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Commit d5122475 authored by Shucai Xiao's avatar Shucai Xiao
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add more test cases for the dot operator.

parent 626f8dc1
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Showing with 1791 additions and 385 deletions
src/include/migraphx/operators.hpp
View file @ d5122475
......@@ -845,6 +845,11 @@ struct dot
const shape& b = inputs.at(1);
auto t = a.type();
if (!std::all_of(inputs.begin(), inputs.end(), [](auto s) { return s.lens().size() >= 2; }))
{
MIGRAPHX_THROW("DOT: dot only accept 2 or more dims operands");
}
// only handle the case that the batch size of a and b are the same
if(!std::equal(
a.lens().rbegin() + 2, a.lens().rend(), b.lens().rbegin() + 2, b.lens().rend()))
......
src/onnx/onnx.cpp
View file @ d5122475
......@@ -552,7 +552,9 @@ struct onnx_parser
auto l1_it = l1_lens.begin() + l1_lens.size() - 2;
std::vector<std::size_t> l1_broadcasted_lens(l1_lens.begin(), l1_it);
auto output_lens = compute_broadcasted_lens(l0_broadcasted_lens, l1_broadcasted_lens);
l0_broadcasted_lens = output_lens;
l0_broadcasted_lens.insert(l0_broadcasted_lens.end(), l0_it, l0_lens.end());
l1_broadcasted_lens = output_lens;
l1_broadcasted_lens.insert(l1_broadcasted_lens.end(), l1_it, l1_lens.end());
if(l0_lens != l0_broadcasted_lens)
{
......
src/targets/gpu/gemm.cpp
View file @ d5122475
......@@ -170,11 +170,7 @@ rocblas_half to_rocblas_type(half x) { return reinterpret_cast<const rocblas_hal
shape miopen_gemm::compute_shape(const std::vector<shape>& inputs) const
{
std::vector<shape> input_shapes(inputs.begin(), inputs.begin() + inputs.size() - 1);
if(input_shapes.size() == 3)
{
auto c_shape = inputs[2];
check_shapes{{c_shape}}.not_broadcasted();
}
check_shapes{input_shapes}.not_broadcasted();
return op.compute_shape(input_shapes);
}
......@@ -235,7 +231,6 @@ argument miopen_gemm::compute(context& ctx,
m * n,
num_matrices);
});
// device::add(ctx.get_stream().get(), args[3], args[2], args[3]);
return args[3];
}
......@@ -244,96 +239,6 @@ argument miopen_gemm::compute(context& ctx,
// vector inner product
auto a_lens = args[0].get_shape().lens();
auto b_lens = args[1].get_shape().lens();
if(output_shape.elements() == 1)
{
assert(args[0].get_shape().elements() == args[1].get_shape().elements());
float beta = 0.0f;
rocblas_int elem_num = static_cast<rocblas_int>(args[0].get_shape().elements());
output_shape.visit_type([&](auto as) {
auto alpha_r = to_rocblas_type(as(op.alpha));
auto beta_r = to_rocblas_type(as(beta));
auto to_pointer = [&](auto&& arg) { return to_rocblas_type(as.from(arg.data())); };
// the function generic_rocblas_dot is not stable, so have to
// call the gemm function instead. In the future, we may change
// to call generic_rocblas_dot when it is stable.
generic_rocblas_gemm(as,
ctx.get_stream().get_rocblas(),
rocblas_operation_none,
rocblas_operation_none,
1,
1,
elem_num,
&alpha_r,
to_pointer(args[1]),
1,
to_pointer(args[0]),
elem_num,
&beta_r,
to_pointer(args[2]),
1);
});
}
// matrix * vector (b is a vector)
else if(b_lens.size() == 2 && b_lens.at(1) == 1)
{
bool transa = args[0].get_shape().transposed();
rocblas_int m = static_cast<rocblas_int>(a_lens[0]);
rocblas_int n = static_cast<rocblas_int>(a_lens[1]);
rocblas_int lda = args[0].get_shape().strides()[transa ? 1 : 0];
float beta = 0.0f;
assert(a_lens.back() == args[1].get_shape().elements());
output_shape.visit_type([&](auto as) {
auto alpha_r = to_rocblas_type(as(op.alpha));
auto beta_r = to_rocblas_type(as(beta));
auto to_pointer = [&](auto&& arg) { return to_rocblas_type(as.from(arg.data())); };
generic_rocblas_gemv(as,
ctx.get_stream().get_rocblas(),
transa ? rocblas_operation_transpose : rocblas_operation_none,
m,
n,
&alpha_r,
to_pointer(args[0]),
lda,
to_pointer(args[1]),
1,
&beta_r,
to_pointer(args[2]),
1);
});
}
// vector * matrix (a is a vector)
else if(a_lens.size() == 2 && a_lens.at(0) == 1)
{
bool transb = !args[1].get_shape().transposed();
rocblas_int ldb = args[1].get_shape().strides()[(transb ? 1 : 0)];
rocblas_int m = b_lens[0];
rocblas_int n = b_lens[1];
float beta = 0.0f;
assert(b_lens[0] == args[0].get_shape().elements());
output_shape.visit_type([&](auto as) {
auto alpha_r = to_rocblas_type(as(op.alpha));
auto beta_r = to_rocblas_type(as(beta));
auto to_pointer = [&](auto&& arg) { return to_rocblas_type(as.from(arg.data())); };
generic_rocblas_gemv(as,
ctx.get_stream().get_rocblas(),
transb ? rocblas_operation_transpose : rocblas_operation_none,
m,
n,
&alpha_r,
to_pointer(args[1]),
ldb,
to_pointer(args[0]),
1,
&beta_r,
to_pointer(args[2]),
1);
});
}
// batch matrix multiplication
else
{
output_shape.visit_type([&](auto as) {
auto n_dim = output_shape.lens().size();
auto dim_1 = n_dim - 1;
......@@ -355,6 +260,27 @@ argument miopen_gemm::compute(context& ctx,
std::size_t{1},
std::multiplies<std::size_t>());
auto to_pointer = [&](auto&& arg) { return to_rocblas_type(as.from(arg.data())); };
if (num_matrices == 1)
{
generic_rocblas_gemm(
as,
ctx.get_stream().get_rocblas(),
transb ? rocblas_operation_transpose : rocblas_operation_none,
transa ? rocblas_operation_transpose : rocblas_operation_none,
n,
m,
k,
&alpha_r,
to_pointer(args[1]),
ldb,
to_pointer(args[0]),
lda,
&beta_r,
to_pointer(args[2]),
ldc);
}
else
{
generic_rocblas_batched_gemm(
as,
ctx.get_stream().get_rocblas(),
......@@ -375,8 +301,8 @@ argument miopen_gemm::compute(context& ctx,
ldc,
m * n,
num_matrices);
});
}
});
return args[2];
}
......
