diff options
author | Thomas White <taw@physics.org> | 2014-01-20 17:20:10 +0100 |
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committer | Thomas White <taw@physics.org> | 2014-01-20 17:20:10 +0100 |
commit | 8e2f2f44f46c18f7bd621a2ef9a3d0aa813d76d9 (patch) | |
tree | 80f8b99b1d37ac8357aeb3298838fb995403e300 /src/diffraction-gpu.c | |
parent | 2304299259c55be3726929f5537ad2eed3155086 (diff) |
pattern_sim: Overhaul and add SASE spectrum simulation
Diffstat (limited to 'src/diffraction-gpu.c')
-rw-r--r-- | src/diffraction-gpu.c | 142 |
1 files changed, 63 insertions, 79 deletions
diff --git a/src/diffraction-gpu.c b/src/diffraction-gpu.c index f41a45ec..ff4f2414 100644 --- a/src/diffraction-gpu.c +++ b/src/diffraction-gpu.c @@ -3,11 +3,13 @@ * * Calculate diffraction patterns by Fourier methods (GPU version) * - * Copyright © 2012 Deutsches Elektronen-Synchrotron DESY, - * a research centre of the Helmholtz Association. + * Copyright © 2012-2014 Deutsches Elektronen-Synchrotron DESY, + * a research centre of the Helmholtz Association. * * Authors: - * 2010-2012 Thomas White <taw@physics.org> + * 2009-2014 Thomas White <taw@physics.org> + * 2013 Alexandra Tolstikova + * 2013-2014 Chun Hong Yoon <chun.hong.yoon@desy.de> * * This file is part of CrystFEL. * @@ -168,18 +170,20 @@ static int set_arg_mem(struct gpu_context *gctx, int idx, cl_mem val) static void do_panels(struct gpu_context *gctx, struct image *image, - int *n_inf, int *n_neg, int *n_nan, double k, double frac, - double xo, double yo) + double k, double weight, + int *n_inf, int *n_neg, int *n_nan) { int i; + const int sampling = 4; /* This, squared, number of samples / pixel */ if ( set_arg_float(gctx, 1, k) ) return; + if ( set_arg_float(gctx, 2, weight) ) return; /* Iterate over panels */ for ( i=0; i<image->det->n_panels; i++ ) { size_t dims[2]; - size_t ldims[2] = {1, 1}; + size_t ldims[2]; struct panel *p; cl_mem diff; size_t diff_size; @@ -203,20 +207,29 @@ static void do_panels(struct gpu_context *gctx, struct image *image, } if ( set_arg_mem(gctx, 0, diff) ) return; - if ( set_arg_int(gctx, 2, pan_width) ) return; - if ( set_arg_float(gctx, 3, p->cnx) ) return; - if ( set_arg_float(gctx, 4, p->cny) ) return; - if ( set_arg_float(gctx, 5, p->res) ) return; - if ( set_arg_float(gctx, 6, p->clen) ) return; - if ( set_arg_float(gctx, 13, p->fsx) ) return; - if ( set_arg_float(gctx, 14, p->fsy) ) return; - if ( set_arg_float(gctx, 15, p->ssx) ) return; - if ( set_arg_float(gctx, 16, p->ssy) ) return; - if ( set_arg_float(gctx, 17, xo) ) return; - if ( set_arg_float(gctx, 18, yo) ) return; - - dims[0] = pan_width; - dims[1] = pan_height; + + if ( set_arg_int(gctx, 3, pan_width) ) return; + if ( set_arg_float(gctx, 4, p->cnx) ) return; + if ( set_arg_float(gctx, 5, p->cny) ) return; + if ( set_arg_float(gctx, 6, p->fsx) ) return; + if ( set_arg_float(gctx, 7, p->fsy) ) return; + if ( set_arg_float(gctx, 8, p->ssx) ) return; + if ( set_arg_float(gctx, 9, p->ssy) ) return; + if ( set_arg_float(gctx, 10, p->res) ) return; + if ( set_arg_float(gctx, 11, p->clen) ) return; + + dims[0] = pan_width * sampling; + dims[1] = pan_height * sampling; + + ldims[0] = sampling; + ldims[1] = sampling; + + err = clSetKernelArg(gctx->kern, 18, + sampling*sampling*sizeof(cl_float), NULL); + if ( err != CL_SUCCESS ) { + ERROR("Couldn't set local memory: %s\n", clError(err)); + return; + } err = clEnqueueNDRangeKernel(gctx->cq, gctx->kern, 2, NULL, dims, ldims, 0, NULL, NULL); @@ -250,7 +263,7 @@ static void do_panels(struct gpu_context *gctx, struct image *image, tfs = p->min_fs + fs; tss = p->min_ss + ss; - image->data[tfs + image->width*tss] += frac*val; + image->data[tfs + image->width*tss] += val; } } @@ -276,78 +289,54 @@ void get_diffraction_gpu(struct gpu_context *gctx, struct image *image, int n_neg = 0; int n_nan = 0; int fs, ss; - const int nkstep = 10; - const int nxs = 4; - const int nys = 4; - int kstep; - double klow, khigh, kinc, w; - double frac; - int xs, ys; - int n, ntot; + int i; if ( gctx == NULL ) { ERROR("GPU setup failed.