~speedprog/mtg/mtg_card_detector.git

			@@ -2,6 +2,10 @@
			#include "curand.h"
			#include "cublas_v2.h"

			#ifdef CUDNN
			#pragma comment(lib, "cudnn.lib")
			#endif

			extern "C" {
			#include "convolutional_layer.h"
			#include "batchnorm_layer.h"
			@@ -17,7 +21,7 @@
			{
			int i = (blockIdx.x + blockIdx.ygridDim.x) blockDim.x + threadIdx.x;
			if (i >= n) return;
			binary[i] = (x[i] > 0) ? 1 : -1;
			binary[i] = (x[i] >= 0) ? 1 : -1;
			}

			void binarize_gpu(float x, int n, float binary)
			@@ -48,39 +52,38 @@
			}


			__global__ void binarize_filters_kernel(float filters, int n, int size, float binary)
			__global__ void binarize_weights_kernel(float weights, int n, int size, float binary)
			{
			int f = (blockIdx.x + blockIdx.ygridDim.x) blockDim.x + threadIdx.x;
			if (f >= n) return;
			int i = 0;
			float mean = 0;
			for(i = 0; i < size; ++i){
			mean += abs(filters[f*size + i]);
			mean += abs(weights[f*size + i]);
			}
			mean = mean / size;
			for(i = 0; i < size; ++i){
			binary[fsize + i] = (filters[fsize + i] > 0) ? mean : -mean;
			binary[fsize + i] = (weights[fsize + i] > 0) ? mean : -mean;
			//binary[fsize + i] = weights[fsize + i];
			}
			}

			void binarize_filters_gpu(float filters, int n, int size, float binary)
			void binarize_weights_gpu(float weights, int n, int size, float binary)
			{
			binarize_filters_kernel<<<cuda_gridsize(n), BLOCK>>>(filters, n, size, binary);
			binarize_weights_kernel<<<cuda_gridsize(n), BLOCK>>>(weights, n, size, binary);
			check_error(cudaPeekAtLastError());
			}

			void forward_convolutional_layer_gpu(convolutional_layer l, network_state state)
			{
			int i;

			fill_ongpu(l.outputs*l.batch, 0, l.output_gpu, 1);
			if(l.binary){
			binarize_filters_gpu(l.filters_gpu, l.n, l.cl.sizel.size, l.binary_filters_gpu);
			binarize_weights_gpu(l.weights_gpu, l.n, l.cl.sizel.size, l.binary_weights_gpu);
			swap_binary(&l);
			}

			if(l.xnor){
			binarize_filters_gpu(l.filters_gpu, l.n, l.cl.sizel.size, l.binary_filters_gpu);
			binarize_weights_gpu(l.weights_gpu, l.n, l.cl.sizel.size, l.binary_weights_gpu);
			swap_binary(&l);
			binarize_gpu(state.input, l.cl.hl.w*l.batch, l.binary_input_gpu);
			state.input = l.binary_input_gpu;
			@@ -92,8 +95,8 @@
			&one,
			l.srcTensorDesc,
			state.input,
			l.filterDesc,
			l.filters_gpu,
			l.weightDesc,
			l.weights_gpu,
			l.convDesc,
			l.fw_algo,
			state.workspace,
			@@ -103,12 +106,13 @@
			l.output_gpu);

			#else
			int i;
			int m = l.n;
			int k = l.sizel.sizel.c;
			int n = l.out_w*l.out_h;
			for(i = 0; i < l.batch; ++i){
			im2col_ongpu(state.input + il.cl.h*l.w, l.c, l.h, l.w, l.size, l.stride, l.pad, state.workspace);
			float * a = l.filters_gpu;
			float * a = l.weights_gpu;
			float * b = state.workspace;
			float * c = l.output_gpu;
			gemm_ongpu(0,0,m,n,k,1.,a,k,b,n,1.,c+imn,n);
			@@ -133,6 +137,9 @@

			if(l.batch_normalize){
			backward_batchnorm_layer_gpu(l, state);
			//axpy_ongpu(l.outputs*l.batch, -state.net.decay, l.x_gpu, 1, l.delta_gpu, 1);
			} else {
			//axpy_ongpu(l.outputs*l.batch, -state.net.decay, l.output_gpu, 1, l.delta_gpu, 1);
			}
			float *original_input = state.input;

			@@ -150,15 +157,15 @@
			state.workspace,
			l.workspace_size,
			&one,
			l.dfilterDesc,
			l.filter_updates_gpu);
			l.dweightDesc,
			l.weight_updates_gpu);

			if(state.delta){
			if(l.binary \|\| l.xnor) swap_binary(&l);
			cudnnConvolutionBackwardData(cudnn_handle(),
			&one,
			l.filterDesc,
			l.filters_gpu,
			l.weightDesc,
			l.weights_gpu,
			l.ddstTensorDesc,
			l.delta_gpu,
			l.convDesc,
			@@ -181,14 +188,14 @@
			for(i = 0; i < l.batch; ++i){
			float * a = l.delta_gpu;
			float * b = state.workspace;
			float * c = l.filter_updates_gpu;
			float * c = l.weight_updates_gpu;

			im2col_ongpu(state.input + il.cl.h*l.w, l.c, l.h, l.w, l.size, l.stride, l.pad, state.workspace);
			gemm_ongpu(0,1,m,n,k,1,a + imk,k,b,k,1,c,n);

			if(state.delta){
			if(l.binary \|\| l.xnor) swap_binary(&l);
			float * a = l.filters_gpu;
			float * a = l.weights_gpu;
			float * b = l.delta_gpu;
			float * c = state.workspace;

