src/math/sigmoid-f16-neonfp16arith-rr2-p3-recpe.c

*4bdc9457SAndroid Build Coastguard Worker// Copyright 2022 Google LLC
*4bdc9457SAndroid Build Coastguard Worker//
*4bdc9457SAndroid Build Coastguard Worker// This source code is licensed under the BSD-style license found in the
*4bdc9457SAndroid Build Coastguard Worker// LICENSE file in the root directory of this source tree.
*4bdc9457SAndroid Build Coastguard Worker
*4bdc9457SAndroid Build Coastguard Worker#include <assert.h>
*4bdc9457SAndroid Build Coastguard Worker#include <stddef.h>
*4bdc9457SAndroid Build Coastguard Worker
*4bdc9457SAndroid Build Coastguard Worker#include <arm_neon.h>
*4bdc9457SAndroid Build Coastguard Worker
*4bdc9457SAndroid Build Coastguard Worker#include <xnnpack/math-stubs.h>
*4bdc9457SAndroid Build Coastguard Worker
*4bdc9457SAndroid Build Coastguard Worker
*4bdc9457SAndroid Build Coastguard Workervoid xnn_math_f16_sigmoid__neonfp16arith_rr2_p3_recpe(
*4bdc9457SAndroid Build Coastguard Worker    size_t n,
*4bdc9457SAndroid Build Coastguard Worker    const void* input,
*4bdc9457SAndroid Build Coastguard Worker    void* output)
*4bdc9457SAndroid Build Coastguard Worker{
*4bdc9457SAndroid Build Coastguard Worker  assert(n % (8 * sizeof(__fp16)) == 0);
*4bdc9457SAndroid Build Coastguard Worker
*4bdc9457SAndroid Build Coastguard Worker  // Large number such that ulp(magic bias) == 1 and magic bias === 15 mod 2**9.
*4bdc9457SAndroid Build Coastguard Worker  const float16x8_t vmagic_bias = vmovq_n_f16(0x1.83Cp+10f);
*4bdc9457SAndroid Build Coastguard Worker  const float16x8_t vminus_log2e = vmovq_n_f16(-0x1.714p+0f);
*4bdc9457SAndroid Build Coastguard Worker  const float16x8_t vln2_hi = vmovq_n_f16(0x1.630p-1f);
*4bdc9457SAndroid Build Coastguard Worker  const float16x8_t vln2_lo = vmovq_n_f16(-0x1.BD0p-13f);
*4bdc9457SAndroid Build Coastguard Worker  // Coefficient of polynomial approximation
*4bdc9457SAndroid Build Coastguard Worker  //   exp(-t) ~ 1 + t * (-1 + t * (c2 + t * c3))
*4bdc9457SAndroid Build Coastguard Worker  // on [-log(2)/2, log(2)/2]
*4bdc9457SAndroid Build Coastguard Worker  const float16x8_t vc3 = vmovq_n_f16(-0x1.558p-3f);
*4bdc9457SAndroid Build Coastguard Worker  const float16x8_t vc2 = vmovq_n_f16(0x1.020p-1f);
*4bdc9457SAndroid Build Coastguard Worker  const float16x8_t vone = vmovq_n_f16(1.0f);
*4bdc9457SAndroid Build Coastguard Worker  // The largest z for which sigmoidh(-z) is normalized.
*4bdc9457SAndroid Build Coastguard Worker  // This number is also the largest z for which exph(-z) is normalized.