test/cpu_dot_op_test.cpp 0 → 100644
View file @ d5122475
This diff is collapsed.
test/cpu_ops_test.cpp
View file @ d5122475
......@@ -876,242 +876,6 @@ TEST_CASE(reshape_test)
}
}
template <class T>
void gemm_test()
{
migraphx::program p;
std::vector<T> a = {-0.00925222, 0.56250403, 0.70107397, 0.75402161, -0.505885,
1.33628943, -0.11413, -0.31270559, 1.59336732, -0.19361027,
-0.91620867, 0.40108416, -0.06969921, 0.68483471, -0.39906632,
-1.66423624, 0.69040076, -1.31490171, -0.11282616, -0.79391814};
std::vector<float> b = {6.09568541e-01,
-6.10527007e-01,
3.66646462e-01,
1.18951101e-01,
5.58777432e-01,
-3.21296298e-01,
-5.95997198e-01,
-5.01425721e-01,
-2.84606807e-01,
-5.73673557e-01,
-8.99430260e-01,
-4.25103093e-01,
1.53027987e+00,
-3.81407415e-04,
-3.29650255e-01};
std::vector<float> c = {-1.56327541e+00,
-7.09570140e-01,
-5.37424982e-01,
-2.22994831e-01,
-2.15586437e+00,
2.09177941e-03,
-1.47279677e+00,
2.02627040e-01,
-6.04527691e-01,
-1.29885596e+00,
2.16294914e+00,
-1.48101497e-01};
migraphx::shape a_shape{migraphx::shape::get_type<T>{}, {4, 5}};
auto al = p.add_literal(migraphx::literal{a_shape, a});
migraphx::shape b_shape{migraphx::shape::get_type<T>{}, {5, 3}};
auto bl = p.add_literal(migraphx::literal{b_shape, b});
p.add_instruction(migraphx::op::dot{}, al, bl);
p.compile(migraphx::cpu::target{});
auto result = p.eval({});
std::vector<T> results_vector(12);
result.visit([&](auto output) { results_vector.assign(output.begin(), output.end()); });
EXPECT(migraphx::verify_range(c, results_vector));
}
TEST_CASE_REGISTER(gemm_test<float>)
TEST_CASE_REGISTER(gemm_test<double>)
template <class T>
void gemm_test_ex()
{
migraphx::program p;
std::vector<T> a = {-0.00925222, 0.56250403, 0.70107397, 0.75402161, -0.505885,
1.33628943, -0.11413, -0.31270559, 1.59336732, -0.19361027,
-0.91620867, 0.40108416, -0.06969921, 0.68483471, -0.39906632,
-1.66423624, 0.69040076, -1.31490171, -0.11282616, -0.79391814};
std::vector<float> b = {6.09568541e-01,
-6.10527007e-01,
3.66646462e-01,
1.18951101e-01,
5.58777432e-01,
-3.21296298e-01,
-5.95997198e-01,
-5.01425721e-01,
-2.84606807e-01,
-5.73673557e-01,
-8.99430260e-01,
-4.25103093e-01,
1.53027987e+00,
-3.81407415e-04,
-3.29650255e-01};
std::vector<float> c = {-1.56327541e+00,
-7.09570140e-01,
-5.37424982e-01,
-2.22994831e-01,
-2.15586437e+00,
2.09177941e-03,
-1.47279677e+00,
2.02627040e-01,
-6.04527691e-01,
-1.29885596e+00,
2.16294914e+00,
-1.48101497e-01};
migraphx::shape a_shape{migraphx::shape::get_type<T>{}, {1, 1, 4, 5}};
auto al = p.add_literal(migraphx::literal{a_shape, a});
migraphx::shape b_shape{migraphx::shape::get_type<T>{}, {1, 1, 5, 3}};
auto bl = p.add_literal(migraphx::literal{b_shape, b});
p.add_instruction(migraphx::op::dot{}, al, bl);
p.compile(migraphx::cpu::target{});
auto result = p.eval({});
std::vector<T> results_vector(12);
result.visit([&](auto output) { results_vector.assign(output.begin(), output.end()); });
EXPECT(migraphx::verify_range(c, results_vector));
}
TEST_CASE_REGISTER(gemm_test_ex<float>)
TEST_CASE_REGISTER(gemm_test_ex<double>)
TEST_CASE(gemm_mutli_dim_2)
{
migraphx::program p;
std::vector<float> m1 = {-0.76234141,
0.01368910,
-0.86343423,
-0.99465282,
0.76133268,
0.96507140,
-0.55893585,
0.02625652,
0.75171776,
0.23112578,
0.25624787,
-1.50442161};
migraphx::shape m1_shape{migraphx::shape::float_type, {2, 2, 3}};
std::vector<float> m2 = {-0.15933632, -0.69594712, -0.06198966, -1.23905184, -0.83672704,
-1.06971832, -0.12272917, 1.07094116, -0.08346820, 1.16820693,
-0.95700874, 0.24059691, 0.43326023, 0.78305235, -0.53506601,
-0.69359678, -0.26334436, 1.56292796, -0.33629175, -1.72693469,
0.41435494, 1.52136843, -0.40699791, -1.59839430};
migraphx::shape m2_shape{migraphx::shape::float_type, {2, 3, 4}};
auto l1 = p.add_literal(migraphx::literal{m1_shape, m1});
auto l2 = p.add_literal(migraphx::literal{m2_shape, m2});
p.add_instruction(migraphx::op::dot{}, l1, l2);
p.compile(migraphx::cpu::target{});
auto result = p.eval({});
std::vector<float> m;
result.visit([&](auto output) { m.assign(output.begin(), output.end()); });
std::vector<float> m_res = {0.18208394,
-0.49276402,
0.87189133,
0.75150114,
-0.55909610,
1.00521735,
-0.95536130,
2.27996211,
0.06239879,
0.74700068,
-0.01570983,
-0.85920856,
-0.59070835,
-1.70729902,
0.40245487,
1.80182751};
EXPECT(migraphx::verify_range(m, m_res));
}
TEST_CASE(gemm_mutli_dim_2_3)
{
migraphx::program p;
std::vector<float> m1 = {
