vllm/csrc/pos_encoding_kernels.cu

#include <torch/extension.h>
#include <ATen/cuda/CUDAContext.h>
#include <c10/cuda/CUDAGuard.h>

#include "cuda_compat.h"
#include "dispatch_utils.h"

namespace vllm {

template<typename scalar_t, bool IS_NEOX>
inline __device__ void apply_rotary_embedding(
  scalar_t* __restrict__ arr,
  const scalar_t* __restrict__ cos_ptr,
  const scalar_t* __restrict__ sin_ptr,
  int rot_offset,
  int embed_dim)
{
  int x_index, y_index;
  scalar_t cos, sin;
  if (IS_NEOX) {
    // GPT-NeoX style rotary embedding.
    x_index = rot_offset;
    y_index = embed_dim + rot_offset;
    cos = VLLM_LDG(cos_ptr + x_index);
    sin = VLLM_LDG(sin_ptr + x_index);
  } else {
    // GPT-J style rotary embedding.
    x_index = 2 * rot_offset;
    y_index = 2 * rot_offset + 1;
    cos = VLLM_LDG(cos_ptr + x_index / 2);
    sin = VLLM_LDG(sin_ptr + x_index / 2);
  }

  const scalar_t x = arr[x_index];
  const scalar_t y = arr[y_index];
  arr[x_index] = x * cos - y * sin;
  arr[y_index] = y * cos + x * sin;
}

template<typename scalar_t, bool IS_NEOX>
__global__ void rotary_embedding_kernel(
  const int64_t* __restrict__ positions,        // [batch_size, seq_len] or [num_tokens]
  scalar_t* __restrict__ query,                 // [batch_size, seq_len, num_heads, head_size] or [num_tokens, num_heads, head_size]
  scalar_t* __restrict__ key,                   // [batch_size, seq_len, num_kv_heads, head_size] or [num_tokens, num_kv_heads, head_size]
  const scalar_t* __restrict__ cos_sin_cache,   // [max_position, 2, rot_dim // 2]
  const int rot_dim,
  const int64_t query_stride,
  const int64_t key_stride,
  const int num_heads,
  const int num_kv_heads,
  const int head_size) {
  // Each thread block is responsible for one token.
  const int token_idx = blockIdx.x;
  int64_t pos = positions[token_idx];
  const scalar_t* cache_ptr = cos_sin_cache + pos * rot_dim;

  const int embed_dim = rot_dim / 2;
  const scalar_t* cos_ptr = cache_ptr;
  const scalar_t* sin_ptr = cache_ptr + embed_dim;

  const int nq = num_heads * embed_dim;
  for (int i = threadIdx.x; i < nq; i += blockDim.x) {
    const int head_idx = i / embed_dim;
    const int64_t token_head = token_idx * query_stride + head_idx * head_size;
    const int rot_offset = i % embed_dim;
    apply_rotary_embedding<scalar_t, IS_NEOX>(query + token_head, cos_ptr,
                                              sin_ptr, rot_offset, embed_dim);
  }

  const int nk = num_kv_heads * embed_dim;
  for (int i = threadIdx.x; i < nk; i += blockDim.x) {
    const int head_idx = i / embed_dim;
    const int64_t token_head = token_idx * key_stride + head_idx * head_size;
    const int rot_offset = i % embed_dim;
    apply_rotary_embedding<scalar_t, IS_NEOX>(key + token_head, cos_ptr,
                                              sin_ptr, rot_offset, embed_dim);
  }
}

} // namespace vllm

void rotary_embedding(
  torch::Tensor& positions,         // [batch_size, seq_len] or [num_tokens]
  torch::Tensor& query,             // [batch_size, seq_len, num_heads * head_size] or [num_tokens, num_heads * head_size]
  torch::Tensor& key,               // [batch_size, seq_len, num_kv_heads * head_size] or [num_tokens, num_kv_heads * head_size]
  int head_size,
  torch::Tensor& cos_sin_cache,     // [max_position, rot_dim]
  bool is_neox) {
  int64_t num_tokens = query.numel() / query.size(-1);
  int rot_dim = cos_sin_cache.size(1);
  int num_heads = query.size(-1) / head_size;
  int num_kv_heads = key.size(-1) / head_size;
  int64_t query_stride = query.stride(-2);
  int64_t key_stride = key.stride(-2);

