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mindspore/tests/st/ops/gpu/test_broadcast_op.py

test_broadcast_op.py 5.2 kB
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gpu support broadcast kernels
5 years ago
clean pylint
5 years ago
gpu support broadcast kernels
5 years ago
clean pylint
5 years ago
gpu support broadcast kernels
5 years ago
clean pylint
5 years ago
gpu support broadcast kernels
5 years ago
clean pylint
5 years ago
gpu support broadcast kernels
5 years ago
gpu support broadcast kernels
5 years ago
gpu support broadcast kernels
5 years ago
broadcast kernel support unqual dims & half
5 years ago
gpu support broadcast kernels
5 years ago
broadcast kernel support unqual dims & half
5 years ago
clean pylint
5 years ago
broadcast kernel support unqual dims & half
5 years ago
gpu support broadcast kernels
5 years ago
clean pylint
5 years ago
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  1. # Copyright 2020 Huawei Technologies Co., Ltd

  2. #

  3. # Licensed under the Apache License, Version 2.0 (the "License");

  4. # you may not use this file except in compliance with the License.

  5. # You may obtain a copy of the License at

  6. #

  7. # http://www.apache.org/licenses/LICENSE-2.0

  8. #

  9. # Unless required by applicable law or agreed to in writing, software

  10. # distributed under the License is distributed on an "AS IS" BASIS,

  11. # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.

  12. # See the License for the specific language governing permissions and

  13. # limitations under the License.

  14. # ============================================================================

  15. 

  16. import numpy as np

  17. import pytest

  18. 

  19. import mindspore.context as context

  20. from mindspore.common.tensor import Tensor

  21. from mindspore.ops import operations as P

  22. 

  23. 

  24. @pytest.mark.level0

  25. @pytest.mark.platform_x86_gpu_training

  26. @pytest.mark.env_onecard

  27. def test_nobroadcast():

  28.     context.set_context(mode=context.GRAPH_MODE, device_target='GPU')

  29. 

  30.     x1_np = np.random.rand(10, 20).astype(np.float32)

  31.     x2_np = np.random.rand(10, 20).astype(np.float32)

  32. 

  33.     output_ms = P.Minimum()(Tensor(x1_np), Tensor(x2_np))

  34.     output_np = np.minimum(x1_np, x2_np)

  35.     assert np.allclose(output_ms.asnumpy(), output_np)

  36. 

  37.     output_ms = P.Maximum()(Tensor(x1_np), Tensor(x2_np))

  38.     output_np = np.maximum(x1_np, x2_np)

  39.     assert np.allclose(output_ms.asnumpy(), output_np)

  40. 

  41.     output_ms = P.Greater()(Tensor(x1_np), Tensor(x2_np))

  42.     output_np = x1_np > x2_np

  43.     assert np.allclose(output_ms.asnumpy(), output_np)

  44. 

  45.     output_ms = P.Less()(Tensor(x1_np), Tensor(x2_np))

  46.     output_np = x1_np < x2_np

  47.     assert np.allclose(output_ms.asnumpy(), output_np)

  48. 

  49.     output_ms = P.Pow()(Tensor(x1_np), Tensor(x2_np))

  50.     output_np = np.power(x1_np, x2_np)

  51.     assert np.allclose(output_ms.asnumpy(), output_np)

  52. 

  53.     output_ms = P.RealDiv()(Tensor(x1_np), Tensor(x2_np))

  54.     output_np = x1_np / x2_np

  55.     assert np.allclose(output_ms.asnumpy(), output_np)

  56. 

  57.     output_ms = P.Mul()(Tensor(x1_np), Tensor(x2_np))

  58.     output_np = x1_np * x2_np

  59.     assert np.allclose(output_ms.asnumpy(), output_np)

  60. 

  61.     output_ms = P.Sub()(Tensor(x1_np), Tensor(x2_np))

  62.     output_np = x1_np - x2_np

  63.     assert np.allclose(output_ms.asnumpy(), output_np)

  64. 

  65. 

  66. @pytest.mark.level0

  67. @pytest.mark.platform_x86_gpu_training

  68. @pytest.mark.env_onecard

  69. def test_broadcast():

  70.     context.set_context(mode=context.GRAPH_MODE, device_target='GPU')

  71. 

