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imageNet.cu
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/*
* http://github.com/dusty-nv/jetson-inference
*/
#include "cudaUtility.h"
// gpuPreImageNet
__global__ void gpuPreImageNet( float2 scale, float4* input, int iWidth, float* output, int oWidth, int oHeight )
{
const int x = blockIdx.x * blockDim.x + threadIdx.x;
const int y = blockIdx.y * blockDim.y + threadIdx.y;
const int n = oWidth * oHeight;
if( x >= oWidth || y >= oHeight )
return;
const int dx = ((float)x * scale.x);
const int dy = ((float)y * scale.y);
const float4 px = input[ dy * iWidth + dx ];
const float3 bgr = make_float3(px.z, px.y, px.x);
output[n * 0 + y * oWidth + x] = bgr.x;
output[n * 1 + y * oWidth + x] = bgr.y;
output[n * 2 + y * oWidth + x] = bgr.z;
}
// cudaPreImageNet
cudaError_t cudaPreImageNet( float4* input, size_t inputWidth, size_t inputHeight,
float* output, size_t outputWidth, size_t outputHeight )
{
if( !input || !output )
return cudaErrorInvalidDevicePointer;
if( inputWidth == 0 || outputWidth == 0 || inputHeight == 0 || outputHeight == 0 )
return cudaErrorInvalidValue;
const float2 scale = make_float2( float(inputWidth) / float(outputWidth),
float(inputHeight) / float(outputHeight) );
// launch kernel
const dim3 blockDim(8, 8);
const dim3 gridDim(iDivUp(outputWidth,blockDim.x), iDivUp(outputHeight,blockDim.y));
gpuPreImageNet<<<gridDim, blockDim>>>(scale, input, inputWidth, output, outputWidth, outputHeight);
return CUDA(cudaGetLastError());
}
// gpuPreImageNetMean
__global__ void gpuPreImageNetMean( float2 scale, float4* input, int iWidth, float* output, int oWidth, int oHeight, float3 mean_value )
{
const int x = blockIdx.x * blockDim.x + threadIdx.x;
const int y = blockIdx.y * blockDim.y + threadIdx.y;
const int n = oWidth * oHeight;
if( x >= oWidth || y >= oHeight )
return;
const int dx = ((float)x * scale.x);
const int dy = ((float)y * scale.y);
const float4 px = input[ dy * iWidth + dx ];
const float3 bgr = make_float3(px.z - mean_value.x, px.y - mean_value.y, px.x - mean_value.z);
output[n * 0 + y * oWidth + x] = bgr.x;
output[n * 1 + y * oWidth + x] = bgr.y;
output[n * 2 + y * oWidth + x] = bgr.z;
}
// cudaPreImageNetMean
cudaError_t cudaPreImageNetMean( float4* input, size_t inputWidth, size_t inputHeight,
float* output, size_t outputWidth, size_t outputHeight, const float3& mean_value )
{
if( !input || !output )
return cudaErrorInvalidDevicePointer;
if( inputWidth == 0 || outputWidth == 0 || inputHeight == 0 || outputHeight == 0 )
return cudaErrorInvalidValue;
const float2 scale = make_float2( float(inputWidth) / float(outputWidth),
float(inputHeight) / float(outputHeight) );
// launch kernel
const dim3 blockDim(8, 8);
const dim3 gridDim(iDivUp(outputWidth,blockDim.x), iDivUp(outputHeight,blockDim.y));
gpuPreImageNetMean<<<gridDim, blockDim>>>(scale, input, inputWidth, output, outputWidth, outputHeight, mean_value);
return CUDA(cudaGetLastError());
}
// gpuPreImageNetMeanROI
__global__ void gpuPreImageNetMeanROI( float2 scale, float4* input, int iWidth, float* output, int oWidth, int oHeight, int roix_start, int roiy_start, float3 mean_value )
{
const int x = blockIdx.x * blockDim.x + threadIdx.x;
const int y = blockIdx.y * blockDim.y + threadIdx.y;
const int n = oWidth * oHeight;
if( x >= oWidth || y >= oHeight )
return;
const int dx = ((float)x * scale.x) + (float)roix_start;
const int dy = ((float)y * scale.y) + (float)roiy_start;
//const float4 px = input[ dy * iWidth + dx ];
const float4 px = input[ dy * 1280 + dx ];
const float3 bgr = make_float3(px.z - mean_value.x, px.y - mean_value.y, px.x - mean_value.z);
output[n * 0 + y * oWidth + x] = bgr.x;
output[n * 1 + y * oWidth + x] = bgr.y;
output[n * 2 + y * oWidth + x] = bgr.z;
}
// cudaPreImageNetMeanROI
cudaError_t cudaPreImageNetMeanROI( float4* input, size_t inputWidth, size_t inputHeight,
float* output, size_t outputWidth, size_t outputHeight, size_t roix_start, size_t roiy_start, const float3& mean_value )
{
if( !input || !output )
return cudaErrorInvalidDevicePointer;
if( inputWidth == 0 || outputWidth == 0 || inputHeight == 0 || outputHeight == 0 )
return cudaErrorInvalidValue;
const float2 scale = make_float2( float(inputWidth) / float(outputWidth),
float(inputHeight) / float(outputHeight) );
// launch kernel
const dim3 blockDim(8, 8);
const dim3 gridDim(iDivUp(outputWidth,blockDim.x), iDivUp(outputHeight,blockDim.y));
gpuPreImageNetMeanROI<<<gridDim, blockDim>>>(scale, input, inputWidth, output, outputWidth, outputHeight, roix_start, roiy_start, mean_value );
return CUDA(cudaGetLastError());
}