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opencv/modules/dnn/perf/perf_layer.cpp

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dnn: fix OpenCL implementation of Slice layer
4 years ago
// 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.
#include "perf_precomp.hpp"
#include <opencv2/dnn/shape_utils.hpp>
namespace opencv_test {
struct Layer_Slice : public TestBaseWithParam<tuple<Backend, Target> >
{
template<int DIMS>
void test_slice(const int* inputShape, const int* begin, const int* end)
{
int backendId = get<0>(GetParam());
int targetId = get<1>(GetParam());
Mat input(DIMS, inputShape, CV_32FC1, Scalar::all(0));
for (int i = 0; i < (int)input.total(); ++i)
input.ptr<float>()[i] = (float)(i & 4095);
std::vector<Range> range(DIMS);
for (int i = 0; i < DIMS; ++i)
range[i] = Range(begin[i], end[i]);
Net net;
LayerParams lp;
lp.type = "Slice";
lp.name = "testLayer";
lp.set("begin", DictValue::arrayInt<int*>((int*)&begin[0], DIMS));
lp.set("end", DictValue::arrayInt<int*>((int*)&end[0], DIMS));
net.addLayerToPrev(lp.name, lp.type, lp);
// warmup
{
net.setInput(input);
net.setPreferableBackend(backendId);
net.setPreferableTarget(targetId);
Mat out = net.forward();
EXPECT_GT(cv::norm(out, NORM_INF), 0);
#if 0
//normAssert(out, input(range));
cout << input(range).clone().reshape(1, 1) << endl;
cout << out.reshape(1, 1) << endl;
#endif
}
TEST_CYCLE()
{
Mat res = net.forward();
}
SANITY_CHECK_NOTHING();
}
};
release MUL and ADD operator on CUDA
2 years ago
static std::set<std::string> nary_eltwise_cuda_deny_ops = {"equal", "greater", "less", "mean", "pow", "sub"};
Let part of the operators in nary_eltwise support cuda
2 years ago
Merge pull request #21865 from rogday:nary_eltwise_layers Reimplementation of Element-wise layers with broadcasting support * init * semi-working initial version * add small_vector * wip * remove smallvec * add nary function * replace auto with Mat in lambda expr used in transform * uncomment asserts * autobuffer shape_buf & step_buf * fix a missing bracket * fixed a missing addLayer in parseElementWise * solve one-dimensional broadcast * remove pre_broadcast_transform for the case of two constants; fix missing constBlobsExtraInfo when addConstant is called * one autobuffer for step & shape * temporal fix for the missing original dimension information * fix parseUnsqueeze when it gets a 1d tensor constant * support sum/mean/min/max with only one input * reuse old code to handle cases of two non-constant inputs * add condition to handle div & mul of two non-constant inputs * use || instead of or * remove trainling spaces * enlarge buf in binary_forward to contain other buffer * use autobuffer in nary_forward * generate data randomly and add more cases for perf * add op and, or & xor * update perf_dnn * remove some comments * remove legacy; add two ONNX conformance tests in filter * move from cpu_denylist to all_denylist * adjust parsing for inputs>=2 Co-authored-by: fengyuentau <yuantao.feng@opencv.org.cn>
2 years ago
struct Layer_NaryEltwise : public TestBaseWithParam<tuple<Backend, Target> >
{
void test_layer(const std::vector<int>& a_shape, const std::vector<int>& b_shape, const String op, bool isRef = false)
{
int backendId = get<0>(GetParam());
int targetId = get<1>(GetParam());