  72.     x1_np = np.random.rand(3, 1, 5, 1).astype(np.float32)

  73.     x2_np = np.random.rand(1, 4, 1, 6).astype(np.float32)

  74. 

  75.     output_ms = P.Minimum()(Tensor(x1_np), Tensor(x2_np))

  76.     output_np = np.minimum(x1_np, x2_np)

  77.     assert np.allclose(output_ms.asnumpy(), output_np)

  78. 

  79.     output_ms = P.Maximum()(Tensor(x1_np), Tensor(x2_np))

  80.     output_np = np.maximum(x1_np, x2_np)

  81.     assert np.allclose(output_ms.asnumpy(), output_np)

  82. 

  83.     output_ms = P.Greater()(Tensor(x1_np), Tensor(x2_np))

  84.     output_np = x1_np > x2_np

  85.     assert np.allclose(output_ms.asnumpy(), output_np)

  86. 

  87.     output_ms = P.Less()(Tensor(x1_np), Tensor(x2_np))

  88.     output_np = x1_np < x2_np

  89.     assert np.allclose(output_ms.asnumpy(), output_np)

  90. 

  91.     output_ms = P.Pow()(Tensor(x1_np), Tensor(x2_np))

  92.     output_np = np.power(x1_np, x2_np)

  93.     assert np.allclose(output_ms.asnumpy(), output_np)

  94. 

  95.     output_ms = P.RealDiv()(Tensor(x1_np), Tensor(x2_np))

  96.     output_np = x1_np / x2_np

  97.     assert np.allclose(output_ms.asnumpy(), output_np)

  98. 

  99.     output_ms = P.Mul()(Tensor(x1_np), Tensor(x2_np))

  100.     output_np = x1_np * x2_np

  101.     assert np.allclose(output_ms.asnumpy(), output_np)

  102. 

  103.     output_ms = P.Sub()(Tensor(x1_np), Tensor(x2_np))

  104.     output_np = x1_np - x2_np

  105.     assert np.allclose(output_ms.asnumpy(), output_np)

  106. 

  107. 

  108. @pytest.mark.level0

  109. @pytest.mark.platform_x86_gpu_training

  110. @pytest.mark.env_onecard

  111. def test_broadcast_diff_dims():

  112.     context.set_context(mode=context.GRAPH_MODE, device_target='GPU')

  113. 

  114.     x1_np = np.random.rand(2).astype(np.float32)

  115.     x2_np = np.random.rand(2, 1).astype(np.float32)

  116. 

  117.     output_ms = P.Minimum()(Tensor(x1_np), Tensor(x2_np))

  118.     output_np = np.minimum(x1_np, x2_np)

  119.     assert np.allclose(output_ms.asnumpy(), output_np)

  120. 

  121.     output_ms = P.Maximum()(Tensor(x1_np), Tensor(x2_np))

  122.     output_np = np.maximum(x1_np, x2_np)

  123.     assert np.allclose(output_ms.asnumpy(), output_np)

  124. 

  125.     output_ms = P.Greater()(Tensor(x1_np), Tensor(x2_np))

  126.     output_np = x1_np > x2_np

  127.     assert np.allclose(output_ms.asnumpy(), output_np)

  128. 

  129.     output_ms = P.Less()(Tensor(x1_np), Tensor(x2_np))

  130.     output_np = x1_np < x2_np

  131.     assert np.allclose(output_ms.asnumpy(), output_np)

  132. 

  133.     output_ms = P.Pow()(Tensor(x1_np), Tensor(x2_np))

  134.     output_np = np.power(x1_np, x2_np)

  135.     assert np.allclose(output_ms.asnumpy(), output_np)

  136. 

  137.     output_ms = P.RealDiv()(Tensor(x1_np), Tensor(x2_np))

  138.     output_np = x1_np / x2_np

  139.     assert np.allclose(output_ms.asnumpy(), output_np)

  140. 

  141.     output_ms = P.Mul()(Tensor(x1_np), Tensor(x2_np))

  142.     output_np = x1_np * x2_np

  143.     assert np.allclose(output_ms.asnumpy(), output_np)

  144. 

  145.     output_ms = P.Sub()(Tensor(x1_np), Tensor(x2_np))

  146.     output_np = x1_np - x2_np

  147.     assert np.allclose(output_ms.asnumpy(), output_np)

MindSpore is a new open source deep learning training/inference framework that could be used for mobile, edge and cloud scenarios.