  dim3 grid(num_tokens);
  dim3 block(std::min(num_heads * rot_dim / 2, 512));
  const at::cuda::OptionalCUDAGuard device_guard(device_of(query));
  const cudaStream_t stream = at::cuda::getCurrentCUDAStream();
  VLLM_DISPATCH_FLOATING_TYPES(
    query.scalar_type(),
    "rotary_embedding",
    [&] {
      if (is_neox) {
        vllm::rotary_embedding_kernel<scalar_t, true><<<grid, block, 0, stream>>>(
          positions.data_ptr<int64_t>(),
          query.data_ptr<scalar_t>(),
          key.data_ptr<scalar_t>(),
          cos_sin_cache.data_ptr<scalar_t>(),
          rot_dim,
          query_stride,
          key_stride,
          num_heads,
          num_kv_heads,
          head_size);
      } else {
        vllm::rotary_embedding_kernel<scalar_t, false><<<grid, block, 0, stream>>>(
          positions.data_ptr<int64_t>(),
          query.data_ptr<scalar_t>(),
          key.data_ptr<scalar_t>(),
          cos_sin_cache.data_ptr<scalar_t>(),
          rot_dim,
          query_stride,
          key_stride,
          num_heads,
          num_kv_heads,
          head_size);
      }
    });
}
Implement custom kernel for LLaMA rotary embedding (#14) 2023-03-31 02:04:21 +08:00			`#include <torch/extension.h>`
			`#include <ATen/cuda/CUDAContext.h>`
[FIX] Support non-zero CUDA devices in custom kernels (#1959) 2024-01-03 11:09:59 +08:00			`#include <c10/cuda/CUDAGuard.h>`
Implement custom kernel for LLaMA rotary embedding (#14) 2023-03-31 02:04:21 +08:00
Merge EmbeddedLLM/vllm-rocm into vLLM main (#1836) Co-authored-by: Philipp Moritz <pcmoritz@gmail.com> Co-authored-by: Amir Balwel <amoooori04@gmail.com> Co-authored-by: root <kuanfu.liu@akirakan.com> Co-authored-by: tjtanaa <tunjian.tan@embeddedllm.com> Co-authored-by: kuanfu <kuanfu.liu@embeddedllm.com> Co-authored-by: miloice <17350011+kliuae@users.noreply.github.com> 2023-12-08 15:16:52 +08:00			`#include "cuda_compat.h"`
Avoid compiling kernels for double data type (#933) 2023-09-02 13:59:47 +08:00			`#include "dispatch_utils.h"`

Change the name to vLLM (#150) 2023-06-17 18:07:40 +08:00			`namespace vllm {`
Implement custom kernel for LLaMA rotary embedding (#14) 2023-03-31 02:04:21 +08:00
[BugFix] Implement RoPE for GPT-J (#941) 2023-09-06 10:54:33 +08:00			`template<typename scalar_t, bool IS_NEOX>`
			`inline __device__ void apply_rotary_embedding(`
			`scalar_t* __restrict__ arr,`
			`const scalar_t* __restrict__ cos_ptr,`
			`const scalar_t* __restrict__ sin_ptr,`
			`int rot_offset,`
			`int embed_dim)`
			`{`
			`int x_index, y_index;`
			`scalar_t cos, sin;`
			`if (IS_NEOX) {`
			`// GPT-NeoX style rotary embedding.`
			`x_index = rot_offset;`
			`y_index = embed_dim + rot_offset;`
Merge EmbeddedLLM/vllm-rocm into vLLM main (#1836) Co-authored-by: Philipp Moritz <pcmoritz@gmail.com> Co-authored-by: Amir Balwel <amoooori04@gmail.com> Co-authored-by: root <kuanfu.liu@akirakan.com> Co-authored-by: tjtanaa <tunjian.tan@embeddedllm.com> Co-authored-by: kuanfu <kuanfu.liu@embeddedllm.com> Co-authored-by: miloice <17350011+kliuae@users.noreply.github.com> 2023-12-08 15:16:52 +08:00			`cos = VLLM_LDG(cos_ptr + x_index);`
			`sin = VLLM_LDG(sin_ptr + x_index);`
[BugFix] Implement RoPE for GPT-J (#941) 2023-09-06 10:54:33 +08:00			`} else {`
			`// GPT-J style rotary embedding.`
			`x_index = 2 * rot_offset;`
			`y_index = 2 * rot_offset + 1;`
Merge EmbeddedLLM/vllm-rocm into vLLM main (#1836) Co-authored-by: Philipp Moritz <pcmoritz@gmail.com> Co-authored-by: Amir Balwel <amoooori04@gmail.com> Co-authored-by: root <kuanfu.liu@akirakan.com> Co-authored-by: tjtanaa <tunjian.tan@embeddedllm.com> Co-authored-by: kuanfu <kuanfu.liu@embeddedllm.com> Co-authored-by: miloice <17350011+kliuae@users.noreply.github.com> 2023-12-08 15:16:52 +08:00			`cos = VLLM_LDG(cos_ptr + x_index / 2);`
			`sin = VLLM_LDG(sin_ptr + x_index / 2);`
[BugFix] Implement RoPE for GPT-J (#941) 2023-09-06 10:54:33 +08:00			`}`

