mirror of
https://github.com/ggerganov/whisper.cpp.git
synced 2024-12-30 09:18:51 +00:00
70840aed5f
* llama : ggml-backend integration * ggml-backend : add names to buffers * fix unmap after loading * batched-bench : add tensor_split param * llama : check for null tensor_split * ggml-backend : increase GGML_MAX_BACKENDS * improve graph splitting, partial fix for --no-kv-offload * cuda : add ggml-backend split buffer support * cuda : do not create buffer types for devices that don't exist (fixes usage without CUDA devices available) * ggml : fix null backend dereference (llama/4807) * ggml : fix null backend dereference * ggml : also check ggml_backend_is_cpu * test-backend-ops : check buffer allocation failures * llama : add cparam (split_mode) and command line argument (--split-mode, -sm) to configure the split mode (none, layer or row) * ggml : fix mul_mat_id work size * llama : rewrite session kv load/set without graphs * minor * llama : only initialize used backends, free backends on context free * llama : abort ctx if cuda backend init fails * llama : rewrite lora with ggml-backend and compute on CPU ggml-ci * llama : only map to a backend buffer the region of the file mapping containing the tensors used in the buffer * opencl : add ggml-backend buffer type * cuda : only use batched_cublas with batched mat muls (fixes fp16 tg perf) * llama : on Metal, by default offload the full model ggml-ci * metal : page align the data ptr (llama/4854) * Apply suggestions from code review Co-authored-by: Johannes Gäßler <johannesg@5d6.de> * cuda : fix split buffer free * address review comments * llama-bench : add split-mode parameter * fix whitespace * opencl : fix double initialization * server : add --split-mode parameter * use async copy and compute to improve multi-gpu performance ggml-ci * use async memcpys to copy the graph outputs to the CPU * fix opencl * use a host buffer for the cpu compute buffer for faster copies to the gpu --------- Co-authored-by: Georgi Gerganov <ggerganov@gmail.com> Co-authored-by: Johannes Gäßler <johannesg@5d6.de>
247 lines
7.4 KiB
C
247 lines
7.4 KiB
C
#pragma once
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#include "ggml.h"
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// GGML internal header
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#include <assert.h>
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#include <stdlib.h> // load `stdlib.h` before other headers to work around MinGW bug: https://sourceforge.net/p/mingw-w64/bugs/192/
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#include <stddef.h>
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#include <stdbool.h>
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#include <string.h> // memcpy
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#include <math.h> // fabsf
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#ifdef __cplusplus
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extern "C" {
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#endif
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// static_assert should be a #define, but if it's not,
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// fall back to the _Static_assert C11 keyword.
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// if C99 - static_assert is noop
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// ref: https://stackoverflow.com/a/53923785/4039976
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#ifndef static_assert
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#if defined(__STDC_VERSION__) && (__STDC_VERSION__ >= 201100L)
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#define static_assert(cond, msg) _Static_assert(cond, msg)
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#else
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#define static_assert(cond, msg) struct global_scope_noop_trick
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#endif
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#endif
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// __FMA__ and __F16C__ are not defined in MSVC, however they are implied with AVX2/AVX512
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#if defined(_MSC_VER) && (defined(__AVX2__) || defined(__AVX512F__))
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#ifndef __FMA__
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#define __FMA__
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#endif
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#ifndef __F16C__
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#define __F16C__
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#endif
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#ifndef __SSE3__
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#define __SSE3__
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#endif
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#endif
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// 16-bit float
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// on Arm, we use __fp16
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// on x86, we use uint16_t
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#if defined(__ARM_NEON) && !defined(_MSC_VER)
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// if YCM cannot find <arm_neon.h>, make a symbolic link to it, for example:
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//
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// $ ln -sfn /Library/Developer/CommandLineTools/usr/lib/clang/13.1.6/include/arm_neon.h ./src/
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//
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#include <arm_neon.h>
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#define GGML_COMPUTE_FP16_TO_FP32(x) ((float) (x))
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#define GGML_COMPUTE_FP32_TO_FP16(x) (x)
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#define GGML_FP16_TO_FP32(x) ((float) (x))
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#define GGML_FP32_TO_FP16(x) (x)
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#else
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#ifdef __wasm_simd128__
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#include <wasm_simd128.h>
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#else
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#ifdef __POWER9_VECTOR__
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#include <altivec.h>
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#undef bool
