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author | Joe Ramsay <Joe.Ramsay@arm.com> | 2023-12-01 09:49:45 +0000 |
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committer | Szabolcs Nagy <szabolcs.nagy@arm.com> | 2023-12-04 15:52:11 +0000 |
commit | 63d0a35d5f223a3f4b68190567b7d4d44545bce5 (patch) | |
tree | 69b006288d047188fcd0b81906647f9168a9eb65 /sysdeps/ieee754 | |
parent | 8e755f5bc8f57d0034c12f34c11ce8a83103dc65 (diff) | |
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math: Add new exp10 implementation
New implementation is based on the existing exp/exp2, with different
reduction constants and polynomial. Worst-case error in round-to-
nearest is 0.513 ULP.
The exp/exp2 shared table is reused for exp10 - .rodata size of
e_exp_data increases by 64 bytes.
As for exp/exp2, targets with single-instruction rounding/conversion
intrinsics can use them by toggling TOINT_INTRINSICS=1 and adding the
necessary code to their math_private.h.
Improvements on Neoverse V1 compared to current GLIBC master:
exp10 thruput: 3.3x in [-0x1.439b746e36b52p+8 0x1.34413509f79ffp+8]
exp10 latency: 1.8x in [-0x1.439b746e36b52p+8 0x1.34413509f79ffp+8]
Tested on:
aarch64-linux-gnu (TOINT_INTRINSICS, fma contraction) and
x86_64-linux-gnu (!TOINT_INTRINSICS, no fma contraction)
Reviewed-by: Szabolcs Nagy <szabolcs.nagy@arm.com>
Diffstat (limited to 'sysdeps/ieee754')
-rw-r--r-- | sysdeps/ieee754/dbl-64/e_exp10.c | 144 | ||||
-rw-r--r-- | sysdeps/ieee754/dbl-64/e_exp_data.c | 11 | ||||
-rw-r--r-- | sysdeps/ieee754/dbl-64/math_config.h | 4 |
3 files changed, 135 insertions, 24 deletions
diff --git a/sysdeps/ieee754/dbl-64/e_exp10.c b/sysdeps/ieee754/dbl-64/e_exp10.c index fa47f4f922..08069140c0 100644 --- a/sysdeps/ieee754/dbl-64/e_exp10.c +++ b/sysdeps/ieee754/dbl-64/e_exp10.c @@ -16,36 +16,132 @@ <https://www.gnu.org/licenses/>. */ #include <math.h> +#include <math-barriers.h> +#include <math-narrow-eval.h> #include <math_private.h> #include <float.h> #include <libm-alias-finite.h> +#include "math_config.h" -static const double log10_high = 0x2.4d7637p0; -static const double log10_low = 0x7.6aaa2b05ba95cp-28; +#define N (1 << EXP_TABLE_BITS) +#define IndexMask (N - 1) +#define OFlowBound 0x1.34413509f79ffp8 /* log10(DBL_MAX). */ +#define UFlowBound -0x1.5ep+8 /* -350. */ +#define SmallTop 0x3c6 /* top12(0x1p-57). */ +#define BigTop 0x407 /* top12(0x1p8). */ +#define Thresh 0x41 /* BigTop - SmallTop. */ +#define Shift __exp_data.shift +#define C(i) __exp_data.exp10_poly[i] +static double +special_case (uint64_t sbits, double_t tmp, uint64_t ki) +{ + double_t scale, y; + + if (ki - (1ull << 16) < 0x80000000) + { + /* The exponent of scale might have overflowed by 1. */ + sbits -= 1ull << 52; + scale = asdouble (sbits); + y = 2 * (scale + scale * tmp); + return check_oflow (y); + } + + /* n < 0, need special care in the subnormal range. */ + sbits += 1022ull << 52; + scale = asdouble (sbits); + y = scale + scale * tmp; + + if (y < 1.0) + { + /* Round y to the right precision before scaling it into the subnormal + range to avoid double rounding that can cause 0.5+E/2 ulp error where + E is the worst-case ulp error outside the subnormal range. So this + is only useful if the goal is better than 1 ulp worst-case error. */ + double_t lo = scale - y + scale * tmp; + double_t hi = 1.0 + y; + lo = 1.0 - hi + y + lo; + y = math_narrow_eval (hi + lo) - 1.0; + /* Avoid -0.0 with downward rounding. */ + if (WANT_ROUNDING && y == 0.0) + y = 0.0; + /* The underflow exception needs to be signaled explicitly. */ + math_force_eval (math_opt_barrier (0x1p-1022) * 0x1p-1022); + } + y = 0x1p-1022 * y; + + return check_uflow (y); +} + +/* Double-precision 