1593, cluster [':52@N']
Simulation 1594, cluster [':52@N']
Simulation 1595, cluster [':52@N']
Simulation 1596, cluster [':52@N']
Simulation 1597, cluster [':52@N']
Simulation 1598, cluster [':52@N']
Simulation 1599, cluster [':52@N']
Simulation 1600, cluster [':52@N']
Simulation 1601, cluster [':52@N']
Simulation 1602, cluster [':52@N']
Simulation 1603, cluster [':52@N']
Simulation 1604, cluster [':52@N']
Simulation 1605, cluster [':52@N']
Simulation 1606, cluster [':52@N']
Simulation 1607, cluster [':52@N']
Simulation 1608, cluster [':52@N']
Simulation 1609, cluster [':52@N']
Simulation 1610, cluster [':52@N']
Simulation 1611, cluster [':52@N']
Simulation 1612, cluster [':52@N']
Simulation 1613, cluster [':52@N']
Simulation 1614, cluster [':52@N']
Simulation 1615, cluster [':52@N']
Simulation 1616, cluster [':52@N']
Simulation 1617, cluster [':52@N']
Simulation 1618, cluster [':52@N']
Simulation 1619, cluster [':52@N']
Simulation 1620, cluster [':52@N']
Simulation 1621, cluster [':52@N']
Simulation 1622, cluster [':52@N']
Simulation 1623, cluster [':52@N']
Simulation 1624, cluster [':52@N']
Simulation 1625, cluster [':52@N']
Simulation 1626, cluster [':52@N']
Simulation 1627, cluster [':52@N']
Simulation 1628, cluster [':52@N']
Simulation 1629, cluster [':52@N']
Simulation 1630, cluster [':52@N']
Simulation 1631, cluster [':52@N']
Simulation 1632, cluster [':52@N']
Simulation 1633, cluster [':52@N']
Simulation 1634, cluster [':52@N']
Simulation 1635, cluster [':52@N']
Simulation 1636, cluster [':52@N']
Simulation 1637, cluster [':52@N']
Simulation 1638, cluster [':52@N']
Simulation 1639, cluster [':52@N']
Simulation 1640, cluster [':52@N']
Simulation 1641, cluster [':52@N']
Simulation 1642, cluster [':52@N']
Simulation 1643, cluster [':52@N']
Simulation 1644, cluster [':52@N']
Simulation 1645, cluster [':52@N']
Simulation 1646, cluster [':52@N']
Simulation 1647, cluster [':52@N']
Simulation 1648, cluster [':52@N']
Simulation 1649, cluster [':52@N']
Simulation 1650, cluster [':52@N']
Simulation 1651, cluster [':52@N']
Simulation 1652, cluster [':52@N']
Simulation 1653, cluster [':52@N']
Simulation 1654, cluster [':52@N']
Simulation 1655, cluster [':52@N']
Simulation 1656, cluster [':52@N']
Simulation 1657, cluster [':52@N']
Simulation 1658, cluster [':52@N']
Simulation 1659, cluster [':52@N']
Simulation 1660, cluster [':52@N']
Simulation 1661, cluster [':52@N']
Simulation 1662, cluster [':52@N']
Simulation 1663, cluster [':52@N']
Simulation 1664, cluster [':52@N']
Simulation 1665, cluster [':52@N']
Simulation 1666, cluster [':52@N']
Simulation 1667, cluster [':52@N']
Simulation 1668, cluster [':52@N']
Simulation 1669, cluster [':52@N']
Simulation 1670, cluster [':52@N']
Simulation 1671, cluster [':52@N']
Simulation 1672, cluster [':52@N']
Simulation 1673, cluster [':52@N']
Simulation 1674, cluster [':52@N']
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Simulation 1676, cluster [':52@N']
Simulation 1677, cluster [':52@N']
Simulation 1678, cluster [':52@N']
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Simulation 1680, cluster [':52@N']
Simulation 1681, cluster [':52@N']
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Simulation 1683, cluster [':52@N']
Simulation 1684, cluster [':52@N']
Simulation 1685, cluster [':52@N']
Simulation 1686, cluster [':52@N']
Simulation 1687, cluster [':52@N']
Simulation 1688, cluster [':52@N']
Simulation 1689, cluster [':52@N']
Simulation 1690, cluster [':52@N']
Simulation 1691, cluster [':52@N']
Simulation 1692, cluster [':52@N']
Simulation 1693, cluster [':52@N']
Simulation 1694, cluster [':52@N']
Simulation 1695, cluster [':52@N']
Simulation 1696, cluster [':52@N']
Simulation 1697, cluster [':52@N']
Simulation 1698, cluster [':52@N']
Simulation 1699, cluster [':52@N']
Simulation 1700, cluster [':52@N']
Simulation 1701, cluster [':52@N']
Simulation 1702, cluster [':52@N']
Simulation 1703, cluster [':52@N']
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Simulation 1705, cluster [':52@N']
Simulation 1706, cluster [':52@N']
Simulation 1707, cluster [':52@N']
Simulation 1708, cluster [':52@N']
Simulation 1709, cluster [':52@N']
Simulation 1710, cluster [':52@N']
Simulation 1711, cluster [':52@N']
Simulation 1712, cluster [':52@N']
Simulation 1713, cluster [':52@N']
Simulation 1714, cluster [':52@N']
Simulation 1715, cluster [':52@N']
Simulation 1716, cluster [':52@N']
Simulation 1717, cluster [':52@N']
Simulation 1718, cluster [':52@N']
Simulation 1719, cluster [':52@N']
Simulation 1720, cluster [':52@N']
Simulation 1721, cluster [':52@N']
Simulation 1722, cluster [':52@N']
Simulation 1723, cluster [':52@N']
Simulation 1724, cluster [':52@N']
Simulation 1725, cluster [':52@N']
Simulation 1726, cluster [':52@N']
Simulation 1727, cluster [':52@N']
Simulation 1728, cluster [':52@N']
Simulation 1729, cluster [':52@N']
Simulation 1730, cluster [':52@N']
Simulation 1731, cluster [':52@N']
Simulation 1732, cluster [':52@N']
Simulation 1733, cluster [':52@N']
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relax> eliminate(function=None, args=None)

