activation_op.cu 58.7 KB
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/* Copyright (c) 2016 PaddlePaddle Authors. All Rights Reserved.
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Licensed under the Apache License, Version 2.0 (the "License");
you may not use this file except in compliance with the License.
You may obtain a copy of the License at
    http://www.apache.org/licenses/LICENSE-2.0
Unless required by applicable law or agreed to in writing, software
distributed under the License is distributed on an "AS IS" BASIS,
WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
See the License for the specific language governing permissions and
limitations under the License. */
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#include "paddle/fluid/operators/activation_op.h"
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#include "paddle/fluid/operators/amp/fp16_type_traits.h"
#include "paddle/fluid/operators/elementwise/elementwise_op_impl.cu.h"
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#include "paddle/fluid/operators/math/math_cuda_utils.h"
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#include "paddle/fluid/platform/bfloat16.h"
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#include "paddle/fluid/platform/cuda_device_function.h"
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namespace paddle {
namespace operators {

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template <typename T>
struct CudaReluFunctor : public BaseActivationFunctor<T> {
  T zero = static_cast<T>(0.0f);

  // relu(x) = max(x, 0)
  // Inputs: args[0], the input x
  __device__ __forceinline__ T operator()(const T* args) const {
    return args[0] > zero ? args[0] : zero;
  }
};
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template <typename T>
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struct CudaReluGradFunctor : public BaseActivationFunctor<T> {
  T zero = static_cast<T>(0.0f);

  // dx = dout * (out > 0)
  // Inputs: args[0], the input dout
  //         args[1], the input out
  __device__ __forceinline__ T operator()(const T* args) const {
    return args[1] > zero ? args[0] : zero;
  }

  static constexpr ActBwdOpFwdDeps FwdDeps() { return kDepOut; }
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};

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template <typename T>
struct CudaLeakyReluFunctor : public BaseActivationFunctor<T> {
  T zero = static_cast<T>(0.0f);
  float alpha;

  typename BaseActivationFunctor<T>::AttrPair GetAttrs() {
    return {{"alpha", &alpha}};
  }

  // leakyrelu(x) = x > 0 ? x : alpha * x
  // Inputs: args[0], the input x
  __device__ __forceinline__ T operator()(const T* args) const {
    return args[0] > zero ? args[0] : static_cast<T>(alpha) * args[0];
  }
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};

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template <typename T>
struct CudaLeakyReluGradFunctor : public BaseActivationFunctor<T> {
  T zero = static_cast<T>(0.0f);
  float alpha;

  typename BaseActivationFunctor<T>::AttrPair GetAttrs() {
    return {{"alpha", &alpha}};
  }

  // dx = dout * (x > 0 ? 1 : alpha)
  // Inputs: args[0], the input dout
  //         args[1], the input x
  __device__ __forceinline__ T operator()(const T* args) const {
    return args[1] > zero ? args[0] : static_cast<T>(alpha) * args[0];
  }

  static constexpr ActBwdOpFwdDeps FwdDeps() { return kDepX; }
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};

template <typename T>
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struct CudaSigmoidFunctor : public BaseActivationFunctor<T> {
  using MPType = typename details::MPTypeTrait<T>::Type;
  MPType one = static_cast<MPType>(1.0f);

  // sigmoid(x) = 1 / (1 + exp(-x))
  // Inputs: args[0], the input x
  __device__ __forceinline__ T operator()(const T* args) const {
    MPType x = static_cast<MPType>(args[0]);
    return static_cast<T>(one / (one + exp(-x)));
  }
};
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template <typename T>
struct CudaSigmoidGradFunctor : public BaseActivationFunctor<T> {
  T one = static_cast<T>(1.0f);

  // dx = dout * out * (1 - out)
  // Inputs: args[0], the input dout
  //         args[1], the input out
  __device__ __forceinline__ T operator()(const T* args) const {
    return args[0] * args[1] * (one - args[1]);
  }
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  static constexpr ActBwdOpFwdDeps FwdDeps() { return kDepOut; }
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};

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template <typename T>
struct CudaSiluFunctor : public BaseActivationFunctor<T> {
  // MPType means Compute Type
  using MPType = typename details::MPTypeTrait<T>::Type;
  MPType one = static_cast<MPType>(1.0f);

  // silu(x) = x / (1 + exp(-x))
  // Inputs: args[0], the input x
  __device__ __forceinline__ T operator()(const T* args) const {
    MPType x = static_cast<MPType>(args[0]);
    return static_cast<T>(x / (one + exp(-x)));
  }
};
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template <typename T>
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struct CudaSiluGradFunctor : public BaseActivationFunctor<T> {
  using MPType = typename details::MPTypeTrait<T>::Type;
  MPType one = static_cast<MPType>(1.0f);

  // dx = dout * (1 + exp(-x) + x * exp(-x) / (1 + exp(-x))^2)
  // Inputs: args[0], the input dout
  //         args[1], the input x
  __device__ __forceinline__ T operator()(const T* args) const {
    MPType dout = static_cast<MPType>(args[0]);
    MPType x = static_cast<MPType>(args[1]);
    MPType temp = one / (one + exp(-x));
    return static_cast<T>(dout * (temp * (one + x * (one - temp))));
  }
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  static constexpr ActBwdOpFwdDeps FwdDeps() { return kDepX; }
};
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template <typename T>
struct CudaLogSigmoidFunctor : public BaseActivationFunctor<T> {
  using MPType = typename details::MPTypeTrait<T>::Type;
  MPType zero = static_cast<MPType>(0.0f);

  // logsigmoid(x) = log(1 / (1 + exp(-x)))
  // For numerical stability,
  // logsigmoid(x) =
  //          - (max(-x, 0) + log(exp(-max(-x, 0)) + exp(-x - max(-x, 0))))
  // Inputs: args[0], the input x
  __device__ __forceinline__ T operator()(const T* args) const {
    MPType x = static_cast<MPType>(args[0]);
    MPType temp = x > zero ? zero : -x;
    return static_cast<T>(-temp - log(exp(-temp) + exp(-x - temp)));
  }
};
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template <typename T>
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struct CudaLogSigmoidGradFunctor : public BaseActivationFunctor<T> {
  using MPType = typename details::MPTypeTrait<T>::Type;
  MPType zero = static_cast<MPType>(0.0f);

  // dx = dout * exp(-x) / (1 + exp(-x))
  // For numerical stability:
  // dx = dout * exp(-x - max(-x, 0)) / (exp(-max(-x, 0)) + exp(-x - max(-x,
  // 0)))
  // Inputs: args[0], the input dout
  //         args[1], the input x
  __device__ __forceinline__ T operator()(const T* args) const {
    MPType dout = static_cast<MPType>(args[0]);
    MPType x = static_cast<MPType>(args[1]);
    MPType temp1 = x > zero ? zero : -x;
    MPType temp2 = exp(-x - temp1);
    return static_cast<T>(dout * (temp2 / (exp(-temp1) + temp2)));
  }
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  static constexpr ActBwdOpFwdDeps FwdDeps() { return kDepX; }
};

template <typename T>
struct CudaAtanFunctor : public BaseActivationFunctor<T> {
  using MPType = typename details::MPTypeTrait<T>::Type;

  // atan(x) = atan(x)
  // Inputs: args[0], the input x
  __device__ __forceinline__ T operator()(const T* args) const {
    MPType x = static_cast<MPType>(args[0]);
    return static_cast<T>(atan(x));
  }
};

template <typename T>
struct CudaAtanGradFunctor : public BaseActivationFunctor<T> {
  T one = static_cast<T>(1.0f);

  // dx = dout / (1 + x^2)
  // Inputs: args[0], the input dout
  //         args[1], the input x
  __device__ __forceinline__ T operator()(const T* args) const {
    return args[0] / (one + args[1] * args[1]);
  }

  static constexpr ActBwdOpFwdDeps FwdDeps() { return kDepX; }
};

template <typename T>
struct CudaSoftShrinkFunctor : public BaseActivationFunctor<T> {
  float lambda;

  typename BaseActivationFunctor<T>::AttrPair GetAttrs() {
    return {{"lambda", &lambda}};
  }

  // softshrink(x) = x - lambda, if x > lambda;
  //                 x + lambda, if x < -lambda;
  //                 0, otherwise.
  // Inputs: args[0], the input x
  __device__ __forceinline__ T operator()(const T* args) const {
    T x = args[0];
    T l = static_cast<T>(lambda);
    T temp1 = static_cast<T>(x > l);
    T temp2 = static_cast<T>(x < -l);
    return temp1 * (x - l) + temp2 * (x + l);
  }
};

template <typename T>
struct CudaSoftShrinkGradFunctor : public BaseActivationFunctor<T> {
  T zero = static_cast<T>(0.0f);
  float lambda;

  typename BaseActivationFunctor<T>::AttrPair GetAttrs() {
    return {{"lambda", &lambda}};
  }

