forked from mindspore-Ecosystem/mindspore
Add FloorMod, Acosh in ME
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@ -171,6 +171,8 @@ const char kNameAbsGrad[] = "AbsGrad";
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const char kNameBinaryCrossEntropy[] = "BinaryCrossEntropy";
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const char kNameBinaryCrossEntropyGrad[] = "BinaryCrossEntropyGrad";
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const char kNameSparseApplyAdagrad[] = "SparseApplyAdagrad";
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const char kNameAcosh[] = "Acosh";
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const char kNameFloorMod[] = "FloorMod";
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const char kNameSpaceToDepth[] = "SpaceToDepth";
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const char kNameDepthToSpace[] = "DepthToSpace";
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const char kNameSign[] = "Sign";
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@ -360,6 +362,8 @@ std::unordered_map<std::string, OpAdapterDescPtr> &DfGraphConvertor::get_adpt_ma
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{string(kNameBinaryCrossEntropy), ADPT_DESC(BinaryCrossEntropy)},
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{string(kNameBinaryCrossEntropyGrad), ADPT_DESC(BinaryCrossEntropyGrad)},
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{string(kNameSparseApplyAdagrad), ADPT_DESC(SparseApplyAdagradD)},
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{string(kNameAcosh), ADPT_DESC(Acosh)},
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{string(kNameFloorMod), ADPT_DESC(FloorMod)},
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{string(kNameSpaceToDepth), ADPT_DESC(SpaceToDepth)},
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{string(kNameDepthToSpace), ADPT_DESC(DepthToSpace)},
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{string(kNameSign), ADPT_DESC(Sign)},
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@ -357,6 +357,11 @@ INPUT_MAP(AcosGrad) = {{1, INPUT_DESC(y)}, {2, INPUT_DESC(dy)}};
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ATTR_MAP(AcosGrad) = EMPTY_ATTR_MAP;
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OUTPUT_MAP(AcosGrad) = {{0, OUTPUT_DESC(z)}};
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// Acosh
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INPUT_MAP(Acosh) = {{1, INPUT_DESC(x)}};
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ATTR_MAP(Acosh) = EMPTY_ATTR_MAP;
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OUTPUT_MAP(Acosh) = {{0, OUTPUT_DESC(y)}};
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// Floor
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INPUT_MAP(Floor) = {{1, INPUT_DESC(x)}};
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ATTR_MAP(Floor) = EMPTY_ATTR_MAP;
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@ -367,6 +372,11 @@ INPUT_MAP(FloorDiv) = {{1, INPUT_DESC(x1)}, {2, INPUT_DESC(x2)}};
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ATTR_MAP(FloorDiv) = EMPTY_ATTR_MAP;
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OUTPUT_MAP(FloorDiv) = {{0, OUTPUT_DESC(y)}};
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// FloorMod
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INPUT_MAP(FloorMod) = {{1, INPUT_DESC(x1)}, {2, INPUT_DESC(x2)}};
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ATTR_MAP(FloorMod) = EMPTY_ATTR_MAP;
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OUTPUT_MAP(FloorMod) = {{0, OUTPUT_DESC(y)}};
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// Sin
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INPUT_MAP(Sin) = {{1, INPUT_DESC(x)}};
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ATTR_MAP(Sin) = EMPTY_ATTR_MAP;
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@ -324,11 +324,15 @@ DECLARE_OP_USE_OUTPUT(Acos)
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DECLARE_OP_ADAPTER(AcosGrad)
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DECLARE_OP_USE_OUTPUT(AcosGrad)
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DECLARE_OP_ADAPTER(Acosh)
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DECLARE_OP_USE_OUTPUT(Acosh)
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DECLARE_OP_ADAPTER(Floor)
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DECLARE_OP_USE_OUTPUT(Floor)
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DECLARE_OP_ADAPTER(FloorDiv)
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DECLARE_OP_USE_OUTPUT(FloorDiv)
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DECLARE_OP_ADAPTER(FloorMod)
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DECLARE_OP_USE_OUTPUT(FloorMod)
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DECLARE_OP_ADAPTER(Sin)
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DECLARE_OP_USE_OUTPUT(Sin)
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DECLARE_OP_ADAPTER(Exp)
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@ -450,7 +454,6 @@ DECLARE_OP_USE_INPUT_ATTR(ApplyRMSPropD)
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DECLARE_OP_USE_OUTPUT(ApplyRMSPropD)
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DECLARE_OP_ADAPTER(ApplyCenteredRMSProp)
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DECLARE_OP_USE_OUTPUT(ApplyCenteredRMSProp)
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#ifdef ENABLE_GE
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DECLARE_OP_ADAPTER(Print)
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DECLARE_OP_USE_DYN_INPUT(Print)
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@ -251,6 +251,20 @@ def get_bprop_floordiv(self):
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return bprop
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@bprop_getters.register(P.FloorMod)
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def get_bprop_floormod(self):
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"""Grad definition for `FloorMod` operation."""
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div_op = P.FloorMod()
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neg = P.Neg()
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mul_op = P.Mul()
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def bprop(x, y, out, dout):
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bc_x = div_op(dout, y)
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bc_y = neg(mul_op(bc_x, out))
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return binop_grad_common(x, y, bc_x, bc_y)
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return bprop
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@bprop_getters.register(P.Square)
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def get_bprop_square(self):
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"""Grad definition for `Square` operation."""