			`const scalar_t x = arr[x_index];`
			`const scalar_t y = arr[y_index];`
			`arr[x_index] = x * cos - y * sin;`
			`arr[y_index] = y * cos + x * sin;`
			`}`

			`template<typename scalar_t, bool IS_NEOX>`
			`__global__ void rotary_embedding_kernel(`
Change scheduler & input tensor shape (#1381) 2023-10-17 08:48:42 +08:00			`const int64_t* __restrict__ positions, // [batch_size, seq_len] or [num_tokens]`
			`scalar_t* __restrict__ query, // [batch_size, seq_len, num_heads, head_size] or [num_tokens, num_heads, head_size]`
			`scalar_t* __restrict__ key, // [batch_size, seq_len, num_kv_heads, head_size] or [num_tokens, num_kv_heads, head_size]`
Add support for GPT-NeoX (Pythia) (#50) 2023-04-28 15:32:10 +08:00			`const scalar_t* __restrict__ cos_sin_cache, // [max_position, 2, rot_dim // 2]`
			`const int rot_dim,`
[BugFix] Fix RoPE kernel on long sequences(#2164) 2023-12-18 09:09:10 +08:00			`const int64_t query_stride,`
			`const int64_t key_stride,`
Implement custom kernel for LLaMA rotary embedding (#14) 2023-03-31 02:04:21 +08:00			`const int num_heads,`
Add support for LLaMA-2 (#505) 2023-07-21 02:38:27 +08:00			`const int num_kv_heads,`
Implement custom kernel for LLaMA rotary embedding (#14) 2023-03-31 02:04:21 +08:00			`const int head_size) {`
			`// Each thread block is responsible for one token.`
			`const int token_idx = blockIdx.x;`
			`int64_t pos = positions[token_idx];`
Add support for GPT-NeoX (Pythia) (#50) 2023-04-28 15:32:10 +08:00			`const scalar_t* cache_ptr = cos_sin_cache + pos * rot_dim;`
Implement custom kernel for LLaMA rotary embedding (#14) 2023-03-31 02:04:21 +08:00
Add support for GPT-NeoX (Pythia) (#50) 2023-04-28 15:32:10 +08:00			`const int embed_dim = rot_dim / 2;`
[BugFix] Implement RoPE for GPT-J (#941) 2023-09-06 10:54:33 +08:00			`const scalar_t* cos_ptr = cache_ptr;`
			`const scalar_t* sin_ptr = cache_ptr + embed_dim;`

Add support for LLaMA-2 (#505) 2023-07-21 02:38:27 +08:00			`const int nq = num_heads * embed_dim;`
			`for (int i = threadIdx.x; i < nq; i += blockDim.x) {`
Optimize data movement (#20) 2023-04-02 15:30:17 +08:00			`const int head_idx = i / embed_dim;`
[BugFix] Fix RoPE kernel on long sequences(#2164) 2023-12-18 09:09:10 +08:00			`const int64_t token_head = token_idx * query_stride + head_idx * head_size;`
Optimize data movement (#20) 2023-04-02 15:30:17 +08:00			`const int rot_offset = i % embed_dim;`
[BugFix] Implement RoPE for GPT-J (#941) 2023-09-06 10:54:33 +08:00			`apply_rotary_embedding<scalar_t, IS_NEOX>(query + token_head, cos_ptr,`
			`sin_ptr, rot_offset, embed_dim);`
Add Falcon support (new) (#592) 2023-08-03 05:04:39 +08:00			`}`

			`const int nk = num_kv_heads * embed_dim;`
			`for (int i = threadIdx.x; i < nk; i += blockDim.x) {`
			`const int head_idx = i / embed_dim;`
[BugFix] Fix RoPE kernel on long sequences(#2164) 2023-12-18 09:09:10 +08:00			`const int64_t token_head = token_idx * key_stride + head_idx * head_size;`
Add Falcon support (new) (#592) 2023-08-03 05:04:39 +08:00			`const int rot_offset = i % embed_dim;`
[BugFix] Implement RoPE for GPT-J (#941) 2023-09-06 10:54:33 +08:00			`apply_rotary_embedding<scalar_t, IS_NEOX>(key + token_head, cos_ptr,`
			`sin_ptr, rot_offset, embed_dim);`
Implement custom kernel for LLaMA rotary embedding (#14) 2023-03-31 02:04:21 +08:00			`}`
			`}`

