1*4bdc9457SAndroid Build Coastguard Worker // Copyright 2019 Google LLC
2*4bdc9457SAndroid Build Coastguard Worker //
3*4bdc9457SAndroid Build Coastguard Worker // This source code is licensed under the BSD-style license found in the
4*4bdc9457SAndroid Build Coastguard Worker // LICENSE file in the root directory of this source tree.
5*4bdc9457SAndroid Build Coastguard Worker
6*4bdc9457SAndroid Build Coastguard Worker #include <assert.h>
7*4bdc9457SAndroid Build Coastguard Worker #include <math.h>
8*4bdc9457SAndroid Build Coastguard Worker #include <stddef.h>
9*4bdc9457SAndroid Build Coastguard Worker
10*4bdc9457SAndroid Build Coastguard Worker #include <arm_neon.h>
11*4bdc9457SAndroid Build Coastguard Worker
12*4bdc9457SAndroid Build Coastguard Worker #include <xnnpack/math-stubs.h>
13*4bdc9457SAndroid Build Coastguard Worker
14*4bdc9457SAndroid Build Coastguard Worker
xnn_math_f32_exp__neonfma_rr2_p5(size_t n,const float * input,float * output)15*4bdc9457SAndroid Build Coastguard Worker void xnn_math_f32_exp__neonfma_rr2_p5(
16*4bdc9457SAndroid Build Coastguard Worker size_t n,
17*4bdc9457SAndroid Build Coastguard Worker const float* input,
18*4bdc9457SAndroid Build Coastguard Worker float* output)
19*4bdc9457SAndroid Build Coastguard Worker {
20*4bdc9457SAndroid Build Coastguard Worker assert(n % (4 * sizeof(float)) == 0);
21*4bdc9457SAndroid Build Coastguard Worker
22*4bdc9457SAndroid Build Coastguard Worker const float32x4_t vmagic_bias = vmovq_n_f32(0x1.800000p+23f);
23*4bdc9457SAndroid Build Coastguard Worker // The smallest x for which expf(x) is non-zero.
24*4bdc9457SAndroid Build Coastguard Worker const float32x4_t vzero_cutoff = vmovq_n_f32(-0x1.9FE368p+6f);
25*4bdc9457SAndroid Build Coastguard Worker // The largest x for which expf(x) is finite.
26*4bdc9457SAndroid Build Coastguard Worker const float32x4_t vinf_cutoff = vmovq_n_f32(0x1.62E42Ep+6f);
27*4bdc9457SAndroid Build Coastguard Worker const float32x4_t vlog2e = vmovq_n_f32(0x1.715476p+0f);
28*4bdc9457SAndroid Build Coastguard Worker const float32x4_t vminus_ln2_hi = vmovq_n_f32(-0x1.62E43p-1f);
29*4bdc9457SAndroid Build Coastguard Worker const float32x4_t vminus_ln2_lo = vmovq_n_f32(0x1.05C61p-29f);
30*4bdc9457SAndroid Build Coastguard Worker const float32x4_t vplus_inf = vmovq_n_f32(INFINITY);
31*4bdc9457SAndroid Build Coastguard Worker
32*4bdc9457SAndroid Build Coastguard Worker const float32x4_t vc1 = vmovq_n_f32(0x1.FFFFF6p-1f);
33*4bdc9457SAndroid Build Coastguard Worker const float32x4_t vc2 = vmovq_n_f32(0x1.FFFDC6p-2f);
34*4bdc9457SAndroid Build Coastguard Worker const float32x4_t vc3 = vmovq_n_f32(0x1.555A80p-3f);
35*4bdc9457SAndroid Build Coastguard Worker const float32x4_t vc4 = vmovq_n_f32(0x1.573A1Ap-5f);
36*4bdc9457SAndroid Build Coastguard Worker const float32x4_t vc5 = vmovq_n_f32(0x1.0F9F9Cp-7f);
37*4bdc9457SAndroid Build Coastguard Worker
38*4bdc9457SAndroid Build Coastguard Worker const int32x4_t vmin_exponent = vmovq_n_s32(INT32_C(0xC1000000));
39*4bdc9457SAndroid Build Coastguard Worker const int32x4_t vmax_exponent = vmovq_n_s32(INT32_C(0x3F800000));
40*4bdc9457SAndroid Build Coastguard Worker const int32x4_t vdefault_exponent = vmax_exponent;
41*4bdc9457SAndroid Build Coastguard Worker
42*4bdc9457SAndroid Build Coastguard Worker for (; n != 0; n -= 4 * sizeof(float)) {
43*4bdc9457SAndroid Build Coastguard Worker const float32x4_t vx = vld1q_f32(input); input += 4;
44*4bdc9457SAndroid Build Coastguard Worker
45*4bdc9457SAndroid Build Coastguard Worker // Compute reduced argument n := round(x / log(2)).
46*4bdc9457SAndroid Build Coastguard Worker // We do it by adding a large number (magic bias), which cause rounding of result to an integer, then subtracing the
47*4bdc9457SAndroid Build Coastguard Worker // large number back. The first addition is combined with multiplication by log2e into a single FMA instruction.
48*4bdc9457SAndroid Build Coastguard Worker // The trick with adding large number is valid only within certain bounds (|x| <= 2**22), but that's ok, because
49*4bdc9457SAndroid Build Coastguard Worker // inputs outside of [-103.97207, 88.72283] underflow or overflow expf(x) anyway. We fixup the result for such
50*4bdc9457SAndroid Build Coastguard Worker // inputs at the very end of the algorithm.
