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laplacian ocl kernel optimization

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This ocl kernel is 46%~171% faster than current laplacian 3x3
ocl kernel in the perf test, with image format "CV_8UC1".

Signed-off-by: Li Peng <peng.li@intel.com>
This commit is contained in:
Li Peng 2016-10-27 14:52:26 +08:00
parent c93fb14dd2
commit 6cb73356b1
3 changed files with 248 additions and 22 deletions
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66
modules/imgproc/src/deriv.cpp
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@ -807,8 +807,57 @@ static bool ocl_Laplacian5(InputArray _src, OutputArray _dst,
return k.run(2, globalsize, NULL, false); return k.run(2, globalsize, NULL, false);
} }
static bool ocl_Laplacian3_8UC1(InputArray _src, OutputArray _dst, int ddepth,
InputArray _kernel, double delta, int borderType)
{
const ocl::Device & dev = ocl::Device::getDefault();
int type = _src.type(), sdepth = CV_MAT_DEPTH(type), cn = CV_MAT_CN(type);
if ( !(dev.isIntel() && (type == CV_8UC1) && (ddepth == CV_8U) &&
(borderType != BORDER_WRAP) &&
(_src.offset() == 0) && (_src.step() % 4 == 0) &&
(_src.cols() % 16 == 0) && (_src.rows() % 2 == 0)) )
return false;
Mat kernel = _kernel.getMat().reshape(1, 1);
if (ddepth < 0)
ddepth = sdepth;
Size size = _src.size();
size_t globalsize[2] = { 0, 0 };
size_t localsize[2] = { 0, 0 };
globalsize[0] = size.width / 16;
globalsize[1] = size.height / 2;
const char * const borderMap[] = { "BORDER_CONSTANT", "BORDER_REPLICATE", "BORDER_REFLECT", 0, "BORDER_REFLECT_101" };
char build_opts[1024];
sprintf(build_opts, "-D %s %s", borderMap[borderType],
ocl::kernelToStr(kernel, CV_32F, "KERNEL_MATRIX").c_str());
ocl::Kernel k("laplacian3_8UC1_cols16_rows2", cv::ocl::imgproc::laplacian3_oclsrc, build_opts);
if (k.empty())
return false;
UMat src = _src.getUMat();
_dst.create(size, CV_MAKETYPE(ddepth, cn));
if (!(_dst.offset() == 0 && _dst.step() % 4 == 0))
return false;
UMat dst = _dst.getUMat();
int idxArg = k.set(0, ocl::KernelArg::PtrReadOnly(src));
idxArg = k.set(idxArg, (int)src.step);
idxArg = k.set(idxArg, ocl::KernelArg::PtrWriteOnly(dst));
idxArg = k.set(idxArg, (int)dst.step);
idxArg = k.set(idxArg, (int)dst.rows);
idxArg = k.set(idxArg, (int)dst.cols);
idxArg = k.set(idxArg, static_cast<float>(delta));
return k.run(2, globalsize, (localsize[0] == 0) ? NULL : localsize, false);
} }
}
#endif #endif
#if defined(HAVE_IPP) #if defined(HAVE_IPP)
@ -892,6 +941,22 @@ void cv::Laplacian( InputArray _src, OutputArray _dst, int ddepth, int ksize,
ddepth = sdepth; ddepth = sdepth;
_dst.create( _src.size(), CV_MAKETYPE(ddepth, cn) ); _dst.create( _src.size(), CV_MAKETYPE(ddepth, cn) );
if( ksize == 1 || ksize == 3 )
{
float K[2][9] =
{
{ 0, 1, 0, 1, -4, 1, 0, 1, 0 },
{ 2, 0, 2, 0, -8, 0, 2, 0, 2 }
};
Mat kernel(3, 3, CV_32F, K[ksize == 3]);
if( scale != 1 )