relax> monte_carlo.error_analysis()


Results writing
===============


relax> relax_disp.plot_disp_curves(dir='/Users/tlinnet/test/final', y_axis='r2_eff', x_axis='disp', num_points=1000, extend_hz=500.0, extend_ppm=500.0, interpolate='disp', force=True)
Opening the file '/Users/tlinnet/test/final/disp_52_N.agr' for writing.
Opening the file '/Users/tlinnet/test/final/grace2images.py' for writing.

relax> relax_disp.write_disp_curves(dir='/Users/tlinnet/test/final', force=True)
Opening the file '/Users/tlinnet/test/final/disp_52_N.out' for writing.
Opening the file '/Users/tlinnet/test/final/disp_theta_52_N.out' for writing.

relax> relax_disp.plot_disp_curves(dir='/Users/tlinnet/test/final', y_axis='r2_eff', x_axis='theta', num_points=1000, extend_hz=500.0, extend_ppm=500.0, interpolate='disp', force=True)
Opening the file '/Users/tlinnet/test/final/r1rho_vs_theta_inter_disp_52_N.agr' for writing.
Opening the file '/Users/tlinnet/test/final/grace2images.py' for writing.

relax> relax_disp.plot_disp_curves(dir='/Users/tlinnet/test/final', y_axis='r2_r1rho', x_axis='w_eff', num_points=1000, extend_hz=500.0, extend_ppm=500.0, interpolate='disp', force=True)
Opening the file '/Users/tlinnet/test/final/r2_r1rho_vs_w_eff_inter_disp_52_N.agr' for writing.
Opening the file '/Users/tlinnet/test/final/grace2images.py' for writing.

relax> relax_disp.plot_disp_curves(dir='/Users/tlinnet/test/final', y_axis='r2_eff', x_axis='theta', num_points=1000, extend_hz=500.0, extend_ppm=500.0, interpolate='offset', force=True)
Opening the file '/Users/tlinnet/test/final/r1rho_vs_theta_inter_offset_52_N.agr' for writing.
Opening the file '/Users/tlinnet/test/final/grace2images.py' for writing.

relax> value.write(param='model', file='model.out', dir='/Users/tlinnet/test/final', scaling=1.0, comment=None, bc=False, force=True)
Opening the file '/Users/tlinnet/test/final/model.out' for writing.

relax> value.write(param='r2', file='r1rho0.out', dir='/Users/tlinnet/test/final', scaling=1.0, comment=None, bc=False, force=True)
Opening the file '/Users/tlinnet/test/final/r1rho0.out' for writing.

