cuda-samples/Samples/imageDenoising/imageDenoising_knn_kernel.cuh
2021-10-21 16:34:49 +05:30

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/* Copyright (c) 2021, NVIDIA CORPORATION. All rights reserved.
*
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////////////////////////////////////////////////////////////////////////////////
// KNN kernel
////////////////////////////////////////////////////////////////////////////////
__global__ void KNN(TColor *dst, int imageW, int imageH, float Noise,
float lerpC, cudaTextureObject_t texImage) {
const int ix = blockDim.x * blockIdx.x + threadIdx.x;
const int iy = blockDim.y * blockIdx.y + threadIdx.y;
// Add half of a texel to always address exact texel centers
const float x = (float)ix + 0.5f;
const float y = (float)iy + 0.5f;
if (ix < imageW && iy < imageH) {
// Normalized counter for the weight threshold
float fCount = 0;
// Total sum of pixel weights
float sumWeights = 0;
// Result accumulator
float3 clr = {0, 0, 0};
// Center of the KNN window
float4 clr00 = tex2D<float4>(texImage, x, y);
// Cycle through KNN window, surrounding (x, y) texel
for (float i = -KNN_WINDOW_RADIUS; i <= KNN_WINDOW_RADIUS; i++)
for (float j = -KNN_WINDOW_RADIUS; j <= KNN_WINDOW_RADIUS; j++) {
float4 clrIJ = tex2D<float4>(texImage, x + j, y + i);
float distanceIJ = vecLen(clr00, clrIJ);
// Derive final weight from color distance
float weightIJ = __expf(
-(distanceIJ * Noise + (i * i + j * j) * INV_KNN_WINDOW_AREA));
// Accumulate (x + j, y + i) texel color with computed weight
clr.x += clrIJ.x * weightIJ;
clr.y += clrIJ.y * weightIJ;
clr.z += clrIJ.z * weightIJ;
// Sum of weights for color normalization to [0..1] range
sumWeights += weightIJ;
// Update weight counter, if KNN weight for current window texel
// exceeds the weight threshold
fCount += (weightIJ > KNN_WEIGHT_THRESHOLD) ? INV_KNN_WINDOW_AREA : 0;
}
// Normalize result color by sum of weights
sumWeights = 1.0f / sumWeights;
clr.x *= sumWeights;
clr.y *= sumWeights;
clr.z *= sumWeights;
// Choose LERP quotient basing on how many texels
// within the KNN window exceeded the weight threshold
float lerpQ = (fCount > KNN_LERP_THRESHOLD) ? lerpC : 1.0f - lerpC;
// Write final result to global memory
clr.x = lerpf(clr.x, clr00.x, lerpQ);
clr.y = lerpf(clr.y, clr00.y, lerpQ);
clr.z = lerpf(clr.z, clr00.z, lerpQ);
dst[imageW * iy + ix] = make_color(clr.x, clr.y, clr.z, 0);
};
}
extern "C" void cuda_KNN(TColor *d_dst, int imageW, int imageH, float Noise,
float lerpC, cudaTextureObject_t texImage) {
dim3 threads(BLOCKDIM_X, BLOCKDIM_Y);
dim3 grid(iDivUp(imageW, BLOCKDIM_X), iDivUp(imageH, BLOCKDIM_Y));
KNN<<<grid, threads>>>(d_dst, imageW, imageH, Noise, lerpC, texImage);
}
////////////////////////////////////////////////////////////////////////////////
// Stripped KNN kernel, only highlighting areas with different LERP directions
////////////////////////////////////////////////////////////////////////////////
__global__ void KNNdiag(TColor *dst, int imageW, int imageH, float Noise,
float lerpC, cudaTextureObject_t texImage) {
const int ix = blockDim.x * blockIdx.x + threadIdx.x;
const int iy = blockDim.y * blockIdx.y + threadIdx.y;
// Add half of a texel to always address exact texel centers
const float x = (float)ix + 0.5f;
const float y = (float)iy + 0.5f;
if (ix < imageW && iy < imageH) {
// Normalized counter for the weight threshold
float fCount = 0;
// Center of the KNN window
float4 clr00 = tex2D<float4>(texImage, x, y);
// Cycle through KNN window, surrounding (x, y) texel
for (float i = -KNN_WINDOW_RADIUS; i <= KNN_WINDOW_RADIUS; i++)
for (float j = -KNN_WINDOW_RADIUS; j <= KNN_WINDOW_RADIUS; j++) {
float4 clrIJ = tex2D<float4>(texImage, x + j, y + i);
float distanceIJ = vecLen(clr00, clrIJ);
// Derive final weight from color and geometric distance
float weightIJ = __expf(
-(distanceIJ * Noise + (i * i + j * j) * INV_KNN_WINDOW_AREA));
// Update weight counter, if KNN weight for current window texel
// exceeds the weight threshold
fCount +=
(weightIJ > KNN_WEIGHT_THRESHOLD) ? INV_KNN_WINDOW_AREA : 0.0f;
}
// Choose LERP quotient basing on how many texels
// within the KNN window exceeded the weight threshold
float lerpQ = (fCount > KNN_LERP_THRESHOLD) ? 1.0f : 0;
// Write final result to global memory
dst[imageW * iy + ix] = make_color(lerpQ, 0, (1.0f - lerpQ), 0);
};
}
extern "C" void cuda_KNNdiag(TColor *d_dst, int imageW, int imageH, float Noise,
float lerpC, cudaTextureObject_t texImage) {
dim3 threads(BLOCKDIM_X, BLOCKDIM_Y);
dim3 grid(iDivUp(imageW, BLOCKDIM_X), iDivUp(imageH, BLOCKDIM_Y));
KNNdiag<<<grid, threads>>>(d_dst, imageW, imageH, Noise, lerpC, texImage);
}