*4bdc9457SAndroid Build Coastguard Worker  const float16x8_t vdenorm_cutoff = vmovq_n_f16(-0x1.368p+3f);
*4bdc9457SAndroid Build Coastguard Worker
*4bdc9457SAndroid Build Coastguard Worker  const __fp16* i = (const __fp16*) input;
*4bdc9457SAndroid Build Coastguard Worker  __fp16* o = (__fp16*) output;
*4bdc9457SAndroid Build Coastguard Worker  for (; n != 0; n -= 8 * sizeof(__fp16)) {
*4bdc9457SAndroid Build Coastguard Worker    const float16x8_t vx = vld1q_f16(i); i += 8;
*4bdc9457SAndroid Build Coastguard Worker
*4bdc9457SAndroid Build Coastguard Worker    // General structure of the algorithm:
*4bdc9457SAndroid Build Coastguard Worker    //
*4bdc9457SAndroid Build Coastguard Worker    //           / exp(x) / (1 + exp(x)) if x <= 0
*4bdc9457SAndroid Build Coastguard Worker    //   f[x] :=
*4bdc9457SAndroid Build Coastguard Worker    //           \ 1 - f[-x] if x >= 0
*4bdc9457SAndroid Build Coastguard Worker    //
*4bdc9457SAndroid Build Coastguard Worker    // First we compute f[-z] := exp(-z) / (1 + exp(-z)) where z = abs(x),
*4bdc9457SAndroid Build Coastguard Worker    // then replace result with 1 - f[-z] if x >= 0.
*4bdc9457SAndroid Build Coastguard Worker    const float16x8_t vz = vabsq_f16(vx);
*4bdc9457SAndroid Build Coastguard Worker
*4bdc9457SAndroid Build Coastguard Worker    // Compute reduced argument n := round(-z / log(2)).
*4bdc9457SAndroid Build Coastguard Worker    // We do it by adding a large number (magic bias) to the product z * (-1/log(2)), which cause rounding of the
*4bdc9457SAndroid Build Coastguard Worker    // result to an integer, then subtracing the large number back. The first addition is combined with multiplication
*4bdc9457SAndroid Build Coastguard Worker    // by -log2e into a single FMA instruction. The trick with adding large number is valid only within certain bounds
*4bdc9457SAndroid Build Coastguard Worker    // (|-x / log(2)| <= 2**9, i.e. |z| <= 0x1.630p+8 = 355.0), but that is acceptable, because inputs outside
*4bdc9457SAndroid Build Coastguard Worker    // of [-9.703125, 8.3125] (i.e. z outside [0, 9.703125]) underflow or saturate sigmoidh(x). We fixup the result for
*4bdc9457SAndroid Build Coastguard Worker    // such inputs at the very end of the algorithm.
*4bdc9457SAndroid Build Coastguard Worker    float16x8_t vn = vfmaq_f16(vmagic_bias, vz, vminus_log2e);
*4bdc9457SAndroid Build Coastguard Worker
*4bdc9457SAndroid Build Coastguard Worker    // Create a floating-point number s (scale) such that s == 2**n for inputs which don't cause underflow, i.e.
*4bdc9457SAndroid Build Coastguard Worker    // -9.703125 <= -z <= 0.0, and -14 <= n <= 0 accordingly.
*4bdc9457SAndroid Build Coastguard Worker    const float16x8_t vs = vreinterpretq_f16_s16(vshlq_n_s16(vreinterpretq_s16_f16(vn), 10));
*4bdc9457SAndroid Build Coastguard Worker
*4bdc9457SAndroid Build Coastguard Worker    // Subtract the large number back to get the final n := round(-z / log(2)) as a floating-point number.
*4bdc9457SAndroid Build Coastguard Worker    vn = vsubq_f16(vn, vmagic_bias);
*4bdc9457SAndroid Build Coastguard Worker
*4bdc9457SAndroid Build Coastguard Worker    // Compute reduced argument t := z - n * log(2). Note that -t = -z - n * log(2).
*4bdc9457SAndroid Build Coastguard Worker    // Use Cody-Waite range reduction method (note two constants to represent -log(2)) to improve accuracy.
