mirror of
https://github.com/ggerganov/whisper.cpp.git
synced 2024-12-19 20:57:52 +00:00
58b725282a
* sycl: fix im2col overflow and sync with cuda Signed-off-by: zhentaoyu <zhentao.yu@intel.com> * sycl: fix convert overflow Signed-off-by: zhentaoyu <zhentao.yu@intel.com> * sycl: fix convert and dequantize Signed-off-by: zhentaoyu <zhentao.yu@intel.com> * sycl: fix ib in dmmv Signed-off-by: zhentaoyu <zhentao.yu@intel.com> * sycl:refine convert Signed-off-by: zhentaoyu <zhentao.yu@intel.com> * sycl: move downsample global_range into common Signed-off-by: zhentaoyu <zhentao.yu@intel.com> * test: add im2col and convert test cases Signed-off-by: zhentaoyu <zhentao.yu@intel.com> * test: make new cases only in sycl Signed-off-by: zhentaoyu <zhentao.yu@intel.com> * test: comment new test_cases for only local testing Signed-off-by: zhentaoyu <zhentao.yu@intel.com> --------- Signed-off-by: zhentaoyu <zhentao.yu@intel.com>
126 lines
5.1 KiB
C++
126 lines
5.1 KiB
C++
//
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// MIT license
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// Copyright (C) 2024 Intel Corporation
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// SPDX-License-Identifier: MIT
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//
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//
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// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
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// See https://llvm.org/LICENSE.txt for license information.
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// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
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//
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#include "im2col.hpp"
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template <typename T>
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static void im2col_kernel(
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const float *x, T *dst, int64_t batch_offset, int64_t offset_delta,
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int64_t IC, int64_t IW, int64_t IH, int64_t OH, int64_t OW, int64_t KW, int64_t KH,
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int64_t pelements, int64_t CHW, int s0, int s1, int p0, int p1, int d0, int d1,
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const sycl::nd_item<3> &item_ct1) {
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const int64_t work_group_size = item_ct1.get_local_range(2);
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const int64_t global_id = item_ct1.get_local_id(2) + work_group_size * item_ct1.get_group(2);
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// make each work-item deal with more elements since sycl global range can not exceed max int
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for (int64_t i = global_id; i < pelements; i += work_group_size * item_ct1.get_group_range(2)) {
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const int64_t ksize = OW * (KH > 1 ? KW : 1);
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const int64_t kx = i / ksize;
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const int64_t kd = kx * ksize;
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const int64_t ky = (i - kd) / OW;
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const int64_t ix = i % OW;
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const int64_t oh = item_ct1.get_group(1);
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const int64_t batch = item_ct1.get_group(0) / IC;
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const int64_t ic = item_ct1.get_group(0) % IC;
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const int64_t iiw = ix * s0 + kx * d0 - p0;
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const int64_t iih = oh * s1 + ky * d1 - p1;
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const int64_t offset_dst =
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((batch * OH + oh) * OW + ix) * CHW +
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(ic * (KW * KH) + ky * KW + kx);
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if (iih < 0 || iih >= IH || iiw < 0 || iiw >= IW) {
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dst[offset_dst] =
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sycl::vec<float, 1>(0.0f)
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.convert<sycl::half, sycl::rounding_mode::automatic>()[0];
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} else {
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const int64_t offset_src = ic * offset_delta + batch * batch_offset;
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dst[offset_dst] =
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sycl::vec<float, 1>(x[offset_src + iih * IW + iiw])
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.convert<sycl::half, sycl::rounding_mode::automatic>()[0];
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}
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}
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}
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template <typename T>
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static void im2col_sycl(
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const float *x, T *dst, int64_t IW, int64_t IH, int64_t OW, int64_t OH, int64_t KW,
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int64_t KH, int64_t IC, int64_t batch, int64_t batch_offset, int64_t offset_delta,
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int s0, int s1, int p0, int p1, int d0, int d1,
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queue_ptr stream) {
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const int64_t parallel_elements = OW * KW * KH;
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const int64_t num_blocks = (parallel_elements + SYCL_IM2COL_BLOCK_SIZE - 1) / SYCL_IM2COL_BLOCK_SIZE;
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// decrease global range when it exceeds the max int
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int64_t local_size = downsample_sycl_global_range(batch * IC * OH * num_blocks, SYCL_IM2COL_BLOCK_SIZE);
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sycl::range<3> block_nums(batch * IC, OH, num_blocks);
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sycl::range<3> local_range(1, 1, local_size);
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{
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dpct::has_capability_or_fail(stream->get_device(),
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{sycl::aspect::fp16});
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stream->parallel_for(
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sycl::nd_range<3>(block_nums * local_range, local_range),
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[=](sycl::nd_item<3> item_ct1) {
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im2col_kernel(x, dst, batch_offset, offset_delta, IC, IW, IH, OH, OW, KW, KH,
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parallel_elements, (IC * KH * KW), s0, s1, p0,
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p1, d0, d1, item_ct1);
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});
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}
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}
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void ggml_sycl_op_im2col(
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ggml_backend_sycl_context & ctx, const ggml_tensor *src0, const ggml_tensor *src1,
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ggml_tensor *dst, const float *src0_dd, const float *src1_dd, float *dst_dd,
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const queue_ptr &main_stream) {
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GGML_ASSERT(src0->type == GGML_TYPE_F16);
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GGML_ASSERT(src1->type == GGML_TYPE_F32);
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GGML_ASSERT(dst->type == GGML_TYPE_F16 || dst->type == GGML_TYPE_F32);
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const int32_t s0 = ((const int32_t*)(dst->op_params))[0];
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const int32_t s1 = ((const int32_t*)(dst->op_params))[1];
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const int32_t p0 = ((const int32_t*)(dst->op_params))[2];
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const int32_t p1 = ((const int32_t*)(dst->op_params))[3];
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const int32_t d0 = ((const int32_t*)(dst->op_params))[4];
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const int32_t d1 = ((const int32_t*)(dst->op_params))[5];
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const bool is_2D = ((const int32_t*)(dst->op_params))[6] == 1;
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const int64_t IC = src1->ne[is_2D ? 2 : 1];
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const int64_t IH = is_2D ? src1->ne[1] : 1;
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const int64_t IW = src1->ne[0];
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const int64_t KH = is_2D ? src0->ne[1] : 1;
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const int64_t KW = src0->ne[0];
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const int64_t OH = is_2D ? dst->ne[2] : 1;
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const int64_t OW = dst->ne[1];
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const size_t delta_offset = src1->nb[is_2D ? 2 : 1] / 4; // nb is byte offset, src is type float32
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const int64_t batch = src1->ne[3];
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const size_t batch_offset = src1->nb[3] / 4; // nb is byte offset, src is type float32
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if (dst->type == GGML_TYPE_F16) {
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im2col_sycl(src1_dd, (sycl::half *)dst_dd, IW, IH, OW, OH, KW, KH, IC, batch, batch_offset, delta_offset, s0, s1, p0, p1, d0, d1, main_stream);
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} else {
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im2col_sycl(src1_dd, (float *)dst_dd, IW, IH, OW, OH, KW, KH, IC, batch, batch_offset, delta_offset, s0, s1, p0, p1, d0, d1, main_stream);
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}
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(void) src0;
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(void) src0_dd;
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}
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