Change the name to vLLM (#150) 2023-06-17 18:07:40 +08:00			`} // namespace vllm`
Implement custom kernel for LLaMA rotary embedding (#14) 2023-03-31 02:04:21 +08:00
[BugFix] Implement RoPE for GPT-J (#941) 2023-09-06 10:54:33 +08:00			`void rotary_embedding(`
Change scheduler & input tensor shape (#1381) 2023-10-17 08:48:42 +08:00			`torch::Tensor& positions, // [batch_size, seq_len] or [num_tokens]`
			`torch::Tensor& query, // [batch_size, seq_len, num_heads * head_size] or [num_tokens, num_heads * head_size]`
			`torch::Tensor& key, // [batch_size, seq_len, num_kv_heads * head_size] or [num_tokens, num_kv_heads * head_size]`
Add support for GPT-NeoX (Pythia) (#50) 2023-04-28 15:32:10 +08:00			`int head_size,`
[BugFix] Implement RoPE for GPT-J (#941) 2023-09-06 10:54:33 +08:00			`torch::Tensor& cos_sin_cache, // [max_position, rot_dim]`
			`bool is_neox) {`
Support YaRN models (#1264) Signed-off-by: Antoni Baum <antoni.baum@protonmail.com> Co-authored-by: Viktor Ferenczi <viktor@ferenczi.eu> Co-authored-by: Woosuk Kwon <woosuk.kwon@berkeley.edu> 2023-11-04 05:12:48 +08:00			`int64_t num_tokens = query.numel() / query.size(-1);`
Add support for GPT-NeoX (Pythia) (#50) 2023-04-28 15:32:10 +08:00			`int rot_dim = cos_sin_cache.size(1);`
Change scheduler & input tensor shape (#1381) 2023-10-17 08:48:42 +08:00			`int num_heads = query.size(-1) / head_size;`
			`int num_kv_heads = key.size(-1) / head_size;`
[BugFix] Fix RoPE kernel on long sequences(#2164) 2023-12-18 09:09:10 +08:00			`int64_t query_stride = query.stride(-2);`
			`int64_t key_stride = key.stride(-2);`
Implement custom kernel for LLaMA rotary embedding (#14) 2023-03-31 02:04:21 +08:00
			`dim3 grid(num_tokens);`
Add support for GPT-NeoX (Pythia) (#50) 2023-04-28 15:32:10 +08:00			`dim3 block(std::min(num_heads * rot_dim / 2, 512));`
[FIX] Support non-zero CUDA devices in custom kernels (#1959) 2024-01-03 11:09:59 +08:00			`const at::cuda::OptionalCUDAGuard device_guard(device_of(query));`
Implement custom kernel for LLaMA rotary embedding (#14) 2023-03-31 02:04:21 +08:00			`const cudaStream_t stream = at::cuda::getCurrentCUDAStream();`
Avoid compiling kernels for double data type (#933) 2023-09-02 13:59:47 +08:00			`VLLM_DISPATCH_FLOATING_TYPES(`
Implement custom kernel for LLaMA rotary embedding (#14) 2023-03-31 02:04:21 +08:00			`query.scalar_type(),`
[BugFix] Implement RoPE for GPT-J (#941) 2023-09-06 10:54:33 +08:00			`"rotary_embedding",`
Implement custom kernel for LLaMA rotary embedding (#14) 2023-03-31 02:04:21 +08:00			`[&] {`
[BugFix] Implement RoPE for GPT-J (#941) 2023-09-06 10:54:33 +08:00			`if (is_neox) {`
			`vllm::rotary_embedding_kernel<scalar_t, true><<<grid, block, 0, stream>>>(`
			`positions.data_ptr<int64_t>(),`
			`query.data_ptr<scalar_t>(),`
			`key.data_ptr<scalar_t>(),`
			`cos_sin_cache.data_ptr<scalar_t>(),`
			`rot_dim,`
			`query_stride,`
			`key_stride,`
			`num_heads,`
			`num_kv_heads,`
			`head_size);`
			`} else {`
			`vllm::rotary_embedding_kernel<scalar_t, false><<<grid, block, 0, stream>>>(`
			`positions.data_ptr<int64_t>(),`
			`query.data_ptr<scalar_t>(),`
			`key.data_ptr<scalar_t>(),`
			`cos_sin_cache.data_ptr<scalar_t>(),`
			`rot_dim,`
			`query_stride,`
			`key_stride,`
			`num_heads,`
			`num_kv_heads,`
			`head_size);`
			`}`
Implement custom kernel for LLaMA rotary embedding (#14) 2023-03-31 02:04:21 +08:00			`});`
			`}`