Let part of the operators in nary_eltwise support cuda
2 years ago
if (!isRef && backendId == DNN_BACKEND_CUDA)
{
if (a_shape != b_shape)
throw SkipTestException("The test is skipped because inputs with different shapes are not supported.");
if (nary_eltwise_cuda_deny_ops.find(op) != nary_eltwise_cuda_deny_ops.end())
throw SkipTestException("The operator '" + op + "' is skipped because is not support with cuda currently.");
}
Merge pull request #21865 from rogday:nary_eltwise_layers Reimplementation of Element-wise layers with broadcasting support * init * semi-working initial version * add small_vector * wip * remove smallvec * add nary function * replace auto with Mat in lambda expr used in transform * uncomment asserts * autobuffer shape_buf & step_buf * fix a missing bracket * fixed a missing addLayer in parseElementWise * solve one-dimensional broadcast * remove pre_broadcast_transform for the case of two constants; fix missing constBlobsExtraInfo when addConstant is called * one autobuffer for step & shape * temporal fix for the missing original dimension information * fix parseUnsqueeze when it gets a 1d tensor constant * support sum/mean/min/max with only one input * reuse old code to handle cases of two non-constant inputs * add condition to handle div & mul of two non-constant inputs * use || instead of or * remove trainling spaces * enlarge buf in binary_forward to contain other buffer * use autobuffer in nary_forward * generate data randomly and add more cases for perf * add op and, or & xor * update perf_dnn * remove some comments * remove legacy; add two ONNX conformance tests in filter * move from cpu_denylist to all_denylist * adjust parsing for inputs>=2 Co-authored-by: fengyuentau <yuantao.feng@opencv.org.cn>
2 years ago
Mat a(a_shape, CV_32FC1);
Mat b(b_shape, CV_32FC1);
Scalar mean = 0.f;
Scalar std = 1.f;
randn(a, mean, std);
randn(b, mean, std);
Net net;
LayerParams lp;
if (isRef)
lp.type = "Eltwise";
else
lp.type = "NaryEltwise";
lp.name = "testLayer";
lp.set("operation", op);
int id = net.addLayerToPrev(lp.name, lp.type, lp);
net.connect(0, 1, id, 1);
// warmup
{
std::vector<String> inpNames(2);
inpNames[0] = "a";
inpNames[1] = "b";
net.setInputsNames(inpNames);
net.setInput(a, inpNames[0]);
net.setInput(b, inpNames[1]);
net.setPreferableBackend(backendId);
net.setPreferableTarget(targetId);
Mat out = net.forward();
}
TEST_CYCLE()
{
Mat res = net.forward();
}
SANITY_CHECK_NOTHING();
}
int N = 8;
int C = 256;
int H = 128;
int W = 100;
};
PERF_TEST_P_(Layer_NaryEltwise, NCHW_NCHW_add)
{
test_layer({N, C, H, W}, {N, C, H, W}, "add");
}
PERF_TEST_P_(Layer_NaryEltwise, NCHW_NCHW_div)
{
test_layer({N, C, H, W}, {N, C, H, W}, "div");
}
PERF_TEST_P_(Layer_NaryEltwise, NCHW_NCHW_ref_div)
{
test_layer({N, C, H, W}, {N, C, H, W}, "div", true);
}
PERF_TEST_P_(Layer_NaryEltwise, NCHW_NCHW_equal)
{
test_layer({N, C, H, W}, {N, C, H, W}, "equal");
}
PERF_TEST_P_(Layer_NaryEltwise, NCHW_NCHW_greater)
{
test_layer({N, C, H, W}, {N, C, H, W}, "greater");
}
PERF_TEST_P_(Layer_NaryEltwise, NCHW_NCHW_less)
{
test_layer({N, C, H, W}, {N, C, H, W}, "less");
}
PERF_TEST_P_(Layer_NaryEltwise, NCHW_NCHW_max)
{
test_layer({N, C, H, W}, {N, C, H, W}, "max");
}
PERF_TEST_P_(Layer_NaryEltwise, NCHW_NCHW_ref_max)
{
test_layer({N, C, H, W}, {N, C, H, W}, "max", true);
