init

2026-01-09 13:34:11 +08:00
parent dfa6476b58
commit b2ef04d792
538 changed files with 105693 additions and 2 deletions
--- a/tests/kernels/test_pos_encoding.py
+++ b/tests/kernels/test_pos_encoding.py
@@ -0,0 +1,208 @@
+from itertools import accumulate
+from typing import List, Optional
+
+import pytest
+import torch
+from allclose_default import get_default_atol, get_default_rtol
+
+from vllm.model_executor.layers.rotary_embedding import get_rope
+
+IS_NEOX_STYLE = [True, False]
+DTYPES = [torch.half, torch.bfloat16, torch.float]
+HEAD_SIZES = [64, 80, 96, 112, 128, 256]
+ROTARY_DIMS = [None, 32]  # None means rotary dim == head size
+NUM_HEADS = [7, 17]  # Arbitrary values for testing
+BATCH_SIZES = [1, 5]  # Arbitrary values for testing
+SEQ_LENS = [11, 8192]  # Arbitrary values for testing
+SEEDS = [0]
+CUDA_DEVICES = [
+    f"cuda:{i}" for i in range(1 if torch.cuda.device_count() == 1 else 2)
+]
+
+
+@pytest.mark.parametrize("is_neox_style", IS_NEOX_STYLE)
+@pytest.mark.parametrize("batch_size", BATCH_SIZES)
+@pytest.mark.parametrize("seq_len", SEQ_LENS)
+@pytest.mark.parametrize("num_heads", NUM_HEADS)
+@pytest.mark.parametrize("head_size", HEAD_SIZES)
+@pytest.mark.parametrize("rotary_dim", ROTARY_DIMS)
+@pytest.mark.parametrize("dtype", DTYPES)
+@pytest.mark.parametrize("seed", SEEDS)
+@pytest.mark.parametrize("device", CUDA_DEVICES)
+@torch.inference_mode()
+def test_rotary_embedding(
+    is_neox_style: bool,
+    batch_size: int,
+    seq_len: int,
+    num_heads: int,
+    head_size: int,
+    rotary_dim: Optional[int],
+    dtype: torch.dtype,
+    seed: int,
+    device: str,
+    max_position: int = 8192,
+    base: int = 10000,
+) -> None:
+    if rotary_dim is None:
+        rotary_dim = head_size
+    torch.random.manual_seed(seed)
+    if torch.cuda.is_available():
+        torch.cuda.manual_seed(seed)
+    torch.set_default_device(device)
+    if rotary_dim is None:
+        rotary_dim = head_size
+    rope = get_rope(head_size, rotary_dim, max_position, base, is_neox_style)
+    rope = rope.to(dtype=dtype)
+
+    positions = torch.randint(0, max_position, (batch_size, seq_len))
+    query = torch.randn(batch_size,
+                        seq_len,
+                        num_heads * head_size,
+                        dtype=dtype)
+    key = torch.randn_like(query)
+
+    # NOTE(woosuk): The reference implementation should be executed first
+    # because the custom kernel is in-place.
+    ref_query, ref_key = rope._forward(positions, query, key)
+    out_query, out_key = rope.forward(positions, query, key)
+    # Compare the results.
+    assert torch.allclose(out_query,
+                          ref_query,
+                          atol=get_default_atol(out_query),
+                          rtol=get_default_rtol(out_query))
+    assert torch.allclose(out_key,
+                          ref_key,
+                          atol=get_default_atol(out_key),
+                          rtol=get_default_rtol(out_key))
+
+
+@pytest.mark.parametrize("is_neox_style", IS_NEOX_STYLE)
+@pytest.mark.parametrize("batch_size", BATCH_SIZES)
+@pytest.mark.parametrize("seq_len", SEQ_LENS)
+@pytest.mark.parametrize("num_heads", NUM_HEADS)
+@pytest.mark.parametrize("head_size", HEAD_SIZES)
+@pytest.mark.parametrize("rotary_dim", ROTARY_DIMS)
+@pytest.mark.parametrize("dtype", DTYPES)
+@pytest.mark.parametrize("seed", SEEDS)
+@pytest.mark.parametrize("device", CUDA_DEVICES)
+@torch.inference_mode()
+def test_batched_rotary_embedding(
+    is_neox_style: bool,
+    batch_size: int,
+    seq_len: int,
+    num_heads: int,
+    head_size: int,
+    rotary_dim: Optional[int],
+    dtype: torch.dtype,
+    seed: int,
+    device: str,
+    max_position: int = 8192,
+    base: int = 10000,
+) -> None:
+    torch.random.manual_seed(seed)
+    if torch.cuda.is_available():
+        torch.cuda.manual_seed(seed)
+    torch.set_default_device(device)
+    if rotary_dim is None:
+        rotary_dim = head_size
+    rope = get_rope(head_size, rotary_dim, max_position, base, is_neox_style, {
+        "type": "linear",
+        "factor": (1, )
+    })
+    rope = rope.to(dtype=dtype)
+
+    positions = torch.randint(0, max_position, (batch_size, seq_len))
+    query = torch.randn(batch_size,
+                        seq_len,
+                        num_heads * head_size,
+                        dtype=dtype)
+    key = torch.randn_like(query)
+
+    # NOTE(woosuk): The reference implementation should be executed first
+    # because the custom kernel is in-place.
