0
0
Fork 0
mirror of https://github.com/matrix-construct/construct synced 2024-11-05 13:28:54 +01:00
construct/include/ircd/math/smax.h

167 lines
4.2 KiB
C
Raw Normal View History

2021-03-16 22:45:45 +01:00
// Matrix Construct
//
// Copyright (C) Matrix Construct Developers, Authors & Contributors
// Copyright (C) 2016-2021 Jason Volk <jason@zemos.net>
//
// Permission to use, copy, modify, and/or distribute this software for any
// purpose with or without fee is hereby granted, provided that the above
// copyright notice and this permission notice is present in all copies. The
// full license for this software is available in the LICENSE file.
#pragma once
#define HAVE_IRCD_MATH_SMAX_H
namespace ircd::math
{
template<class T,
class D = T>
typename std::enable_if<!simd::is<T>(), void>::type
smax(const vector_view<T> &out,
const vector_view<const T> &in,
const vector_view<D> &tmp0,
const vector_view<D> &tmp1);
template<class T,
class D = T>
typename std::enable_if<!simd::is<T>(), void>::type
smax(const vector_view<T> &out,
const vector_view<const T> &in,
const vector_view<D> &tmp);
template<class T,
class D = T>
typename std::enable_if<simd::is<T>(), void>::type
smax(const vector_view<T> &out,
const vector_view<const T> &in,
const vector_view<D> &tmp,
const vector_view<D> &tmp1);
template<class T,
class D = T>
typename std::enable_if<simd::is<T>(), void>::type
smax(const vector_view<T> &out,
const vector_view<const T> &in,
const vector_view<D> &tmp);
}
/// Softmax
template<class T,
class D>
inline typename std::enable_if<ircd::simd::is<T>(), void>::type
ircd::math::smax(const vector_view<T> &__restrict__ out,
const vector_view<const T> &__restrict__ in,
const vector_view<D> &__restrict__ acc)
{
assert(out.size() >= in.size());
assert(acc.size() >= in.size());
for(uint i(0); i < size(in); ++i)
acc[i] = {0};
for(uint i(0); i < size(in); ++i)
{
const auto precise
{
exp(lane_cast<D>(in[i]))
};
for(uint j(0); j < size(in); ++j)
for(uint k(0); k < simd::lanes<D>(); ++k)
acc[j] += precise[k];
}
for(uint i(0); i < size(in); ++i)
{
const auto precise
{
exp(lane_cast<D>(in[i]))
};
out[i] = lane_cast<T>(precise / acc[i]);
}
}
/// Softmax
template<class T,
class D>
inline typename std::enable_if<ircd::simd::is<T>(), void>::type
ircd::math::smax(const vector_view<T> &__restrict__ out,
const vector_view<const T> &__restrict__ in,
const vector_view<D> &__restrict__ acc,
const vector_view<D> &__restrict__ exps)
{
assert(out.size() >= in.size());
assert(acc.size() >= in.size());
assert(exps.size() >= in.size());
for(uint i(0); i < size(in); ++i)
acc[i] = D{0};
2021-03-16 22:45:45 +01:00
for(uint i(0); i < size(in); ++i)
exps[i] = exp(lane_cast<D>(in[i]));
for(uint i(0); i < size(in); ++i)
for(uint j(0); j < size(in); ++j)
for(uint k(0); k < simd::lanes<D>(); ++k)
acc[j] += exps[i][k];
for(uint i(0); i < size(in); ++i)
out[i] = lane_cast<T>(exps[i] / acc[i]);
}
/// Softmax
template<class T,
class D>
inline typename std::enable_if<!ircd::simd::is<T>(), void>::type
ircd::math::smax(const vector_view<T> &__restrict__ out,
const vector_view<const T> &__restrict__ in,
const vector_view<D> &__restrict__ acc)
{
using ircd::exp;
assert(out.size() >= in.size());
assert(acc.size() >= in.size());
for(uint i(0); i < size(in); ++i)
acc[i] = D{0};
2021-03-16 22:45:45 +01:00
for(uint i(0); i < size(in); ++i)
out[i] = exp(in[i]);
for(uint i(0); i < size(in); ++i)
for(uint j(0); j < size(in); ++j)
acc[j] += out[i];
for(uint i(0); i < size(in); ++i)
out[i] = out[i] / acc[i];
}
/// Softmax
template<class T,
class D>
inline typename std::enable_if<!ircd::simd::is<T>(), void>::type
ircd::math::smax(const vector_view<T> &__restrict__ out,
const vector_view<const T> &__restrict__ in,
const vector_view<D> &__restrict__ acc,
const vector_view<D> &__restrict__ exps)
{
using ircd::exp;
assert(out.size() >= in.size());
assert(acc.size() >= in.size());
assert(exps.size() >= in.size());
for(uint i(0); i < size(in); ++i)
acc[i] = {0};
for(uint i(0); i < size(in); ++i)
exps[i] = exp(in[i]);
for(uint i(0); i < size(in); ++i)
for(uint j(0); j < size(in); ++j)
acc[j] += exps[i];
for(uint i(0); i < size(in); ++i)
out[i] = exps[i] / acc[i];
}