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// Copyright 2021 Google LLC | |
// | |
// 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. | |
namespace csrblocksparse { | |
// Maximum desired precision of the output. | |
static constexpr int kMaxMantissaBits = 14; | |
// Returns (and builds if not done yet) a static data table that implements | |
// tanh on fixed32 input, returning another fixed32 with the given number of | |
// mantissa bits (which is assumed to be less than the input mantissa bits). | |
// NOTE that this function is intended to be used only with fixed16 outputs that | |
// are sign-extended to 32 bits for convenience, and will return a nullptr | |
// if asked for more than |kMaxMantissaBits| of precision in the output table. | |
const int32_t* TanhTable(int num_mantissa_bits_out) { | |
if (num_mantissa_bits_out > kMaxMantissaBits) return nullptr; | |
// Static data dynamically created and never destructed. | |
static const int32_t* tanh_luts[kMaxMantissaBits]; | |
if (tanh_luts[num_mantissa_bits_out - 1] == nullptr) { | |
// Total bits is number each side of the binary point. | |
int tanh_lut_bits = num_mantissa_bits_out + kNumTanhExpBits; | |
// Offset is the number of negative numbers represented. | |
int tanh_offset = 1 << tanh_lut_bits; | |
// Size is double the offset plus one more for zero. | |
int tanh_size = tanh_offset * 2 + 1; | |
// Conversion between int and float. | |
float float_factor = static_cast<float>(1 << num_mantissa_bits_out); | |
int* tanh_lut = new int[tanh_size]; | |
// Initialize the table. | |
for (int i = 0; i < tanh_size; ++i) { | |
float x = (i - tanh_offset) / float_factor; | |
tanh_lut[i] = static_cast<int>(std::round(tanhf(x) * float_factor)); | |
} | |
tanh_luts[num_mantissa_bits_out - 1] = tanh_lut; | |
} | |
return tanh_luts[num_mantissa_bits_out - 1]; | |
} | |
// As TanhTable, but for Sigmoid. | |
const int32_t* SigmoidTable(int num_mantissa_bits_out) { | |
if (num_mantissa_bits_out > kMaxMantissaBits) return nullptr; | |
// Static data dynamically created and never destructed. | |
static const int32_t* sigmoid_luts[kMaxMantissaBits]; | |
if (sigmoid_luts[num_mantissa_bits_out - 1] == nullptr) { | |
// Total bits is number each side of the binary point minus one for the fact | |
// that the gradient never exceeds 1/4. (Could probably use -2.) | |
int sigmoid_lut_bits = | |
num_mantissa_bits_out + kNumSigmoidExpBits - kNumExtraSigmoidShiftBits; | |
// Offset is the number of negative numbers represented. | |
int sigmoid_offset = 1 << sigmoid_lut_bits; | |
// Size is double the offset plus one more for zero. | |
int sigmoid_size = sigmoid_offset * 2 + 1; | |
// Conversion between int and float. | |
float float_factor = static_cast<float>(1 << num_mantissa_bits_out); | |
int* sigmoid_lut = new int[sigmoid_size]; | |
// Initialize the table. | |
for (int i = 0; i < sigmoid_size; ++i) { | |
constexpr int kSigmoidFactor = 1 << kNumExtraSigmoidShiftBits; | |
float x = ((i - sigmoid_offset) * kSigmoidFactor) / float_factor; | |
float sigmoid = 1.0f / (1.0f + expf(-x)); | |
sigmoid_lut[i] = static_cast<int>(std::round(sigmoid * float_factor)); | |
} | |
sigmoid_luts[num_mantissa_bits_out - 1] = sigmoid_lut; | |
} | |
return sigmoid_luts[num_mantissa_bits_out - 1]; | |
} | |
} // namespace csrblocksparse | |