~speedprog/mtg/mtg_card_detector.git

			@@ -48,28 +48,6 @@
			variance_delta[i] = -.5 pow(variance[i] + .00001f, (float)(-3./2.));
			}

			__global__ void spatial_variance_delta_kernel(float x, float delta, float mean, float variance, int batch, int filters, int spatial, float *spatial_variance_delta)
			{
			int i = (blockIdx.x + blockIdx.ygridDim.x) blockDim.x + threadIdx.x;
			if (i >= batch*filters) return;
			int f = i%filters;
			int b = i/filters;

			int k;
			spatial_variance_delta[i] = 0;
			for (k = 0; k < spatial; ++k) {
			int index = bfiltersspatial + f*spatial + k;
			spatial_variance_delta[i] += delta[index]*(x[index] - mean[f]);
			}
			spatial_variance_delta[i] = -.5 pow(variance[f] + .00001f, (float)(-3./2.));
			}

			extern "C" void variance_delta_gpu(float x, float delta, float mean, float variance, int batch, int filters, int spatial, float *variance_delta)
			{
			variance_delta_kernel<<<cuda_gridsize(filters), BLOCK>>>(x, delta, mean, variance, batch, filters, spatial, variance_delta);
			check_error(cudaPeekAtLastError());
			}

			__global__ void accumulate_kernel(float x, int n, int groups, float sum)
			{
			int k;
			@@ -81,38 +59,62 @@
			}
			}

			extern "C" void fast_variance_delta_gpu(float x, float delta, float mean, float variance, int batch, int filters, int spatial, float spatial_variance_delta, float variance_delta)
			__global__ void fast_mean_delta_kernel(float delta, float variance, int batch, int filters, int spatial, float *mean_delta)
			{
			spatial_variance_delta_kernel<<<cuda_gridsize(filters*batch), BLOCK>>>(x, delta, mean, variance, batch, filters, spatial, spatial_variance_delta);
			check_error(cudaPeekAtLastError());
			accumulate_kernel<<<cuda_gridsize(filters), BLOCK>>>(spatial_variance_delta, batch, filters, variance_delta);
			check_error(cudaPeekAtLastError());
			}
			const int threads = BLOCK;
			__shared__ float local[threads];

			__global__ void spatial_mean_delta_kernel(float delta, float variance, int batch, int filters, int spatial, float *spatial_mean_delta)
			{
			int i = (blockIdx.x + blockIdx.ygridDim.x) blockDim.x + threadIdx.x;
			if (i >= batch*filters) return;
			int f = i%filters;
			int b = i/filters;
			int id = threadIdx.x;
			local[id] = 0;

			int k;
			spatial_mean_delta[i] = 0;
			for (k = 0; k < spatial; ++k) {
			int index = bfiltersspatial + f*spatial + k;
			spatial_mean_delta[i] += delta[index];
			int filter = blockIdx.x;

			int i, j;
			for(j = 0; j < batch; ++j){
			for(i = 0; i < spatial; i += threads){
			int index = jspatialfilters + filter*spatial + i + id;
			local[id] += (i+id < spatial) ? delta[index] : 0;
			}
			}
			spatial_mean_delta[i] *= (-1./sqrt(variance[f] + .00001f));

			if(id == 0){
			mean_delta[filter] = 0;
			for(i = 0; i < threads; ++i){
			mean_delta[filter] += local[i];
			}
			mean_delta[filter] *= (-1./sqrt(variance[filter] + .00001f));
			}
			}

			extern "C" void fast_mean_delta_gpu(float delta, float variance, int batch, int filters, int spatial, float spatial_mean_delta, float mean_delta)
			__global__ void fast_variance_delta_kernel(float x, float delta, float mean, float variance, int batch, int filters, int spatial, float *variance_delta)
			{
			spatial_mean_delta_kernel<<<cuda_gridsize(filters*batch), BLOCK>>>(delta, variance, batch, filters, spatial, spatial_mean_delta);
			check_error(cudaPeekAtLastError());
			accumulate_kernel<<<cuda_gridsize(filters), BLOCK>>>(spatial_mean_delta, batch, filters, mean_delta);
			check_error(cudaPeekAtLastError());
			const int threads = BLOCK;
			__shared__ float local[threads];