\n"); return; } - cell_get_cartesian(ucell, &ax, &ay, &az, &bx, &by, &bz, &cx, &cy, &cz); - cell.s[0] = ax; cell.s[1] = ay; cell.s[2] = az; - cell.s[3] = bx; cell.s[4] = by; cell.s[5] = bz; - cell.s[6] = cx; cell.s[7] = cy; cell.s[8] = cz; - /* Ensure all required LUTs are available */ check_sinc_lut(gctx, na); check_sinc_lut(gctx, nb); check_sinc_lut(gctx, nc); - if ( set_arg_mem(gctx, 8, gctx->intensities) ) return; - if ( set_arg_mem(gctx, 9, gctx->sinc_luts[na-1]) ) return; - if ( set_arg_mem(gctx, 10, gctx->sinc_luts[nb-1]) ) return; - if ( set_arg_mem(gctx, 11, gctx->sinc_luts[nc-1]) ) return; - if ( set_arg_mem(gctx, 12, gctx->flags) ) return; - /* Unit cell */ - err = clSetKernelArg(gctx->kern, 7, sizeof(cl_float16), &cell); + cell_get_cartesian(ucell, &ax, &ay, &az, &bx, &by, &bz, &cx, &cy, &cz); + cell.s[0] = ax; cell.s[1] = ay; cell.s[2] = az; + cell.s[3] = bx; cell.s[4] = by; cell.s[5] = bz; + cell.s[6] = cx; cell.s[7] = cy; cell.s[8] = cz; + + err = clSetKernelArg(gctx->kern, 12, sizeof(cl_float16), &cell); if ( err != CL_SUCCESS ) { ERROR("Couldn't set unit cell: %s\n", clError(err)); return; } + if ( set_arg_mem(gctx, 13, gctx->intensities) ) return; + if ( set_arg_mem(gctx, 14, gctx->flags) ) return; + if ( set_arg_mem(gctx, 15, gctx->sinc_luts[na-1]) ) return; + if ( set_arg_mem(gctx, 16, gctx->sinc_luts[nb-1]) ) return; + if ( set_arg_mem(gctx, 17, gctx->sinc_luts[nc-1]) ) return; + /* Allocate memory for the result */ image->data = calloc(image->width * image->height, sizeof(float)); - w = image->lambda * image->bw; - klow = 1.0 / (image->lambda + (w/2.0)); /* Smallest k */ - khigh = 1.0 / (image->lambda - (w/2.0)); /* Largest k */ - kinc = (khigh-klow) / (nkstep+1); - - ntot = nkstep * nxs * nys; - frac = 1.0 / ntot; - - n = 0; - for ( xs=0; xs<nxs; xs++ ) { - for ( ys=0; ys<nys; ys++ ) { - - double xo, yo; - - xo = (1.0/nxs) * xs; - yo = (1.0/nys) * ys; + double tot = 0.0; + for ( i=0; i<image->nsamples; i++ ) { - for ( kstep=0; kstep<nkstep; kstep++ ) { + printf("%.1f eV, weight = %.5f\n", + ph_lambda_to_eV(1.0/image->spectrum[i].k), + image->spectrum[i].weight); - double k; + do_panels(gctx, image, image->spectrum[i].k, + image->spectrum[i].weight, + &n_inf, &n_neg, &n_nan); - k = klow + kstep*kinc; + tot += image->spectrum[i].weight; - do_panels(gctx, image, &n_inf, &n_neg, &n_nan, k, frac, - xo, yo); - - n++; - progress_bar(n, ntot, "Simulating"); - - } - } } + printf("total weight = %f\n", tot); if ( n_neg + n_inf + n_nan ) { ERROR("WARNING: The GPU calculation produced %i negative" @@ -360,16 +349,9 @@ void get_diffraction_gpu(struct gpu_context *gctx, struct image *image, for ( fs=0; fs<image->width; fs++ ) { for ( ss=0; ss<image->height; ss++ ) { - double twotheta, k; - int idx; - - /* Calculate k this time round */ - k = 1.0/image->lambda; - - get_q(image, fs, ss, &twotheta, k); - - idx = fs + image->width*ss; - image->twotheta[idx] = twotheta; + double twotheta; + get_q(image, fs, ss, &twotheta, 1.0/image->lambda); + image->twotheta[fs + image->width*ss] = twotheta; } } @@ -437,7 +419,7 @@ struct gpu_context *setup_gpu(int no_sfac, } } else { for ( i=0; i<IDIM*IDIM*IDIM; i++ ) { - intensities_ptr[i] = 1e5; + intensities_ptr[i] = 100.0; /* Does nothing */ } strncat(cflags, "-DFLAT_INTENSITIES ", 511-strlen(cflags)); } @@ -468,6 +450,8 @@ struct gpu_context *setup_gpu(int no_sfac, strncat(cflags, "-DPG23 ", 511-strlen(cflags)); } else if ( strcmp(sym, "m-3") == 0 ) { strncat(cflags, "-DPGM3 ", 511-strlen(cflags)); + } else if ( strcmp(sym, "321_H") == 0 ) { + strncat(cflags, "-DPG321H ", 511-strlen(cflags)); } else { ERROR("Sorry! Point group '%s' is not currently" " supported on the GPU." |