relax> grace.write(x_data_type='res_num', y_data_type='r2', spin_id=None, plot_data='value', file='r1rho0.agr', dir='/Users/tlinnet/test/final', force=True, norm=False)
Opening the file '/Users/tlinnet/test/final/r1rho0.agr' for writing.

relax> value.write(param='pA', file='pA.out', dir='/Users/tlinnet/test/final', scaling=1.0, comment=None, bc=False, force=True)
Opening the file '/Users/tlinnet/test/final/pA.out' for writing.

relax> value.write(param='pB', file='pB.out', dir='/Users/tlinnet/test/final', scaling=1.0, comment=None, bc=False, force=True)
Opening the file '/Users/tlinnet/test/final/pB.out' for writing.

relax> grace.write(x_data_type='res_num', y_data_type='pA', spin_id=None, plot_data='value', file='pA.agr', dir='/Users/tlinnet/test/final', force=True, norm=False)
Opening the file '/Users/tlinnet/test/final/pA.agr' for writing.
RelaxWarning: No data could be found, creating an empty file.

relax> grace.write(x_data_type='res_num', y_data_type='pB', spin_id=None, plot_data='value', file='pB.agr', dir='/Users/tlinnet/test/final', force=True, norm=False)
Opening the file '/Users/tlinnet/test/final/pB.agr' for writing.
RelaxWarning: No data could be found, creating an empty file.

relax> value.write(param='phi_ex', file='phi_ex.out', dir='/Users/tlinnet/test/final', scaling=1.0, comment=None, bc=False, force=True)
Opening the file '/Users/tlinnet/test/final/phi_ex.out' for writing.

relax> grace.write(x_data_type='res_num', y_data_type='phi_ex', spin_id=None, plot_data='value', file='phi_ex.agr', dir='/Users/tlinnet/test/final', force=True, norm=False)
Opening the file '/Users/tlinnet/test/final/phi_ex.agr' for writing.

relax> value.write(param='phi_ex_B', file='phi_ex_B.out', dir='/Users/tlinnet/test/final', scaling=1.0, comment=None, bc=False, force=True)
Opening the file '/Users/tlinnet/test/final/phi_ex_B.out' for writing.

relax> value.write(param='phi_ex_C', file='phi_ex_C.out', dir='/Users/tlinnet/test/final', scaling=1.0, comment=None, bc=False, force=True)
Opening the file '/Users/tlinnet/test/final/phi_ex_C.out' for writing.

relax> grace.write(x_data_type='res_num', y_data_type='phi_ex_B', spin_id=None, plot_data='value', file='phi_ex_B.agr', dir='/Users/tlinnet/test/final', force=True, norm=False)
Opening the file '/Users/tlinnet/test/final/phi_ex_B.agr' for writing.
RelaxWarning: No data could be found, creating an empty file.

relax> grace.write(x_data_type='res_num', y_data_type='phi_ex_C', spin_id=None, plot_data='value', file='phi_ex_C.agr', dir='/Users/tlinnet/test/final', force=True, norm=False)
Opening the file '/Users/tlinnet/test/final/phi_ex_C.agr' for writing.
RelaxWarning: No data could be found, creating an empty file.

relax> value.write(param='dw', file='dw.out', dir='/Users/tlinnet/test/final', scaling=1.0, comment=None, bc=False, force=True)
Opening the file '/Users/tlinnet/test/final/dw.out' for writing.

relax> grace.write(x_data_type='res_num', y_data_type='dw', spin_id=None, plot_data='value', file='dw.agr', dir='/Users/tlinnet/test/final', force=True, norm=False)
Opening the file '/Users/tlinnet/test/final/dw.agr' for writing.
RelaxWarning: No data could be found, creating an empty file.

relax> value.write(param='dwH', file='dwH.out', dir='/Users/tlinnet/test/final', scaling=1.0, comment=None, bc=False, force=True)
Opening the file '/Users/tlinnet/test/final/dwH.out' for writing.

relax> grace.write(x_data_type='res_num', y_data_type='dwH', spin_id=None, plot_data='value', file='dwH.agr', dir='/Users/tlinnet/test/final', force=True, norm=False)
Opening the file '/Users/tlinnet/test/final/dwH.agr' for writing.
RelaxWarning: No data could be found, creating an empty file.