-1.93300070, 0.33902698, -0.45173527, -0.72283069, -0.17177134, 1.62199882,
0.87052847, 0.14989811, -0.88969184, -0.18131398, 0.72654339, -0.57123693,
0.03852506, -0.72332085, -1.81844083, -0.33465167, -0.71400352, 0.36883161,
0.08698452, 0.94974586, 0.40087323, -0.05448534, 0.03220677, -1.22494296,
0.97938472, -1.43714454, -0.80430904, -0.08098728, 0.31520301, 0.49642169,
-1.63471091, 0.34390096, 2.81292176, -0.22666528, 1.54559556, -1.51075762};
migraphx::shape m1_shape{migraphx::shape::float_type, {2, 3, 2, 3}};
std::vector<float> m2 = {
-0.33170529, 2.26325120, -0.50639461, 0.64802947, 0.44748888, 0.33768068,
-0.53621075, 0.34341460, 0.58742520, -1.13995790, -0.99322535, 0.35447353,
0.01977110, -0.10155016, -1.02288245, -0.16575791, -1.47870374, 0.29300008,
-0.39112198, 1.42303608, -0.02853060, 1.52610164, 0.53540909, 0.75618998,
-0.26877787, -1.90886366, 0.30622790, 0.59794535, 1.29795331, -0.37805803,
-1.58167176, -1.26966832, 0.27435891, 0.89430347, 0.22854926, -0.50317658};
migraphx::shape m2_shape{migraphx::shape::float_type, {2, 3, 3, 2}};
auto l1 = p.add_literal(migraphx::literal{m1_shape, m1});
auto l2 = p.add_literal(migraphx::literal{m2_shape, m2});
p.add_instruction(migraphx::op::dot{}, l1, l2);
p.compile(migraphx::cpu::target{});
auto result = p.eval({});
std::vector<float> m;
result.visit([&](auto output) { m.assign(output.begin(), output.end()); });
std::vector<float> m_res = {0.26735861, -4.30770895, 1.05257728, -1.19954265, 0.50493170,
-0.18729756, 1.09137941, -1.09298312, 3.42956915, -0.41681939,
0.17833257, 0.26040336, 0.15351280, 1.87632715, -0.63545406,
-0.95467340, -1.74728628, -2.42477030, 0.76262372, 0.15539164,
3.32281958, 0.96769613, 0.43727545, 2.43019906};
EXPECT(migraphx::verify_range(m, m_res));
}
TEST_CASE(gemm_mutli_dim1_2_3)
{
migraphx::program p;
std::vector<float> m1 = {
1.23636469, -0.47041261, -0.14375651, -0.48371852, 1.16479301, -0.89361055,
-0.18569086, 1.10700457, -1.02632638, 0.82277012, 0.33525769, 0.52825145,
-1.00141689, 0.45510090, -0.02675039, -0.60454439, 0.38551153, -0.01658514,
0.93059292, -0.54595188, -0.04911005, -0.91397221, -0.83127477, -1.57685603,
-1.36200452, 2.25822236, -1.23416970, 0.12312496, 0.76232760, -0.83594234,
1.67418145, -0.19412936, 1.05261378, 0.66246074, -1.15233398, 0.16429736};
migraphx::shape m1_shape{migraphx::shape::float_type, {2, 3, 2, 3}};
std::vector<float> m2 = {
-0.87300530, -0.07112838, 0.19196860, -1.04986840, 1.20348200, 0.31966893,
1.04805440, -2.04777729, -0.67906052, -1.17250760, 0.34305044, -1.01957785,
-1.12694862, 0.18431338, -1.63712290, 0.27566931, -1.11282021, 1.41738919,
0.47871283, -1.01980420, 1.00212436, -0.78740444, -1.65636133, 1.51466547,
-0.12470397, 0.70404393, -0.15244797, 0.74288871, 0.07339926, -1.45811623,
0.27185845, 0.08804596, 0.99061977, -1.61752428, 0.29191159, 0.87271953};
migraphx::shape m2_shape{migraphx::shape::float_type, {2, 3, 3, 2}};
std::vector<float> m3 = {-1.07692443, 0.85223457, -0.37266530, 2.31511577, 0.04227017,
1.13229428, -0.52769242, 0.27307182, -0.47779843, -0.08023168,
-0.22862823, 0.81489871, 1.13139581, 1.13860467, 0.24309065,
0.26533729, 0.49106772, -1.18860493, 0.27842449, 1.03568141,
0.49759611, 0.10021662, 0.00592602, 0.90862000};
migraphx::shape m3_shape{migraphx::shape::float_type, {2, 3, 2, 2}};
auto l1 = p.add_literal(migraphx::literal{m1_shape, m1});
auto l2 = p.add_literal(migraphx::literal{m2_shape, m2});
auto l3 = p.add_literal(migraphx::literal{m3_shape, m3});
float alpha = 0.35;
float beta = 0.41;
auto m12_alpha = p.add_instruction(migraphx::op::dot{alpha, beta}, l1, l2);
auto l_beta = p.add_literal(beta);
auto b_beta = p.add_instruction(migraphx::op::scalar{m12_alpha->get_shape()}, l_beta);
auto m3_beta = p.add_instruction(migraphx::op::mul{}, b_beta, l3);
p.add_instruction(migraphx::op::add{}, m3_beta, m12_alpha);
p.compile(migraphx::cpu::target{});
auto result = p.eval({});
std::vector<float> m;
result.visit([&](auto output) { m.assign(output.begin(), output.end()); });
std::vector<float> m_res = {-0.91147203, 0.47540785, -0.30313587, 0.43325099, -0.43711586,
0.50928632, 0.06919868, -0.80382802, -0.05125718, -0.06685650,
-0.06972163, 0.32407764, 0.45677396, 0.25909489, 0.56911252,
-0.17183724, 0.10858734, 0.39406289, 0.04662959, 1.07979824,
0.40355016, 0.52410648, -0.31728447, 1.09550845};
EXPECT(migraphx::verify_range(m, m_res));
}
TEST_CASE(maxpool_test)
{
migraphx::program p;
......
