biondizzle
0f539e4855
Schema fix (paper eq.11-12):
CSA needs m entries for current a-stream AND m entries for previous
b-stream (tail_buffer_size_a=4, tail_buffer_size_b=4). After flush,
current a-stream becomes next flush b-stream input.
HCA: tail_buffer_size_a=128, tail_buffer_size_b=0 (no b-stream).
tail_zb initialized to -1e9 so softmax naturally masks b-stream on
first flush (paper: Z^b padded with -inf, C^b with zeros).
prepare_forward.py:
Runs between captured graphs. Computes new compressed entries from
position delta, pre-allocates blocks before the graph runs.
Deterministic: entries_after - entries_before, ceil to block boundary.
No allocation inside the captured graph.
flush_write.cu — 4 kernels:
flush_write_csa_kernel: BF16 -> FP8 E4M3 quantize + scatter compressed
entry + FP4 NVFP4 indexer key write (16-element groups, E4M3 scale).
One block per request, 128 threads. Amax reduction -> inv_scale.
flush_write_hca_kernel: same minus indexer (no FP4 write).
csa_rotate_state_kernel: after CSA flush, rotate a->b stream,
clear a-stream, reset tail_len.
hca_reset_state_kernel: after HCA flush, clear a-stream, reset tail_len.
flush.py: Python orchestration.
maybe_flush_csa/hca: always runs, kernels gate via valid_mask.
Compressor produces entry, flush kernel quantize-scatters, state
kernel rotates/resets. No host-side branching for cudagraph.
All tests pass on B200:
Schema: CSA tail_a=4 tail_b=4, HCA tail_a=128 tail_b=0
State: tail_zb initialized to -1e9, reset_slot preserves it
prepare_forward: correct block allocation for position transitions
HCA flush write: RoPE exact, FP8 <3.6% error, invalid mask no-op
CSA flush write: RoPE exact, indexer FP4 keys written
CSA state rotation: kb<-ka, zb<-za, ka/za zeroed, tail_len=0
HCA state reset: ka/za zeroed, tail_len=0
126 lines
4.6 KiB
Python
126 lines
4.6 KiB
Python
"""Per-layer KV cache shape.
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Computed once per layer at engine startup from the LayerSpec. The
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schema is what tells the allocator how big each pool slot is and what
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sub-regions exist (compressed entries / indexer keys / SWA window /
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uncompressed tail).
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"""
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from __future__ import annotations
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from dataclasses import dataclass
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from typing import Optional
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from dsv4.model.config import DSV4Config
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from dsv4.model.layer_schedule import LayerSpec, AttentionType
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# Block size is invariant for DSV4 — derived from compression ratios.
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# lcm(m, m') = lcm(4, 128) = 128 original tokens per block.
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# Holds 128/4 = 32 CSA entries OR 128/128 = 1 HCA entry per block.
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BLOCK_SIZE_ORIGINAL_TOKENS = 128
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@dataclass(frozen=True)
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class LayerCacheSchema:
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"""Cache layout for one transformer layer.
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Fields with `_per_block` are the dimensions of one block in the
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classical paged pool. `_per_state_slot` are dimensions of one
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request's slot in the state cache.
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All sizes are in number of entries — bytes come from the dtypes.
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"""
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layer_idx: int
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attn_type: AttentionType
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# ---- Classical paged cache (compressed entries) ----
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entries_per_block: int
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entry_head_dim: int
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rope_dim: int
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# ---- Indexer pool (CSA only) ----
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indexer_entries_per_block: int
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indexer_head_dim: int
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# ---- State cache (SWA window + uncompressed tail) ----
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swa_window_size: int
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# CSA: paper eq.11-12, the i-th flush uses Ca[m*i:m*(i+1)] and
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# Cb[m*(i-1):m*i]. After flush, current a-stream becomes next b-stream.
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# So we need m entries for current a-stream AND m entries for previous
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# b-stream. Total tail = 2*m for CSA.
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tail_buffer_size_a: int # m (CSA) or m' (HCA) — current tokens
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tail_buffer_size_b: int # m (CSA only) — previous block's a-stream kept as b-input
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# Per-token inverse scale storage (for FP8 dequant).
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needs_inv_scale: bool = True
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@property
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def tail_buffer_size(self) -> int:
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"""Total tail entries (for backward compat with schema consumers)."""
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return self.tail_buffer_size_a + self.tail_buffer_size_b
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def build_schema(config: DSV4Config, spec: LayerSpec) -> LayerCacheSchema:
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"""Derive cache schema for a single layer from architectural config."""
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if spec.attn == AttentionType.CSA:
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return LayerCacheSchema(
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layer_idx=spec.layer_idx,
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attn_type=AttentionType.CSA,
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entries_per_block=BLOCK_SIZE_ORIGINAL_TOKENS // config.csa_compression_ratio,
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entry_head_dim=config.head_dim,
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rope_dim=config.rope_dim,
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indexer_entries_per_block=BLOCK_SIZE_ORIGINAL_TOKENS // config.csa_compression_ratio,
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indexer_head_dim=config.indexer_head_dim,
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swa_window_size=config.sliding_window,
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tail_buffer_size_a=config.csa_compression_ratio, # m=4 current
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tail_buffer_size_b=config.csa_compression_ratio, # m=4 previous (b-stream)
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)
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elif spec.attn == AttentionType.HCA:
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return LayerCacheSchema(
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layer_idx=spec.layer_idx,
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attn_type=AttentionType.HCA,
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entries_per_block=BLOCK_SIZE_ORIGINAL_TOKENS // config.hca_compression_ratio,
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entry_head_dim=config.head_dim,
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rope_dim=config.rope_dim,
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indexer_entries_per_block=0,
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indexer_head_dim=0,
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swa_window_size=config.sliding_window,
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tail_buffer_size_a=config.hca_compression_ratio, # m'=128 current
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tail_buffer_size_b=0, # HCA has no b-stream
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)
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else: # SWA-only
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return LayerCacheSchema(
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layer_idx=spec.layer_idx,
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attn_type=AttentionType.SWA,
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entries_per_block=0,
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entry_head_dim=config.head_dim,
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rope_dim=config.rope_dim,
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indexer_entries_per_block=0,
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indexer_head_dim=0,
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swa_window_size=config.sliding_window,
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tail_buffer_size_a=0,
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tail_buffer_size_b=0,
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)
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def compute_block_budget(
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config: DSV4Config,
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schedule: list[LayerSpec],
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max_context_tokens: int,
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max_concurrent_requests: int,
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) -> dict[str, int]:
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"""Compute per-layer-type block counts for the allocator."""
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blocks_per_request = max_context_tokens // BLOCK_SIZE_ORIGINAL_TOKENS
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headroom = 1.10
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result = {}
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for spec in schedule:
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if spec.attn == AttentionType.CSA:
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key = "csa"
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elif spec.attn == AttentionType.HCA:
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key = "hca"
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else:
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continue
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total = int(max_concurrent_requests * blocks_per_request * headroom)
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result[key] = max(result.get(key, 0), total)
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return result
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