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#include <cuda.h> |
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#include "common.h" |
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#include "loss.h" |
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__device__ inline float bwdAbs(float x) { return x == 0.0f ? 0.0f : x < 0.0f ? -1.0f : 1.0f; } |
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__device__ float warpSum(float val) { |
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for (int i = 1; i < 32; i *= 2) |
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val += __shfl_xor_sync(0xFFFFFFFF, val, i); |
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return val; |
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} |
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__device__ inline float fwdSRGB(float x) |
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{ |
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return x > 0.0031308f ? powf(max(x, 0.0031308f), 1.0f / 2.4f) * 1.055f - 0.055f : 12.92f * max(x, 0.0f); |
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} |
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__device__ inline void bwdSRGB(float x, float &d_x, float d_out) |
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{ |
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if (x > 0.0031308f) |
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d_x += d_out * 0.439583f / powf(x, 0.583333f); |
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else if (x > 0.0f) |
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d_x += d_out * 12.92f; |
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} |
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__device__ inline vec3f fwdTonemapLogSRGB(vec3f x) |
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{ |
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return vec3f(fwdSRGB(logf(x.x + 1.0f)), fwdSRGB(logf(x.y + 1.0f)), fwdSRGB(logf(x.z + 1.0f))); |
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} |
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__device__ inline void bwdTonemapLogSRGB(vec3f x, vec3f& d_x, vec3f d_out) |
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{ |
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if (x.x > 0.0f && x.x < 65535.0f) |
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{ |
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bwdSRGB(logf(x.x + 1.0f), d_x.x, d_out.x); |
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d_x.x *= 1 / (x.x + 1.0f); |
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} |
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if (x.y > 0.0f && x.y < 65535.0f) |
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{ |
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bwdSRGB(logf(x.y + 1.0f), d_x.y, d_out.y); |
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d_x.y *= 1 / (x.y + 1.0f); |
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} |
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if (x.z > 0.0f && x.z < 65535.0f) |
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{ |
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bwdSRGB(logf(x.z + 1.0f), d_x.z, d_out.z); |
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d_x.z *= 1 / (x.z + 1.0f); |
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} |
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} |
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__device__ inline float fwdRELMSE(float img, float target, float eps = 0.1f) |
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{ |
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return (img - target) * (img - target) / (img * img + target * target + eps); |
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} |
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__device__ inline void bwdRELMSE(float img, float target, float &d_img, float &d_target, float d_out, float eps = 0.1f) |
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{ |
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float denom = (target * target + img * img + eps); |
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d_img += d_out * 2 * (img - target) * (target * (target + img) + eps) / (denom * denom); |
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d_target -= d_out * 2 * (img - target) * (img * (target + img) + eps) / (denom * denom); |
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} |
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__device__ inline float fwdSMAPE(float img, float target, float eps=0.01f) |
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{ |
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return abs(img - target) / (img + target + eps); |
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} |
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__device__ inline void bwdSMAPE(float img, float target, float& d_img, float& d_target, float d_out, float eps = 0.01f) |
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{ |
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float denom = (target + img + eps); |
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d_img += d_out * bwdAbs(img - target) * (2 * target + eps) / (denom * denom); |
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d_target -= d_out * bwdAbs(img - target) * (2 * img + eps) / (denom * denom); |
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} |
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__global__ void imgLossFwdKernel(LossKernelParams p) |
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{ |
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unsigned int px = blockIdx.x * blockDim.x + threadIdx.x; |
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unsigned int py = blockIdx.y * blockDim.y + threadIdx.y; |
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unsigned int pz = blockIdx.z; |
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float floss = 0.0f; |
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if (px < p.gridSize.x && py < p.gridSize.y && pz < p.gridSize.z) |
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{ |
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vec3f img = p.img.fetch3(px, py, pz); |
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vec3f target = p.target.fetch3(px, py, pz); |
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img = vec3f(clamp(img.x, 0.0f, 65535.0f), clamp(img.y, 0.0f, 65535.0f), clamp(img.z, 0.0f, 65535.0f)); |
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target = vec3f(clamp(target.x, 0.0f, 65535.0f), clamp(target.y, 0.0f, 65535.0f), clamp(target.z, 0.0f, 65535.0f)); |
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if (p.tonemapper == TONEMAPPER_LOG_SRGB) |
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{ |
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img = fwdTonemapLogSRGB(img); |