test/gpu/miopen.cpp
View file @ d5122475
......@@ -870,7 +870,7 @@ struct test_gemm_transposeab : verify_program<test_gemm_transposeab>
}
};
struct gemm_mutli_dim_2
struct gemm_multi_dim_2 : verify_program<gemm_multi_dim_2>
{
migraphx::program create_program() const
{
......@@ -886,7 +886,127 @@ struct gemm_mutli_dim_2
}
};
struct gemm_mutli_dim_2_3
struct gemm_2args_mm_1 : verify_program<gemm_2args_mm_1>
{
migraphx::program create_program() const
{
migraphx::program p;
migraphx::shape m1_shape{migraphx::shape::float_type, {2, 2, 3}};
migraphx::shape m2_shape{migraphx::shape::float_type, {1, 3, 4}};
auto l1 = p.add_parameter("1", m1_shape);
auto l2 = p.add_parameter("2", m2_shape);
auto bl2 = p.add_instruction(migraphx::op::multibroadcast{{2, 3, 4}}, l2);
p.add_instruction(migraphx::op::dot{}, l1, bl2);
return p;
}
};
struct gemm_2args_mm_2 : verify_program<gemm_2args_mm_2>
{
migraphx::program create_program() const
{
migraphx::program p;
migraphx::shape m1_shape{migraphx::shape::float_type, {2, 2, 3}};
migraphx::shape m2_shape{migraphx::shape::float_type, {3, 4}};
auto l1 = p.add_parameter("1", m1_shape);
auto l2 = p.add_parameter("2", m2_shape);
auto bl2 = p.add_instruction(migraphx::op::multibroadcast{{2, 3, 4}}, l2);
p.add_instruction(migraphx::op::dot{}, l1, bl2);
return p;
}
};
struct gemm_2args_mm_3 : verify_program<gemm_2args_mm_3>
{
migraphx::program create_program() const
{
migraphx::program p;
migraphx::shape m1_shape{migraphx::shape::float_type, {1, 2, 3}};
migraphx::shape m2_shape{migraphx::shape::float_type, {3, 3, 4}};
auto l1 = p.add_parameter("1", m1_shape);
auto bl1 = p.add_instruction(migraphx::op::multibroadcast{{3, 2, 3}}, l1);
auto l2 = p.add_parameter("2", m2_shape);
p.add_instruction(migraphx::op::dot{}, bl1, l2);
return p;
}
};
struct gemm_2args_mm_4 : verify_program<gemm_2args_mm_4>
{
migraphx::program create_program() const
{
migraphx::program p;
migraphx::shape m1_shape{migraphx::shape::float_type, {2, 3}};
migraphx::shape m2_shape{migraphx::shape::float_type, {3, 3, 4}};
auto l1 = p.add_parameter("1", m1_shape);
auto bl1 = p.add_instruction(migraphx::op::multibroadcast{{3, 2, 3}}, l1);
auto l2 = p.add_parameter("2", m2_shape);
p.add_instruction(migraphx::op::dot{}, bl1, l2);
return p;
}
};
struct gemm_2args_mm_5 : verify_program<gemm_2args_mm_5>
{
migraphx::program create_program() const
{
migraphx::program p;
migraphx::shape m1_shape{migraphx::shape::float_type, {2, 1, 2, 3}};
migraphx::shape m2_shape{migraphx::shape::float_type, {2, 3, 3, 4}};
auto l1 = p.add_parameter("1", m1_shape);
auto bl1 = p.add_instruction(migraphx::op::multibroadcast{{2, 3, 2, 3}}, l1);
auto l2 = p.add_parameter("2", m2_shape);
p.add_instruction(migraphx::op::dot{}, bl1, l2);
return p;
}
};
struct gemm_2args_mm_6 : verify_program<gemm_2args_mm_6>
{
migraphx::program create_program() const
{
migraphx::program p;
migraphx::shape m1_shape{migraphx::shape::float_type, {2, 1, 2, 3}};
migraphx::shape m2_shape{migraphx::shape::float_type, {1, 3, 3, 4}};
auto l1 = p.add_parameter("1", m1_shape);
auto bl1 = p.add_instruction(migraphx::op::multibroadcast{{2, 3, 2, 3}}, l1);
auto l2 = p.add_parameter("2", m2_shape);
auto bl2 = p.add_instruction(migraphx::op::multibroadcast{{2, 3, 3, 4}}, l2);
p.add_instruction(migraphx::op::dot{}, bl1, bl2);
return p;
}
};
struct gemm_2args_mm_7 : verify_program<gemm_2args_mm_7>
{
migraphx::program create_program() const
{
migraphx::program p;
migraphx::shape m1_shape{migraphx::shape::float_type, {2, 3}};
migraphx::shape m2_shape{migraphx::shape::float_type, {2, 3, 3, 4}};
auto l1 = p.add_parameter("1", m1_shape);
auto bl1 = p.add_instruction(migraphx::op::multibroadcast{{2, 3, 2, 3}}, l1);
auto l2 = p.add_parameter("2", m2_shape);
p.add_instruction(migraphx::op::dot{}, bl1, l2);
return p;
}
};
struct gemm_multi_dim_2_3 : verify_program<gemm_multi_dim_2_3>
{
migraphx::program create_program() const
{
......@@ -902,6 +1022,182 @@ struct gemm_mutli_dim_2_3
}
};
struct gemm_2args_vv : verify_program<gemm_2args_vv>
{
migraphx::program create_program() const
{
migraphx::program p;