}
dnn: fix OpenCL implementation of Slice layer
4 years ago
Merge pull request #21865 from rogday:nary_eltwise_layers Reimplementation of Element-wise layers with broadcasting support * init * semi-working initial version * add small_vector * wip * remove smallvec * add nary function * replace auto with Mat in lambda expr used in transform * uncomment asserts * autobuffer shape_buf & step_buf * fix a missing bracket * fixed a missing addLayer in parseElementWise * solve one-dimensional broadcast * remove pre_broadcast_transform for the case of two constants; fix missing constBlobsExtraInfo when addConstant is called * one autobuffer for step & shape * temporal fix for the missing original dimension information * fix parseUnsqueeze when it gets a 1d tensor constant * support sum/mean/min/max with only one input * reuse old code to handle cases of two non-constant inputs * add condition to handle div & mul of two non-constant inputs * use || instead of or * remove trainling spaces * enlarge buf in binary_forward to contain other buffer * use autobuffer in nary_forward * generate data randomly and add more cases for perf * add op and, or & xor * update perf_dnn * remove some comments * remove legacy; add two ONNX conformance tests in filter * move from cpu_denylist to all_denylist * adjust parsing for inputs>=2 Co-authored-by: fengyuentau <yuantao.feng@opencv.org.cn>
2 years ago
PERF_TEST_P_(Layer_NaryEltwise, NCHW_NCHW_mean)
{
test_layer({N, C, H, W}, {N, C, H, W}, "mean");
}
PERF_TEST_P_(Layer_NaryEltwise, NCHW_NCHW_min)
{
test_layer({N, C, H, W}, {N, C, H, W}, "min");
}
PERF_TEST_P_(Layer_NaryEltwise, NCHW_NCHW_ref_min)
{
test_layer({N, C, H, W}, {N, C, H, W}, "min", true);
}
PERF_TEST_P_(Layer_NaryEltwise, NCHW_NCHW_mul)
{
test_layer({N, C, H, W}, {N, C, H, W}, "mul");
}
PERF_TEST_P_(Layer_NaryEltwise, NCHW_NCHW_ref_mul)
{
test_layer({N, C, H, W}, {N, C, H, W}, "prod", true);
}
PERF_TEST_P_(Layer_NaryEltwise, NCHW_NCHW_pow)
{
test_layer({N, C, H, W}, {N, C, H, W}, "pow");
}
PERF_TEST_P_(Layer_NaryEltwise, NCHW_NCHW_sub)
{
test_layer({N, C, H, W}, {N, C, H, W}, "sub");
}
PERF_TEST_P_(Layer_NaryEltwise, NCHW_NCHW_sum)
{
test_layer({N, C, H, W}, {N, C, H, W}, "sum");
}
PERF_TEST_P_(Layer_NaryEltwise, NCHW_NCHW_ref_sum)
{
test_layer({N, C, H, W}, {N, C, H, W}, "sum", true);
}
PERF_TEST_P_(Layer_NaryEltwise, NCHW_C_sum)
{
test_layer({N, C, H, W}, {C, 1, 1}, "sum");
}
PERF_TEST_P_(Layer_NaryEltwise, NHWC_C)
{
test_layer({N, H, W, C}, {1, C}, "sum");
}
dnn: fix OpenCL implementation of Slice layer
4 years ago
PERF_TEST_P_(Layer_Slice, YOLOv4_tiny_1)
{
const int inputShape[4] = {1, 64, 104, 104};
const int begin[] = {0, 32, 0, 0};
const int end[] = {1, 64, 104, 104};
test_slice<4>(inputShape, begin, end);
}
PERF_TEST_P_(Layer_Slice, YOLOv4_tiny_2)
{
const int inputShape[4] = {1, 128, 52, 52};
const int begin[] = {0, 64, 0, 0};
const int end[] = {1, 128, 52, 52};
test_slice<4>(inputShape, begin, end);
}
PERF_TEST_P_(Layer_Slice, YOLOv4_tiny_3)
{
const int inputShape[4] = {1, 256, 26, 26};
const int begin[] = {0, 128, 0, 0};
const int end[] = {1, 256, 26, 26};
test_slice<4>(inputShape, begin, end);
}
PERF_TEST_P_(Layer_Slice, FastNeuralStyle_eccv16)
{
const int inputShape[4] = {1, 128, 80, 100};
const int begin[] = {0, 0, 2, 2};