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#define bool _Bool
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#else
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#if defined(_MSC_VER) || defined(__MINGW32__)
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#include <intrin.h>
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#else
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#if defined(__AVX__) || defined(__AVX2__) || defined(__AVX512F__) || defined(__SSSE3__) || defined(__SSE3__)
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#if !defined(__riscv)
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#include <immintrin.h>
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#endif
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#endif
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#endif
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#endif
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#endif
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#ifdef __riscv_v_intrinsic
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#include <riscv_vector.h>
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#endif
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#ifdef __F16C__
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#ifdef _MSC_VER
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#define GGML_COMPUTE_FP16_TO_FP32(x) _mm_cvtss_f32(_mm_cvtph_ps(_mm_cvtsi32_si128(x)))
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#define GGML_COMPUTE_FP32_TO_FP16(x) _mm_extract_epi16(_mm_cvtps_ph(_mm_set_ss(x), 0), 0)
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#else
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#define GGML_COMPUTE_FP16_TO_FP32(x) _cvtsh_ss(x)
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#define GGML_COMPUTE_FP32_TO_FP16(x) _cvtss_sh(x, 0)
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#endif
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#elif defined(__POWER9_VECTOR__)
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#define GGML_COMPUTE_FP16_TO_FP32(x) ggml_compute_fp16_to_fp32(x)
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#define GGML_COMPUTE_FP32_TO_FP16(x) ggml_compute_fp32_to_fp16(x)
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/* the inline asm below is about 12% faster than the lookup method */
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#define GGML_FP16_TO_FP32(x) GGML_COMPUTE_FP16_TO_FP32(x)
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#define GGML_FP32_TO_FP16(x) GGML_COMPUTE_FP32_TO_FP16(x)
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static inline float ggml_compute_fp16_to_fp32(ggml_fp16_t h) {
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register float f;
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register double d;
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__asm__(
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"mtfprd %0,%2\n"
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"xscvhpdp %0,%0\n"
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"frsp %1,%0\n" :
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/* temp */ "=d"(d),
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/* out */ "=f"(f):
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/* in */ "r"(h));
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return f;
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}
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static inline ggml_fp16_t ggml_compute_fp32_to_fp16(float f) {
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register double d;
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register ggml_fp16_t r;
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__asm__( /* xscvdphp can work on double or single precision */
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"xscvdphp %0,%2\n"
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"mffprd %1,%0\n" :
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/* temp */ "=d"(d),
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/* out */ "=r"(r):
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/* in */ "f"(f));
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return r;
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}
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#else
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// FP16 <-> FP32
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// ref: https://github.com/Maratyszcza/FP16
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static inline float fp32_from_bits(uint32_t w) {
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union {
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uint32_t as_bits;
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float as_value;
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} fp32;
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fp32.as_bits = w;
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return fp32.as_value;
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}
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static inline uint32_t fp32_to_bits(float f) {
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union {
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float as_value;
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uint32_t as_bits;
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} fp32;
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fp32.as_value = f;
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return fp32.as_bits;
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}
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static inline float ggml_compute_fp16_to_fp32(ggml_fp16_t h) {
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const uint32_t w = (uint32_t) h << 16;
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const uint32_t sign = w & UINT32_C(0x80000000);
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const uint32_t two_w = w + w;
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const uint32_t exp_offset = UINT32_C(0xE0) << 23;
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#if defined(__STDC_VERSION__) && (__STDC_VERSION__ >= 199901L) || defined(__GNUC__) && !defined(__STRICT_ANSI__)
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const float exp_scale = 0x1.0p-112f;
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#else
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const float exp_scale = fp32_from_bits(UINT32_C(0x7800000));