migraphx::shape m1_shape{migraphx::shape::float_type, {8}};
migraphx::shape m2_shape{migraphx::shape::float_type, {8}};
auto l1 = p.add_parameter("1", m1_shape);
auto ul1 = p.add_instruction(migraphx::op::unsqueeze{{0}}, l1);
auto l2 = p.add_parameter("2", m2_shape);
auto ul2 = p.add_instruction(migraphx::op::unsqueeze{{1}}, l2);
float alpha = 0.23f;
auto res = p.add_instruction(migraphx::op::dot{alpha}, ul1, ul2);
auto sres = p.add_instruction(migraphx::op::squeeze{{0}}, res);
p.add_instruction(migraphx::op::squeeze{{0}}, sres);
return p;
}
};
struct gemm_2args_mv : verify_program<gemm_2args_mv>
{
migraphx::program create_program() const
{
migraphx::program p;
migraphx::shape m1_shape{migraphx::shape::float_type, {3, 5}};
migraphx::shape m2_shape{migraphx::shape::float_type, {5}};
auto l1 = p.add_parameter("1", m1_shape);
auto l2 = p.add_parameter("2", m2_shape);
auto ul2 = p.add_instruction(migraphx::op::unsqueeze{{1}}, l2);
p.add_instruction(migraphx::op::dot{}, l1, ul2);
return p;
}
};
struct gemm_2args_bmv : verify_program<gemm_2args_bmv>
{
migraphx::program create_program() const
{
migraphx::program p;
migraphx::shape m1_shape{migraphx::shape::float_type, {2, 3, 3, 5}};
migraphx::shape m2_shape{migraphx::shape::float_type, {5}};
auto l1 = p.add_parameter("1", m1_shape);
auto l2 = p.add_parameter("2", m2_shape);
auto ul2 = p.add_instruction(migraphx::op::unsqueeze{{1}}, l2);
auto bul2 = p.add_instruction(migraphx::op::multibroadcast{{2, 3, 5, 1}}, ul2);
p.add_instruction(migraphx::op::dot{}, l1, bul2);
return p;
}
};
struct gemm_2args_vm : verify_program<gemm_2args_vm>
{
migraphx::program create_program() const
{
migraphx::program p;
migraphx::shape m1_shape{migraphx::shape::float_type, {5}};
migraphx::shape m2_shape{migraphx::shape::float_type, {5, 4}};
auto l1 = p.add_parameter("1", m1_shape);
auto ul1 = p.add_instruction(migraphx::op::unsqueeze{{0}}, l1);
auto l2 = p.add_parameter("2", m2_shape);
auto res = p.add_instruction(migraphx::op::dot{}, ul1, l2);
p.add_instruction(migraphx::op::squeeze{{0}}, res);
return p;
}
};
struct gemm_2args_vbm : verify_program<gemm_2args_vbm>
{
migraphx::program create_program() const
{
migraphx::program p;
migraphx::shape m1_shape{migraphx::shape::float_type, {5}};
migraphx::shape m2_shape{migraphx::shape::float_type, {2, 2, 5, 4}};
auto l1 = p.add_parameter("1", m1_shape);
auto ul1 = p.add_instruction(migraphx::op::unsqueeze{{0}}, l1);
auto bul1 = p.add_instruction(migraphx::op::multibroadcast{{2, 2, 1, 5}}, ul1);
auto l2 = p.add_parameter("2", m2_shape);
auto res = p.add_instruction(migraphx::op::dot{}, bul1, l2);
p.add_instruction(migraphx::op::squeeze{{2}}, res);
return p;
}
};
struct gemm_multi_3args : verify_program<gemm_multi_3args>
{
migraphx::program create_program() const
{
migraphx::program p;
migraphx::shape m1_shape{migraphx::shape::float_type, {2, 3, 2, 3}};
migraphx::shape m2_shape{migraphx::shape::float_type, {2, 3, 3, 2}};
migraphx::shape m3_shape{migraphx::shape::float_type, {2, 3, 2, 2}};
auto l1 = p.add_parameter("1", m1_shape);
auto l2 = p.add_parameter("2", m2_shape);
auto l3 = p.add_parameter("3", m3_shape);
float alpha = 0.35;
float beta = 0.41;
p.add_instruction(migraphx::op::dot{alpha, beta}, l1, l2, l3);
return p;
}
};
struct gemm_multi_3args_c25 : verify_program<gemm_multi_3args_c25>
{
migraphx::program create_program() const
{
migraphx::program p;
migraphx::shape m1_shape{migraphx::shape::float_type, {2, 3}};
migraphx::shape m2_shape{migraphx::shape::float_type, {3, 5}};
migraphx::shape m3_shape{migraphx::shape::float_type, {2, 5}};
auto l1 = p.add_parameter("1", m1_shape);
auto l2 = p.add_parameter("2", m2_shape);
auto l3 = p.add_parameter("3", m3_shape);
float alpha = 0.35;
float beta = 0.41;
p.add_instruction(migraphx::op::dot{alpha, beta}, l1, l2, l3);
return p;
}
};
struct gemm_multi_3args_beta0 : verify_program<gemm_multi_3args_beta0>
{
migraphx::program create_program() const
{
migraphx::program p;
migraphx::shape m1_shape{migraphx::shape::float_type, {1, 2, 3}};
migraphx::shape m2_shape{migraphx::shape::float_type, {1, 3, 4}};
migraphx::shape m3_shape{migraphx::shape::float_type, {1, 2, 4}};