  // dx = dout, if x > lambda or x < -lambda else 0
  // Inputs: args[0], the input dout
  //         args[1], the input x
  __device__ __forceinline__ T operator()(const T* args) const {
    T x = args[1];
    T l = static_cast<T>(lambda);
    return (x >= -l && x <= l) ? zero : args[0];
  }

  static constexpr ActBwdOpFwdDeps FwdDeps() { return kDepX; }
};

template <typename T>
struct CudaCeilFunctor : public BaseActivationFunctor<T> {
  using MPType = typename details::MPTypeTrait<T>::Type;

  // ceil(x) = ceil(x)
  // Inputs: args[0], the input x
  __device__ __forceinline__ T operator()(const T* args) const {
    MPType x = static_cast<MPType>(args[0]);
    return static_cast<T>(ceil(x));
  }
};

template <typename T>
struct CudaFloorFunctor : public BaseActivationFunctor<T> {
  using MPType = typename details::MPTypeTrait<T>::Type;

  // floor(x) = floor(x)
  // Inputs: args[0], the input x
  __device__ __forceinline__ T operator()(const T* args) const {
    MPType x = static_cast<MPType>(args[0]);
    return static_cast<T>(floor(x));
  }
};

template <typename T>
struct CudaRoundFunctor : public BaseActivationFunctor<T> {
  using MPType = typename details::MPTypeTrait<T>::Type;

  // round(x) = round(x)
  // Inputs: args[0], the input x
  __device__ __forceinline__ T operator()(const T* args) const {
    MPType x = static_cast<MPType>(args[0]);
    return static_cast<T>(round(x));
  }
};

// grad functor for ceil, floor and round
template <typename T>
struct CudaZeroGradFunctor : public BaseActivationFunctor<T> {
  __device__ __forceinline__ T operator()(const T* args) const {
    return static_cast<T>(0.0f);
  }

  static constexpr ActBwdOpFwdDeps FwdDeps() { return kNoDeps; }
};

template <typename T>
struct CudaCosFunctor : public BaseActivationFunctor<T> {
  using MPType = typename details::MPTypeTrait<T>::Type;

  // cos(x) = cos(x)
  // Inputs: args[0], the input x
  __device__ __forceinline__ T operator()(const T* args) const {
    MPType x = static_cast<MPType>(args[0]);
    return static_cast<T>(cos(x));
  }
};

template <typename T>
struct CudaCosGradFunctor : public BaseActivationFunctor<T> {
  using MPType = typename details::MPTypeTrait<T>::Type;

  // dx = dout * (-sin(x))
  // Inputs: args[0], the input dout
  //         args[1], the input x
  __device__ __forceinline__ T operator()(const T* args) const {
    MPType dout = static_cast<MPType>(args[0]);
    MPType x = static_cast<MPType>(args[1]);
    return static_cast<T>(-dout * sin(x));
  }

  static constexpr ActBwdOpFwdDeps FwdDeps() { return kDepX; }
};

template <typename T>
struct CudaSinFunctor : public BaseActivationFunctor<T> {
  using MPType = typename details::MPTypeTrait<T>::Type;

  // sin(x) = sin(x)
  // Inputs: args[0], the input x
  __device__ __forceinline__ T operator()(const T* args) const {
    MPType x = static_cast<MPType>(args[0]);
    return static_cast<T>(sin(x));
  }
};

template <typename T>
struct CudaSinGradFunctor : public BaseActivationFunctor<T> {
  using MPType = typename details::MPTypeTrait<T>::Type;

  // dx = dout * cos(x)
  // Inputs: args[0], the input dout
  //         args[1], the input x
  __device__ __forceinline__ T operator()(const T* args) const {
    MPType dout = static_cast<MPType>(args[0]);
    MPType x = static_cast<MPType>(args[1]);
    return static_cast<T>(dout * cos(x));
  }

  static constexpr ActBwdOpFwdDeps FwdDeps() { return kDepX; }
};

template <typename T>
struct CudaTanFunctor : public BaseActivationFunctor<T> {
  using MPType = typename details::MPTypeTrait<T>::Type;

  // tan(x) = tan(x)
  // Inputs: args[0], the input x
  __device__ __forceinline__ T operator()(const T* args) const {
    MPType x = static_cast<MPType>(args[0]);
    return static_cast<T>(tan(x));
  }
};

template <typename T>
struct CudaTanGradFunctor : public BaseActivationFunctor<T> {
  using MPType = typename details::MPTypeTrait<T>::Type;

  // dx = dout / cos(x)^2
  // Inputs: args[0], the input dout
  //         args[1], the input x
  __device__ __forceinline__ T operator()(const T* args) const {
    MPType dout = static_cast<MPType>(args[0]);
    MPType x = static_cast<MPType>(args[1]);
    return static_cast<T>(dout / (cos(x) * cos(x)));
  }

  static constexpr ActBwdOpFwdDeps FwdDeps() { return kDepX; }
};

template <typename T>
struct CudaAsinFunctor : public BaseActivationFunctor<T> {
  using MPType = typename details::MPTypeTrait<T>::Type;

  // asin(x) = asin(x)
  // Inputs: args[0], the input x
  __device__ __forceinline__ T operator()(const T* args) const {
    MPType x = static_cast<MPType>(args[0]);
    return static_cast<T>(asin(x));
  }
};

template <typename T>
struct CudaAsinGradFunctor : public BaseActivationFunctor<T> {
  using MPType = typename details::MPTypeTrait<T>::Type;
  MPType one = static_cast<MPType>(1.0f);

  // dx = dout / sqrt(1 - x^2)
  // Inputs: args[0], the input dout
  //         args[1], the input x
  __device__ __forceinline__ T operator()(const T* args) const {
    MPType dout = static_cast<MPType>(args[0]);
    MPType x = static_cast<MPType>(args[1]);
    return static_cast<T>(dout / sqrt(one - x * x));
  }

  static constexpr ActBwdOpFwdDeps FwdDeps() { return kDepX; }
};

template <typename T>
struct CudaAcosFunctor : public BaseActivationFunctor<T> {
  using MPType = typename details::MPTypeTrait<T>::Type;

  // acos(x) = acos(x)
  // Inputs: args[0], the input x
  __device__ __forceinline__ T operator()(const T* args) const {
    MPType x = static_cast<MPType>(args[0]);
    return static_cast<T>(acos(x));
  }
};

template <typename T>
struct CudaAcosGradFunctor : public BaseActivationFunctor<T> {
  using MPType = typename details::MPTypeTrait<T>::Type;
  MPType one = static_cast<MPType>(1.0f);

  // dx = -dout / sqrt(1 - x^2)
  // Inputs: args[0], the input dout
  //         args[1], the input x
  __device__ __forceinline__ T operator()(const T* args) const {
    MPType dout = static_cast<MPType>(args[0]);
    MPType x = static_cast<MPType>(args[1]);
    return static_cast<T>(-dout / sqrt(one - x * x));
  }

  static constexpr ActBwdOpFwdDeps FwdDeps() { return kDepX; }
};
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template <typename T>
struct CudaCoshFunctor : public BaseActivationFunctor<T> {
  using MPType = typename details::MPTypeTrait<T>::Type;

  // cosh(x) = cosh(x)
  // Inputs: args[0], the input x
  __device__ __forceinline__ T operator()(const T* args) const {
    MPType x = static_cast<MPType>(args[0]);
    return static_cast<T>(cosh(x));
  }
};

template <typename T>
struct CudaCoshGradFunctor : public BaseActivationFunctor<T> {
  using MPType = typename details::MPTypeTrait<T>::Type;

  // dx = dout * sinh(x)
  // Inputs: args[0], the input dout
  //         args[1], the input x
  __device__ __forceinline__ T operator()(const T* args) const {
    MPType dout = static_cast<MPType>(args[0]);
    MPType x = static_cast<MPType>(args[1]);
    return static_cast<T>(dout * sinh(x));
  }

  static constexpr ActBwdOpFwdDeps FwdDeps() { return kDepX; }
};

template <typename T>
struct CudaSinhFunctor : public BaseActivationFunctor<T> {
  using MPType = typename details::MPTypeTrait<T>::Type;

  // sinh(x) = sinh(x)
  // Inputs: args[0], the input x
  __device__ __forceinline__ T operator()(const T* args) const {
    MPType x = static_cast<MPType>(args[0]);
    return static_cast<T>(sinh(x));
  }
};

template <typename T>
struct CudaSinhGradFunctor : public BaseActivationFunctor<T> {
  using MPType = typename details::MPTypeTrait<T>::Type;

