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* Copyright (c) 2024 by FlashInfer team.
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#include <ATen/cuda/Exceptions.h>
#include <c10/cuda/CUDAGuard.h>
#include <c10/cuda/CUDAStream.h>
#include <torch/all.h>
#include "pos_enc.cuh"
#include "utils.h"
using namespace flashinfer;
void apply_rope_pos_ids_cos_sin_cache(
at::Tensor q,
at::Tensor k,
at::Tensor q_rope,
at::Tensor k_rope,
at::Tensor cos_sin_cache,
at::Tensor pos_ids,
bool interleave,
bool enable_pdl,
const std::optional<at::Tensor>& v,
const std::optional<at::Tensor>& k_buffer,
const std::optional<at::Tensor>& v_buffer,
const std::optional<at::Tensor>& kv_cache_loc) {
CHECK_LAST_DIM_CONTIGUOUS(q);
CHECK_LAST_DIM_CONTIGUOUS(k);
const bool save_kv_cache = v.has_value();
if (save_kv_cache) {
TORCH_CHECK(v.has_value());
TORCH_CHECK(k_buffer.has_value());
TORCH_CHECK(v_buffer.has_value());
TORCH_CHECK(kv_cache_loc.has_value());
CHECK_LAST_DIM_CONTIGUOUS(v.value());
CHECK_LAST_DIM_CONTIGUOUS(k_buffer.value());
CHECK_LAST_DIM_CONTIGUOUS(v_buffer.value());
CHECK_DIM(3, k_buffer.value()); // k_buffer: (nnz, H_K, D)
CHECK_DIM(3, v_buffer.value()); // v_buffer: (nnz, H_V, D)
CHECK_DIM(3, v.value()); // v: (nnz, H_V, D)
CHECK_DIM(1, kv_cache_loc.value()); // v: (n)
CHECK_INPUT(kv_cache_loc.value());
}
size_t k_buffer_stride_n = save_kv_cache ? k_buffer->stride(0) : 0;
size_t k_buffer_stride_h = save_kv_cache ? k_buffer->stride(1) : 0;
size_t v_buffer_stride_n = save_kv_cache ? v_buffer->stride(0) : 0;
size_t v_buffer_stride_h = save_kv_cache ? v_buffer->stride(1) : 0;
size_t v_stride_n = save_kv_cache ? v->stride(0) : 0;
size_t v_stride_h = save_kv_cache ? v->stride(1) : 0;
auto kv_cache_loc_ptr = save_kv_cache ? static_cast<int64_t*>(kv_cache_loc->data_ptr()) : nullptr;
CHECK_INPUT(cos_sin_cache);
CHECK_INPUT(pos_ids);
auto device = q.device();
CHECK_EQ(k.device(), device);
CHECK_EQ(cos_sin_cache.device(), device);
CHECK_EQ(pos_ids.device(), device);
CHECK_DIM(3, q); // q: (nnz, H_Q, D)
CHECK_DIM(3, k); // k: (nnz, H_K, D)
// cos_sin_cache: (max_seq_len, R)
// First half of R is cos, second half is sin
CHECK_DIM(2, cos_sin_cache);
CHECK_EQ(q.size(0), k.size(0));
CHECK_EQ(q.size(2), k.size(2));
unsigned int rotary_dim = cos_sin_cache.size(1);
unsigned int num_qo_heads = q.size(1);
unsigned int num_kv_heads = k.size(1);
unsigned int head_dim = q.size(2);
unsigned int nnz = q.size(0);
size_t q_stride_n = q.stride(0);
size_t q_stride_h = q.stride(1);
size_t k_stride_n = k.stride(0);
size_t k_stride_h = k.stride(1);
size_t q_rope_stride_n = q_rope.stride(0);
size_t q_rope_stride_h = q_rope.stride(1);
size_t k_rope_stride_n = k_rope.stride(0);
size_t k_rope_stride_h = k_rope.stride(1);
const cudaStream_t stream = at::cuda::getCurrentCUDAStream();
DISPATCH_PYTORCH_DTYPE_TO_CTYPE_FLOAT_FP16(q.scalar_type(), c_type, [&] {
// TODO temporarily only use `BatchQKApplyRotaryPosIdsCosSinCacheEnhanced` when save_kv_cache
// to avoid changing original code path; but this branch is feature-complete and should switch to this later
if (save_kv_cache) {
cudaError_t status = BatchQKApplyRotaryPosIdsCosSinCacheEnhanced(
static_cast<c_type*>(q.data_ptr()),
static_cast<c_type*>(k.data_ptr()),
save_kv_cache ? static_cast<c_type*>(v->data_ptr()) : nullptr,
static_cast<c_type*>(q_rope.data_ptr()),
static_cast<c_type*>(k_rope.data_ptr()),
save_kv_cache ? static_cast<c_type*>(k_buffer->data_ptr()) : nullptr,
save_kv_cache ? static_cast<c_type*>(v_buffer->data_ptr()) : nullptr,
static_cast<float*>(cos_sin_cache.data_ptr()),
static_cast<int64_t*>(pos_ids.data_ptr()),
nnz,
num_qo_heads,
num_kv_heads,
rotary_dim,
head_dim,
q_stride_n,
q_stride_h,
k_stride_n,
k_stride_h,
v_stride_n,
v_stride_h,
q_rope_stride_n,
q_rope_stride_h,
k_rope_stride_n,
k_rope_stride_h,
k_buffer_stride_n,
k_buffer_stride_h,
v_buffer_stride_n,
v_buffer_stride_h,
kv_cache_loc_ptr,
interleave,
save_kv_cache,
enable_pdl,
stream);
TORCH_CHECK(
status == cudaSuccess,
"BatchQKApplyRotaryPosIdsCosSinCacheEnhanced failed with error code " +
std::string(cudaGetErrorString(status)));
} else {
TORCH_CHECK(!enable_pdl);
cudaError_t status = BatchQKApplyRotaryPosIdsCosSinCache(
static_cast<c_type*>(q.data_ptr()),
static_cast<c_type*>(k.data_ptr()),
static_cast<c_type*>(q_rope.data_ptr()),
static_cast<c_type*>(k_rope.data_ptr()),
static_cast<float*>(cos_sin_cache.data_ptr()),
static_cast<int64_t*>(pos_ids.data_ptr()),
nnz,
num_qo_heads,
num_kv_heads,
rotary_dim,
head_dim,
q_stride_n,
q_stride_h,
k_stride_n,
k_stride_h,
q_rope_stride_n,
q_rope_stride_h,
k_rope_stride_n,
k_rope_stride_h,
interleave,
stream);
TORCH_CHECK(
status == cudaSuccess,
"BatchQKApplyRotaryPosIdsCosSinCache failed with error code " + std::string(cudaGetErrorString(status)));
}
return true;
});
}
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