relax> value.write(param='k_AB', file='k_AB.out', dir='/Users/tlinnet/test/final', scaling=1.0, comment=None, bc=False, force=True)
Opening the file '/Users/tlinnet/test/final/k_AB.out' for writing.

relax> value.write(param='kex', file='kex.out', dir='/Users/tlinnet/test/final', scaling=1.0, comment=None, bc=False, force=True)
Opening the file '/Users/tlinnet/test/final/kex.out' for writing.

relax> value.write(param='tex', file='tex.out', dir='/Users/tlinnet/test/final', scaling=1.0, comment=None, bc=False, force=True)
Opening the file '/Users/tlinnet/test/final/tex.out' for writing.

relax> grace.write(x_data_type='res_num', y_data_type='k_AB', spin_id=None, plot_data='value', file='k_AB.agr', dir='/Users/tlinnet/test/final', force=True, norm=False)
Opening the file '/Users/tlinnet/test/final/k_AB.agr' for writing.
RelaxWarning: No data could be found, creating an empty file.

relax> grace.write(x_data_type='res_num', y_data_type='kex', spin_id=None, plot_data='value', file='kex.agr', dir='/Users/tlinnet/test/final', force=True, norm=False)
Opening the file '/Users/tlinnet/test/final/kex.agr' for writing.

relax> grace.write(x_data_type='res_num', y_data_type='tex', spin_id=None, plot_data='value', file='tex.agr', dir='/Users/tlinnet/test/final', force=True, norm=False)
Opening the file '/Users/tlinnet/test/final/tex.agr' for writing.

relax> value.write(param='k_AB', file='k_AB.out', dir='/Users/tlinnet/test/final', scaling=1.0, comment=None, bc=False, force=True)
Opening the file '/Users/tlinnet/test/final/k_AB.out' for writing.

relax> grace.write(x_data_type='res_num', y_data_type='k_AB', spin_id=None, plot_data='value', file='k_AB.agr', dir='/Users/tlinnet/test/final', force=True, norm=False)
Opening the file '/Users/tlinnet/test/final/k_AB.agr' for writing.
RelaxWarning: No data could be found, creating an empty file.

relax> value.write(param='kB', file='kB.out', dir='/Users/tlinnet/test/final', scaling=1.0, comment=None, bc=False, force=True)
Opening the file '/Users/tlinnet/test/final/kB.out' for writing.

relax> value.write(param='kC', file='kC.out', dir='/Users/tlinnet/test/final', scaling=1.0, comment=None, bc=False, force=True)
Opening the file '/Users/tlinnet/test/final/kC.out' for writing.

relax> grace.write(x_data_type='res_num', y_data_type='kB', spin_id=None, plot_data='value', file='kB.agr', dir='/Users/tlinnet/test/final', force=True, norm=False)
Opening the file '/Users/tlinnet/test/final/kB.agr' for writing.
RelaxWarning: No data could be found, creating an empty file.

relax> grace.write(x_data_type='res_num', y_data_type='kC', spin_id=None, plot_data='value', file='kC.agr', dir='/Users/tlinnet/test/final', force=True, norm=False)
Opening the file '/Users/tlinnet/test/final/kC.agr' for writing.
RelaxWarning: No data could be found, creating an empty file.

relax> value.write(param='chi2', file='chi2.out', dir='/Users/tlinnet/test/final', scaling=1.0, comment=None, bc=False, force=True)
Opening the file '/Users/tlinnet/test/final/chi2.out' for writing.

relax> grace.write(x_data_type='res_num', y_data_type='chi2', spin_id=None, plot_data='value', file='chi2.agr', dir='/Users/tlinnet/test/final', force=True, norm=False)
Opening the file '/Users/tlinnet/test/final/chi2.agr' for writing.

relax> results.write(file='results', dir='/Users/tlinnet/test/final', compress_type=1, force=True)
Opening the file '/Users/tlinnet/test/final/results.bz2' for writing.

relax> state.save(state='final_state', dir='/Users/tlinnet/test', compress_type=1, force=True)
Opening the file '/Users/tlinnet/test/final_state.bz2' for writing.
debug> Execution lock:  Release by 'relax_disp' ('auto-analysis' mode).
.
----------------------------------------------------------------------
Ran 1 test in 6190.103s

OK


===================================
= Summary of the relax test suite =
===================================



Optional packages/modules
=========================

No tests skipped due to missing modules.



Synopsis
========

System/functional tests ..................................................................... [ OK ]