  // dx = dout * cosh(x)
  // Inputs: args[0], the input dout
  //         args[1], the input x
  __device__ __forceinline__ T operator()(const T* args) const {
    MPType dout = static_cast<MPType>(args[0]);
    MPType x = static_cast<MPType>(args[1]);
    return static_cast<T>(dout * cosh(x));
  }

  static constexpr ActBwdOpFwdDeps FwdDeps() { return kDepX; }
};

template <typename T>
struct CudaTanhFunctor : public BaseActivationFunctor<T> {
  using MPType = typename details::MPTypeTrait<T>::Type;

  // tanh(x) = tanh(x)
  // Inputs: args[0], the input x
  __device__ __forceinline__ T operator()(const T* args) const {
    MPType x = static_cast<MPType>(args[0]);
    return static_cast<T>(tanh(x));
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  }
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};
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template <typename T>
struct CudaTanhGradFunctor : public BaseActivationFunctor<T> {
  T one = static_cast<T>(1.0f);

  // dx = dout * (1 - out^2)
  // Inputs: args[0], the input dout
  //         args[1], the input out
  __device__ __forceinline__ T operator()(const T* args) const {
    T dout = static_cast<T>(args[0]);
    T out = static_cast<T>(args[1]);
    return dout * (one - out * out);
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  }

  static constexpr ActBwdOpFwdDeps FwdDeps() { return kDepOut; }
};

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template <typename T>
struct CudaReciprocalFunctor : public BaseActivationFunctor<T> {
  T one = static_cast<T>(1.0f);

  // reciprocal(x) = 1 / x
  // Inputs: args[0], the input x
  __device__ __forceinline__ T operator()(const T* args) const {
    return one / args[0];
  }
};
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struct CudaReciprocalGradFunctor : public BaseActivationFunctor<T> {
  // dx = -dout * out^2
  // Inputs: args[0], the input dout
  //         args[1], the input out
  __device__ __forceinline__ T operator()(const T* args) const {
    return -args[0] * args[1] * args[1];
  }
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  static constexpr ActBwdOpFwdDeps FwdDeps() { return kDepOut; }
};
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template <typename T>
struct CudaExpFunctor : public BaseActivationFunctor<T> {
  using MPType = typename details::MPTypeTrait<T>::Type;

  // exp(x) = exp(x)
  // Inputs: args[0], the input x
  __device__ __forceinline__ T operator()(const T* args) const {
    MPType x = static_cast<MPType>(args[0]);
    return static_cast<T>(exp(x));
  }
};
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struct CudaExpGradFunctor : public BaseActivationFunctor<T> {
  // dx = dout * out
  // Inputs: args[0], the input dout
  //         args[1], the input out
  __device__ __forceinline__ T operator()(const T* args) const {
    return args[0] * args[1];
  }
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  static constexpr ActBwdOpFwdDeps FwdDeps() { return kDepOut; }
};
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template <typename T>
struct CudaLogFunctor : public BaseActivationFunctor<T> {
  using MPType = typename details::MPTypeTrait<T>::Type;

  // log(x) = log(x)
  // Inputs: args[0], the input x
  __device__ __forceinline__ T operator()(const T* args) const {
    MPType x = static_cast<MPType>(args[0]);
    return static_cast<T>(log(x));
  }
};

template <typename T>
struct CudaLogGradFunctor : public BaseActivationFunctor<T> {
  // dx = dout / x
  // Inputs: args[0], the input dout
  //         args[1], the input x
  __device__ __forceinline__ T operator()(const T* args) const {
    return args[0] / args[1];
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  }

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  static constexpr ActBwdOpFwdDeps FwdDeps() { return kDepX; }
};

template <typename T>
struct CudaSquareFunctor : public BaseActivationFunctor<T> {
  // square(x) = x * x
  // Inputs: args[0], the input x
  __device__ __forceinline__ T operator()(const T* args) const {
    return args[0] * args[0];
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  }
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};
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template <typename T>
struct CudaSquareGradFunctor : public BaseActivationFunctor<T> {
  T two = static_cast<T>(2.0f);

  // dx = dout * 2 * x
  // Inputs: args[0], the input dout
  //         args[1], the input x
  __device__ __forceinline__ T operator()(const T* args) const {
    return args[0] * two * args[1];
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  }

  static constexpr ActBwdOpFwdDeps FwdDeps() { return kDepX; }
};

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template <typename T>
struct CudaSqrtFunctor : public BaseActivationFunctor<T> {
  using MPType = typename details::MPTypeTrait<T>::Type;

  // sqrt(x) = sqrt(x)
  // Inputs: args[0], the input x
  __device__ __forceinline__ T operator()(const T* args) const {
    MPType x = static_cast<MPType>(args[0]);
    return static_cast<T>(sqrt(x));
  }
};
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template <typename T>
struct CudaSqrtGradFunctor : public BaseActivationFunctor<T> {
  T one_half = static_cast<T>(0.5f);

  // dx = dout * 0.5 / out
  // Inputs: args[0], the input dout
  //         args[1], the input out
  __device__ __forceinline__ T operator()(const T* args) const {
    return one_half * args[0] / args[1];
  }

  static constexpr ActBwdOpFwdDeps FwdDeps() { return kDepOut; }
};
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template <typename T>
struct CudaRsqrtFunctor : public BaseActivationFunctor<T> {
  using MPType = typename details::MPTypeTrait<T>::Type;

  // rsqrt(x) = rsqrt(x)
  // Inputs: args[0], the input x
  __device__ __forceinline__ T operator()(const T* args) const {
    MPType x = static_cast<MPType>(args[0]);
    return static_cast<T>(rsqrt(x));
  }
};

template <typename T>
struct CudaRsqrtGradFunctor : public BaseActivationFunctor<T> {
  T minus_one_half = static_cast<T>(-0.5f);

  // dx = dout * -0.5 / out^3
  // Inputs: args[0], the input dout
  //         args[1], the input out
  __device__ __forceinline__ T operator()(const T* args) const {
    T out = args[1];
    return minus_one_half * args[0] * out * out * out;
  }

  static constexpr ActBwdOpFwdDeps FwdDeps() { return kDepOut; }
};
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template <typename T>
struct CudaLog1pFunctor : public BaseActivationFunctor<T> {
  using MPType = typename details::MPTypeTrait<T>::Type;
  MPType one = static_cast<MPType>(1.0f);

  // log1p(x) = log(1 + x)
  // Inputs: args[0], the input x
  __device__ __forceinline__ T operator()(const T* args) const {
    MPType x = static_cast<MPType>(args[0]);
    return static_cast<T>(log(one + x));
  }
};

template <typename T>
struct CudaLog1pGradFunctor : public BaseActivationFunctor<T> {
  T one = static_cast<T>(1.0f);

  // dx = dout / (1 + x)
  // Inputs: args[0], the input dout
  //         args[1], the input x
  __device__ __forceinline__ T operator()(const T* args) const {
    return args[0] / (one + args[1]);
  }

  static constexpr ActBwdOpFwdDeps FwdDeps() { return kDepX; }
};

template <typename T>
struct CudaLog2Functor : public BaseActivationFunctor<T> {
  using MPType = typename details::MPTypeTrait<T>::Type;

  // log2(x) = log2(x)
  // Inputs: args[0], the input x
  __device__ __forceinline__ T operator()(const T* args) const {
    MPType x = static_cast<MPType>(args[0]);
    return static_cast<T>(log2(x));
  }
};

template <typename T>
struct CudaLog2GradFunctor : public BaseActivationFunctor<T> {
  using MPType = typename details::MPTypeTrait<T>::Type;
  T log_two = static_cast<T>(log(static_cast<MPType>(2.0f)));

  // dx = dout / (x * log(2))
  // Inputs: args[0], the input dout
  //         args[1], the input x
  __device__ __forceinline__ T operator()(const T* args) const {
    return args[0] / (args[1] * log_two);
  }

  static constexpr ActBwdOpFwdDeps FwdDeps() { return kDepX; }
};

template <typename T>
struct CudaLog10Functor : public BaseActivationFunctor<T> {
  using MPType = typename details::MPTypeTrait<T>::Type;

  // log10(x) = log10(x)
  // Inputs: args[0], the input x
  __device__ __forceinline__ T operator()(const T* args) const {
    MPType x = static_cast<MPType>(args[0]);
    return static_cast<T>(log10(x));
  }
};

template <typename T>
struct CudaLog10GradFunctor : public BaseActivationFunctor<T> {
  using MPType = typename details::MPTypeTrait<T>::Type;
  T log_ten = static_cast<T>(log(static_cast<MPType>(10.0f)));