51*4bdc9457SAndroid Build Coastguard Worker float32x4_t vn = vfmaq_f32(vmagic_bias, vx, vlog2e);
52*4bdc9457SAndroid Build Coastguard Worker
53*4bdc9457SAndroid Build Coastguard Worker // Create two floating-point numbers, sn (scale, normal) and so (scale, overflow) such that sn * so == 2**n
54*4bdc9457SAndroid Build Coastguard Worker // for inputs which don't cause overflow, i.e. -103.97207 <= x <= 88.72283, and -150 <= n <= 128 accordingly.
55*4bdc9457SAndroid Build Coastguard Worker // We need to use two numbers rather than one because a normalized single-precision exponent must be in [-127, 126]
56*4bdc9457SAndroid Build Coastguard Worker // range, which is insufficient to cover [-150, 128] range of n.
57*4bdc9457SAndroid Build Coastguard Worker // - When n is within [-127, 126], sn == 2**n and so == 1.0.
58*4bdc9457SAndroid Build Coastguard Worker // - When n < -127, sn == 2**(-127) and so == 2**(n + 127).
59*4bdc9457SAndroid Build Coastguard Worker // - When n > 126, sn == 2**126 and so == 2**(n - 126).
60*4bdc9457SAndroid Build Coastguard Worker int32x4_t veo = vshlq_n_s32(vreinterpretq_s32_f32(vn), 23);
61*4bdc9457SAndroid Build Coastguard Worker int32x4_t ven = vmaxq_s32(veo, vmin_exponent);
62*4bdc9457SAndroid Build Coastguard Worker ven = vminq_s32(ven, vmax_exponent);
63*4bdc9457SAndroid Build Coastguard Worker veo = vsubq_s32(veo, ven);
64*4bdc9457SAndroid Build Coastguard Worker const float32x4_t vsn = vreinterpretq_f32_s32(vaddq_s32(ven, vdefault_exponent));
65*4bdc9457SAndroid Build Coastguard Worker const float32x4_t vso = vreinterpretq_f32_s32(vaddq_s32(veo, vdefault_exponent));
66*4bdc9457SAndroid Build Coastguard Worker
67*4bdc9457SAndroid Build Coastguard Worker // Subtract the large number back to get final n := round(x / log(2)).
68*4bdc9457SAndroid Build Coastguard Worker vn = vsubq_f32(vn, vmagic_bias);
69*4bdc9457SAndroid Build Coastguard Worker
70*4bdc9457SAndroid Build Coastguard Worker // Compute reduced argument t := x - n * log(2).
71*4bdc9457SAndroid Build Coastguard Worker // Use Cody-Waite range reduction method (note two constants to represent log(2)) to improve accuracy.
72*4bdc9457SAndroid Build Coastguard Worker float32x4_t vt = vfmaq_f32(vx, vn, vminus_ln2_hi);
73*4bdc9457SAndroid Build Coastguard Worker vt = vfmaq_f32(vt, vn, vminus_ln2_lo);
74*4bdc9457SAndroid Build Coastguard Worker
75*4bdc9457SAndroid Build Coastguard Worker // Compute degree-5 polynomial approximation for exp(t) on [-log(2)/2, log(2)/2].
76*4bdc9457SAndroid Build Coastguard Worker float32x4_t vp = vfmaq_f32(vc4, vc5, vt);
77*4bdc9457SAndroid Build Coastguard Worker vp = vfmaq_f32(vc3, vp, vt);
78*4bdc9457SAndroid Build Coastguard Worker vp = vfmaq_f32(vc2, vp, vt);
79*4bdc9457SAndroid Build Coastguard Worker vp = vfmaq_f32(vc1, vp, vt);
80*4bdc9457SAndroid Build Coastguard Worker
81*4bdc9457SAndroid Build Coastguard Worker // Reconstruct the final f value:
82*4bdc9457SAndroid Build Coastguard Worker // f = so * sn * (1 + t * (c1 + t * (c2 + t * (c3 + t * (c4 + t * c5)))))
83*4bdc9457SAndroid Build Coastguard Worker // = sn * (so + (t * so) * (c1 + t * (c2 + t * (c3 + t * (c4 + t * c5))))))
84*4bdc9457SAndroid Build Coastguard Worker // = sn * (so + (t * so) * p)
85*4bdc9457SAndroid Build Coastguard Worker vt = vmulq_f32(vt, vso);
86*4bdc9457SAndroid Build Coastguard Worker float32x4_t vf = vmulq_f32(vsn, vfmaq_f32(vso, vt, vp));
87*4bdc9457SAndroid Build Coastguard Worker
88*4bdc9457SAndroid Build Coastguard Worker // For inputs below zero cutoff, replace output with +0.0f.
89*4bdc9457SAndroid Build Coastguard Worker // Note that for NaN inputs, comparison result is false, and outputs are left unchanged.
90*4bdc9457SAndroid Build Coastguard Worker vf = vreinterpretq_f32_u32(vbicq_u32(vreinterpretq_u32_f32(vf), vcltq_f32(vx, vzero_cutoff)));
91*4bdc9457SAndroid Build Coastguard Worker // For inputs above inf cutoff, replace output with +inf.
92*4bdc9457SAndroid Build Coastguard Worker // Note that for NaN inputs, comparison result is false, and outputs are left unchanged.
93*4bdc9457SAndroid Build Coastguard Worker vf = vbslq_f32(vcgtq_f32(vx, vinf_cutoff), vplus_inf, vf);
94*4bdc9457SAndroid Build Coastguard Worker vst1q_f32(output, vf); output += 4;
95*4bdc9457SAndroid Build Coastguard Worker }
96*4bdc9457SAndroid Build Coastguard Worker }
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