const int end[] = {1, 128, 76, 96};
test_slice<4>(inputShape, begin, end);
}
implementation of scatter and scatternd with conformance tests enabled
2 years ago
struct Layer_Scatter : public TestBaseWithParam<tuple<Backend, Target> >
{
void test_layer(const std::vector<int>& shape, const String reduction = "none", int axis = 0)
{
int backendId = get<0>(GetParam());
int targetId = get<1>(GetParam());
Mat data(shape, CV_32FC1);
Mat indices(shape, CV_32FC1);
Mat updates(shape, CV_32FC1);
Scalar mean = 0.f;
Scalar std = 1.f;
randn(data, mean, std);
randu(indices, 0, shape[axis]);
randn(updates, mean, std);
indices.convertTo(indices, CV_32SC1, 1, -1);
Net net;
LayerParams lp;
lp.type = "Scatter";
lp.name = "testLayer";
lp.set("reduction", reduction);
lp.set("axis", axis);
int id = net.addLayerToPrev(lp.name, lp.type, lp);
net.connect(0, 0, id, 0);
net.connect(0, 1, id, 1);
net.connect(0, 2, id, 2);
// warmup
{
std::vector<String> inpNames(3);
inpNames[0] = "data";
inpNames[1] = "indices";
inpNames[2] = "updates";
net.setInputsNames(inpNames);
net.setInput(data, inpNames[0]);
net.setInput(indices, inpNames[1]);
net.setInput(updates, inpNames[2]);
net.setPreferableBackend(backendId);
net.setPreferableTarget(targetId);
Mat out = net.forward();
}
TEST_CYCLE()
{
Mat res = net.forward();
}
SANITY_CHECK_NOTHING();
}
int N = 8;
int C = 256;
int H = 128;
int W = 100;
};
PERF_TEST_P_(Layer_Scatter, DISABLED_Scatter)
{
test_layer({N, C, H, W});
}
PERF_TEST_P_(Layer_Scatter, DISABLED_Scatter_add)
{
test_layer({N, C, H, W}, "add");
}
struct Layer_ScatterND : public TestBaseWithParam<tuple<Backend, Target> >
{
void test_layer(const std::vector<int>& shape, const String reduction = "none")
{
int backendId = get<0>(GetParam());
int targetId = get<1>(GetParam());
std::vector<int> indices_shape(shape);
indices_shape.push_back(int(shape.size()));
Mat data(shape, CV_32FC1);
Mat indices(indices_shape, CV_32FC1);
Mat updates(shape, CV_32FC1);
Scalar mean = 0.f;
Scalar std = 1.f;
randn(data, mean, std);
randn(updates, mean, std);
// initialize the indices with index tuples like [0...N, 0...C, 0...H, 0...W]
std::vector<int> current_index_tuple(shape.size());
int total = data.total();
std::vector<int> indices_step;
for (int i = 0; i < indices.dims; i++)
{
int step = indices.step.p[i] / sizeof(float);
indices_step.push_back(step);
}
int t, j, idx, offset_at_idx, offset;
for (int i = 0; i < total; i++)
{
t = i;
for (j = shape.size() - 1; j >= 0; j--)
{
idx = t / shape[j];
offset_at_idx = (int)(t - idx * shape[j]);
current_index_tuple[j] = offset_at_idx;
t = idx;
}
offset = 0;
for (j = 0; j < shape.size(); j++)
offset += current_index_tuple[j] * indices_step[j];
for (j = 0; j < shape.size(); j++)
indices.at<float>(offset + j) = current_index_tuple[j];
}
Net net;
LayerParams lp;
lp.type = "ScatterND";
lp.name = "testLayer";
lp.set("reduction", reduction);
int id = net.addLayerToPrev(lp.name, lp.type, lp);
net.connect(0, 0, id, 0);
net.connect(0, 1, id, 1);
net.connect(0, 2, id, 2);
// warmup
{
std::vector<String> inpNames(3);
inpNames[0] = "data";
inpNames[1] = "indices";
inpNames[2] = "updates";
net.setInputsNames(inpNames);
net.setInput(data, inpNames[0]);
net.setInput(indices, inpNames[1]);
net.setInput(updates, inpNames[2]);
net.setPreferableBackend(backendId);