  // dx = dout / (x * log(10))
  // Inputs: args[0], the input dout
  //         args[1], the input x
  __device__ __forceinline__ T operator()(const T* args) const {
    return args[0] / (args[1] * log_ten);
  }

  static constexpr ActBwdOpFwdDeps FwdDeps() { return kDepX; }
};

template <typename T>
struct CudaBReluFunctor : public BaseActivationFunctor<T> {
  float t_min;
  float t_max;

  typename BaseActivationFunctor<T>::AttrPair GetAttrs() {
    return {{"t_min", &t_min}, {"t_max", &t_max}};
  }

  // brelu(x) = min(max(x, t_min), t_max)
  // Inputs: args[0], the input x
  __device__ __forceinline__ T operator()(const T* args) const {
    T x = args[0];
    T t_min_cast = static_cast<T>(t_min);
    T t_max_cast = static_cast<T>(t_max);
    T temp_max = x > t_min_cast ? x : t_min_cast;
    T temp_min = temp_max < t_max_cast ? temp_max : t_max_cast;
    return temp_min;
  }
};

template <typename T>
struct CudaBReluGradFunctor : public BaseActivationFunctor<T> {
  T zero = static_cast<T>(0.0f);
  float t_min;
  float t_max;

  typename BaseActivationFunctor<T>::AttrPair GetAttrs() {
    return {{"t_min", &t_min}, {"t_max", &t_max}};
  }

  // dx = (x > t_min && x < t_max) ? dout : 0
  // Inputs: args[0], the input dout
  //         args[1], the input x
  __device__ __forceinline__ T operator()(const T* args) const {
    T dout = args[0];
    T x = args[1];
    T t_min_cast = static_cast<T>(t_min);
    T t_max_cast = static_cast<T>(t_max);
    return (x > t_min_cast && x < t_max_cast) ? dout : zero;
  }

  static constexpr ActBwdOpFwdDeps FwdDeps() { return kDepX; }
};

template <typename T>
struct CudaSoftReluFunctor : public BaseActivationFunctor<T> {
  using MPType = typename details::MPTypeTrait<T>::Type;
  MPType one = static_cast<MPType>(1.0f);
  float threshold;

  typename BaseActivationFunctor<T>::AttrPair GetAttrs() {
    return {{"threshold", &threshold}};
  }

  // soft_relu(x) = log(1 + exp(max(min(x, threshold), -threshold)))
  // Inputs: args[0], the input x
  // threshold should not be negative
  __device__ __forceinline__ T operator()(const T* args) const {
    MPType x = static_cast<MPType>(args[0]);
    MPType t = static_cast<MPType>(threshold);
    MPType temp_min = x < t ? x : t;
    MPType temp_max = temp_min > -t ? temp_min : -t;
    return static_cast<T>(log(one + exp(temp_max)));
  }
};

template <typename T>
struct CudaSoftReluGradFunctor : public BaseActivationFunctor<T> {
  using MPType = typename details::MPTypeTrait<T>::Type;
  MPType one = static_cast<MPType>(1.0f);
  float threshold;

  typename BaseActivationFunctor<T>::AttrPair GetAttrs() {
    return {{"threshold", &threshold}};
  }

  // dx = (out > -threshold && out < threshold) ? dout * (1 - exp(-out)) : 0
  // Inputs: args[0], the input dout
  //         args[1], the input out
  // threshold should not be negative
  __device__ __forceinline__ T operator()(const T* args) const {
    MPType dout = static_cast<MPType>(args[0]);
    MPType out = static_cast<MPType>(args[1]);
    MPType t = static_cast<MPType>(threshold);
    return (out > -t && out < t) ? static_cast<T>(dout * (one - exp(-out)))
                                 : static_cast<T>(0.0f);
  }

  static constexpr ActBwdOpFwdDeps FwdDeps() { return kDepOut; }
};

template <typename T>
struct CudaSTanhFunctor : public BaseActivationFunctor<T> {
  using MPType = typename details::MPTypeTrait<T>::Type;
  float scale_a;
  float scale_b;

  typename BaseActivationFunctor<T>::AttrPair GetAttrs() {
    return {{"scale_a", &scale_a}, {"scale_b", &scale_b}};
  }

  // stanh(x) = b * tanh(a * x)
  // Inputs: args[0], the input x
  __device__ __forceinline__ T operator()(const T* args) const {
    MPType x = static_cast<MPType>(args[0]);
    MPType a = static_cast<MPType>(scale_a);
    MPType b = static_cast<MPType>(scale_b);
    return static_cast<T>(b * tanh(a * x));
  }
};

template <typename T>
struct CudaSTanhGradFunctor : public BaseActivationFunctor<T> {
  using MPType = typename details::MPTypeTrait<T>::Type;
  MPType one = static_cast<MPType>(1.0f);
  float scale_a;
  float scale_b;

  typename BaseActivationFunctor<T>::AttrPair GetAttrs() {
    return {{"scale_a", &scale_a}, {"scale_b", &scale_b}};
  }

  // dx = dout * a * b * (1 - tanh(a * x) * tanh(a * x))
  // Inputs: args[0], the input dout
  //         args[1], the input x
  __device__ __forceinline__ T operator()(const T* args) const {
    MPType dout = static_cast<MPType>(args[0]);
    MPType x = static_cast<MPType>(args[1]);
    MPType a = static_cast<MPType>(scale_a);
    MPType b = static_cast<MPType>(scale_b);
    MPType temp = tanh(a * x);
    return static_cast<T>(dout * a * b * (one - temp * temp));
  }

  static constexpr ActBwdOpFwdDeps FwdDeps() { return kDepX; }
};

template <typename T>
struct CudaSoftplusFunctor : public BaseActivationFunctor<T> {
  using MPType = typename details::MPTypeTrait<T>::Type;
  MPType one = static_cast<MPType>(1.0f);
  float beta;
  float threshold;

  typename BaseActivationFunctor<T>::AttrPair GetAttrs() {
    return {{"beta", &beta}, {"threshold", &threshold}};
  }

  // softplus(x) = beta * x > threshold ? x : log(1 + exp(beta * x)) / beta
  // Inputs: args[0], the input x
  __device__ __forceinline__ T operator()(const T* args) const {
    MPType x = static_cast<MPType>(args[0]);
    MPType b = static_cast<MPType>(beta);
    MPType t = static_cast<MPType>(threshold);
    MPType x_beta = x * beta;
    return static_cast<T>(x_beta > t ? x : log(one + exp(x_beta)) / b);
  }
};

template <typename T>
struct CudaSoftplusGradFunctor : public BaseActivationFunctor<T> {
  using MPType = typename details::MPTypeTrait<T>::Type;
  MPType one = static_cast<MPType>(1.0f);
  float beta;
  float threshold;

  typename BaseActivationFunctor<T>::AttrPair GetAttrs() {
    return {{"beta", &beta}, {"threshold", &threshold}};
  }

  // dx = x * beta > threshold ? dout : dout / (1 + exp(-beta * x))
  // Inputs: args[0], the input dout
  //         args[1], the input x
  __device__ __forceinline__ T operator()(const T* args) const {
    MPType dout = static_cast<MPType>(args[0]);
    MPType x = static_cast<MPType>(args[1]);
    MPType b = static_cast<MPType>(beta);
    MPType t = static_cast<MPType>(threshold);
    MPType x_beta = x * beta;
    return x_beta > t ? args[0] : static_cast<T>(dout / (one + exp(-x_beta)));
  }

  static constexpr ActBwdOpFwdDeps FwdDeps() { return kDepX; }
};

template <typename T>
struct CudaSoftsignFunctor : public BaseActivationFunctor<T> {
  T one = static_cast<T>(1.0f);

  // softsign(x) = x / (1 + abs(x))
  // Inputs: args[0], the input x
  __device__ __forceinline__ T operator()(const T* args) const {
    return args[0] / (one + abs(args[0]));
  }
};

template <typename T>
struct CudaSoftsignGradFunctor : public BaseActivationFunctor<T> {
  T one = static_cast<T>(1.0f);

  // dx = dout / (1 + abs(x))^2
  // Inputs: args[0], the input dout
  //         args[1], the input x
  __device__ __forceinline__ T operator()(const T* args) const {
    T temp = one + abs(args[1]);
    return args[0] / (temp * temp);
  }

  static constexpr ActBwdOpFwdDeps FwdDeps() { return kDepX; }
};

template <typename T>
struct CudaRelu6Functor : public BaseActivationFunctor<T> {
  T zero = static_cast<T>(0.0f);
  float threshold;

  typename BaseActivationFunctor<T>::AttrPair GetAttrs() {
    return {{"threshold", &threshold}};
  }

  // relu6(x) = min(max(0, x), 6)
  // Inputs: args[0], the input x
  __device__ __forceinline__ T operator()(const T* args) const {
    T t = static_cast<T>(threshold);
    return args[0] <= zero ? zero : (args[0] < t ? args[0] : t);
  }
};

template <typename T>
struct CudaRelu6GradFunctor : public BaseActivationFunctor<T> {
  T zero = static_cast<T>(0.0f);
  float threshold;

  typename BaseActivationFunctor<T>::AttrPair GetAttrs() {
    return {{"threshold", &threshold}};
  }

