1*da0073e9SAndroid Build Coastguard Worker #pragma once
2*da0073e9SAndroid Build Coastguard Worker
3*da0073e9SAndroid Build Coastguard Worker /// Defines the Float8_e5m2fnuz type (8-bit floating-point) including
4*da0073e9SAndroid Build Coastguard Worker /// conversions to standard C types and basic arithmetic operations. Note that
5*da0073e9SAndroid Build Coastguard Worker /// arithmetic operations are implemented by converting to floating point and
6*da0073e9SAndroid Build Coastguard Worker /// performing the operation in float32.
7*da0073e9SAndroid Build Coastguard Worker /// Binary configuration remains the same as e5m2:
8*da0073e9SAndroid Build Coastguard Worker /// s eeeee mm
9*da0073e9SAndroid Build Coastguard Worker /// 1 sign bit
10*da0073e9SAndroid Build Coastguard Worker /// 5 exponent bits
11*da0073e9SAndroid Build Coastguard Worker /// 2 mantissa bits
12*da0073e9SAndroid Build Coastguard Worker /// The key differences that e5m2fnuz brings are:
13*da0073e9SAndroid Build Coastguard Worker /// bias = 16
14*da0073e9SAndroid Build Coastguard Worker /// no infinities or negative zero
15*da0073e9SAndroid Build Coastguard Worker /// NaN only when sign bit is 1, rest all 0s
16*da0073e9SAndroid Build Coastguard Worker ///
17*da0073e9SAndroid Build Coastguard Worker /// Implementation based on the paper https://arxiv.org/pdf/2206.02915.pdf and
18*da0073e9SAndroid Build Coastguard Worker /// the existing Float8_e4m3fn implementation.
19*da0073e9SAndroid Build Coastguard Worker
20*da0073e9SAndroid Build Coastguard Worker #include <c10/macros/Macros.h>
21*da0073e9SAndroid Build Coastguard Worker #include <c10/util/TypeSafeSignMath.h>
22*da0073e9SAndroid Build Coastguard Worker #include <c10/util/floating_point_utils.h>
23*da0073e9SAndroid Build Coastguard Worker
24*da0073e9SAndroid Build Coastguard Worker #if defined(__cplusplus)
25*da0073e9SAndroid Build Coastguard Worker #include <cstdint>
26*da0073e9SAndroid Build Coastguard Worker #elif !defined(__OPENCL_VERSION__)
27*da0073e9SAndroid Build Coastguard Worker #include <math.h>
28*da0073e9SAndroid Build Coastguard Worker #include <stdint.h>
29*da0073e9SAndroid Build Coastguard Worker #endif
30*da0073e9SAndroid Build Coastguard Worker
31*da0073e9SAndroid Build Coastguard Worker #include <iosfwd>
32*da0073e9SAndroid Build Coastguard Worker #include <ostream>
33*da0073e9SAndroid Build Coastguard Worker
34*da0073e9SAndroid Build Coastguard Worker namespace c10 {
35*da0073e9SAndroid Build Coastguard Worker
36*da0073e9SAndroid Build Coastguard Worker namespace detail {
37*da0073e9SAndroid Build Coastguard Worker
38*da0073e9SAndroid Build Coastguard Worker /*
39*da0073e9SAndroid Build Coastguard Worker * Convert a 32-bit floating-point number in IEEE single-precision format to a
40*da0073e9SAndroid Build Coastguard Worker * 8-bit floating-point number in fp8 E5M2 format, in bit representation.