net.setPreferableTarget(targetId);
Mat out = net.forward();
}
TEST_CYCLE()
{
Mat res = net.forward();
}
SANITY_CHECK_NOTHING();
}
int N = 8;
int C = 256;
int H = 128;
int W = 100;
};
PERF_TEST_P_(Layer_ScatterND, DISABLED_ScatterND)
{
test_layer({N, C, H ,W});
}
PERF_TEST_P_(Layer_ScatterND, DISABLED_ScatterND_add)
{
test_layer({N, C, H , W}, "add");
}
Merge pull request #23047 from fengyuentau:layer_norm dnn: add layer normalization for vision transformers * add layer norm onnx parser, impl and tests * add onnx graph simplifier for layer norm expanded * handle the case when constants are of type Initializer * add test case for layer norm expanded with initializers * use CV_Assert & CV_CheckType in place of CV_Assert_N; use forward_fallback for OCL_FP16 * use const ref / ref in parameters of invoker::run; extract inner const if from nested loop; use size_t in place of ull * template hasBias * remove trailing whitespace * use pointer parameter with null check; move normSize division & mean_square division outside of loop; use std::max to ensure positive value before std::sqrt * refactor implementation, optimize parallel_for * disable layer norm expanded * remove the removal of layer norm optional outputs
2 years ago
struct Layer_LayerNorm : public TestBaseWithParam<tuple<Backend, Target> >
{
void test_layer(const std::vector<int>& x_shape)
{
int backendId = get<0>(GetParam());
int targetId = get<1>(GetParam());
Mat x(x_shape, CV_32FC1);
Mat scale(x_shape.back(), 1, CV_32FC1);
Mat b(x_shape.back(), 1, CV_32FC1);
randu(x, 0.f, 1.f);
randu(scale, 0.f, 1.f);
randu(b, 0.f, 1.f);
Net net;
LayerParams lp;
lp.type = "LayerNormalization";
lp.name = "testLayer";
lp.set("axis", 2);
lp.set("hasBias", true);
int id = net.addLayerToPrev(lp.name, lp.type, lp);
net.connect(0, 0, id, 0);
net.connect(0, 1, id, 1);
net.connect(0, 2, id, 2);
// warmup
{
std::vector<String> inpNames(3);
inpNames[0] = "x";
inpNames[1] = "scale";
inpNames[2] = "b";
net.setInputsNames(inpNames);
net.setInput(x, inpNames[0]);
net.setInput(scale, inpNames[1]);
net.setInput(b, inpNames[2]);
net.setPreferableBackend(backendId);
net.setPreferableTarget(targetId);
Mat out = net.forward();
}
TEST_CYCLE()
{
Mat res = net.forward();
}
SANITY_CHECK_NOTHING();
}
int N = 1;
int H = 50;
int W = 768;
};
PERF_TEST_P_(Layer_LayerNorm, LayerNorm)
{
test_layer({N, H ,W});
}
struct Layer_LayerNormExpanded : public TestBaseWithParam<tuple<Backend, Target> >
{
void test_layer(const std::vector<int>& x_shape)
{
int backendId = get<0>(GetParam());
int targetId = get<1>(GetParam());
Mat x(x_shape, CV_32FC1);
Mat scale(1, x_shape.back(), CV_32FC1); // transpose to pass shape check
Mat b(1, x_shape.back(), CV_32FC1); // transpose to pass shape check
randu(x, 0.f, 1.f);
randu(scale, 0.f, 1.f);
randu(b, 0.f, 1.f);
// sub graph structure:
// -> ReduceMean -> -> Pow(2) -> ReduceMean -> Add(epsilon) -> Sqrt ->
// x Sub Div -> Mul(scale) -> Add(bias)
// ---------------> ------------------------------------------------->
Net net;
LayerParams lp_rm;
lp_rm.type = "Reduce";
lp_rm.name = "reducemean1";
lp_rm.set("reduce", "AVE");
std::vector<int> deleteDims(1, x_shape.back());
lp_rm.set("deleted_dims", DictValue::arrayInt(&deleteDims[0], deleteDims.size()));
std::vector<int> targetDims(x_shape.begin(), x_shape.end());