  // dx = (out > 0 && out < t) ? dout : 0
  // Inputs: args[0], the input dout
  //         args[1], the input out
  __device__ __forceinline__ T operator()(const T* args) const {
    T t = static_cast<T>(threshold);
    return (args[1] > zero && args[1] < t) ? args[0] : zero;
  }

  static constexpr ActBwdOpFwdDeps FwdDeps() { return kDepOut; }
};

template <typename T>
struct CudaTanhShrinkFunctor : public BaseActivationFunctor<T> {
  using MPType = typename details::MPTypeTrait<T>::Type;

  // tanhshrink(x) = x - tanh(x)
  // Inputs: args[0], the input x
  __device__ __forceinline__ T operator()(const T* args) const {
    MPType x = static_cast<MPType>(args[0]);
    return static_cast<T>(x - tanh(x));
  }
};

template <typename T>
struct CudaTanhShrinkGradFunctor : public BaseActivationFunctor<T> {
  using MPType = typename details::MPTypeTrait<T>::Type;

  // dx = dout * tanh(x)^2
  // Inputs: args[0], the input dout
  //         args[1], the input x
  __device__ __forceinline__ T operator()(const T* args) const {
    MPType dout = static_cast<MPType>(args[0]);
    MPType x = static_cast<MPType>(args[1]);
    return static_cast<T>(dout * tanh(x) * tanh(x));
  }

  static constexpr ActBwdOpFwdDeps FwdDeps() { return kDepX; }
};

template <typename T>
struct CudaHardShrinkFunctor : public BaseActivationFunctor<T> {
  T zero = static_cast<T>(0.0f);
  float threshold;

  typename BaseActivationFunctor<T>::AttrPair GetAttrs() {
    return {{"threshold", &threshold}};
  }

  // hadrshrink(x) = (x > -threshold && x < threshold) ? 0 : x
  // Inputs: args[0], the input x
  __device__ __forceinline__ T operator()(const T* args) const {
    T x = args[0];
    T t = static_cast<T>(threshold);
    return (x > -t && x < t) ? zero : x;
  }
};

template <typename T>
struct CudaHardShrinkGradFunctor : public BaseActivationFunctor<T> {
  T zero = static_cast<T>(0.0f);
  float threshold;

  typename BaseActivationFunctor<T>::AttrPair GetAttrs() {
    return {{"threshold", &threshold}};
  }

  // dx = (x > -threshold && x < threshold) ? 0 : dout
  // Inputs: args[0], the input dout
  //         args[1], the input x
  __device__ __forceinline__ T operator()(const T* args) const {
    T x = args[1];
    T t = static_cast<T>(threshold);
    return (x > -t && x < t) ? zero : args[0];
  }

  static constexpr ActBwdOpFwdDeps FwdDeps() { return kDepX; }
};

template <typename T>
struct CudaHardSigmoidFunctor : public BaseActivationFunctor<T> {
  T zero = static_cast<T>(0.0f);
  T one = static_cast<T>(1.0f);
  float slope;
  float offset;

  typename BaseActivationFunctor<T>::AttrPair GetAttrs() {
    return {{"slope", &slope}, {"offset", &offset}};
  }

  // hard_sigmoid(x) = 0, when x <= -3
  //                   1, when x >= 3
  //                   x * slope + offset, otherwise
  // Inputs: args[0], the input x
  __device__ __forceinline__ T operator()(const T* args) const {
    T temp = args[0] * static_cast<T>(slope) + static_cast<T>(offset);
    T temp_max = temp > zero ? temp : zero;
    T temp_min = temp_max < one ? temp_max : one;
    return temp_min;
  }
};

template <typename T>
struct CudaHardSigmoidGradFunctor : public BaseActivationFunctor<T> {
  T zero = static_cast<T>(0.0f);
  T one = static_cast<T>(1.0f);
  float slope;
  float offset;

  typename BaseActivationFunctor<T>::AttrPair GetAttrs() {
    return {{"slope", &slope}, {"offset", &offset}};
  }

  // dx = (out > 0 && out < 1) ? dout * slope : 0
  // Inputs: args[0], the input dout
  //         args[1], the input out
  __device__ __forceinline__ T operator()(const T* args) const {
    T out = args[1];
    return (out > zero && out < one) ? args[0] * static_cast<T>(slope) : zero;
  }

  static constexpr ActBwdOpFwdDeps FwdDeps() { return kDepOut; }
};

template <typename T>
struct CudaSwishFunctor : public BaseActivationFunctor<T> {
  using MPType = typename details::MPTypeTrait<T>::Type;
  MPType one = static_cast<MPType>(1.0f);
  float beta;

  typename BaseActivationFunctor<T>::AttrPair GetAttrs() {
    return {{"beta", &beta}};
  }

  // swish(x) = x / (1 + exp(-beta * x))
  // Inputs: args[0], the input x
  __device__ __forceinline__ T operator()(const T* args) const {
    MPType x = static_cast<MPType>(args[0]);
    MPType b = static_cast<MPType>(beta);
    return static_cast<T>(x / (one + exp(-b * x)));
  }
};

template <typename T>
struct CudaSwishGradFunctor : public BaseActivationFunctor<T> {
  using MPType = typename details::MPTypeTrait<T>::Type;
  MPType one = static_cast<MPType>(1.0f);
  float beta;

  typename BaseActivationFunctor<T>::AttrPair GetAttrs() {
    return {{"beta", &beta}};
  }

  // dx = dout * (1 + exp(-b * x) + b * x * exp(-b * x) / (1 + exp(-b * x))^2)
  // Inputs: args[0], the input dout
  //         args[1], the input x
  __device__ __forceinline__ T operator()(const T* args) const {
    MPType dout = static_cast<MPType>(args[0]);
    MPType x = static_cast<MPType>(args[1]);
    MPType b = static_cast<MPType>(beta);
    MPType temp1 = one / (one + exp(-b * x));
    MPType out = x * temp1;
    MPType temp2 = b * out;
    MPType temp3 = temp1 * (one - temp2);
    return static_cast<T>(dout * (temp2 + temp3));
  }

  static constexpr ActBwdOpFwdDeps FwdDeps() { return kDepX; }
};

template <typename T>
struct CudaThresholdedReluFunctor : public BaseActivationFunctor<T> {
  T zero = static_cast<T>(0.0f);
  float threshold;

  typename BaseActivationFunctor<T>::AttrPair GetAttrs() {
    return {{"threshold", &threshold}};
  }

  // thresholded_relu(x) = x > threshold ? x : 0
  // Inputs: args[0], the input x
  __device__ __forceinline__ T operator()(const T* args) const {
    return args[0] > static_cast<T>(threshold) ? args[0] : zero;
  }
};

template <typename T>
struct CudaThresholdedReluGradFunctor : public BaseActivationFunctor<T> {
  T zero = static_cast<T>(0.0f);
  float threshold;

  typename BaseActivationFunctor<T>::AttrPair GetAttrs() {
    return {{"threshold", &threshold}};
  }

  // dx = x > threshold ? dout : 0
  // Inputs: args[0], the input dout
  //         args[1], the input x
  __device__ __forceinline__ T operator()(const T* args) const {
    return args[1] > static_cast<T>(threshold) ? args[0] : zero;
  }

  static constexpr ActBwdOpFwdDeps FwdDeps() { return kDepX; }
};

template <typename T>
struct CudaHardSwishFunctor : public BaseActivationFunctor<T> {
  T zero = static_cast<T>(0.0f);
  float threshold;
  float scale;
  float offset;

  typename BaseActivationFunctor<T>::AttrPair GetAttrs() {
    return {{"threshold", &threshold}, {"scale", &scale}, {"offset", &offset}};
  }

  // hard_swish(x) = 0, when x <= -offset
  //                 x , when x >= threshold - offset
  //                 x * (x + offset) / scale, otherwise
  // threshold = scale = 6, offset = 3 by default
  // Inputs: args[0], the input x
  __device__ __forceinline__ T operator()(const T* args) const {
    T x = args[0];
    T t = static_cast<T>(threshold);
    T temp = x + static_cast<T>(offset);
    T temp_max = temp > zero ? temp : zero;
    T temp_min = temp_max < t ? temp_max : t;
    return temp_min * x / static_cast<T>(scale);
  }
};

template <typename T>
struct CudaHardSwishGradFunctor : public BaseActivationFunctor<T> {
  T zero = static_cast<T>(0.0f);
  T one = static_cast<T>(1.0f);
  T two = static_cast<T>(2.0f);
  float threshold;
  float scale;
  float offset;

  typename BaseActivationFunctor<T>::AttrPair GetAttrs() {
    return {{"threshold", &threshold}, {"scale", &scale}, {"offset", &offset}};
  }