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@ -690,6 +704,17 @@ def get_bprop_acos(self):
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return bprop
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@bprop_getters.register(P.Acosh)
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def get_bprop_acosh(self):
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"""Grad definition for `Acosh` operation."""
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input_grad = G.AcoshGrad()
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def bprop(x, out, dout):
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dx = input_grad(x, dout)
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return (dx,)
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return bprop
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@bprop_getters.register(P.Abs)
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def get_bprop_abs(self):
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"""Grad definition for `Abs` operation."""
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@ -39,7 +39,7 @@ from .control_ops import ControlDepend, GeSwitch, Merge
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from .inner_ops import ScalarCast
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from .math_ops import (Abs, ACos, AddN, AssignAdd, AssignSub, Atan2, BatchMatMul,
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ReduceMax, ReduceMin, ReduceMean, ReduceSum, ReduceAll, ReduceProd, CumProd,
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Cos, Div, Equal, EqualCount, Exp, Floor, FloorDiv,
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Cos, Div, Equal, EqualCount, Exp, Floor, FloorDiv, FloorMod, Acosh,
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Greater, GreaterEqual, Less, LessEqual, Log, LogicalAnd,
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LogicalNot, LogicalOr, MatMul, Maximum,
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Minimum, Mul, Neg, NMSWithMask, NotEqual,
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@ -205,6 +205,8 @@ __all__ = [
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'Log',
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'SigmoidCrossEntropyWithLogits',
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'FloorDiv',
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'FloorMod',
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'Acosh',
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"PReLU",
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"Cos",
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"ACos",
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@ -1183,6 +1183,62 @@ class Floor(PrimitiveWithInfer):
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return x_dtype
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class FloorMod(_MathBinaryOp):
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"""
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Compute element-wise remainder of division.
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The inputs must be two tensors or one tensor and one scalar.
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When the inputs are two tensors, the shapes of them could be broadcast,
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and the data types of them should be same.
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When the inputs are one tensor and one scalar, the scalar cannot be a parameter, only can be a constant,
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and the type of the scalar is the same as the data type of the tensor.
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Inputs:
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- **input_x** (Union[Tensor, Number]) - The first input is a tensor whose data type is number or a number.
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- **input_y** (Union[Tensor, Number]) - The second input is a tensor whose data type is same as 'input_x' or
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a number.
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Outputs:
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Tensor, the shape is same as the shape after broadcasting, and the data type is same as 'input_x'.
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Examples:
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>>> input_x = Tensor(np.array([2, 4, -1]), mindspore.int32)
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>>> input_y = Tensor(np.array([3, 3, 3]), mindspore.int32)
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>>> floor_mod = FloorMod()
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>>> floor_mod(input_x, input_y)
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[2, 1, 2]
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"""
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class Acosh(PrimitiveWithInfer):
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"""
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Compute inverse hyperbolic cosine of x element-wise.
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Inputs:
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- **input_x** (Tensor) - The shape of tensor is :math:`(x_1, x_2, ..., x_R)`.
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Outputs:
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Tensor, has the same shape as `input_x`.
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Examples:
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>>> acosh = Acosh()
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>>> X = Tensor(np.array([1.0, 1.5, 3.0, 100.0]), ms.float32)
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>>> output = acosh(X)
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"""
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@prim_attr_register
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def __init__(self):
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"""init Acosh"""
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def infer_shape(self, x):
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return x
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def infer_dtype(self, x):
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validator.check_subclass("x_dtype", x, mstype.tensor)
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validator.check_typename('x_dtype', x, mstype.number_type)
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return x
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class _LogicBinaryOp(_BinaryOp):
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"""
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Define logic binary operators.
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@ -2395,4 +2395,4 @@ class ApplyFtrl(PrimitiveWithInfer):
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validator.check_typename("l1", l1_type,[mstype.float16, mstype.float32])
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validator.check_typename("l2", l2_type,[mstype.float16, mstype.float32])
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validator.check_typename("lr_power", lr_power_type,[mstype.float16, mstype.float32])
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return var_type
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return var_type
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@ -219,6 +219,10 @@ test_case_math_ops = [
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'block': P.ACos(),
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'desc_inputs': [[2, 3]],
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'desc_bprop': [[2, 3]]}),
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('Acosh', {
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'block': P.Acosh(),
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'desc_inputs': [Tensor(np.random.rand(4).astype(np.float16))],
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'skip': ['backward']}),
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('Sin', {
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'block': P.Sin(),
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'desc_inputs': [[2, 3]],
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@ -301,6 +305,11 @@ test_case_math_ops = [
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'desc_inputs': [Tensor(np.random.rand(4).astype(np.float16)),
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Tensor(np.random.rand(4).astype(np.float16))],
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'skip': ['backward']}),
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('FloorMod', {
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'block': P.FloorMod(),
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'desc_inputs': [Tensor(np.random.rand(4).astype(np.float16)),
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Tensor(np.random.rand(4).astype(np.float16))],
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'skip': ['backward']}),
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('identity', {
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'block': ops.functional.identity,
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'desc_inputs': [[2, 2]],
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