kernel *= scale;
CV_OCL_RUN(_dst.isUMat() && _src.dims() <= 2,
ocl_Laplacian3_8UC1(_src, _dst, ddepth, kernel, delta, borderType));
}
CV_IPP_RUN((ksize == 3 || ksize == 5) && ((borderType & BORDER_ISOLATED) != 0 || !_src.isSubmatrix()) && CV_IPP_RUN((ksize == 3 || ksize == 5) && ((borderType & BORDER_ISOLATED) != 0 || !_src.isSubmatrix()) &&
((stype == CV_8UC1 && ddepth == CV_16S) || (ddepth == CV_32F && stype == CV_32FC1)) && (!cv::ocl::useOpenCL()), ((stype == CV_8UC1 && ddepth == CV_16S) || (ddepth == CV_32F && stype == CV_32FC1)) && (!cv::ocl::useOpenCL()),
ipp_Laplacian(_src, _dst, ddepth, ksize, scale, delta, borderType)); ipp_Laplacian(_src, _dst, ddepth, ksize, scale, delta, borderType));
@ -920,6 +985,7 @@ void cv::Laplacian( InputArray _src, OutputArray _dst, int ddepth, int ksize,
Mat kernel(3, 3, CV_32F, K[ksize == 3]); Mat kernel(3, 3, CV_32F, K[ksize == 3]);
if( scale != 1 ) if( scale != 1 )
kernel *= scale; kernel *= scale;
filter2D( _src, _dst, ddepth, kernel, Point(-1, -1), delta, borderType ); filter2D( _src, _dst, ddepth, kernel, Point(-1, -1), delta, borderType );
} }
else else

134
modules/imgproc/src/opencl/laplacian3.cl Normal file
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@ -0,0 +1,134 @@
// This file is part of OpenCV project.
// It is subject to the license terms in the LICENSE file found in the top-level directory
// of this distribution and at http://opencv.org/license.html.
#define DIG(a) a,
__constant float kx[] = { KERNEL_MATRIX };
#define OP(delta, x) (convert_float16(arr[delta + x]) * kx[x])
__kernel void laplacian3_8UC1_cols16_rows2(__global const uint* src, int src_step,
__global uint* dst, int dst_step,
int rows, int cols, float delta)
{
int block_x = get_global_id(0);
int y = get_global_id(1) * 2;
int ssx, dsx;
if ((block_x * 16) >= cols || y >= rows) return;
uint4 line[4];
uint4 line_out[2];
uchar a; uchar16 b; uchar c;
uchar d; uchar16 e; uchar f;
uchar g; uchar16 h; uchar i;
uchar j; uchar16 k; uchar l;
ssx = dsx = 1;
int src_index = block_x * 4 * ssx + (y - 1) * (src_step / 4);
line[1] = vload4(0, src + src_index + (src_step / 4));
line[2] = vload4(0, src + src_index + 2 * (src_step / 4));
#ifdef BORDER_CONSTANT
line[0] = (y == 0) ? (uint4)0 : vload4(0, src + src_index);
line[3] = (y == (rows - 2)) ? (uint4)0 : vload4(0, src + src_index + 3 * (src_step / 4));
#elif defined BORDER_REFLECT_101
line[0] = (y == 0) ? line[2] : vload4(0, src + src_index);
line[3] = (y == (rows - 2)) ? line[1] : vload4(0, src + src_index + 3 * (src_step / 4));
#elif defined (BORDER_REPLICATE) || defined(BORDER_REFLECT)
line[0] = (y == 0) ? line[1] : vload4(0, src + src_index);
line[3] = (y == (rows - 2)) ? line[2] : vload4(0, src + src_index + 3 * (src_step / 4));
#endif
__global uchar *src_p = (__global uchar *)src;
src_index = block_x * 16 * ssx + (y - 1) * src_step;
bool line_end = ((block_x + 1) * 16 == cols);
b = as_uchar16(line[0]);