  // dx = 0, when x <= -offset
  //      dout , when x >= threshold - offset
  //      dout * (2 * x / scale + offset / scale), otherwise
  // threshold = scale = 6, offset = 3 by default
  // Inputs: args[0], the input dout
  //         args[1], the input x
  __device__ __forceinline__ T operator()(const T* args) const {
    T x = args[1];
    T o = static_cast<T>(offset);
    T s = static_cast<T>(scale);
    T temp1 = static_cast<T>(x + o > zero);
    T temp2 = static_cast<T>(x + o < static_cast<T>(threshold));
    return args[0] * (temp1 * temp2 * (two * x + o) / s + one - temp2);
  }

  static constexpr ActBwdOpFwdDeps FwdDeps() { return kDepX; }
};

template <typename T>
struct CudaELUFunctor : public BaseActivationFunctor<T> {
  using CT = typename details::MPTypeTrait<T>::Type;
  CT zero = static_cast<CT>(0.0f);
  CT one = static_cast<CT>(1.0f);
  float alpha;

  typename BaseActivationFunctor<T>::AttrPair GetAttrs() {
    return {{"alpha", &alpha}};
  }

  // elu(x) = max(0, x) + min(0, alpha * (exp(x) - 1))
  // Inputs: args[0], the input x
  __device__ __forceinline__ T operator()(const T* args) const {
    CT x = static_cast<CT>(args[0]);
    CT temp = static_cast<CT>(alpha) * (exp(x) - one);
    CT res = (x > zero ? x : zero) + (temp > zero ? zero : temp);
    return static_cast<T>(res);
  }
};

template <typename T>
struct CudaELUGradFunctor : public BaseActivationFunctor<T> {
  using MPType = typename details::MPTypeTrait<T>::Type;
  MPType zero = static_cast<MPType>(0.0f);
  MPType one = static_cast<MPType>(1.0f);
  float alpha;

  typename BaseActivationFunctor<T>::AttrPair GetAttrs() {
    return {{"alpha", &alpha}};
  }

  // dx = dout, if alpha > 0 and x > 0
  // dx = dout * alpha * x.exp(), if alpha > 0 and x <= 0
  // dx = dout * (1 + alpha * x.exp()), if alpha <= 0 and x > 0
  // dx = 0, if alpha <= 0 and x <=0
  // Inputs: args[0], the input dout
  //         args[1], the input x
  __device__ __forceinline__ T operator()(const T* args) const {
    MPType dout = static_cast<MPType>(args[0]);
    MPType x = static_cast<MPType>(args[1]);
    MPType a = static_cast<MPType>(alpha);
    MPType temp_a_pos = static_cast<MPType>(alpha > 0.0f);
    MPType temp_a_neg = static_cast<MPType>(alpha <= 0.0f);
    MPType temp_x_pos = static_cast<MPType>(x > zero);
    MPType temp_x_neg = static_cast<MPType>(x <= zero);
    return static_cast<T>(
        dout * (temp_a_pos * temp_x_pos + temp_a_pos * temp_x_neg * a * exp(x) +
                temp_a_neg * temp_x_pos * (one + a * exp(x))));
  }

  static constexpr ActBwdOpFwdDeps FwdDeps() { return kDepX; }
};

1301
template <typename DeviceContext, typename Functor>
1302
class ActivationCudaKernel
1303 1304 1305
    : public framework::OpKernel<typename Functor::ELEMENT_TYPE> {
 public:
  using T = typename Functor::ELEMENT_TYPE;
1306 1307
  void Compute(const framework::ExecutionContext& ctx) const override {
    const framework::Tensor* x = nullptr;
1308
    framework::Tensor* out = nullptr;
1309 1310 1311 1312 1313 1314
    ExtractActivationTensor(ctx, &x, &out);
    out->mutable_data<T>(ctx.GetPlace());
    auto& dev_ctx = ctx.template device_context<DeviceContext>();
    std::vector<const framework::Tensor*> ins = {x};
    std::vector<framework::Tensor*> outs = {out};
    auto functor = Functor();
1315 1316
    auto attrs = functor.GetAttrs();
    for (auto& attr : attrs) {
1317
      *attr.second = ctx.Attr<float>(attr.first);
1318
    }
1319 1320
    LaunchSameDimsElementwiseCudaKernel<ElementwiseType::kUnary, T, T>(
        dev_ctx, ins, &outs, functor);
1321 1322 1323 1324
  }
};

template <typename DeviceContext, typename Functor>
1325
class ActivationGradCudaKernel
1326 1327 1328
    : public framework::OpKernel<typename Functor::ELEMENT_TYPE> {
 public:
  using T = typename Functor::ELEMENT_TYPE;
1329
  void Compute(const framework::ExecutionContext& ctx) const override {
1330 1331 1332
    const framework::Tensor *x, *out, *d_out;
    framework::Tensor* d_x = nullptr;
    x = out = d_out = nullptr;
1333
    ExtractActivationGradTensor<Functor::FwdDeps()>(ctx, &x, &out, &d_out,
1334
                                                    &d_x);
1335 1336 1337 1338 1339 1340 1341 1342 1343 1344
    d_x->mutable_data<T>(ctx.GetPlace());
    auto& dev_ctx = ctx.template device_context<DeviceContext>();
    auto functor = Functor();
    auto attrs = functor.GetAttrs();
    for (auto& attr : attrs) {
      *attr.second = ctx.Attr<float>(attr.first);
    }

    std::vector<const framework::Tensor*> ins = {d_out};
    std::vector<framework::Tensor*> outs = {d_x};
1345 1346 1347

    if (static_cast<int>(Functor::FwdDeps()) == static_cast<int>(kDepOut)) {
      // Only need forward output Out
1348
      ins.push_back(out);
1349
      LaunchSameDimsElementwiseCudaKernel<ElementwiseType::kBinary, T, T>(
1350
          dev_ctx, ins, &outs, functor);
1351 1352 1353
    } else if (static_cast<int>(Functor::FwdDeps()) ==
               static_cast<int>(kDepX)) {
      // Only need forward input X
1354
      ins.push_back(x);
1355
      LaunchSameDimsElementwiseCudaKernel<ElementwiseType::kBinary, T, T>(
1356
          dev_ctx, ins, &outs, functor);
1357
    } else {
1358
      LaunchSameDimsElementwiseCudaKernel<ElementwiseType::kUnary, T, T>(
1359
          dev_ctx, ins, &outs, functor);
1360 1361 1362 1363 1364 1365 1366
    }
  }
};

}  // namespace operators
}  // namespace paddle

1367
namespace ops = paddle::operators;
1368 1369
namespace plat = paddle::platform;

1370 1371
#define REGISTER_ACTIVATION_CUDA_KERNEL(act_type, op_name, functor,            \
                                        grad_functor)                          \
1372
  REGISTER_OP_CUDA_KERNEL(                                                     \
1373 1374 1375 1376 1377 1378
      act_type, ops::ActivationCudaKernel<paddle::platform::CUDADeviceContext, \
                                          ops::functor<float>>,                \
      ops::ActivationCudaKernel<paddle::platform::CUDADeviceContext,           \
                                ops::functor<double>>,                         \
      ops::ActivationCudaKernel<plat::CUDADeviceContext,                       \
                                ops::functor<plat::float16>>);                 \
1379
  REGISTER_OP_CUDA_KERNEL(                                                     \
1380 1381 1382 1383 1384 1385 1386
      act_type##_grad,                                                         \
      ops::ActivationGradCudaKernel<plat::CUDADeviceContext,                   \
                                    ops::grad_functor<float>>,                 \
      ops::ActivationGradCudaKernel<plat::CUDADeviceContext,                   \
                                    ops::grad_functor<double>>,                \
      ops::ActivationGradCudaKernel<plat::CUDADeviceContext,                   \
                                    ops::grad_functor<plat::float16>>);
1387

