source: sasmodels/lamellarcode.py @ 8a20be5

core_shell_microgelscostrafo411magnetic_modelrelease_v0.94release_v0.95ticket-1257-vesicle-productticket_1156ticket_1265_superballticket_822_more_unit_tests
Last change on this file since 8a20be5 was 8a20be5, checked in by HMP1 <helen.park@…>, 10 years ago

Added a fit2 (fits two different models at different angles)
(preliminary) Added CoreshellCyl? and CapCyl? Kernels
(preliminary) Updated kernels to include functions
  • Property mode set to 100644
File size: 3.0 KB
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1#!/usr/bin/env python
2# -*- coding: utf-8 -*-
3
4import numpy as np
5import pyopencl as cl
6from weights import GaussianDispersion
7
8def set_precision(src, qx, qy, dtype):
9    qx = np.ascontiguousarray(qx, dtype=dtype)
10    qy = np.ascontiguousarray(qy, dtype=dtype)
11    if dtype == 'double':
12        header = """\
13#pragma OPENCL EXTENSION cl_khr_fp64: enable
14#define real double
15"""
16        return header+src,qx,qy
17    else:
18        return src,qx,qy
19
20
21class GpuLamellar(object):
22    PARS = {
23        'scale':1, 'bi_thick':1, 'sld_bi':1e-6, 'sld_sol':0, 'background':0,
24    }
25
26    def __init__(self, qx, qy, dtype='float'):
27
28        #create context, queue, and build program
29        self.ctx = cl.create_some_context()
30        self.queue = cl.CommandQueue(self.ctx)
31        src,qx,qy = set_precision(open('Kernel-Lamellar.cpp').read(), qx, qy, dtype=dtype)
32        self.prg = cl.Program(self.ctx, src).build()
33        self.qx, self.qy = qx, qy
34
35        #buffers
36        mf = cl.mem_flags
37        self.qx_b = cl.Buffer(self.ctx, mf.READ_ONLY | mf.COPY_HOST_PTR, hostbuf=self.qx)
38        self.qy_b = cl.Buffer(self.ctx, mf.READ_ONLY | mf.COPY_HOST_PTR, hostbuf=self.qy)
39        self.res_b = cl.Buffer(self.ctx, mf.WRITE_ONLY, qx.nbytes)
40        self.res = np.empty_like(self.qx)
41
42    def eval(self, pars):
43
44        bi_thick = GaussianDispersion(int(pars['bi_thick_pd_n']), pars['bi_thick_pd'], pars['bi_thick_pd_nsigma'])
45        bi_thick.value, bi_thick.weight = bi_thick.get_weights(pars['bi_thick'], 0, 1000, True)
46
47        sum, norm = 0.0, 0.0
48        sub = pars['sld_bi'] - pars['sld_sol']
49
50        real = np.float32 if self.qx.dtype == np.dtype('float32') else np.float64
51        for i in xrange(len(bi_thick.weight)):
52            self.prg.LamellarKernel(self.queue, self.qx.shape, None, self.qx_b, self.qy_b, self.res_b, real(bi_thick.value[i]),
53                                    real(pars['scale']), real(sub), real(pars['background']), np.uint32(self.qx.size))
54            cl.enqueue_copy(self.queue, self.res, self.res_b)
55
56            sum += bi_thick.weight[i]*self.res
57            norm += bi_thick.weight[i]
58
59        return sum/norm + pars['background']
60
61def demo():
62
63    from time import time
64    import matplotlib.pyplot as plt
65
66    #create qx and qy evenly spaces
67    qx = np.linspace(-.01, .01, 128)
68    qy = np.linspace(-.01, .01, 128)
69    qx, qy = np.meshgrid(qx, qy)
70
71    #saved shape of qx
72    r_shape = qx.shape
73
74    #reshape for calculation; resize as float32
75    qx = qx.flatten()
76    qy = qy.flatten()
77
78    pars = LamellarParameters(scale=1, bi_thick=100, sld_bi=.291e-6, sld_sol=5.77e-6, background=0)
79    t = time()
80    result = GpuLamellar(qx, qy)
81    result.x = result.lamellar_fit(pars, b_n=35, b_w=.1, sigma=3)
82    result.x = np.reshape(result.x, r_shape)
83    tt = time()
84
85    print("Time taken: %f" % (tt - t))
86
87    f = open("r.txt", "w")
88    for x in xrange(len(r_shape)):
89        f.write(str(result.x[x]))
90        f.write("\n")
91
92    plt.pcolormesh(np.log10(result.x))
93    plt.show()
94
95
96if __name__ == "__main__":
97    demo()
98
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