diff options
Diffstat (limited to 'src/diffraction-gpu.c')
| -rw-r--r-- | src/diffraction-gpu.c | 34 |
1 files changed, 22 insertions, 12 deletions
diff --git a/src/diffraction-gpu.c b/src/diffraction-gpu.c index b9485241..133c0bc1 100644 --- a/src/diffraction-gpu.c +++ b/src/diffraction-gpu.c @@ -25,8 +25,8 @@ #define SAMPLING (4) -#define BWSAMPLING (1) -#define BANDWIDTH (0.0 / 100.0) +#define BWSAMPLING (10) +#define BANDWIDTH (1.0 / 100.0) struct gpu_context @@ -150,7 +150,7 @@ void get_diffraction_gpu(struct gpu_context *gctx, struct image *image, double ax, ay, az; double bx, by, bz; double cx, cy, cz; - float kc; + float k, klow; cl_event *event; int p; float *tt_ptr; @@ -160,6 +160,7 @@ void get_diffraction_gpu(struct gpu_context *gctx, struct image *image, cl_float4 orientation; cl_int4 ncells; const int sampling = SAMPLING; + cl_float bwstep; cell_get_cartesian(image->molecule->cell, &ax, &ay, &az, &bx, &by, &bz, @@ -169,7 +170,9 @@ void get_diffraction_gpu(struct gpu_context *gctx, struct image *image, cell[6] = cx; cell[7] = cy; cell[8] = cz; /* Calculate wavelength */ - kc = 1.0/image->lambda; /* Centre value */ + k = 1.0/image->lambda; /* Centre value */ + klow = k - k*(BANDWIDTH/2.0); /* Lower value */ + bwstep = k * BANDWIDTH / BWSAMPLING; /* Orientation */ orientation[0] = image->orientation.w; @@ -192,7 +195,7 @@ void get_diffraction_gpu(struct gpu_context *gctx, struct image *image, ERROR("Couldn't set arg 1: %s\n", clError(err)); return; } - clSetKernelArg(gctx->kern, 2, sizeof(cl_float), &kc); + clSetKernelArg(gctx->kern, 2, sizeof(cl_float), &klow); if ( err != CL_SUCCESS ) { ERROR("Couldn't set arg 2: %s\n", clError(err)); return; @@ -228,26 +231,33 @@ void get_diffraction_gpu(struct gpu_context *gctx, struct image *image, return; } /* Local memory for reduction */ - clSetKernelArg(gctx->kern, 15, SAMPLING*SAMPLING*2*sizeof(cl_float), - NULL); + clSetKernelArg(gctx->kern, 15, + BWSAMPLING*SAMPLING*SAMPLING*2*sizeof(cl_float), NULL); if ( err != CL_SUCCESS ) { ERROR("Couldn't set arg 15: %s\n", clError(err)); return; } + /* Bandwidth sampling step */ + clSetKernelArg(gctx->kern, 16, sizeof(cl_float), &bwstep); + if ( err != CL_SUCCESS ) { + ERROR("Couldn't set arg 16: %s\n", clError(err)); + return; + } /* Iterate over panels */ event = malloc(image->det.n_panels * sizeof(cl_event)); for ( p=0; p<image->det.n_panels; p++ ) { - size_t dims[2]; - size_t ldims[2] = {SAMPLING, SAMPLING}; + size_t dims[3]; + size_t ldims[3] = {SAMPLING, SAMPLING, BWSAMPLING}; /* In a future version of OpenCL, this could be done * with a global work offset. But not yet... */ - dims[0] = image->det.panels[0].max_x-image->det.panels[0].min_x; - dims[1] = image->det.panels[0].max_y-image->det.panels[0].min_y; + dims[0] = 1+image->det.panels[0].max_x-image->det.panels[0].min_x; + dims[1] = 1+image->det.panels[0].max_y-image->det.panels[0].min_y; dims[0] *= SAMPLING; dims[1] *= SAMPLING; + dims[2] = BWSAMPLING; clSetKernelArg(gctx->kern, 4, sizeof(cl_float), &image->det.panels[p].cx); @@ -286,7 +296,7 @@ void get_diffraction_gpu(struct gpu_context *gctx, struct image *image, return; } - err = clEnqueueNDRangeKernel(gctx->cq, gctx->kern, 2, NULL, + err = clEnqueueNDRangeKernel(gctx->cq, gctx->kern, 3, NULL, dims, ldims, 0, NULL, &event[p]); if ( err != CL_SUCCESS ) { ERROR("Couldn't enqueue diffraction kernel: %s\n", |