auto l1 = p.add_parameter("1", m1_shape);
auto l2 = p.add_parameter("2", m2_shape);
auto l3 = p.add_parameter("3", m3_shape);
float alpha = 1.0f;
float beta = 0.0f;
p.add_instruction(migraphx::op::dot{alpha, beta}, l1, l2, l3);
return p;
}
};
struct gemm_multi_3args_alpha0 : verify_program<gemm_multi_3args_alpha0>
{
migraphx::program create_program() const
{
migraphx::program p;
migraphx::shape m1_shape{migraphx::shape::float_type, {1, 2, 3}};
migraphx::shape m2_shape{migraphx::shape::float_type, {1, 3, 4}};
migraphx::shape m3_shape{migraphx::shape::float_type, {1, 2, 4}};
auto l1 = p.add_parameter("1", m1_shape);
auto l2 = p.add_parameter("2", m2_shape);
auto l3 = p.add_parameter("3", m3_shape);
float alpha = 0.0f;
float beta = 1.0f;
p.add_instruction(migraphx::op::dot{alpha, beta}, l1, l2, l3);
return p;
}
};
struct test_contiguous : verify_program<test_contiguous>
{
migraphx::program create_program() const
......
test/onnx/matmul_bmbm.onnx 0 → 100644
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matmul-example:{

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matmul-example:_

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matmul-example:W

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matmul-example:_

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1

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matmul-example:W

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1

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test/onnx/onnx_test.cpp
View file @ d5122475
......@@ -588,6 +588,113 @@ TEST_CASE(gemm_ex)
EXPECT(p == prog);
}
TEST_CASE(gemm_ex_brcst)
{
migraphx::program p;
auto l0 = p.add_parameter("1", migraphx::shape{migraphx::shape::float_type, {1, 1, 5, 6}});
auto l1 = p.add_parameter("2", migraphx::shape{migraphx::shape::float_type, {1, 1, 5, 7}});
auto l2 = p.add_parameter("3", migraphx::shape{migraphx::shape::float_type, {1, 1, 6, 1}});
auto t0 = p.add_instruction(migraphx::op::transpose{{0, 1, 3, 2}}, l0);
std::vector<std::size_t> out_lens{1, 1, 6, 7};
auto t2 = p.add_instruction(migraphx::op::multibroadcast{out_lens}, l2);
auto alpha = 0.5f;
auto beta = 0.8f;
p.add_instruction(migraphx::op::dot{alpha, beta}, t0, l1, t2);
auto prog = migraphx::parse_onnx("gemm_test_ex1.onnx");
EXPECT(p == prog);
}
TEST_CASE(matmul_vv)
{
migraphx::program p;
auto l0 = p.add_parameter("1", migraphx::shape{migraphx::shape::float_type, {7}});
auto l1 = p.add_parameter("2", migraphx::shape{migraphx::shape::float_type, {7}});
auto sl0 = p.add_instruction(migraphx::op::unsqueeze{{0}}, l0);
auto sl1 = p.add_instruction(migraphx::op::unsqueeze{{1}}, l1);
auto res = p.add_instruction(migraphx::op::dot{1.0f, 0.0f}, sl0, sl1);
auto sr0 = p.add_instruction(migraphx::op::squeeze{{0}}, res);
p.add_instruction(migraphx::op::squeeze{{0}}, sr0);
auto prog = migraphx::parse_onnx("matmul_vv.onnx");
EXPECT(p == prog);
}
TEST_CASE(matmul_vm)
{
migraphx::program p;
auto l0 = p.add_parameter("1", migraphx::shape{migraphx::shape::float_type, {7}});
auto l1 = p.add_parameter("2", migraphx::shape{migraphx::shape::float_type, {7, 8}});
auto sl0 = p.add_instruction(migraphx::op::unsqueeze{{0}}, l0);
auto res = p.add_instruction(migraphx::op::dot{1.0f, 0.0f}, sl0, l1);
p.add_instruction(migraphx::op::squeeze{{0}}, res);
auto prog = migraphx::parse_onnx("matmul_vm.onnx");
EXPECT(p == prog);
}
TEST_CASE(matmul_vbm)
{
migraphx::program p;
auto l0 = p.add_parameter("1", migraphx::shape{migraphx::shape::float_type, {7}});
auto l1 = p.add_parameter("2", migraphx::shape{migraphx::shape::float_type, {5, 7, 8}});
auto sl0 = p.add_instruction(migraphx::op::unsqueeze{{0}}, l0);
auto bsl0 = p.add_instruction(migraphx::op::multibroadcast{{5, 1, 7}}, sl0);
std::cout << "ONNX_TEST" << std::endl;
auto res = p.add_instruction(migraphx::op::dot{1.0f, 0.0f}, bsl0, l1);
std::cout << "After Dot" << std::endl;
p.add_instruction(migraphx::op::squeeze{{1}}, res);
auto prog = migraphx::parse_onnx("matmul_vbm.onnx");
EXPECT(p == prog);
}
TEST_CASE(matmul_mv)
{
migraphx::program p;