			int id = threadIdx.x;
			local[id] = 0;

			int filter = blockIdx.x;

			int i, j;
			for(j = 0; j < batch; ++j){
			for(i = 0; i < spatial; i += threads){
			int index = jspatialfilters + filter*spatial + i + id;

			local[id] += (i+id < spatial) ? delta[index]*(x[index] - mean[filter]) : 0;
			}
			}

			if(id == 0){
			variance_delta[filter] = 0;
			for(i = 0; i < threads; ++i){
			variance_delta[filter] += local[i];
			}
			variance_delta[filter] = -.5 pow(variance[filter] + .00001f, (float)(-3./2.));
			}
			}


			__global__ void mean_delta_kernel(float delta, float variance, int batch, int filters, int spatial, float *mean_delta)
			{
			int i = (blockIdx.x + blockIdx.ygridDim.x) blockDim.x + threadIdx.x;
			@@ -134,6 +136,18 @@
			check_error(cudaPeekAtLastError());
			}

			extern "C" void fast_mean_delta_gpu(float delta, float variance, int batch, int filters, int spatial, float *mean_delta)
			{
			fast_mean_delta_kernel<<<filters, BLOCK>>>(delta, variance, batch, filters, spatial, mean_delta);
			check_error(cudaPeekAtLastError());
			}

			extern "C" void fast_variance_delta_gpu(float x, float delta, float mean, float variance, int batch, int filters, int spatial, float *variance_delta)
			{
			fast_variance_delta_kernel<<<filters, BLOCK>>>(x, delta, mean, variance, batch, filters, spatial, variance_delta);
			check_error(cudaPeekAtLastError());
			}

			__global__ void mean_kernel(float x, int batch, int filters, int spatial, float mean)
			{
			float scale = 1./(batch * spatial);
			@@ -150,23 +164,6 @@
			mean[i] *= scale;
			}

			__global__ void spatial_variance_kernel(float x, float mean, int batch, int filters, int spatial, float *variance)
			{
			float scale = 1./(spatial*batch-1);
			int k;
			int i = (blockIdx.x + blockIdx.ygridDim.x) blockDim.x + threadIdx.x;
			if (i >= batch*filters) return;
			int f = i%filters;
			int b = i/filters;

			variance[i] = 0;
			for(k = 0; k < spatial; ++k){
			int index = bfiltersspatial + f*spatial + k;
			variance[i] += pow((x[index] - mean[f]), 2);
			}
			variance[i] *= scale;
			}

			__global__ void variance_kernel(float x, float mean, int batch, int filters, int spatial, float *variance)
			{
			float scale = 1./(batch * spatial);
			@@ -231,6 +228,7 @@
			if(i < N) Y[iINCY] = X[i*INCX];
			}


			extern "C" void normalize_gpu(float x, float mean, float *variance, int batch, int filters, int spatial)
			{
			size_t N = batchfiltersspatial;
			@@ -238,28 +236,80 @@
			check_error(cudaPeekAtLastError());
			}

			__global__ void fast_mean_kernel(float x, int batch, int filters, int spatial, float mean)
			{
			const int threads = BLOCK;
			__shared__ float local[threads];

			int id = threadIdx.x;
			local[id] = 0;

			int filter = blockIdx.x;

			int i, j;
			for(j = 0; j < batch; ++j){
			for(i = 0; i < spatial; i += threads){
			int index = jspatialfilters + filter*spatial + i + id;
			local[id] += (i+id < spatial) ? x[index] : 0;
			}
			}

			if(id == 0){
			mean[filter] = 0;
			for(i = 0; i < threads; ++i){
			mean[filter] += local[i];
			}
			mean[filter] /= spatial * batch;
			}
			}