10^x approximation. Largest observed error is ~0.513 ULP. */ double -__ieee754_exp10 (double arg) +__ieee754_exp10 (double x) { - int32_t lx; - double arg_high, arg_low; - double exp_high, exp_low; - - if (!isfinite (arg)) - return __ieee754_exp (arg); - if (arg < DBL_MIN_10_EXP - DBL_DIG - 10) - return DBL_MIN * DBL_MIN; - else if (arg > DBL_MAX_10_EXP + 1) - return DBL_MAX * DBL_MAX; - else if (fabs (arg) < 0x1p-56) - return 1.0; - - GET_LOW_WORD (lx, arg); - lx &= 0xf8000000; - arg_high = arg; - SET_LOW_WORD (arg_high, lx); - arg_low = arg - arg_high; - exp_high = arg_high * log10_high; - exp_low = arg_high * log10_low + arg_low * M_LN10; - return __ieee754_exp (exp_high) * __ieee754_exp (exp_low); + uint64_t ix = asuint64 (x); + uint32_t abstop = (ix >> 52) & 0x7ff; + + if (__glibc_unlikely (abstop - SmallTop >= Thresh)) + { + if (abstop - SmallTop >= 0x80000000) + /* Avoid spurious underflow for tiny x. + Note: 0 is common input. */ + return x + 1; + if (abstop == 0x7ff) + return ix == asuint64 (-INFINITY) ? 0.0 : x + 1.0; + if (x >= OFlowBound) + return __math_oflow (0); + if (x < UFlowBound) + return __math_uflow (0); + + /* Large x is special-cased below. */ + abstop = 0; + } + + /* Reduce x: z = x * N / log10(2), k = round(z). */ + double_t z = __exp_data.invlog10_2N * x; + double_t kd; + int64_t ki; +#if TOINT_INTRINSICS + kd = roundtoint (z); + ki = converttoint (z); +#else + kd = math_narrow_eval (z + Shift); + kd -= Shift; + ki = kd; +#endif + + /* r = x - k * log10(2), r in [-0.5, 0.5]. */ + double_t r = x; + r = __exp_data.neglog10_2hiN * kd + r; + r = __exp_data.neglog10_2loN * kd + r; + + /* exp10(x) = 2^(k/N) * 2^(r/N). + Approximate the two components separately. */ + + /* s = 2^(k/N), using lookup table. */ + uint64_t e = ki << (52 - EXP_TABLE_BITS); + uint64_t i = (ki & IndexMask) * 2; + uint64_t u = __exp_data.tab[i + 1]; + uint64_t sbits = u + e; + + double_t tail = asdouble (__exp_data.tab[i]); + + /* 2^(r/N) ~= 1 + r * Poly(r). */ + double_t r2 = r * r; + double_t p = C (0) + r * C (1); + double_t y = C (2) + r * C (3); + y = y + r2 * C (4); + y = p + r2 * y; + y = tail + y * r; + + if (__glibc_unlikely (abstop == 0)) + return special_case (sbits, y, ki); + + /* Assemble components: + y = 2^(r/N) * 2^(k/N) + ~= (y + 1) * s. */ + double_t s = asdouble (sbits); + return s * y + s; } + libm_alias_finite (__ieee754_exp10, __exp10) diff --git a/sysdeps/ieee754/dbl-64/e_exp_data.c b/sysdeps/ieee754/dbl-64/e_exp_data.c index d498b8bc3b..5c774afbcb 100644 --- a/sysdeps/ieee754/dbl-64/e_exp_data.c +++ b/sysdeps/ieee754/dbl-64/e_exp_data.c @@ -58,6 +58,17 @@ const struct exp_data __exp_data = { 0x1.5d7e09b4e3a84p-10, #endif }, +.invlog10_2N = 0x1.a934f0979a371p1 * N, +.neglog10_2hiN = -0x1.3441350ap-2 / N, +.neglog10_2loN = 0x1.0c0219dc1da99p-39 / N, +.exp10_poly = { +/* Coeffs generated using Remez in [-log10(2)/256, log10(2)/256 ]. */ +0x1.26bb1bbb55516p1, +0x1.53524c73ce9fep1, +0x1.0470591ce4b26p1, +0x1.2bd76577fe684p0, +0x1.1446eeccd0efbp-1 +}, // 2^(k/N) ~= H[k]*(1 + T[k]) for int k in [0,N) // tab[2*k] = asuint64(T[k]) // tab[2*k+1] = asuint64(H[k]) - (k << 52)/N diff --git a/sysdeps/ieee754/dbl-64/math_config.h b/sysdeps/ieee754/dbl-64/math_config.h index 19af33fd86..d617addfbe 100644 --- a/sysdeps/ieee754/dbl-64/math_config.h +++ b/sysdeps/ieee754/dbl-64/math_config.h @@ -201,6 +201,10 @@ extern const struct exp_data double poly[4]; /* Last four coefficients. */ double exp2_shift; double exp2_poly[EXP2_POLY_ORDER]; + double invlog10_2N; + double neglog10_2hiN; + double neglog10_2loN; + double exp10_poly[5]; uint64_t tab[2*(1 << EXP_TABLE_BITS)]; } __exp_data attribute_hidden; |