示例#1
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        def forward(a, b, d, f):
            c = (a / b) + (d * f)

            h = sail.exp(c)
            g = h - sail.max(h, 1, True) + d - c
            i = sail.sum(h)

            return i
示例#2
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    def test_integer(self):
        choices = unary_elementwise_options
        times = []
        for c in choices:
            arr1 = np.random.uniform(0, 1, (c)).astype(np.int32)

            x1 = sail.Tensor(arr1)

            x3 = sail.exp(x1)
            arr3 = np.exp(arr1)

            self.assert_eq_np_sail(arr3, x3, eps=1e-6)
        return
示例#3
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    def test_base(self, rq):
        choices = unary_elementwise_options
        times = []
        for c in choices:
            arr1 = np.random.uniform(0, 1, (c))

            x1 = sail.Tensor(arr1, requires_grad=rq)

            t = time.time()
            x3 = sail.exp(x1)
            times.append(time.time() - t)
            arr3 = np.exp(arr1)

            self.assert_eq_np_sail(arr3, x3, eps=1e-6)
            self.assert_eq(x3.requires_grad, rq)
        return
示例#4
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    def test_broadcast(self):
        choices = unary_broadcasted_options
        times = []
        for c in choices:
            for i in range(len(c)):
                b = list(c)
                b[i] = 1
                arr1 = np.random.uniform(1, 2, (b))

                x1 = sail.Tensor(arr1, requires_grad=False)
                x2 = sail.broadcast_to(x1, c)

                arr2 = np.broadcast_to(arr1, c)

                t = time.time()
                x3 = sail.exp(x2)
                times.append(time.time() - t)
                arr3 = np.exp(arr2)

                self.assert_eq_np_sail(arr3, x3, eps=1e-6)
        return
示例#5
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.. note::
	If tensor shapes do not match, they must be broadcastable to a common shape.

Args:
	base (Tensor): Base
	exppnent (Tensor): Exponent

Examples:
	>>> base = sail.random.uniform(0, 1, (20, 3))
	>>> exponent = sail.random.uniform(1, 2, (20, 3))
	>>> c = sail.power(base, exponent)
	"""
add_docstring(sail.power, descr)

descr = r"""
sail.exp(tensor) -> Tensor
Returns e the power `tensor`.

.. math::
	\text{out} = \text{e}^{\text{tensor}}

Args:
	tensor (Tensor): The exponent

Examples:
	>>> power = sail.random.uniform(1, 2, (20, 3))
	>>> b = sail.exp(power)
	"""
add_docstring(sail.exp, descr)
示例#6
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 def forward(a):
     c = sail.exp(a)
     d = sail.sum(c)
     return d