			__global__ void fast_variance_kernel(float x, float mean, int batch, int filters, int spatial, float *variance)
			{
			const int threads = BLOCK;
			__shared__ float local[threads];

			int id = threadIdx.x;
			local[id] = 0;

			int filter = blockIdx.x;

			int i, j;
			for(j = 0; j < batch; ++j){
			for(i = 0; i < spatial; i += threads){
			int index = jspatialfilters + filter*spatial + i + id;

			local[id] += (i+id < spatial) ? pow((x[index] - mean[filter]), 2) : 0;
			}
			}

			if(id == 0){
			variance[filter] = 0;
			for(i = 0; i < threads; ++i){
			variance[filter] += local[i];
			}
			variance[filter] /= spatial * batch;
			}
			}

			extern "C" void fast_mean_gpu(float x, int batch, int filters, int spatial, float mean)
			{
			fast_mean_kernel<<<filters, BLOCK>>>(x, batch, filters, spatial, mean);
			check_error(cudaPeekAtLastError());
			}

			extern "C" void fast_variance_gpu(float x, float mean, int batch, int filters, int spatial, float *variance)
			{
			fast_variance_kernel<<<filters, BLOCK>>>(x, mean, batch, filters, spatial, variance);
			check_error(cudaPeekAtLastError());
			}


			extern "C" void mean_gpu(float x, int batch, int filters, int spatial, float mean)
			{
			mean_kernel<<<cuda_gridsize(filters), BLOCK>>>(x, batch, filters, spatial, mean);
			check_error(cudaPeekAtLastError());
			}

			extern "C" void fast_mean_gpu(float x, int batch, int filters, int spatial, float spatial_mean, float *mean)
			{
			mean_kernel<<<cuda_gridsize(filtersbatch), BLOCK>>>(x, 1, filtersbatch, spatial, spatial_mean);
			check_error(cudaPeekAtLastError());
			mean_kernel<<<cuda_gridsize(filters), BLOCK>>>(spatial_mean, batch, filters, 1, mean);
			check_error(cudaPeekAtLastError());
			}

			extern "C" void fast_variance_gpu(float x, float mean, int batch, int filters, int spatial, float spatial_variance, float variance)
			{
			spatial_variance_kernel<<<cuda_gridsize(batch*filters), BLOCK>>>(x, mean, batch, filters, spatial, spatial_variance);
			check_error(cudaPeekAtLastError());
			accumulate_kernel<<<cuda_gridsize(filters), BLOCK>>>(spatial_variance, batch, filters, variance);
			check_error(cudaPeekAtLastError());
			}

			extern "C" void variance_gpu(float x, float mean, int batch, int filters, int spatial, float *variance)
			{
			variance_kernel<<<cuda_gridsize(filters), BLOCK>>>(x, mean, batch, filters, spatial, variance);
			@@ -323,3 +373,27 @@
			fill_kernel<<<cuda_gridsize(N), BLOCK>>>(N, ALPHA, X, INCX);
			check_error(cudaPeekAtLastError());
			}

			__global__ void shortcut_kernel(int size, float out, int w, int h, int c, int batch, int sample, float add, int stride, int c2, int min_c)
			{
			int id = (blockIdx.x + blockIdx.ygridDim.x) blockDim.x + threadIdx.x;
			if (id >= size) return;
			int i = id % (w/sample);
			id /= (w/sample);
			int j = id % (h/sample);
			id /= (h/sample);
			int k = id % min_c;
			id /= min_c;
			int b = id;
			int out_index = isample + w(jsample + h(k + c*b));
			int add_index = bwstride/samplehstride/samplec2 + istride + wstride/sample(jstride + hstride/sample*k);
			out[out_index] += add[add_index];
			}

			extern "C" void shortcut_gpu(float out, int w, int h, int c, int batch, int sample, float add, int stride, int c2)
			{
			int min_c = (c < c2) ? c : c2;
			int size = batch * w/sample * h/sample * min_c;
			shortcut_kernel<<<cuda_gridsize(size), BLOCK>>>(size, out, w, h, c, batch, sample, add, stride, c2, min_c);
			check_error(cudaPeekAtLastError());
			}