source: sasmodels/fit.py @ 723198c

core_shell_microgelscostrafo411magnetic_modelrelease_v0.94release_v0.95ticket-1257-vesicle-productticket_1156ticket_1265_superballticket_822_more_unit_tests
Last change on this file since 723198c was 4001d6e, checked in by HMP1 <helen.park@…>, 10 years ago

The Core-Shell isn't working :(

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[5378e40]1#!/usr/bin/env python
2# -*- coding: utf-8 -*-
3
4from bumps.names import *
[a42fec0]5from sasmodel import SasModel, load_data, set_beam_stop, set_half, set_top
[ca6c007]6from Models.code_capcyl import GpuCapCylinder
[a953943]7from Models.code_coreshellcyl_f import GpuCoreShellCylinder
[1726b21]8from Models.code_cylinder_f import GpuCylinder
9#from Models.code_cylinder import GpuCylinder, OneDGpuCylinder
[ae7d639]10from Models.code_ellipse_f import GpuEllipse
[ca6c007]11from Models.code_lamellar import GpuLamellar
12from Models.code_triaxialellipse import GpuTriEllipse
[d772f5d]13
14""" IMPORT THE DATA USED """
[ca6c007]15#data = load_data('December/Tangential/Sector0/DEC07133.ABS')
[1726b21]16data = load_data('December/DEC07098.DAT')
[d772f5d]17
18""" SET INNER BEAM STOP, OUTER RING, AND MASK HALF OF THE DATA """
[1726b21]19set_beam_stop(data, 0.004)#, outer=0.025)
[a953943]20set_top(data, -.018)
[a42fec0]21#set_half(data, 'right')
[d772f5d]22
[8cdb9f1]23
24if 0:
25    model = SasModel(data, OneDGpuCylinder,
26    scale=0.0013, radius=105, length=1000,
27    background=21, sldCyl=.291e-6,sldSolv=7.105e-6,
28    radius_pd=0.1,radius_pd_n=10,radius_pd_nsigma=0,
29    length_pd=0.1,length_pd_n=5,length_pd_nsigma=0,
30    bolim=0.0, uplim=90) #bottom limit, upper limit of angle integral
31
32
[a953943]33if 0:
[8cdb9f1]34    model = SasModel(data, GpuEllipse,
35    scale=0.08,
36    radius_a=15, radius_b=800,
37    sldEll=.291e-6, sldSolv=7.105e-6,
38    background=0,
39    axis_theta=90, axis_phi=0,
40    axis_theta_pd=15, axis_theta_pd_n=40, axis_theta_pd_nsigma=3,
41    radius_a_pd=0.222296, radius_a_pd_n=1, radius_a_pd_nsigma=0,
42    radius_b_pd=.000128, radius_b_pd_n=1, radius_b_pd_nsigma=0,
[ae7d639]43    axis_phi_pd=2.63698e-05, axis_phi_pd_n=20, axis_phi_pd_nsigma=3,
[1726b21]44    dtype='float32')
[8cdb9f1]45
46
47    # SET THE FITTING PARAMETERS
[ae7d639]48    #model.radius_a.range(15, 1000)
49    #model.radius_b.range(15, 1000)
[8cdb9f1]50    #model.axis_theta_pd.range(0, 360)
51    #model.background.range(0,1000)
[ae7d639]52    model.scale.range(0, 1)
[8cdb9f1]53
54
55if 0:
56    model = SasModel(data, GpuLamellar,
57    scale=0.08,
58    bi_thick=19.2946,
59    sld_bi=5.38e-6,sld_sol=7.105e-6,
60    background=0.003,
61    bi_thick_pd= 0.37765, bi_thick_pd_n=10, bi_thick_pd_nsigma=3,
[1726b21]62    dtype='float32')
[8cdb9f1]63
64    # SET THE FITTING PARAMETERS
65    #model.bi_thick.range(0, 1000)
66    #model.scale.range(0, 1)
67    #model.bi_thick_pd.range(0, 1000)
68    #model.background.range(0, 1000)
69    model.sld_bi.range(0, 1)
70
71
[ae7d639]72if 0:
[1726b21]73    """
74    pars = dict(scale=0.0023, radius=92.5, length=798.3,
75        sldCyl=.29e-6, sldSolv=7.105e-6, background=5,
76        cyl_theta=0, cyl_phi=0,
77        cyl_theta_pd=22.11, cyl_theta_pd_n=5, cyl_theta_pd_nsigma=3,
78        radius_pd=.0084, radius_pd_n=10, radius_pd_nsigma=3,
79        length_pd=0.493, length_pd_n=10, length_pd_nsigma=3,
80        cyl_phi_pd=0, cyl_phi_pd_n=5, cyl_phi_pd_nsigma=3,)
81        """
82    pars = dict(
