~speedprog/mtg/mtg_card_detector.git

			@@ -8,16 +8,20 @@
			char *get_activation_string(ACTIVATION a)
			{
			switch(a){
			case SIGMOID:
			return "sigmoid";
			case LOGISTIC:
			return "logistic";
			case RELU:
			return "relu";
			case RELIE:
			return "relie";
			case RAMP:
			return "ramp";
			case LINEAR:
			return "linear";
			case TANH:
			return "tanh";
			case PLSE:
			return "plse";
			default:
			break;
			}
			@@ -26,8 +30,10 @@

			ACTIVATION get_activation(char *s)
			{
			if (strcmp(s, "sigmoid")==0) return SIGMOID;
			if (strcmp(s, "logistic")==0) return LOGISTIC;
			if (strcmp(s, "relu")==0) return RELU;
			if (strcmp(s, "relie")==0) return RELIE;
			if (strcmp(s, "plse")==0) return PLSE;
			if (strcmp(s, "linear")==0) return LINEAR;
			if (strcmp(s, "ramp")==0) return RAMP;
			if (strcmp(s, "tanh")==0) return TANH;
			@@ -35,31 +41,23 @@
			return RELU;
			}

			float linear_activate(float x){return x;}
			float sigmoid_activate(float x){return 1./(1. + exp(-x));}
			float relu_activate(float x){return x*(x>0);}
			float ramp_activate(float x){return x(x>0)+.1x;}
			float tanh_activate(float x){return (exp(2x)-1)/(exp(2x)+1);}

			float linear_gradient(float x){return 1;}
			float sigmoid_gradient(float x){return (1-x)*x;}
			float relu_gradient(float x){return (x>0);}
			float ramp_gradient(float x){return (x>0)+.1;}
			float tanh_gradient(float x){return 1-x*x;}

			float activate(float x, ACTIVATION a)
			{
			switch(a){
			case LINEAR:
			return linear_activate(x);
			case SIGMOID:
			return sigmoid_activate(x);
			case LOGISTIC:
			return logistic_activate(x);
			case RELU:
			return relu_activate(x);
			case RELIE:
			return relie_activate(x);
			case RAMP:
			return ramp_activate(x);
			case TANH:
			return tanh_activate(x);
			case PLSE:
			return plse_activate(x);
			}
			return 0;
			}
			@@ -77,14 +75,18 @@
			switch(a){
			case LINEAR:
			return linear_gradient(x);
			case SIGMOID:
			return sigmoid_gradient(x);
			case LOGISTIC:
			return logistic_gradient(x);
			case RELU:
			return relu_gradient(x);
			case RELIE:
			return relie_gradient(x);
			case RAMP:
			return ramp_gradient(x);
			case TANH:
			return tanh_gradient(x);
			case PLSE:
			return plse_gradient(x);
			}
			return 0;
			}
			@@ -97,67 +99,3 @@
			}
			}

			#ifdef GPU

			#include "opencl.h"
			#include <math.h>

			cl_kernel get_activation_kernel()
			{
			static int init = 0;
			static cl_kernel kernel;
			if(!init){
			kernel = get_kernel("src/activations.cl", "activate_array", 0);
			init = 1;
			}
			return kernel;
			}

			void activate_array_ongpu(cl_mem x, int n, ACTIVATION a)
			{
			cl_setup();
			cl_kernel kernel = get_activation_kernel();
			cl_command_queue queue = cl.queue;

			cl_uint i = 0;
			cl.error = clSetKernelArg(kernel, i++, sizeof(x), (void*) &x);
			cl.error = clSetKernelArg(kernel, i++, sizeof(n), (void*) &n);
			cl.error = clSetKernelArg(kernel, i++, sizeof(a), (void*) &a);
			check_error(cl);

			size_t gsize = n;

			clEnqueueNDRangeKernel(queue, kernel, 1, 0, &gsize, 0, 0, 0, 0);
			check_error(cl);
			}

			cl_kernel get_gradient_kernel()
			{
			static int init = 0;
			static cl_kernel kernel;
			if(!init){
			kernel = get_kernel("src/activations.cl", "gradient_array", 0);
			init = 1;
			}
			return kernel;
			}

			void gradient_array_ongpu(cl_mem x, int n, ACTIVATION a, cl_mem delta)
			{
			cl_setup();
			cl_kernel kernel = get_gradient_kernel();
			cl_command_queue queue = cl.queue;

			cl_uint i = 0;
			cl.error = clSetKernelArg(kernel, i++, sizeof(x), (void*) &x);
			cl.error = clSetKernelArg(kernel, i++, sizeof(n), (void*) &n);
			cl.error = clSetKernelArg(kernel, i++, sizeof(a), (void*) &a);
			cl.error = clSetKernelArg(kernel, i++, sizeof(delta), (void*) &delta);
			check_error(cl);

			size_t gsize = n;

			clEnqueueNDRangeKernel(queue, kernel, 1, 0, &gsize, 0, 0, 0, 0);
			check_error(cl);
			}
			#endif