mirror of
https://github.com/pjreddie/darknet.git
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134 lines
4.7 KiB
Plaintext
134 lines
4.7 KiB
Plaintext
extern "C" {
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#include "convolutional_layer.h"
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#include "gemm.h"
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#include "blas.h"
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#include "im2col.h"
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#include "col2im.h"
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#include "utils.h"
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#include "cuda.h"
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}
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__global__ void bias_output_kernel(float *output, float *biases, int n, int size)
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{
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int offset = blockIdx.x * blockDim.x + threadIdx.x;
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int filter = blockIdx.y;
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int batch = blockIdx.z;
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if(offset < size) output[(batch*n+filter)*size + offset] = biases[filter];
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}
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void bias_output_gpu(float *output, float *biases, int batch, int n, int size)
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{
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dim3 dimGrid((size-1)/BLOCK + 1, n, batch);
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dim3 dimBlock(BLOCK, 1, 1);
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bias_output_kernel<<<dimGrid, dimBlock>>>(output, biases, n, size);
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check_error(cudaPeekAtLastError());
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}
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__global__ void backward_bias_kernel(float *bias_updates, float *delta, int batch, int n, int size)
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{
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__shared__ float part[BLOCK];
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int i,b;
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int filter = blockIdx.x;
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int p = threadIdx.x;
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float sum = 0;
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for(b = 0; b < batch; ++b){
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for(i = 0; i < size; i += BLOCK){
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int index = p + i + size*(filter + n*b);
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sum += (p+i < size) ? delta[index] : 0;
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}
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}
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part[p] = sum;
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__syncthreads();
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if(p == 0){
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for(i = 0; i < BLOCK; ++i) bias_updates[filter] += part[i];
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}
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}
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void backward_bias_gpu(float *bias_updates, float *delta, int batch, int n, int size)
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{
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backward_bias_kernel<<<n, BLOCK>>>(bias_updates, delta, batch, n, size);
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check_error(cudaPeekAtLastError());
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}
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void forward_convolutional_layer_gpu(convolutional_layer layer, network_state state)
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{
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int i;
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int m = layer.n;
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int k = layer.size*layer.size*layer.c;
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int n = convolutional_out_height(layer)*
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convolutional_out_width(layer);
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bias_output_gpu(layer.output_gpu, layer.biases_gpu, layer.batch, layer.n, n);
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for(i = 0; i < layer.batch; ++i){
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im2col_ongpu(state.input + i*layer.c*layer.h*layer.w, layer.c, layer.h, layer.w, layer.size, layer.stride, layer.pad, layer.col_image_gpu);
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float * a = layer.filters_gpu;
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float * b = layer.col_image_gpu;
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float * c = layer.output_gpu;
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gemm_ongpu(0,0,m,n,k,1.,a,k,b,n,1.,c+i*m*n,n);
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}
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activate_array_ongpu(layer.output_gpu, m*n*layer.batch, layer.activation);
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}
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void backward_convolutional_layer_gpu(convolutional_layer layer, network_state state)
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{
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int i;
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int m = layer.n;
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int n = layer.size*layer.size*layer.c;
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int k = convolutional_out_height(layer)*
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convolutional_out_width(layer);
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gradient_array_ongpu(layer.output_gpu, m*k*layer.batch, layer.activation, layer.delta_gpu);
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backward_bias_gpu(layer.bias_updates_gpu, layer.delta_gpu, layer.batch, layer.n, k);
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for(i = 0; i < layer.batch; ++i){
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float * a = layer.delta_gpu;
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float * b = layer.col_image_gpu;
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float * c = layer.filter_updates_gpu;
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im2col_ongpu(state.input + i*layer.c*layer.h*layer.w, layer.c, layer.h, layer.w, layer.size, layer.stride, layer.pad, layer.col_image_gpu);
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gemm_ongpu(0,1,m,n,k,1,a + i*m*k,k,b,k,1,c,n);
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if(state.delta){
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float * a = layer.filters_gpu;
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float * b = layer.delta_gpu;
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float * c = layer.col_image_gpu;
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gemm_ongpu(1,0,n,k,m,1,a,n,b + i*k*m,k,0,c,k);
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col2im_ongpu(layer.col_image_gpu, layer.c, layer.h, layer.w, layer.size, layer.stride, layer.pad, state.delta + i*layer.c*layer.h*layer.w);
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}
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}
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}
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void pull_convolutional_layer(convolutional_layer layer)
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{
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cuda_pull_array(layer.filters_gpu, layer.filters, layer.c*layer.n*layer.size*layer.size);
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cuda_pull_array(layer.biases_gpu, layer.biases, layer.n);
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cuda_pull_array(layer.filter_updates_gpu, layer.filter_updates, layer.c*layer.n*layer.size*layer.size);
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cuda_pull_array(layer.bias_updates_gpu, layer.bias_updates, layer.n);
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}
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void push_convolutional_layer(convolutional_layer layer)
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{
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cuda_push_array(layer.filters_gpu, layer.filters, layer.c*layer.n*layer.size*layer.size);
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cuda_push_array(layer.biases_gpu, layer.biases, layer.n);
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cuda_push_array(layer.filter_updates_gpu, layer.filter_updates, layer.c*layer.n*layer.size*layer.size);
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cuda_push_array(layer.bias_updates_gpu, layer.bias_updates, layer.n);
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}
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void update_convolutional_layer_gpu(convolutional_layer layer, int batch, float learning_rate, float momentum, float decay)
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{
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int size = layer.size*layer.size*layer.c*layer.n;
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axpy_ongpu(layer.n, learning_rate/batch, layer.bias_updates_gpu, 1, layer.biases_gpu, 1);
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scal_ongpu(layer.n, momentum, layer.bias_updates_gpu, 1);
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axpy_ongpu(size, -decay*batch, layer.filters_gpu, 1, layer.filter_updates_gpu, 1);
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axpy_ongpu(size, learning_rate/batch, layer.filter_updates_gpu, 1, layer.filters_gpu, 1);
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scal_ongpu(size, momentum, layer.filter_updates_gpu, 1);
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}
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