41*da0073e9SAndroid Build Coastguard Worker */
fp8e5m2fnuz_from_fp32_value(float f)42*da0073e9SAndroid Build Coastguard Worker inline C10_HOST_DEVICE uint8_t fp8e5m2fnuz_from_fp32_value(float f) {
43*da0073e9SAndroid Build Coastguard Worker /*
44*da0073e9SAndroid Build Coastguard Worker * Binary representation of 65536.0f, which is the first value not
45*da0073e9SAndroid Build Coastguard Worker * representable (i.e. the first value which would overflow in to the sign
46*da0073e9SAndroid Build Coastguard Worker * bit, resulting in a NaN) in fp8e4m3fnuz range:
47*da0073e9SAndroid Build Coastguard Worker * 1 00000 00 - fp8e5m2fnuz
48*da0073e9SAndroid Build Coastguard Worker * 0 10001111 00000000000000000000000 - fp32
49*da0073e9SAndroid Build Coastguard Worker */
50*da0073e9SAndroid Build Coastguard Worker constexpr uint32_t fnuz_max = UINT32_C(0x8F) << 23;
51*da0073e9SAndroid Build Coastguard Worker
52*da0073e9SAndroid Build Coastguard Worker /*
53*da0073e9SAndroid Build Coastguard Worker * A mask for converting fp32 numbers lower than fp8e5m2fnuz normal range
54*da0073e9SAndroid Build Coastguard Worker * into denormalized representation.
55*da0073e9SAndroid Build Coastguard Worker * magic number: ((127 - 16) + (23 - 2) + 1)
56*da0073e9SAndroid Build Coastguard Worker */
57*da0073e9SAndroid Build Coastguard Worker constexpr uint32_t denorm_mask = UINT32_C(0x85) << 23;
58*da0073e9SAndroid Build Coastguard Worker
59*da0073e9SAndroid Build Coastguard Worker uint32_t f_bits = fp32_to_bits(f);
60*da0073e9SAndroid Build Coastguard Worker uint32_t result = 0u;
61*da0073e9SAndroid Build Coastguard Worker
62*da0073e9SAndroid Build Coastguard Worker /*
63*da0073e9SAndroid Build Coastguard Worker * Extract the sign of the input number into the high bit of the 32-bit word:
64*da0073e9SAndroid Build Coastguard Worker *
65*da0073e9SAndroid Build Coastguard Worker * +---+----------------------------------+
66*da0073e9SAndroid Build Coastguard Worker * | S |0000000 00000000 00000000 00000000|
67*da0073e9SAndroid Build Coastguard Worker * +---+----------------------------------+
68*da0073e9SAndroid Build Coastguard Worker * Bits 31 0-31
69*da0073e9SAndroid Build Coastguard Worker */
70*da0073e9SAndroid Build Coastguard Worker const uint32_t sign = f_bits & UINT32_C(0x80000000);
71*da0073e9SAndroid Build Coastguard Worker
72*da0073e9SAndroid Build Coastguard Worker /*
73*da0073e9SAndroid Build Coastguard Worker * Set sign bit to 0
74*da0073e9SAndroid Build Coastguard Worker */
75*da0073e9SAndroid Build Coastguard Worker f_bits ^= sign;
76*da0073e9SAndroid Build Coastguard Worker
77*da0073e9SAndroid Build Coastguard Worker if (f_bits >= fnuz_max) {
78*da0073e9SAndroid Build Coastguard Worker // NaN -- sign bit set to 1, rest 0s
79*da0073e9SAndroid Build Coastguard Worker return 0x80;
80*da0073e9SAndroid Build Coastguard Worker }
81*da0073e9SAndroid Build Coastguard Worker
82*da0073e9SAndroid Build Coastguard Worker if (f_bits < (UINT32_C(0x70) << 23) /* 2^-15 in float32 */) {
83*da0073e9SAndroid Build Coastguard Worker // Input exponent is less than -15, the smallest e5m2fnuz exponent, so the
84*da0073e9SAndroid Build Coastguard Worker // number will become subnormal.
85*da0073e9SAndroid Build Coastguard Worker f_bits = fp32_to_bits(fp32_from_bits(f_bits) + fp32_from_bits(denorm_mask));
86*da0073e9SAndroid Build Coastguard Worker result = static_cast<uint8_t>(f_bits - denorm_mask);
87*da0073e9SAndroid Build Coastguard Worker if (result == 0) {
88*da0073e9SAndroid Build Coastguard Worker // fnuz types don't have negative zero.