1388 1389 1390 1391 1392 1393 1394 1395 1396 1397 1398 1399 1400 1401 1402 1403 1404 1405 1406 1407 1408 1409 1410 1411 1412 1413
#define REGISTER_ACTIVATION_CUDA_KERNEL_INT(act_type, op_name, functor,        \
                                            grad_functor)                      \
  REGISTER_OP_CUDA_KERNEL(                                                     \
      act_type, ops::ActivationCudaKernel<paddle::platform::CUDADeviceContext, \
                                          ops::functor<float>>,                \
      ops::ActivationCudaKernel<paddle::platform::CUDADeviceContext,           \
                                ops::functor<double>>,                         \
      ops::ActivationCudaKernel<paddle::platform::CUDADeviceContext,           \
                                ops::functor<int>>,                            \
      ops::ActivationCudaKernel<paddle::platform::CUDADeviceContext,           \
                                ops::functor<int64_t>>,                        \
      ops::ActivationCudaKernel<plat::CUDADeviceContext,                       \
                                ops::functor<plat::float16>>);                 \
  REGISTER_OP_CUDA_KERNEL(                                                     \
      act_type##_grad,                                                         \
      ops::ActivationGradCudaKernel<plat::CUDADeviceContext,                   \
                                    ops::grad_functor<float>>,                 \
      ops::ActivationGradCudaKernel<plat::CUDADeviceContext,                   \
                                    ops::grad_functor<double>>,                \
      ops::ActivationGradCudaKernel<plat::CUDADeviceContext,                   \
                                    ops::grad_functor<int>>,                   \
      ops::ActivationGradCudaKernel<plat::CUDADeviceContext,                   \
                                    ops::grad_functor<int64_t>>,               \
      ops::ActivationGradCudaKernel<plat::CUDADeviceContext,                   \
                                    ops::grad_functor<plat::float16>>);

1414
/* ======================== leaky relu register  ============================ */
1415 1416
REGISTER_ACTIVATION_CUDA_KERNEL(leaky_relu, LeakyRelu, CudaLeakyReluFunctor,
                                CudaLeakyReluGradFunctor);
1417 1418 1419 1420 1421 1422 1423 1424 1425

REGISTER_OP_CUDA_KERNEL(
    leaky_relu_grad_grad,
    ops::ActivationDoubleGradKernel<plat::CUDADeviceContext,
                                    ops::LeakyReluGradGradFunctor<float>>,
    ops::ActivationDoubleGradKernel<plat::CUDADeviceContext,
                                    ops::LeakyReluGradGradFunctor<double>>,
    ops::ActivationDoubleGradKernel<
        plat::CUDADeviceContext, ops::LeakyReluGradGradFunctor<plat::float16>>);
1426
/* ========================================================================== */
1427

D
Double_V 已提交
1428
/* ======================== elu register  ============================ */
1429
REGISTER_ACTIVATION_CUDA_KERNEL(elu, ELU, CudaELUFunctor, CudaELUGradFunctor);
D
Double_V 已提交
1430 1431 1432 1433 1434 1435 1436 1437 1438 1439

REGISTER_OP_CUDA_KERNEL(
    elu_grad_grad, ops::ELUDoubleGradKernel<plat::CUDADeviceContext,
                                            ops::ELUGradGradFunctor<float>>,
    ops::ELUDoubleGradKernel<plat::CUDADeviceContext,
                             ops::ELUGradGradFunctor<double>>,
    ops::ELUDoubleGradKernel<plat::CUDADeviceContext,
                             ops::ELUGradGradFunctor<plat::float16>>);
/* ========================================================================== */

1440
/* ===========================    relu register  ============================ */
1441
#ifdef PADDLE_WITH_HIP
1442 1443
REGISTER_ACTIVATION_CUDA_KERNEL(relu, Relu, CudaReluFunctor,
                                CudaReluGradFunctor);
1444 1445 1446 1447 1448 1449 1450 1451
REGISTER_OP_CUDA_KERNEL(
    relu_grad_grad,
    ops::ActivationDoubleGradKernel<paddle::platform::CUDADeviceContext,
                                    ops::ReluGradGradFunctor<float>>,
    ops::ActivationDoubleGradKernel<paddle::platform::CUDADeviceContext,
                                    ops::ReluGradGradFunctor<double>>,
    ops::ActivationDoubleGradKernel<plat::CUDADeviceContext,
                                    ops::ReluGradGradFunctor<plat::float16>>);
1452 1453 1454 1455 1456 1457 1458 1459 1460 1461 1462 1463 1464 1465 1466 1467 1468 1469 1470 1471 1472 1473 1474 1475 1476 1477 1478 1479 1480 1481
#else
REGISTER_OP_CUDA_KERNEL(
    relu, ops::ActivationCudaKernel<paddle::platform::CUDADeviceContext,
                                    ops::CudaReluFunctor<float>>,
    ops::ActivationCudaKernel<paddle::platform::CUDADeviceContext,
                              ops::CudaReluFunctor<double>>,
    ops::ActivationCudaKernel<plat::CUDADeviceContext,
                              ops::CudaReluFunctor<plat::float16>>,
    ops::ActivationCudaKernel<plat::CUDADeviceContext,
                              ops::CudaReluFunctor<plat::bfloat16>>);
REGISTER_OP_CUDA_KERNEL(
    relu_grad, ops::ActivationGradCudaKernel<plat::CUDADeviceContext,
                                             ops::CudaReluGradFunctor<float>>,
    ops::ActivationGradCudaKernel<plat::CUDADeviceContext,
                                  ops::CudaReluGradFunctor<double>>,
    ops::ActivationGradCudaKernel<plat::CUDADeviceContext,
                                  ops::CudaReluGradFunctor<plat::float16>>,
    ops::ActivationGradCudaKernel<plat::CUDADeviceContext,
                                  ops::CudaReluGradFunctor<plat::bfloat16>>);
REGISTER_OP_CUDA_KERNEL(
    relu_grad_grad,
    ops::ActivationDoubleGradKernel<paddle::platform::CUDADeviceContext,
                                    ops::ReluGradGradFunctor<float>>,
    ops::ActivationDoubleGradKernel<paddle::platform::CUDADeviceContext,
                                    ops::ReluGradGradFunctor<double>>,
    ops::ActivationDoubleGradKernel<plat::CUDADeviceContext,
                                    ops::ReluGradGradFunctor<plat::float16>>,
    ops::ActivationDoubleGradKernel<plat::CUDADeviceContext,
                                    ops::ReluGradGradFunctor<plat::bfloat16>>);
#endif
1482 1483
/* ========================================================================== */

1484
/* ===========================    tanh register  ============================ */
1485 1486
REGISTER_ACTIVATION_CUDA_KERNEL(tanh, Tanh, CudaTanhFunctor,
                                CudaTanhGradFunctor);
1487 1488 1489 1490 1491 1492 1493 1494 1495 1496 1497

REGISTER_OP_CUDA_KERNEL(
    tanh_grad_grad,
    ops::TanhDoubleGradKernel<paddle::platform::CUDADeviceContext,
                              ops::TanhGradGradFunctor<float>>,
    ops::TanhDoubleGradKernel<paddle::platform::CUDADeviceContext,
                              ops::TanhGradGradFunctor<double>>,
    ops::TanhDoubleGradKernel<plat::CUDADeviceContext,
                              ops::TanhGradGradFunctor<plat::float16>>);
/* ========================================================================== */

L
lvmengsi 已提交
1498
/* ===========================   sqrt register  ============================= */
1499 1500
REGISTER_ACTIVATION_CUDA_KERNEL(sqrt, Sqrt, CudaSqrtFunctor,
                                CudaSqrtGradFunctor);
L
lvmengsi 已提交
1501 1502 1503 1504 1505 1506 1507 1508 1509 1510 1511

REGISTER_OP_CUDA_KERNEL(
    sqrt_grad_grad,
    ops::SqrtDoubleGradKernel<paddle::platform::CUDADeviceContext,
                              ops::SqrtGradGradFunctor<float>>,
    ops::SqrtDoubleGradKernel<paddle::platform::CUDADeviceContext,
                              ops::SqrtGradGradFunctor<double>>,
    ops::SqrtDoubleGradKernel<paddle::platform::CUDADeviceContext,
                              ops::SqrtGradGradFunctor<plat::float16>>);
/* ========================================================================== */

W
whs 已提交
1512 1513
/* ===========================   rsqrt register  =============================
 */
1514 1515
REGISTER_ACTIVATION_CUDA_KERNEL(rsqrt, Rsqrt, CudaRsqrtFunctor,
                                CudaRsqrtGradFunctor);
W
whs 已提交
1516 1517 1518 1519 1520 1521 1522 1523 1524 1525 1526

REGISTER_OP_CUDA_KERNEL(
    rsqrt_grad_grad,
    ops::RsqrtDoubleGradKernel<paddle::platform::CUDADeviceContext,
                               ops::RsqrtGradGradFunctor<float>>,
    ops::RsqrtDoubleGradKernel<paddle::platform::CUDADeviceContext,
                               ops::RsqrtGradGradFunctor<double>>,
    ops::RsqrtDoubleGradKernel<paddle::platform::CUDADeviceContext,
                               ops::RsqrtGradGradFunctor<plat::float16>>);
/* ========================================================================== */

1527
/* ===========================  square register  ============================ */
1528 1529
REGISTER_ACTIVATION_CUDA_KERNEL_INT(square, Square, CudaSquareFunctor,
                                    CudaSquareGradFunctor);
1530 1531 1532 1533 1534 1535 1536 1537