targetDims[x_shape.size() - 1] = 1;
lp_rm.set("target_dims", DictValue::arrayInt(&targetDims[0], targetDims.size()));
int id_rm = net.addLayerToPrev(lp_rm.name, lp_rm.type, lp_rm);
net.connect(0, 0, id_rm, 0);
LayerParams lp_sub;
lp_sub.type = "NaryEltwise";
lp_sub.name = "sub1";
lp_sub.set("operation", "sub");
int id_sub = net.addLayer(lp_sub.name, lp_sub.type, lp_sub);
net.connect(0, 0, id_sub, 0);
net.connect(id_rm, 0, id_sub, 1);
Mat pow_const(1, 1, CV_32FC1);
pow_const.at<float>(0) = 2.f;
LayerParams lp_pow_const;
lp_pow_const.type = "Const";
lp_pow_const.name = "const1";
lp_pow_const.blobs.push_back(pow_const);
int id_pow_const = net.addLayer(lp_pow_const.name, lp_pow_const.type, lp_pow_const);
LayerParams lp_pow;
lp_pow.type = "NaryEltwise";
lp_pow.name = "pow1";
lp_pow.set("operation", "pow");
int id_pow = net.addLayer(lp_pow.name, lp_pow.type, lp_pow);
net.connect(id_sub, 0, id_pow, 0);
net.connect(id_pow_const, 0, id_pow, 1);
LayerParams lp_rm1;
lp_rm1.type = "Reduce";
lp_rm1.name = "reducemean2";
lp_rm1.set("reduce", "AVE");
lp_rm1.set("deleted_dims", DictValue::arrayInt(&deleteDims[0], deleteDims.size()));
lp_rm1.set("target_dims", DictValue::arrayInt(&targetDims[0], targetDims.size()));
int id_rm1 = net.addLayer(lp_rm1.name, lp_rm1.type, lp_rm1);
net.connect(id_pow, 0, id_rm1, 0);
Mat add_const(1, 1, CV_32F);
add_const.at<float>(0) = 1e-5;
LayerParams lp_add_const;
lp_add_const.type = "Const";
lp_add_const.name = "const2";
lp_add_const.blobs.push_back(add_const);
int id_add_const = net.addLayer(lp_add_const.name, lp_add_const.type, lp_add_const);
LayerParams lp_add;
lp_add.type = "NaryEltwise";
lp_add.name = "add1";
lp_add.set("operation", "add");
int id_add = net.addLayer(lp_add.name, lp_add.type, lp_add);
net.connect(id_rm1, 0, id_add, 0);
net.connect(id_add_const, 0, id_add, 1);
LayerParams lp_sqrt;
lp_sqrt.type = "Sqrt";
lp_sqrt.name = "sqrt1";
int id_sqrt = net.addLayer(lp_sqrt.name, lp_sqrt.type, lp_sqrt);
net.connect(id_add, 0, id_sqrt, 0);
LayerParams lp_div;
lp_div.type = "NaryEltwise";
lp_div.name = "div1";
lp_div.set("operation", "div");
int id_div = net.addLayer(lp_div.name, lp_div.type, lp_div);
net.connect(id_sub, 0, id_div, 0);
net.connect(id_sqrt, 0, id_div, 1);
LayerParams lp_mul;
lp_mul.type = "NaryEltwise";
lp_mul.name = "mul1";
lp_mul.set("operation", "mul");
int id_mul = net.addLayer(lp_mul.name, lp_mul.type, lp_mul);
net.connect(id_div, 0, id_mul, 0);
net.connect(0, 1, id_mul, 1);
LayerParams lp_add1;
lp_add1.type = "NaryEltwise";
lp_add1.name = "add2";
lp_add1.set("operation", "add");
int id_add1 = net.addLayer(lp_add1.name, lp_add1.type, lp_add1);
net.connect(id_mul, 0, id_add1, 0);
net.connect(0, 2, id_add1, 1);
// warmup
{
std::vector<String> inpNames(3);
inpNames[0] = "x";
inpNames[1] = "scale";
inpNames[2] = "b";
net.setInputsNames(inpNames);
net.setInput(x, inpNames[0]);
net.setInput(scale, inpNames[1]);
net.setInput(b, inpNames[2]);
net.setPreferableBackend(backendId);
net.setPreferableTarget(targetId);
Mat out = net.forward();
}
TEST_CYCLE()
{
Mat res = net.forward();
}
SANITY_CHECK_NOTHING();
}
int N = 1;
int H = 50;
int W = 768;
};
PERF_TEST_P_(Layer_LayerNormExpanded, DISABLED_LayerNormExpanded)
{
test_layer({N, H ,W});
}
dnn: fix OpenCL implementation of Slice layer