89*da0073e9SAndroid Build Coastguard Worker return 0;
90*da0073e9SAndroid Build Coastguard Worker }
91*da0073e9SAndroid Build Coastguard Worker } else {
92*da0073e9SAndroid Build Coastguard Worker // resulting mantissa is odd
93*da0073e9SAndroid Build Coastguard Worker uint8_t mant_odd = (f_bits >> 21) & 1;
94*da0073e9SAndroid Build Coastguard Worker
95*da0073e9SAndroid Build Coastguard Worker // update exponent, rounding bias part 1
96*da0073e9SAndroid Build Coastguard Worker f_bits += ((uint32_t)(16 - 127) << 23) + 0xFFFFF;
97*da0073e9SAndroid Build Coastguard Worker
98*da0073e9SAndroid Build Coastguard Worker // rounding bias part 2
99*da0073e9SAndroid Build Coastguard Worker f_bits += mant_odd;
100*da0073e9SAndroid Build Coastguard Worker
101*da0073e9SAndroid Build Coastguard Worker // take the bits!
102*da0073e9SAndroid Build Coastguard Worker result = static_cast<uint8_t>(f_bits >> 21);
103*da0073e9SAndroid Build Coastguard Worker }
104*da0073e9SAndroid Build Coastguard Worker
105*da0073e9SAndroid Build Coastguard Worker result |= sign >> 24;
106*da0073e9SAndroid Build Coastguard Worker return result;
107*da0073e9SAndroid Build Coastguard Worker }
108*da0073e9SAndroid Build Coastguard Worker
109*da0073e9SAndroid Build Coastguard Worker } // namespace detail
110*da0073e9SAndroid Build Coastguard Worker
111*da0073e9SAndroid Build Coastguard Worker struct alignas(1) Float8_e5m2fnuz {
112*da0073e9SAndroid Build Coastguard Worker uint8_t x;
113*da0073e9SAndroid Build Coastguard Worker
114*da0073e9SAndroid Build Coastguard Worker struct from_bits_t {};
from_bitsFloat8_e5m2fnuz115*da0073e9SAndroid Build Coastguard Worker C10_HOST_DEVICE static constexpr from_bits_t from_bits() {
116*da0073e9SAndroid Build Coastguard Worker return from_bits_t();
117*da0073e9SAndroid Build Coastguard Worker }
118*da0073e9SAndroid Build Coastguard Worker
119*da0073e9SAndroid Build Coastguard Worker Float8_e5m2fnuz() = default;
120*da0073e9SAndroid Build Coastguard Worker
Float8_e5m2fnuzFloat8_e5m2fnuz121*da0073e9SAndroid Build Coastguard Worker constexpr C10_HOST_DEVICE Float8_e5m2fnuz(uint8_t bits, from_bits_t)
122*da0073e9SAndroid Build Coastguard Worker : x(bits) {}
123*da0073e9SAndroid Build Coastguard Worker inline C10_HOST_DEVICE Float8_e5m2fnuz(float value);
124*da0073e9SAndroid Build Coastguard Worker inline C10_HOST_DEVICE operator float() const;
125*da0073e9SAndroid Build Coastguard Worker inline C10_HOST_DEVICE bool isnan() const;
126*da0073e9SAndroid Build Coastguard Worker inline C10_HOST_DEVICE bool isinf() const;
127*da0073e9SAndroid Build Coastguard Worker };
128*da0073e9SAndroid Build Coastguard Worker
129*da0073e9SAndroid Build Coastguard Worker C10_API inline std::ostream& operator<<(
130*da0073e9SAndroid Build Coastguard Worker std::ostream& out,
131*da0073e9SAndroid Build Coastguard Worker const Float8_e5m2fnuz& value) {
132*da0073e9SAndroid Build Coastguard Worker out << (float)value;
133*da0073e9SAndroid Build Coastguard Worker return out;
134*da0073e9SAndroid Build Coastguard Worker }
135*da0073e9SAndroid Build Coastguard Worker
136*da0073e9SAndroid Build Coastguard Worker } // namespace c10
137*da0073e9SAndroid Build Coastguard Worker
138*da0073e9SAndroid Build Coastguard Worker #include <c10/util/Float8_e5m2fnuz-inl.h> // IWYU pragma: keep
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