			@@ -206,43 +213,66 @@

			void pull_convolutional_layer(convolutional_layer layer)
			{
			cuda_pull_array(layer.filters_gpu, layer.filters, layer.clayer.nlayer.size*layer.size);
			cuda_pull_array(layer.weights_gpu, layer.weights, layer.clayer.nlayer.size*layer.size);
			cuda_pull_array(layer.biases_gpu, layer.biases, layer.n);
			cuda_pull_array(layer.filter_updates_gpu, layer.filter_updates, layer.clayer.nlayer.size*layer.size);
			cuda_pull_array(layer.weight_updates_gpu, layer.weight_updates, layer.clayer.nlayer.size*layer.size);
			cuda_pull_array(layer.bias_updates_gpu, layer.bias_updates, layer.n);
			if (layer.batch_normalize){
			cuda_pull_array(layer.scales_gpu, layer.scales, layer.n);
			cuda_pull_array(layer.rolling_mean_gpu, layer.rolling_mean, layer.n);
			cuda_pull_array(layer.rolling_variance_gpu, layer.rolling_variance, layer.n);
			}
			if (layer.adam){
			cuda_pull_array(layer.m_gpu, layer.m, layer.clayer.nlayer.size*layer.size);
			cuda_pull_array(layer.v_gpu, layer.v, layer.clayer.nlayer.size*layer.size);
			}
			}

			void push_convolutional_layer(convolutional_layer layer)
			{
			cuda_push_array(layer.filters_gpu, layer.filters, layer.clayer.nlayer.size*layer.size);
			cuda_push_array(layer.weights_gpu, layer.weights, layer.clayer.nlayer.size*layer.size);
			cuda_push_array(layer.biases_gpu, layer.biases, layer.n);
			cuda_push_array(layer.filter_updates_gpu, layer.filter_updates, layer.clayer.nlayer.size*layer.size);
			cuda_push_array(layer.weight_updates_gpu, layer.weight_updates, layer.clayer.nlayer.size*layer.size);
			cuda_push_array(layer.bias_updates_gpu, layer.bias_updates, layer.n);
			if (layer.batch_normalize){
			cuda_push_array(layer.scales_gpu, layer.scales, layer.n);
			cuda_push_array(layer.rolling_mean_gpu, layer.rolling_mean, layer.n);
			cuda_push_array(layer.rolling_variance_gpu, layer.rolling_variance, layer.n);
			}
			if (layer.adam){
			cuda_push_array(layer.m_gpu, layer.m, layer.clayer.nlayer.size*layer.size);
			cuda_push_array(layer.v_gpu, layer.v, layer.clayer.nlayer.size*layer.size);
			}
			}

			void update_convolutional_layer_gpu(convolutional_layer layer, int batch, float learning_rate, float momentum, float decay)
			{
			int size = layer.sizelayer.sizelayer.c*layer.n;

			axpy_ongpu(layer.n, learning_rate/batch, layer.bias_updates_gpu, 1, layer.biases_gpu, 1);
			scal_ongpu(layer.n, momentum, layer.bias_updates_gpu, 1);

			axpy_ongpu(layer.n, learning_rate/batch, layer.scale_updates_gpu, 1, layer.scales_gpu, 1);
			scal_ongpu(layer.n, momentum, layer.scale_updates_gpu, 1);
			if(layer.scales_gpu){
			axpy_ongpu(layer.n, learning_rate/batch, layer.scale_updates_gpu, 1, layer.scales_gpu, 1);
			scal_ongpu(layer.n, momentum, layer.scale_updates_gpu, 1);
			}

			axpy_ongpu(size, -decay*batch, layer.filters_gpu, 1, layer.filter_updates_gpu, 1);
			axpy_ongpu(size, learning_rate/batch, layer.filter_updates_gpu, 1, layer.filters_gpu, 1);
			scal_ongpu(size, momentum, layer.filter_updates_gpu, 1);
			if(layer.adam){
			scal_ongpu(size, layer.B1, layer.m_gpu, 1);
			scal_ongpu(size, layer.B2, layer.v_gpu, 1);

			axpy_ongpu(size, -decay*batch, layer.weights_gpu, 1, layer.weight_updates_gpu, 1);

			axpy_ongpu(size, -(1-layer.B1), layer.weight_updates_gpu, 1, layer.m_gpu, 1);
			mul_ongpu(size, layer.weight_updates_gpu, 1, layer.weight_updates_gpu, 1);
			axpy_ongpu(size, (1-layer.B2), layer.weight_updates_gpu, 1, layer.v_gpu, 1);

			adam_gpu(size, layer.weights_gpu, layer.m_gpu, layer.v_gpu, layer.B1, layer.B2, learning_rate/batch, layer.eps, layer.t+1);
			fill_ongpu(size, 0, layer.weight_updates_gpu, 1);
			}else{
			axpy_ongpu(size, -decay*batch, layer.weights_gpu, 1, layer.weight_updates_gpu, 1);
			axpy_ongpu(size, learning_rate/batch, layer.weight_updates_gpu, 1, layer.weights_gpu, 1);
			scal_ongpu(size, momentum, layer.weight_updates_gpu, 1);
			}
			}