caffe2/python/ideep/adam_op_test.py - platform/external/pytorch - Git at Google

 from __future__ import unicode_literals
 from __future__ import absolute_import
 from __future__ import division
 from __future__ import print_function

 import numpy as np
 import hypothesis.strategies as st
 import unittest
 import caffe2.python.hypothesis_test_util as hu
 from caffe2.python import core, workspace
 from hypothesis import given
 import caffe2.python.ideep_test_util as mu


 @unittest.skipIf(not workspace.C.use_mkldnn, "No MKLDNN support.")
 class TestAdamOps(hu.HypothesisTestCase):
     @given(inputs=hu.tensors(n=4),
            ITER=st.integers(min_value=0, max_value=10000),
            LR=st.floats(min_value=0.01, max_value=0.99,
                         allow_nan=False, allow_infinity=False),
            beta1=st.floats(min_value=0.01, max_value=0.99,
                            allow_nan=False, allow_infinity=False),
            beta2=st.floats(min_value=0.01, max_value=0.99,
                            allow_nan=False, allow_infinity=False),
            epsilon=st.floats(min_value=0.01, max_value=0.99,
                              allow_nan=False, allow_infinity=False),
            **mu.gcs)
     def test_adam(self, inputs, ITER, LR, beta1, beta2, epsilon, gc, dc):
         param, mom1, mom2, grad = inputs
         ITER = np.array([ITER], dtype=np.int64)
         LR = np.array([LR], dtype=np.float32)
         mom2 = np.absolute(mom2)
         op = core.CreateOperator(
             "Adam",
             ["param", "mom1", "mom2", "grad", "lr", "iter"],
             ["output_param", "output_mom1", "output_mom2"],
             beta1=beta1, beta2=beta2, epsilon=epsilon)
         # Iter lives on the CPU
         input_device_options = {'iter': hu.cpu_do, 'lr': hu.cpu_do}

         self.assertDeviceChecks(
             dc, op,
             [param, mom1, mom2, grad, LR, ITER],
             [0],
             input_device_options=input_device_options,
             threshold=0.001)

     @given(inputs=hu.tensors(n=4),
            ITER=st.integers(min_value=0, max_value=10000),
            LR=st.floats(min_value=0.01, max_value=0.99,
                         allow_nan=False, allow_infinity=False),
            beta1=st.floats(min_value=0.01, max_value=0.99,
                            allow_nan=False, allow_infinity=False),
            beta2=st.floats(min_value=0.01, max_value=0.99,
                            allow_nan=False, allow_infinity=False),
            epsilon=st.floats(min_value=0.01, max_value=0.99,
                              allow_nan=False, allow_infinity=False),
            **mu.gcs)
     def test_adam_output_grad(self, inputs, ITER, LR, beta1, beta2, epsilon, gc, dc):
         param, mom1, mom2, grad = inputs
         ITER = np.array([ITER], dtype=np.int64)
         LR = np.array([LR], dtype=np.float32)
         mom2 = np.absolute(mom2)

         op = core.CreateOperator(
             "Adam",
             ["param", "mom1", "mom2", "grad", "lr", "iter"],
             ["output_param", "output_mom1", "output_mom2", "output_grad"],
             beta1=beta1, beta2=beta2, epsilon=epsilon)

         # Iter lives on the CPU
         input_device_options = {'iter': hu.cpu_do, 'lr': hu.cpu_do}

         self.assertDeviceChecks(
             dc, op,
             [param, mom1, mom2, grad, LR, ITER],
             [0],
             input_device_options=input_device_options,
             threshold=0.001)

 if __name__ == "__main__":
     unittest.main()
	from __future__ import unicode_literals
	from __future__ import absolute_import
	from __future__ import division
	from __future__ import print_function

	import numpy as np
	import hypothesis.strategies as st
	import unittest
	import caffe2.python.hypothesis_test_util as hu
	from caffe2.python import core, workspace
	from hypothesis import given
	import caffe2.python.ideep_test_util as mu


	@unittest.skipIf(not workspace.C.use_mkldnn, "No MKLDNN support.")
	class TestAdamOps(hu.HypothesisTestCase):
	@given(inputs=hu.tensors(n=4),
	ITER=st.integers(min_value=0, max_value=10000),
	LR=st.floats(min_value=0.01, max_value=0.99,
	allow_nan=False, allow_infinity=False),
	beta1=st.floats(min_value=0.01, max_value=0.99,
	allow_nan=False, allow_infinity=False),
	beta2=st.floats(min_value=0.01, max_value=0.99,
	allow_nan=False, allow_infinity=False),
	epsilon=st.floats(min_value=0.01, max_value=0.99,
	allow_nan=False, allow_infinity=False),
	**mu.gcs)
	def test_adam(self, inputs, ITER, LR, beta1, beta2, epsilon, gc, dc):
	param, mom1, mom2, grad = inputs
	ITER = np.array([ITER], dtype=np.int64)
	LR = np.array([LR], dtype=np.float32)
	mom2 = np.absolute(mom2)
	op = core.CreateOperator(
	"Adam",
	["param", "mom1", "mom2", "grad", "lr", "iter"],
	["output_param", "output_mom1", "output_mom2"],
	beta1=beta1, beta2=beta2, epsilon=epsilon)
	# Iter lives on the CPU
	input_device_options = {'iter': hu.cpu_do, 'lr': hu.cpu_do}

	self.assertDeviceChecks(
	dc, op,
	[param, mom1, mom2, grad, LR, ITER],
	[0],
	input_device_options=input_device_options,
	threshold=0.001)

	@given(inputs=hu.tensors(n=4),
	ITER=st.integers(min_value=0, max_value=10000),
	LR=st.floats(min_value=0.01, max_value=0.99,
	allow_nan=False, allow_infinity=False),
	beta1=st.floats(min_value=0.01, max_value=0.99,
	allow_nan=False, allow_infinity=False),
	beta2=st.floats(min_value=0.01, max_value=0.99,
	allow_nan=False, allow_infinity=False),
	epsilon=st.floats(min_value=0.01, max_value=0.99,
	allow_nan=False, allow_infinity=False),
	**mu.gcs)
	def test_adam_output_grad(self, inputs, ITER, LR, beta1, beta2, epsilon, gc, dc):
	param, mom1, mom2, grad = inputs
	ITER = np.array([ITER], dtype=np.int64)
	LR = np.array([LR], dtype=np.float32)
	mom2 = np.absolute(mom2)

	op = core.CreateOperator(
	"Adam",
	["param", "mom1", "mom2", "grad", "lr", "iter"],
	["output_param", "output_mom1", "output_mom2", "output_grad"],
	beta1=beta1, beta2=beta2, epsilon=epsilon)

	# Iter lives on the CPU
	input_device_options = {'iter': hu.cpu_do, 'lr': hu.cpu_do}

	self.assertDeviceChecks(
	dc, op,
	[param, mom1, mom2, grad, LR, ITER],
	[0],
	input_device_options=input_device_options,
	threshold=0.001)

	if __name__ == "__main__":
	unittest.main()