本文整理汇总了Python中data_store.Relax_data_store.chi2方法的典型用法代码示例。如果您正苦于以下问题:Python Relax_data_store.chi2方法的具体用法?Python Relax_data_store.chi2怎么用?Python Relax_data_store.chi2使用的例子?那么恭喜您, 这里精选的方法代码示例或许可以为您提供帮助。您也可以进一步了解该方法所在类data_store.Relax_data_store的用法示例。
在下文中一共展示了Relax_data_store.chi2方法的3个代码示例,这些例子默认根据受欢迎程度排序。您可以为喜欢或者感觉有用的代码点赞,您的评价将有助于系统推荐出更棒的Python代码示例。
示例1: array
# 需要导入模块: from data_store import Relax_data_store [as 别名]
# 或者: from data_store.Relax_data_store import chi2 [as 别名]
vect_z = array([2, 1, 3], float64)
r, theta, phi = cartesian_to_spherical(vect_z)
# Load the tensors.
self._execute_uf(uf_name='script', file=status.install_path + sep+'test_suite'+sep+'system_tests'+sep+'scripts'+sep+'frame_order'+sep+'tensors'+sep+'free_rotor_axis2_1_3_rot_tensors.py')
# Data init.
cdp.ave_pos_beta = 0.5
cdp.ave_pos_gamma = 0.2
cdp.axis_theta = theta
cdp.axis_phi = phi
# Select the Frame Order model.
self._execute_uf(uf_name='frame_order.select_model', model='free rotor')
# Set the reference domain.
self._execute_uf(uf_name='frame_order.ref_domain', ref='full')
# Calculate the chi2.
self._execute_uf(uf_name='calc')
#cdp.chi2b = cdp.chi2
#self._execute_uf(uf_name='minimise', min_algor='simplex')
ds.chi2 = cdp.chi2
# Save the program state.
#self._execute_uf(uf_name='state.save', state="free_rotor", force=True)
# Chi2 printout.
print("\n\n")
print("Chi2: %s" % cdp.chi2)
示例2: get_angle
# 需要导入模块: from data_store import Relax_data_store [as 别名]
# 或者: from data_store.Relax_data_store import chi2 [as 别名]
# The incremented angle.
if val == 'var':
val = get_angle(i, incs=INC, deg=False)
# Set the parameter name, storing an original copy for optimisation comparison.
setattr(cdp, params[j], val)
setattr(cdp, 'orig_' + params[j], val)
# Select the Frame Order model.
self._execute_uf(uf_name='frame_order.select_model', model='pseudo-ellipse, free rotor')
# Set the reference domain.
self._execute_uf(uf_name='frame_order.ref_domain', ref='full')
# Calculate the chi2.
self._execute_uf(uf_name='calc')
#cdp.chi2b = cdp.chi2
#self._execute_uf(uf_name='minimise', min_algor='simplex')
chi2[round].append(cdp.chi2)
# Save the program state.
#self._execute_uf(uf_name='state.save', state="pseudo_ellipse_free_rotor%s" % round, force=True)
# Chi2 printout.
ds.chi2 = chi2
print("\n\n")
for round in range(len(files)):
print("\n\nFile: %s\n" % files[round])
for i in range(INC):
print("Cone %3i deg, chi2: %s" % (get_angle(i, incs=INC, deg=True), chi2[round][i]))
示例3: norm
# 需要导入模块: from data_store import Relax_data_store [as 别名]
# 或者: from data_store.Relax_data_store import chi2 [as 别名]
vect_x = vect_x / norm(vect_x)
vect_y = vect_y / norm(vect_y)
vect_z = vect_z / norm(vect_z)
# Build the frame.
EIG_FRAME = zeros((3, 3), float64)
EIG_FRAME[:, 0] = vect_x
EIG_FRAME[:, 1] = vect_y
EIG_FRAME[:, 2] = vect_z
a, b, g = R_to_euler_zyz(EIG_FRAME)
# Load the tensors.
self._execute_uf(uf_name='script', file=status.install_path + sep+'test_suite'+sep+'system_tests'+sep+'scripts'+sep+'frame_order'+sep+'tensors'+sep+'iso_cone_free_rotor_axis2_1_3_tensors_beta78_75.py')
# Data stores.
ds.chi2 = []
ds.angles = []
# Loop over the cones.
for i in range(INC):
# Switch data pipes.
ds.angles.append(get_angle(i, incs=INC, deg=True))
self._execute_uf(uf_name='pipe.switch', pipe_name='cone_%.1f_deg' % ds.angles[-1])
# Data init.
cdp.ave_pos_alpha = cdp.ave_pos_alpha2 = 0.0
cdp.ave_pos_beta = cdp.ave_pos_beta2 = 78.75 / 360.0 * 2.0 * pi
cdp.ave_pos_gamma = cdp.ave_pos_gamma2 = 0.0
cdp.eigen_alpha = cdp.eigen_alpha2 = a
cdp.eigen_beta = cdp.eigen_beta2 = b
cdp.eigen_gamma = cdp.eigen_gamma2 = g