#include "activations.h" #include #include #include #include char *get_activation_string(ACTIVATION a) { switch(a){ case SIGMOID: return "sigmoid"; case RELU: return "relu"; case RAMP: return "ramp"; case LINEAR: return "linear"; case TANH: return "tanh"; default: break; } return "relu"; } ACTIVATION get_activation(char *s) { if (strcmp(s, "sigmoid")==0) return SIGMOID; if (strcmp(s, "relu")==0) return RELU; if (strcmp(s, "linear")==0) return LINEAR; if (strcmp(s, "ramp")==0) return RAMP; if (strcmp(s, "tanh")==0) return TANH; fprintf(stderr, "Couldn't find activation function %s, going with ReLU\n", s); 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)+.1*x;} float tanh_activate(float x){return (exp(2*x)-1)/(exp(2*x)+1);} float activate(float x, ACTIVATION a) { switch(a){ case LINEAR: return linear_activate(x); case SIGMOID: return sigmoid_activate(x); case RELU: return relu_activate(x); case RAMP: return ramp_activate(x); case TANH: return tanh_activate(x); } return 0; } void activate_array(float *x, const int n, const ACTIVATION a) { int i; for(i = 0; i < n; ++i){ x[i] = activate(x[i], a); } } float gradient(float x, ACTIVATION a){ switch(a){ case LINEAR: return 1; case SIGMOID: return (1.-x)*x; case RELU: return (x>0); case RAMP: return (x>0) + .1; case TANH: return 1-x*x; } return 0; } void gradient_array(const float *x, const int n, const ACTIVATION a, float *delta) { int i; for(i = 0; i < n; ++i){ delta[i] *= gradient(x[i], a); } } #ifdef GPU #include "opencl.h" #include 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); } #endif