auto l0 = p.add_parameter("1", migraphx::shape{migraphx::shape::float_type, {6, 7}});
auto l1 = p.add_parameter("2", migraphx::shape{migraphx::shape::float_type, {7}});
auto sl1 = p.add_instruction(migraphx::op::unsqueeze{{1}}, l1);
auto res = p.add_instruction(migraphx::op::dot{1.0f, 0.0f}, l0, sl1);
p.add_instruction(migraphx::op::squeeze{{1}}, res);
auto prog = migraphx::parse_onnx("matmul_mv.onnx");
EXPECT(p == prog);
}
TEST_CASE(matmul_bmv)
{
migraphx::program p;
auto l0 = p.add_parameter("1", migraphx::shape{migraphx::shape::float_type, {3, 6, 7}});
auto l1 = p.add_parameter("2", migraphx::shape{migraphx::shape::float_type, {7}});
auto sl1 = p.add_instruction(migraphx::op::unsqueeze{{1}}, l1);
auto bsl1 = p.add_instruction(migraphx::op::multibroadcast{{3, 7, 1}}, sl1);
auto res = p.add_instruction(migraphx::op::dot{1.0f, 0.0f}, l0, bsl1);
p.add_instruction(migraphx::op::squeeze{{2}}, res);
auto prog = migraphx::parse_onnx("matmul_bmv.onnx");
EXPECT(p == prog);
}
TEST_CASE(matmul_bmbm)
{
migraphx::program p;
auto l0 = p.add_parameter("1", migraphx::shape{migraphx::shape::float_type, {3, 6, 7}});
auto l1 = p.add_parameter("2", migraphx::shape{migraphx::shape::float_type, {5, 2, 1, 7, 8}});
auto bl0 = p.add_instruction(migraphx::op::multibroadcast{{5, 2, 3, 6, 7}}, l0);
auto bl1 = p.add_instruction(migraphx::op::multibroadcast{{5, 2, 3, 7, 8}}, l1);
p.add_instruction(migraphx::op::dot{1.0f, 0.0f}, bl0, bl1);
auto prog = migraphx::parse_onnx("matmul_bmbm.onnx");
EXPECT(p == prog);
}
TEST_CASE(add_scalar_test)
{
migraphx::program p;
......
test/op_shape_test.cpp
View file @ d5122475
......@@ -371,21 +371,67 @@ TEST_CASE(logsoftmax)
}
}
TEST_CASE(dot)
// 2 inputs arguments
TEST_CASE(matmul)
{
{
migraphx::shape s_m1{migraphx::shape::float_type, {4, 5}};
migraphx::shape s_m2{migraphx::shape::float_type, {5, 8}};
migraphx::shape s_m1{migraphx::shape::float_type, {5}};
migraphx::shape s_m2{migraphx::shape::float_type, {5}};
throws_shape(migraphx::op::dot{}, s_m1, s_m2);
}
{
migraphx::shape s_m1{migraphx::shape::float_type, {5}};
migraphx::shape s_m2{migraphx::shape::float_type, {5, 2}};
throws_shape(migraphx::op::dot{}, s_m1, s_m2);
}
{
migraphx::shape s_m1{migraphx::shape::float_type, {1, 5}};
migraphx::shape s_m2{migraphx::shape::float_type, {5}};
throws_shape(migraphx::op::dot{}, s_m1, s_m2);
}
{
migraphx::shape s_m1{migraphx::shape::float_type, {1, 5}};
migraphx::shape s_m2{migraphx::shape::float_type, {5, 4}};
expect_shape(
migraphx::shape{migraphx::shape::float_type, {4, 8}}, migraphx::op::dot{}, s_m1, s_m2);
migraphx::shape{migraphx::shape::float_type, {1, 4}}, migraphx::op::dot{}, s_m1, s_m2);
}
{
migraphx::shape s_m1{migraphx::shape::float_type, {4, 6}};
migraphx::shape s_m2{migraphx::shape::float_type, {5, 8}};
migraphx::shape s_m1{migraphx::shape::float_type, {1, 5}};
migraphx::shape s_m2{migraphx::shape::float_type, {4, 4}};
throws_shape(migraphx::op::dot{}, s_m1, s_m2);
}
{
migraphx::shape s_m1{migraphx::shape::float_type, {1, 5}};
migraphx::shape s_m2{migraphx::shape::float_type, {6, 5, 4}};
throws_shape(migraphx::op::dot{}, s_m1, s_m2);
}
{
migraphx::shape s_m1{migraphx::shape::float_type, {6, 1, 5}};
migraphx::shape s_m2{migraphx::shape::float_type, {6, 5, 4}};
expect_shape(
migraphx::shape{migraphx::shape::float_type, {6, 1, 4}}, migraphx::op::dot{}, s_m1, s_m2);
}
{
migraphx::shape s_m1{migraphx::shape::float_type, {1, 6, 1, 5}};
migraphx::shape s_m2{migraphx::shape::float_type, {1, 6, 5, 4}};
expect_shape(
migraphx::shape{migraphx::shape::float_type, {1, 6, 1, 4}}, migraphx::op::dot{}, s_m1, s_m2);
}
{
migraphx::shape s_m1{migraphx::shape::float_type, {4, 5}};
migraphx::shape s_m2{migraphx::shape::float_type, {5, 8}};
expect_shape(
migraphx::shape{migraphx::shape::float_type, {4, 8}}, migraphx::op::dot{}, s_m1, s_m2);
}
{
migraphx::shape s_m1{migraphx::shape::float_type, {1, 1}};
migraphx::shape s_m2{migraphx::shape::float_type, {1, 1}};
......@@ -403,45 +449,104 @@ TEST_CASE(dot)
}
{
migraphx::shape s_m1{migraphx::shape::float_type, {2, 3, 4, 5}};
migraphx::shape s_m2{migraphx::shape::float_type, {2, 3, 5, 7}};