e = as_uchar16(line[1]);
h = as_uchar16(line[2]);
k = as_uchar16(line[3]);
#ifdef BORDER_CONSTANT
a = (block_x == 0 || y == 0) ? 0 : src_p[src_index - 1];
c = (line_end || y == 0) ? 0 : src_p[src_index + 16];
d = (block_x == 0) ? 0 : src_p[src_index + src_step - 1];
f = line_end ? 0 : src_p[src_index + src_step + 16];
g = (block_x == 0) ? 0 : src_p[src_index + 2 * src_step - 1];
i = line_end ? 0 : src_p[src_index + 2 * src_step + 16];
j = (block_x == 0 || y == (rows - 2)) ? 0 : src_p[src_index + 3 * src_step - 1];
l = (line_end || y == (rows - 2))? 0 : src_p[src_index + 3 * src_step + 16];
#elif defined BORDER_REFLECT_101
int offset;
offset = (y == 0) ? (2 * src_step) : 0;
a = (block_x == 0) ? src_p[src_index + offset + 1] : src_p[src_index + offset - 1];
c = line_end ? src_p[src_index + offset + 14] : src_p[src_index + offset + 16];
d = (block_x == 0) ? src_p[src_index + src_step + 1] : src_p[src_index + src_step - 1];
f = line_end ? src_p[src_index + src_step + 14] : src_p[src_index + src_step + 16];
g = (block_x == 0) ? src_p[src_index + 2 * src_step + 1] : src_p[src_index + 2 * src_step - 1];
i = line_end ? src_p[src_index + 2 * src_step + 14] : src_p[src_index + 2 * src_step + 16];
offset = (y == (rows - 2)) ? (1 * src_step) : (3 * src_step);
j = (block_x == 0) ? src_p[src_index + offset + 1] : src_p[src_index + offset - 1];
l = line_end ? src_p[src_index + offset + 14] : src_p[src_index + offset + 16];
#elif defined (BORDER_REPLICATE) || defined(BORDER_REFLECT)
int offset;
offset = (y == 0) ? (1 * src_step) : 0;
a = (block_x == 0) ? src_p[src_index + offset] : src_p[src_index + offset - 1];
c = line_end ? src_p[src_index + offset + 15] : src_p[src_index + offset + 16];
d = (block_x == 0) ? src_p[src_index + src_step] : src_p[src_index + src_step - 1];
f = line_end ? src_p[src_index + src_step + 15] : src_p[src_index + src_step + 16];
g = (block_x == 0) ? src_p[src_index + 2 * src_step] : src_p[src_index + 2 * src_step - 1];
i = line_end ? src_p[src_index + 2 * src_step + 15] : src_p[src_index + 2 * src_step + 16];
offset = (y == (rows - 2)) ? (2 * src_step) : (3 * src_step);
j = (block_x == 0) ? src_p[src_index + offset] : src_p[src_index + offset - 1];
l = line_end ? src_p[src_index + offset + 15] : src_p[src_index + offset + 16];
#endif
uchar16 arr[12];
float16 sum[2];
arr[0] = (uchar16)(a, b.s0123, b.s456789ab, b.scde);
arr[1] = b;
arr[2] = (uchar16)(b.s123, b.s4567, b.s89abcdef, c);
arr[3] = (uchar16)(d, e.s0123, e.s456789ab, e.scde);
arr[4] = e;
arr[5] = (uchar16)(e.s123, e.s4567, e.s89abcdef, f);
arr[6] = (uchar16)(g, h.s0123, h.s456789ab, h.scde);
arr[7] = h;
arr[8] = (uchar16)(h.s123, h.s4567, h.s89abcdef, i);
arr[9] = (uchar16)(j, k.s0123, k.s456789ab, k.scde);
arr[10] = k;
arr[11] = (uchar16)(k.s123, k.s4567, k.s89abcdef, l);
sum[0] = OP(0, 0) + OP(0, 1) + OP(0, 2) +
OP(0, 3) + OP(0, 4) + OP(0, 5) +
OP(0, 6) + OP(0, 7) + OP(0, 8);