*4bdc9457SAndroid Build Coastguard Worker    float16x8_t vt = vfmaq_f16(vz, vn, vln2_hi);
*4bdc9457SAndroid Build Coastguard Worker    vt = vfmaq_f16(vt, vn, vln2_lo);
*4bdc9457SAndroid Build Coastguard Worker
*4bdc9457SAndroid Build Coastguard Worker    // Compute degree-3 polynomial approximation for exp(-t) on [-log(2)/2, log(2)/2]:
*4bdc9457SAndroid Build Coastguard Worker    //   P(t) = 1 + t * (-1 + t * (c2 + t * c3)) = -(1 - t * p)
*4bdc9457SAndroid Build Coastguard Worker    float16x8_t vp = vfmaq_f16(vc2, vc3, vt);
*4bdc9457SAndroid Build Coastguard Worker    vp = vfmsq_f16(vone, vp, vt);
*4bdc9457SAndroid Build Coastguard Worker
*4bdc9457SAndroid Build Coastguard Worker    // Reconstruct the exp(-z) value:
*4bdc9457SAndroid Build Coastguard Worker    //   e = s * (1 + t * (-1 + t * (c2 + t * c3))
*4bdc9457SAndroid Build Coastguard Worker    //     = s * (1 - t * (-p))
*4bdc9457SAndroid Build Coastguard Worker    //     = s - (t * s) * (-p)
*4bdc9457SAndroid Build Coastguard Worker    vt = vmulq_f16(vt, vs);
*4bdc9457SAndroid Build Coastguard Worker    float16x8_t ve = vfmsq_f16(vs, vp, vt);
*4bdc9457SAndroid Build Coastguard Worker
*4bdc9457SAndroid Build Coastguard Worker    // Denominator of the sigmoid fraction: 1.0 + exp(-z)
*4bdc9457SAndroid Build Coastguard Worker    float16x8_t vd = vaddq_f16(ve, vone);
*4bdc9457SAndroid Build Coastguard Worker
*4bdc9457SAndroid Build Coastguard Worker    // Compute approximate reciprocal of denominator.
*4bdc9457SAndroid Build Coastguard Worker    // Note: 1 < d <= 2, because z >= 0.0 and 0 < exp(-z) <= 1.0.
*4bdc9457SAndroid Build Coastguard Worker    // Thus the reciprocal of the denominator never overflows.
*4bdc9457SAndroid Build Coastguard Worker    const float16x8_t vr = vrecpeq_f16(vd);
*4bdc9457SAndroid Build Coastguard Worker
*4bdc9457SAndroid Build Coastguard Worker    // Reconstruct sigmoid(-z) = exp(-z) / (1.0 + exp(-z))
*4bdc9457SAndroid Build Coastguard Worker    float16x8_t vf = vmulq_f16(ve, vr);
*4bdc9457SAndroid Build Coastguard Worker
*4bdc9457SAndroid Build Coastguard Worker    // For inputs below denormal cutoff, replace output with +0.0f.
*4bdc9457SAndroid Build Coastguard Worker    // Note that for NaN inputs, comparison result is false, and outputs are left unchanged.
*4bdc9457SAndroid Build Coastguard Worker    vf = vreinterpretq_f16_u16(vbicq_u16(vreinterpretq_u16_f16(vf), vcagtq_f16(vx, vdenorm_cutoff)));
*4bdc9457SAndroid Build Coastguard Worker
*4bdc9457SAndroid Build Coastguard Worker    // Reconstruct sigmoid(x) = x < 0 ? sigmoid(-z) : 1.0 - sigmoid(-z)
*4bdc9457SAndroid Build Coastguard Worker    const uint16x8_t vm = vcltq_f16(vx, vmovq_n_f16(0.0f));
*4bdc9457SAndroid Build Coastguard Worker    vf = vbslq_f16(vm, vf, vsubq_f16(vone, vf));
*4bdc9457SAndroid Build Coastguard Worker
*4bdc9457SAndroid Build Coastguard Worker    vst1q_f16(o, vf); o += 8;
*4bdc9457SAndroid Build Coastguard Worker  }
*4bdc9457SAndroid Build Coastguard Worker}