REGISTER_OP_CUDA_KERNEL(
    square_grad_grad,
    ops::SquareDoubleGradKernel<paddle::platform::CUDADeviceContext,
                                ops::SquareGradGradFunctor<float>>,
    ops::SquareDoubleGradKernel<paddle::platform::CUDADeviceContext,
                                ops::SquareGradGradFunctor<double>>,
    ops::SquareDoubleGradKernel<plat::CUDADeviceContext,
1538 1539 1540 1541 1542
                                ops::SquareGradGradFunctor<plat::float16>>,
    ops::SquareDoubleGradKernel<paddle::platform::CUDADeviceContext,
                                ops::SquareGradGradFunctor<int>>,
    ops::SquareDoubleGradKernel<paddle::platform::CUDADeviceContext,
                                ops::SquareGradGradFunctor<int64_t>>);
1543
/* ========================================================================== */
1544 1545 1546 1547 1548

/* ==========================   pow register  ============================ */
REGISTER_OP_CUDA_KERNEL(
    pow, ops::PowKernel<plat::CUDADeviceContext, ops::PowFunctor<float>>,
    ops::PowKernel<plat::CUDADeviceContext, ops::PowFunctor<double>>,
1549 1550
    ops::PowKernel<plat::CUDADeviceContext, ops::PowFunctor<int>>,
    ops::PowKernel<plat::CUDADeviceContext, ops::PowFunctor<int64_t>>,
1551 1552 1553 1554 1555
    ops::PowKernel<plat::CUDADeviceContext, ops::PowFunctor<plat::float16>>);
REGISTER_OP_CUDA_KERNEL(
    pow_grad,
    ops::PowGradKernel<plat::CUDADeviceContext, ops::PowGradFunctor<float>>,
    ops::PowGradKernel<plat::CUDADeviceContext, ops::PowGradFunctor<double>>,
1556 1557
    ops::PowGradKernel<plat::CUDADeviceContext, ops::PowGradFunctor<int>>,
    ops::PowGradKernel<plat::CUDADeviceContext, ops::PowGradFunctor<int64_t>>,
1558 1559 1560
    ops::PowGradKernel<plat::CUDADeviceContext,
                       ops::PowGradFunctor<plat::float16>>);
/* ========================================================================== */
1561 1562 1563

/* ==========================   exp register  ============================ */
REGISTER_OP_CUDA_KERNEL(
1564 1565 1566 1567
    exp, ops::ActivationCudaKernel<plat::CUDADeviceContext,
                                   ops::CudaExpFunctor<float>>,
    ops::ActivationCudaKernel<plat::CUDADeviceContext,
                              ops::CudaExpFunctor<double>>,
1568 1569
    ops::ActivationKernel<plat::CUDADeviceContext, ops::ExpFunctor<int>>,
    ops::ActivationKernel<plat::CUDADeviceContext, ops::ExpFunctor<int64_t>>,
1570 1571
    ops::ActivationCudaKernel<plat::CUDADeviceContext,
                              ops::CudaExpFunctor<plat::float16>>);
1572
REGISTER_OP_CUDA_KERNEL(
1573 1574 1575 1576 1577 1578 1579 1580 1581 1582
    exp_grad, ops::ActivationGradCudaKernel<plat::CUDADeviceContext,
                                            ops::CudaExpGradFunctor<float>>,
    ops::ActivationGradCudaKernel<plat::CUDADeviceContext,
                                  ops::CudaExpGradFunctor<double>>,
    ops::ActivationGradCudaKernel<plat::CUDADeviceContext,
                                  ops::CudaExpGradFunctor<int>>,
    ops::ActivationGradCudaKernel<plat::CUDADeviceContext,
                                  ops::CudaExpGradFunctor<int64_t>>,
    ops::ActivationGradCudaKernel<plat::CUDADeviceContext,
                                  ops::CudaExpGradFunctor<plat::float16>>);
1583 1584
/* ========================================================================== */

1585
/* ==========================  Log register ==================================*/
1586
REGISTER_ACTIVATION_CUDA_KERNEL(log, Log, CudaLogFunctor, CudaLogGradFunctor);
1587 1588 1589 1590 1591 1592 1593 1594 1595

REGISTER_OP_CUDA_KERNEL(
    log_grad_grad, ops::LogDoubleGradKernel<plat::CUDADeviceContext,
                                            ops::LogGradGradFunctor<float>>,
    ops::LogDoubleGradKernel<plat::CUDADeviceContext,
                             ops::LogGradGradFunctor<double>>,
    ops::LogDoubleGradKernel<plat::CUDADeviceContext,
                             ops::LogGradGradFunctor<plat::float16>>);
/* ========================================================================== */
1596

1597 1598 1599 1600 1601 1602 1603 1604 1605 1606 1607 1608 1609 1610 1611 1612 1613 1614 1615 1616 1617 1618 1619 1620 1621 1622 1623 1624 1625 1626 1627 1628 1629 1630 1631 1632 1633 1634 1635 1636 1637
#define FOR_EACH_ACTIVATION_CUDA_OP(__macro)                                  \
  __macro(sigmoid, Sigmoid, CudaSigmoidFunctor, CudaSigmoidGradFunctor);      \
  __macro(silu, Silu, CudaSiluFunctor, CudaSiluGradFunctor);                  \
  __macro(logsigmoid, LogSigmoid, CudaLogSigmoidFunctor,                      \
          CudaLogSigmoidGradFunctor);                                         \
  __macro(atan, Atan, CudaAtanFunctor, CudaAtanGradFunctor);                  \
  __macro(softshrink, SoftShrink, CudaSoftShrinkFunctor,                      \
          CudaSoftShrinkGradFunctor);                                         \
  __macro(ceil, Ceil, CudaCeilFunctor, CudaZeroGradFunctor);                  \
  __macro(floor, Floor, CudaFloorFunctor, CudaZeroGradFunctor);               \
  __macro(cos, Cos, CudaCosFunctor, CudaCosGradFunctor);                      \
  __macro(tan, Tan, CudaTanFunctor, CudaTanGradFunctor);                      \
  __macro(acos, Acos, CudaAcosFunctor, CudaAcosGradFunctor);                  \
  __macro(sin, Sin, CudaSinFunctor, CudaSinGradFunctor);                      \
  __macro(asin, Asin, CudaAsinFunctor, CudaAsinGradFunctor);                  \
  __macro(sinh, Sinh, CudaSinhFunctor, CudaSinhGradFunctor);                  \
  __macro(cosh, Cosh, CudaCoshFunctor, CudaCoshGradFunctor);                  \
  __macro(round, Round, CudaRoundFunctor, CudaZeroGradFunctor);               \
  __macro(reciprocal, Reciprocal, CudaReciprocalFunctor,                      \
          CudaReciprocalGradFunctor);                                         \
  __macro(log1p, Log1p, CudaLog1pFunctor, CudaLog1pGradFunctor);              \
  __macro(log2, Log2, CudaLog2Functor, CudaLog2GradFunctor);                  \
  __macro(log10, Log10, CudaLog10Functor, CudaLog10GradFunctor);              \
  __macro(brelu, BRelu, CudaBReluFunctor, CudaBReluGradFunctor);              \
  __macro(soft_relu, SoftRelu, CudaSoftReluFunctor, CudaSoftReluGradFunctor); \
  __macro(stanh, STanh, CudaSTanhFunctor, CudaSTanhGradFunctor);              \
  __macro(softplus, Softplus, CudaSoftplusFunctor, CudaSoftplusGradFunctor);  \
  __macro(softsign, Softsign, CudaSoftsignFunctor, CudaSoftsignGradFunctor);  \
  __macro(relu6, Relu6, CudaRelu6Functor, CudaRelu6GradFunctor);              \
  __macro(tanh_shrink, TanhShrink, CudaTanhShrinkFunctor,                     \
          CudaTanhShrinkGradFunctor);                                         \
  __macro(hard_shrink, HardShrink, CudaHardShrinkFunctor,                     \
          CudaHardShrinkGradFunctor);                                         \
  __macro(hard_sigmoid, HardSigmoid, CudaHardSigmoidFunctor,                  \
          CudaHardSigmoidGradFunctor);                                        \
  __macro(swish, Swish, CudaSwishFunctor, CudaSwishGradFunctor);              \
  __macro(thresholded_relu, ThresholdedRelu, CudaThresholdedReluFunctor,      \
          CudaThresholdedReluGradFunctor);                                    \
  __macro(hard_swish, HardSwish, CudaHardSwishFunctor,                        \
          CudaHardSwishGradFunctor);
FOR_EACH_ACTIVATION_CUDA_OP(REGISTER_ACTIVATION_CUDA_KERNEL)