sum[1] = OP(3, 0) + OP(3, 1) + OP(3, 2) +
OP(3, 3) + OP(3, 4) + OP(3, 5) +
OP(3, 6) + OP(3, 7) + OP(3, 8);
line_out[0] = as_uint4(convert_uchar16_sat_rte(sum[0] + delta));
line_out[1] = as_uint4(convert_uchar16_sat_rte(sum[1] + delta));
int dst_index = block_x * 4 * dsx + y * (dst_step / 4);
vstore4(line_out[0], 0, dst + dst_index);
vstore4(line_out[1], 0, dst + dst_index + (dst_step / 4));
}

70
modules/imgproc/test/ocl/test_filters.cpp
View File

@ -165,28 +165,6 @@ OCL_TEST_P(LaplacianTest, Accuracy)
} }
} }
/////////////////////////////////////////////////////////////////////////////////////////////////
// Sobel
typedef FilterTestBase SobelTest;
OCL_TEST_P(SobelTest, Mat)
{
int dx = size.width, dy = size.height;
double scale = param;
for (int j = 0; j < test_loop_times; j++)
{
random_roi();
OCL_OFF(cv::Sobel(src_roi, dst_roi, -1, dx, dy, ksize, scale, /* delta */0, borderType));
OCL_ON(cv::Sobel(usrc_roi, udst_roi, -1, dx, dy, ksize, scale, /* delta */0, borderType));
Near();
}
}
PARAM_TEST_CASE(Deriv3x3_cols16_rows2_Base, MatType, PARAM_TEST_CASE(Deriv3x3_cols16_rows2_Base, MatType,
int, // kernel size int, // kernel size
Size, // dx, dy Size, // dx, dy
@ -247,6 +225,45 @@ PARAM_TEST_CASE(Deriv3x3_cols16_rows2_Base, MatType,
} }
}; };
typedef Deriv3x3_cols16_rows2_Base Laplacian3_cols16_rows2;
OCL_TEST_P(Laplacian3_cols16_rows2, Accuracy)
{
double scale = param;
for (int j = 0; j < test_loop_times; j++)
{
random_roi();
OCL_OFF(cv::Laplacian(src_roi, dst_roi, -1, ksize, scale, 10, borderType));
OCL_ON(cv::Laplacian(usrc_roi, udst_roi, -1, ksize, scale, 10, borderType));
Near();
}
}
/////////////////////////////////////////////////////////////////////////////////////////////////
// Sobel
typedef FilterTestBase SobelTest;
OCL_TEST_P(SobelTest, Mat)
{
int dx = size.width, dy = size.height;
double scale = param;
for (int j = 0; j < test_loop_times; j++)
{
random_roi();
OCL_OFF(cv::Sobel(src_roi, dst_roi, -1, dx, dy, ksize, scale, /* delta */0, borderType));
OCL_ON(cv::Sobel(usrc_roi, udst_roi, -1, dx, dy, ksize, scale, /* delta */0, borderType));
Near();
}
}
typedef Deriv3x3_cols16_rows2_Base Sobel3x3_cols16_rows2; typedef Deriv3x3_cols16_rows2_Base Sobel3x3_cols16_rows2;
OCL_TEST_P(Sobel3x3_cols16_rows2, Mat) OCL_TEST_P(Sobel3x3_cols16_rows2, Mat)
@ -639,6 +656,15 @@ OCL_INSTANTIATE_TEST_CASE_P(Filter, LaplacianTest, Combine(
Bool(), Bool(),
Values(1))); // not used Values(1))); // not used
OCL_INSTANTIATE_TEST_CASE_P(Filter, Laplacian3_cols16_rows2, Combine(
Values((MatType)CV_8UC1),
Values(3), // kernel size
Values(Size(0, 0)), // not used
FILTER_BORDER_SET_NO_WRAP_NO_ISOLATED,
Values(1.0, 0.2, 3.0), // kernel scale
Bool(),
Values(1))); // not used
OCL_INSTANTIATE_TEST_CASE_P(Filter, SobelTest, Combine( OCL_INSTANTIATE_TEST_CASE_P(Filter, SobelTest, Combine(
FILTER_TYPES, FILTER_TYPES,
Values(3, 5), // kernel size Values(3, 5), // kernel size