4 years ago
INSTANTIATE_TEST_CASE_P(/**/, Layer_Slice, dnnBackendsAndTargets(false, false));
Merge pull request #21865 from rogday:nary_eltwise_layers Reimplementation of Element-wise layers with broadcasting support * init * semi-working initial version * add small_vector * wip * remove smallvec * add nary function * replace auto with Mat in lambda expr used in transform * uncomment asserts * autobuffer shape_buf & step_buf * fix a missing bracket * fixed a missing addLayer in parseElementWise * solve one-dimensional broadcast * remove pre_broadcast_transform for the case of two constants; fix missing constBlobsExtraInfo when addConstant is called * one autobuffer for step & shape * temporal fix for the missing original dimension information * fix parseUnsqueeze when it gets a 1d tensor constant * support sum/mean/min/max with only one input * reuse old code to handle cases of two non-constant inputs * add condition to handle div & mul of two non-constant inputs * use || instead of or * remove trainling spaces * enlarge buf in binary_forward to contain other buffer * use autobuffer in nary_forward * generate data randomly and add more cases for perf * add op and, or & xor * update perf_dnn * remove some comments * remove legacy; add two ONNX conformance tests in filter * move from cpu_denylist to all_denylist * adjust parsing for inputs>=2 Co-authored-by: fengyuentau <yuantao.feng@opencv.org.cn>
2 years ago
INSTANTIATE_TEST_CASE_P(/**/, Layer_NaryEltwise, testing::Values(std::make_tuple(DNN_BACKEND_OPENCV, DNN_TARGET_CPU)));
Let part of the operators in nary_eltwise support cuda
2 years ago
#ifdef HAVE_CUDA
INSTANTIATE_TEST_CASE_P(CUDA, Layer_NaryEltwise, testing::Values(std::make_tuple(DNN_BACKEND_CUDA, DNN_TARGET_CUDA)));
#endif
implementation of scatter and scatternd with conformance tests enabled
2 years ago
INSTANTIATE_TEST_CASE_P(/**/, Layer_Scatter, testing::Values(std::make_tuple(DNN_BACKEND_OPENCV, DNN_TARGET_CPU)));
INSTANTIATE_TEST_CASE_P(/**/, Layer_ScatterND, testing::Values(std::make_tuple(DNN_BACKEND_OPENCV, DNN_TARGET_CPU)));
Merge pull request #23047 from fengyuentau:layer_norm dnn: add layer normalization for vision transformers * add layer norm onnx parser, impl and tests * add onnx graph simplifier for layer norm expanded * handle the case when constants are of type Initializer * add test case for layer norm expanded with initializers * use CV_Assert & CV_CheckType in place of CV_Assert_N; use forward_fallback for OCL_FP16 * use const ref / ref in parameters of invoker::run; extract inner const if from nested loop; use size_t in place of ull * template hasBias * remove trailing whitespace * use pointer parameter with null check; move normSize division & mean_square division outside of loop; use std::max to ensure positive value before std::sqrt * refactor implementation, optimize parallel_for * disable layer norm expanded * remove the removal of layer norm optional outputs
2 years ago
INSTANTIATE_TEST_CASE_P(/**/, Layer_LayerNorm, testing::Values(std::make_tuple(DNN_BACKEND_OPENCV, DNN_TARGET_CPU)));
INSTANTIATE_TEST_CASE_P(/**/, Layer_LayerNormExpanded, testing::Values(std::make_tuple(DNN_BACKEND_OPENCV, DNN_TARGET_CPU)));
dnn: fix OpenCL implementation of Slice layer
4 years ago
} // namespace