+    ref_query, ref_key = rope._forward(positions, query, key)
+    out_query, out_key = rope.forward(positions,
+                                      query,
+                                      key,
+                                      offsets=torch.zeros(batch_size * seq_len,
+                                                          dtype=int,
+                                                          device=device))
+    # Compare the results.
+    assert torch.allclose(out_query,
+                          ref_query,
+                          atol=get_default_atol(out_query),
+                          rtol=get_default_rtol(out_query))
+    assert torch.allclose(out_key,
+                          ref_key,
+                          atol=get_default_atol(out_key),
+                          rtol=get_default_rtol(out_key))
+
+
+@pytest.mark.parametrize("is_neox_style", IS_NEOX_STYLE)
+@pytest.mark.parametrize("batch_size", BATCH_SIZES)
+@pytest.mark.parametrize("seq_len", SEQ_LENS)
+@pytest.mark.parametrize("num_heads", NUM_HEADS)
+@pytest.mark.parametrize("head_size", HEAD_SIZES)
+@pytest.mark.parametrize("rotary_dim", ROTARY_DIMS)
+@pytest.mark.parametrize("dtype", DTYPES)
+@pytest.mark.parametrize("seed", SEEDS)
+@pytest.mark.parametrize("device", CUDA_DEVICES)
+@torch.inference_mode()
+def test_batched_rotary_embedding_multi_lora(
+    is_neox_style: bool,
+    batch_size: int,
+    seq_len: int,
+    num_heads: int,
+    head_size: int,
+    rotary_dim: Optional[int],
+    dtype: torch.dtype,
+    seed: int,
+    device: str,
+    max_position: int = 8192,
+    base: int = 10000,
+) -> None:
+    torch.random.manual_seed(seed)
+    if torch.cuda.is_available():
+        torch.cuda.manual_seed(seed)
+    torch.set_default_device(device)
+    if rotary_dim is None:
+        rotary_dim = head_size
+    scaling_factors: List[int] = [1, 2, 4]
+    rope = get_rope(head_size, rotary_dim, max_position, base, is_neox_style, {
+        "type": "linear",
+        "factor": tuple(scaling_factors)
+    })
+    rope = rope.to(dtype=dtype)
+
+    positions = torch.randint(0, max_position, (batch_size, seq_len))
+    query = torch.randn(batch_size,
+                        seq_len,
+                        num_heads * head_size,
+                        dtype=dtype)
+    key = torch.randn_like(query)
+
+    offset_map = torch.tensor(
+        list(
+            accumulate([0] + [
+                max_position * scaling_factor * 2
+                for scaling_factor in scaling_factors[:-1]
+            ])))
+    query_types = torch.randint(0,
+                                len(scaling_factors), (batch_size, seq_len),
+                                device=device)
+    query_offsets = offset_map[query_types]
+
+    # NOTE(woosuk): The reference implementation should be executed first
+    # because the custom kernel is in-place.
+    ref_query, ref_key = rope._forward(positions, query, key, query_offsets)
+    out_query, out_key = rope.forward(positions, query, key,
+                                      query_offsets.flatten())
+    # Compare the results.
+    assert torch.allclose(out_query,
+                          ref_query,
+                          atol=get_default_atol(out_query),
+                          rtol=get_default_rtol(out_query))
+    assert torch.allclose(out_key,
+                          ref_key,
+                          atol=get_default_atol(out_key),
+                          rtol=get_default_rtol(out_key))