expect_shape(migraphx::shape{migraphx::shape::float_type, {2, 3, 4, 7}},
migraphx::op::dot{},
s_m1,
s_m2);
migraphx::shape s_m1{migraphx::shape::float_type, {4, 5}};
migraphx::shape s_m2{migraphx::shape::float_type, {1, 1, 5, 7}};
throws_shape(migraphx::op::dot{}, s_m1, s_m2);
}
{
migraphx::shape s_m1{migraphx::shape::float_type, {1, 1, 4, 5}};
migraphx::shape s_m2{migraphx::shape::float_type, {1, 1, 5, 7}};
expect_shape(migraphx::shape{migraphx::shape::float_type, {1, 1, 4, 7}},
migraphx::shape s_m2{migraphx::shape::float_type, {1, 2, 5, 7}};
throws_shape(migraphx::op::dot{}, s_m1, s_m2);
}
}
// 3 input arguments
TEST_CASE(gemm)
{
{
migraphx::shape s_m1{migraphx::shape::float_type, {4, 5}};
migraphx::shape s_m2{migraphx::shape::float_type, {5, 8}};
migraphx::shape s_m3{migraphx::shape::float_type, {1}};
throws_shape(migraphx::op::dot{}, s_m1, s_m2, s_m3);
}
{
migraphx::shape s_m1{migraphx::shape::float_type, {4, 5}};
migraphx::shape s_m2{migraphx::shape::float_type, {5, 8}};
migraphx::shape s_m3{migraphx::shape::float_type, {1, 1}};
throws_shape(migraphx::op::dot{}, s_m1, s_m2, s_m3);
}
{
migraphx::shape s_m1{migraphx::shape::float_type, {4, 5}};
migraphx::shape s_m2{migraphx::shape::float_type, {5, 8}};
migraphx::shape s_m3{migraphx::shape::float_type, {8}};
throws_shape(migraphx::op::dot{}, s_m1, s_m2, s_m3);
}
{
migraphx::shape s_m1{migraphx::shape::float_type, {4, 5}};
migraphx::shape s_m2{migraphx::shape::float_type, {5, 8}};
migraphx::shape s_m3{migraphx::shape::float_type, {4, 1}};
throws_shape(migraphx::op::dot{}, s_m1, s_m2, s_m3);
}
{
migraphx::shape s_m1{migraphx::shape::float_type, {4, 6}};
migraphx::shape s_m2{migraphx::shape::float_type, {5, 8}};
migraphx::shape s_m3{migraphx::shape::float_type, {4, 8}};
throws_shape(migraphx::op::dot{}, s_m1, s_m2, s_m3);
}
{
migraphx::shape s_m1{migraphx::shape::float_type, {4, 5}};
migraphx::shape s_m2{migraphx::shape::float_type, {5, 8}};
migraphx::shape s_m3{migraphx::shape::float_type, {4}};
throws_shape(migraphx::op::dot{}, s_m1, s_m2, s_m3);
}
{
migraphx::shape s_m1{migraphx::shape::float_type, {4, 5}};
migraphx::shape s_m2{migraphx::shape::float_type, {5, 8}};
migraphx::shape s_m3{migraphx::shape::float_type, {4, 8}};
expect_shape(migraphx::shape{migraphx::shape::float_type, {4, 8}},
migraphx::op::dot{},
s_m1,
s_m2);
s_m2,
s_m3);
}
{
migraphx::shape s_m1{migraphx::shape::float_type, {3, 1, 4, 6}};
migraphx::shape s_m2{migraphx::shape::float_type, {3, 1, 5, 7}};
throws_shape(migraphx::op::dot{}, s_m1, s_m2);
migraphx::shape s_m1{migraphx::shape::float_type, {1, 4, 5}};
migraphx::shape s_m2{migraphx::shape::float_type, {1, 5, 8}};
migraphx::shape s_m3{migraphx::shape::float_type, {1, 4, 8}};
expect_shape(migraphx::shape{migraphx::shape::float_type, {1, 4, 8}},
migraphx::op::dot{},
s_m1,
s_m2,
s_m3);
}
{
migraphx::shape s_m1{migraphx::shape::float_type, {2, 2, 4, 5}};
migraphx::shape s_m2{migraphx::shape::float_type, {3, 2, 5, 7}};
throws_shape(migraphx::op::dot{}, s_m1, s_m2);
migraphx::shape s_m1{migraphx::shape::float_type, {1, 4, 6}};
migraphx::shape s_m2{migraphx::shape::float_type, {1, 5, 8}};
migraphx::shape s_m3{migraphx::shape::float_type, {1, 4, 8}};
throws_shape(migraphx::op::dot{}, s_m1, s_m2, s_m3);
}
{
migraphx::shape s_m1{migraphx::shape::float_type, {1, 1, 4, 5}};
migraphx::shape s_m2{migraphx::shape::float_type, {1, 2, 5, 7}};
throws_shape(migraphx::op::dot{}, s_m1, s_m2);
migraphx::shape s_m1{migraphx::shape::float_type, {1, 4, 5}};
migraphx::shape s_m2{migraphx::shape::float_type, {1, 5, 8}};
migraphx::shape s_m3{migraphx::shape::float_type, {4, 8}};
throws_shape(migraphx::op::dot{}, s_m1, s_m2, s_m3);
}
{
migraphx::shape s_m1{migraphx::shape::float_type, {1, 2, 4, 5}};
migraphx::shape s_m2{migraphx::shape::float_type, {2, 1, 5, 7}};
throws_shape(migraphx::op::dot{}, s_m1, s_m2);
migraphx::shape s_m1{migraphx::shape::float_type, {1, 4, 5}};
migraphx::shape s_m2{migraphx::shape::float_type, {1, 5, 8}};
migraphx::shape s_m3{migraphx::shape::float_type};
throws_shape(migraphx::op::dot{}, s_m1, s_m2, s_m3);
}
}
......
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