83        scale=.01, radius=64.1, length=66.96, sldCyl=.291e-6, sldSolv=5.77e-6, background=.1,
84        cyl_theta=90, cyl_phi=0,
85        radius_pd=0.1, radius_pd_n=10, radius_pd_nsigma=3,
86        length_pd=0.1,length_pd_n=5, length_pd_nsigma=3,
87        cyl_theta_pd=0.1, cyl_theta_pd_n=5, cyl_theta_pd_nsigma=3,
88        cyl_phi_pd=0.1, cyl_phi_pd_n=10, cyl_phi_pd_nsigma=3)
89    model = SasModel(data, GpuCylinder, dtype="float32", **pars)
[a42fec0]90
91
92
93    # SET THE FITTING PARAMETERS
[1726b21]94    model.radius.range(1, 500)
[4001d6e]95    model.length.range(1, 5000)
[a42fec0]96    #model.cyl_theta.range(-90,100)
97    #model.cyl_theta_pd.range(0, 90)
98    #model.cyl_theta_pd_n = model.cyl_theta_pd + 5
99    #model.radius_pd.range(0, 90)
100    #model.length_pd.range(0, 90)
101    model.scale.range(0, 1)
102    #model.background.range(0, 100)
103    #model.sldCyl.range(0, 1)
104
105
[a953943]106if 1:
[a42fec0]107    model = SasModel(data, GpuCoreShellCylinder,
[a953943]108    scale= .031, radius=19.5, thickness=30, length=22,
[8cdb9f1]109    core_sld=7.105e-6, shell_sld=.291e-6, solvent_sld=7.105e-6,
[a953943]110    background=0, axis_theta=0, axis_phi=0,
[8cdb9f1]111
112    radius_pd=0.26, radius_pd_n=10, radius_pd_nsigma=3,
113    length_pd=0.26, length_pd_n=10, length_pd_nsigma=3,
114    thickness_pd=1, thickness_pd_n=1, thickness_pd_nsigma=1,
115    axis_theta_pd=1, axis_theta_pd_n=10, axis_theta_pd_nsigma=3,
116    axis_phi_pd=0.1, axis_phi_pd_n=1, axis_phi_pd_nsigma=1,
[1726b21]117    dtype='float32')
[a42fec0]118
119    # SET THE FITTING PARAMETERS
120    #model.radius.range(115, 1000)
121    #model.length.range(0, 2500)
122    #model.thickness.range(18, 38)
123    #model.thickness_pd.range(0, 1)
124    #model.axis_phi.range(0, 90)
125    #model.radius_pd.range(0, 1)
126    #model.length_pd.range(0, 1)
127    #model.axis_theta_pd.range(0, 360)
128    #model.background.range(0,5)
129    model.scale.range(0, 1)
[09e15be]130
[8faffcd]131
[ca6c007]132
[8cdb9f1]133if 0:
134    model = SasModel(data, GpuCapCylinder,
[1726b21]135    scale=.08, rad_cyl=20, rad_cap=40, len_cyl=400,
[8cdb9f1]136    sld_capcyl=1e-6, sld_solv=6.3e-6,
137    background=0, theta=0, phi=0,
[1726b21]138    rad_cyl_pd=.1, rad_cyl_pd_n=5, rad_cyl_pd_nsigma=3,
139    rad_cap_pd=.1, rad_cap_pd_n=5, rad_cap_pd_nsigma=3,
140    len_cyl_pd=.1, len_cyl_pd_n=1, len_cyl_pd_nsigma=0,
[8cdb9f1]141    theta_pd=.1, theta_pd_n=1, theta_pd_nsigma=0,
142    phi_pd=.1, phi_pd_n=1, phi_pd_nsigma=0,
[1726b21]143    dtype='float32')
[8cdb9f1]144
145    model.scale.range(0, 1)
146
147
148if 0:
149    model = SasModel(data, GpuTriEllipse,
150    scale=0.08, axisA=15, axisB=20, axisC=500,
151    sldEll=7.105e-6, sldSolv=.291e-6,
152    background=5, theta=0, phi=0, psi=0,
153    theta_pd=20, theta_pd_n=40, theta_pd_nsigma=3,
154    phi_pd=.1, phi_pd_n=1, phi_pd_nsigma=0,
155    psi_pd=30, psi_pd_n=1, psi_pd_nsigma=0,
156    axisA_pd=.1, axisA_pd_n=1, axisA_pd_nsigma=0,
157    axisB_pd=.1, axisB_pd_n=1, axisB_pd_nsigma=0,
[1726b21]158    axisC_pd=.1, axisC_pd_n=1, axisC_pd_nsigma=0, dtype='float32')
[8cdb9f1]159
160    # SET THE FITTING PARAMETERS
161    model.axisA.range(15, 1000)
162    model.axisB.range(15, 1000)
163    #model.axisC.range(15, 1000)
164    #model.background.range(0,1000)
165    #model.theta_pd.range(0, 360)
166    #model.phi_pd.range(0, 360)
167    #model.psi_pd.range(0, 360)
168
169
[5378e40]170
[ca6c007]171
[5378e40]172problem = FitProblem(model)
173
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