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target = fwdTonemapLogSRGB(target); |
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} |
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vec3f vloss(0); |
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if (p.loss == LOSS_MSE) |
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vloss = (img - target) * (img - target); |
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else if (p.loss == LOSS_RELMSE) |
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vloss = vec3f(fwdRELMSE(img.x, target.x), fwdRELMSE(img.y, target.y), fwdRELMSE(img.z, target.z)); |
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else if (p.loss == LOSS_SMAPE) |
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vloss = vec3f(fwdSMAPE(img.x, target.x), fwdSMAPE(img.y, target.y), fwdSMAPE(img.z, target.z)); |
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else |
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vloss = vec3f(abs(img.x - target.x), abs(img.y - target.y), abs(img.z - target.z)); |
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floss = sum(vloss) / 3.0f; |
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} |
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floss = warpSum(floss); |
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dim3 warpSize = getWarpSize(blockDim); |
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if (px < p.gridSize.x && py < p.gridSize.y && pz < p.gridSize.z && threadIdx.x % warpSize.x == 0 && threadIdx.y % warpSize.y == 0 && threadIdx.z % warpSize.z == 0) |
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p.out.store(px / warpSize.x, py / warpSize.y, pz / warpSize.z, floss); |
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} |
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__global__ void imgLossBwdKernel(LossKernelParams p) |
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{ |
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unsigned int px = blockIdx.x * blockDim.x + threadIdx.x; |
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unsigned int py = blockIdx.y * blockDim.y + threadIdx.y; |
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unsigned int pz = blockIdx.z; |
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if (px >= p.gridSize.x || py >= p.gridSize.y || pz >= p.gridSize.z) |
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return; |
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dim3 warpSize = getWarpSize(blockDim); |
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vec3f _img = p.img.fetch3(px, py, pz); |
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vec3f _target = p.target.fetch3(px, py, pz); |
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float d_out = p.out.fetch1(px / warpSize.x, py / warpSize.y, pz / warpSize.z); |
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vec3f img = _img, target = _target; |
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if (p.tonemapper == TONEMAPPER_LOG_SRGB) |
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{ |
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img = fwdTonemapLogSRGB(img); |
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target = fwdTonemapLogSRGB(target); |
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} |
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vec3f d_vloss = vec3f(d_out, d_out, d_out) / 3.0f; |
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vec3f d_img(0), d_target(0); |
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if (p.loss == LOSS_MSE) |
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{ |
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d_img = vec3f(d_vloss.x * 2 * (img.x - target.x), d_vloss.y * 2 * (img.y - target.y), d_vloss.x * 2 * (img.z - target.z)); |
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d_target = -d_img; |
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} |
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else if (p.loss == LOSS_RELMSE) |
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{ |
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bwdRELMSE(img.x, target.x, d_img.x, d_target.x, d_vloss.x); |
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bwdRELMSE(img.y, target.y, d_img.y, d_target.y, d_vloss.y); |
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bwdRELMSE(img.z, target.z, d_img.z, d_target.z, d_vloss.z); |
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} |
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else if (p.loss == LOSS_SMAPE) |
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{ |
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bwdSMAPE(img.x, target.x, d_img.x, d_target.x, d_vloss.x); |
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bwdSMAPE(img.y, target.y, d_img.y, d_target.y, d_vloss.y); |
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bwdSMAPE(img.z, target.z, d_img.z, d_target.z, d_vloss.z); |
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} |
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else |
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{ |
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d_img = d_vloss * vec3f(bwdAbs(img.x - target.x), bwdAbs(img.y - target.y), bwdAbs(img.z - target.z)); |
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d_target = -d_img; |
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} |
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if (p.tonemapper == TONEMAPPER_LOG_SRGB) |
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{ |
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vec3f d__img(0), d__target(0); |
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bwdTonemapLogSRGB(_img, d__img, d_img); |
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bwdTonemapLogSRGB(_target, d__target, d_target); |
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d_img = d__img; d_target = d__target; |
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} |
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if (_img.x <= 0.0f || _img.x >= 65535.0f) d_img.x = 0; |
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if (_img.y <= 0.0f || _img.y >= 65535.0f) d_img.y = 0; |
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if (_img.z <= 0.0f || _img.z >= 65535.0f) d_img.z = 0; |
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if (_target.x <= 0.0f || _target.x >= 65535.0f) d_target.x = 0; |
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if (_target.y <= 0.0f || _target.y >= 65535.0f) d_target.y = 0; |
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if (_target.z <= 0.0f || _target.z >= 65535.0f) d_target.z = 0; |
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p.img.store_grad(px, py, pz, d_img); |
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p.target.store_grad(px, py, pz, d_target); |
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} |