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#endif
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const float normalized_value = fp32_from_bits((two_w >> 4) + exp_offset) * exp_scale;
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const uint32_t magic_mask = UINT32_C(126) << 23;
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const float magic_bias = 0.5f;
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const float denormalized_value = fp32_from_bits((two_w >> 17) | magic_mask) - magic_bias;
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const uint32_t denormalized_cutoff = UINT32_C(1) << 27;
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const uint32_t result = sign |
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(two_w < denormalized_cutoff ? fp32_to_bits(denormalized_value) : fp32_to_bits(normalized_value));
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return fp32_from_bits(result);
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}
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static inline ggml_fp16_t ggml_compute_fp32_to_fp16(float f) {
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#if defined(__STDC_VERSION__) && (__STDC_VERSION__ >= 199901L) || defined(__GNUC__) && !defined(__STRICT_ANSI__)
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const float scale_to_inf = 0x1.0p+112f;
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const float scale_to_zero = 0x1.0p-110f;
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#else
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const float scale_to_inf = fp32_from_bits(UINT32_C(0x77800000));
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const float scale_to_zero = fp32_from_bits(UINT32_C(0x08800000));
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#endif
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float base = (fabsf(f) * scale_to_inf) * scale_to_zero;
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const uint32_t w = fp32_to_bits(f);
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const uint32_t shl1_w = w + w;
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const uint32_t sign = w & UINT32_C(0x80000000);
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uint32_t bias = shl1_w & UINT32_C(0xFF000000);
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if (bias < UINT32_C(0x71000000)) {
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bias = UINT32_C(0x71000000);
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}
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base = fp32_from_bits((bias >> 1) + UINT32_C(0x07800000)) + base;
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const uint32_t bits = fp32_to_bits(base);
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const uint32_t exp_bits = (bits >> 13) & UINT32_C(0x00007C00);
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const uint32_t mantissa_bits = bits & UINT32_C(0x00000FFF);
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const uint32_t nonsign = exp_bits + mantissa_bits;
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return (sign >> 16) | (shl1_w > UINT32_C(0xFF000000) ? UINT16_C(0x7E00) : nonsign);
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}
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#define GGML_COMPUTE_FP16_TO_FP32(x) ggml_compute_fp16_to_fp32(x)
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#define GGML_COMPUTE_FP32_TO_FP16(x) ggml_compute_fp32_to_fp16(x)
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#endif // __F16C__
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#endif // __ARM_NEON
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// precomputed f32 table for f16 (256 KB)
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// defined in ggml.c, initialized in ggml_init()
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extern float ggml_table_f32_f16[1 << 16];
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// On ARM NEON, it's quicker to directly convert x -> x instead of calling into ggml_lookup_fp16_to_fp32,
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// so we define GGML_FP16_TO_FP32 and GGML_FP32_TO_FP16 elsewhere for NEON.
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// This is also true for POWER9.
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#if !defined(GGML_FP16_TO_FP32) || !defined(GGML_FP32_TO_FP16)
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inline static float ggml_lookup_fp16_to_fp32(ggml_fp16_t f) {
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uint16_t s;
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memcpy(&s, &f, sizeof(uint16_t));
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return ggml_table_f32_f16[s];
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}
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#define GGML_FP16_TO_FP32(x) ggml_lookup_fp16_to_fp32(x)
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#define GGML_FP32_TO_FP16(x) GGML_COMPUTE_FP32_TO_FP16(x)
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#endif
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#define GGML_HASHTABLE_FULL ((size_t)-1)
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#define GGML_HASHTABLE_ALREADY_EXISTS ((size_t)-2)
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struct ggml_hash_set ggml_hash_set_new(size_t size);
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bool ggml_hash_contains (const struct ggml_hash_set hash_set, struct ggml_tensor * key);
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// returns GGML_HASHTABLE_FULL if table is full, otherwise the current index of the key or where it should be inserted
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size_t ggml_hash_find (const struct ggml_hash_set hash_set, struct ggml_tensor * key);
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// returns GGML_HASHTABLE_ALREADY_EXISTS if key already exists, index otherwise, asserts if table is full
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size_t ggml_hash_insert ( struct ggml_hash_set hash_set, struct ggml_tensor * key);
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// return index, asserts if table is full
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size_t ggml_hash_find_or_insert( struct ggml_hash_set hash_set, struct ggml_tensor * key);
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#ifdef __cplusplus
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}
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#endif
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