Match xattn_estimate internal logic by processing Q in chunks:
- Reduces peak memory for attn_scores tensor
- Enables testing 64K sequences without OOM
- All 5 test files pass (3.6K to 64K)
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Co-Authored-By: Claude <noreply@anthropic.com>
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Test that xattn_estimate produces the same results as manually calling:
- flat_group_gemm_fuse_reshape
- softmax_fuse_block_sum
- find_blocks_chunked
Uses real KV cache data from results/kvcache/ directory.
Verifies density calculation matches between high-level API and kernels.
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- Added analysis documentation for xattn density alignment.
- Refactored ModelRunner to pre-allocate policy metadata buffers regardless of CPU offload configuration.
- Updated FullAttentionPolicy and SparsePolicy to accept query and key tensors for block selection.
- Enhanced QuestPolicy to utilize query tensor for block selection and improved handling of selected blocks.
- Expanded XAttentionBSAPolicy to support chunked prefill and improved attention score computation with historical and current chunk handling.
- Introduced DensityObserver to track compute and communication density for sparse attention layers.
- Updated attention layer to ensure block selection is always called, improving robustness in first chunk scenarios.
- Added tests for attention kernel behavior with enhanced input patterns.
- Add DensityObserver class to track per-layer density statistics
- Integrate DensityObserver into compute_prefill for GPU-only mode
- Fix stride parameter not being passed to xattn_estimate
- Add density statistics output to test_ruler.py for XATTN_BSA
- Add comprehensive density benchmark documentation
Key changes:
- nanovllm/utils/density_observer.py: New Observer for density tracking
- xattn_bsa.py: Add stride param to xattn_estimate, integrate DensityObserver
- test_ruler.py: Enable DensityObserver and print summary for XATTN_BSA
- docs/xattn_density_benchmark.md: Benchmark results for 4K-32K contexts
Co-Authored-By: Claude Opus 4.5 <noreply@anthropic.com>
Support models with float32 default dtype (e.g., Nemotron).
FlashAttention requires fp16/bf16, so dtype must be specified.
Usage: --dtype bfloat16
Co-Authored-By: Claude Opus 4.5 <noreply@anthropic.com>
Add support for GLM-4 model architecture with the following changes:
- Add glm4.py with ChatGLMForCausalLM, GLM4Model, GLM4Attention, GLM4MLP
- Add GLM4RotaryEmbedding with interleaved partial rotation (rotary_dim = head_dim // 2)
- Add apply_rotary_emb_interleaved function for GLM-4 style RoPE
- Add GLM-4 weight name conversion and loading in loader.py
- Add GLM-4 chat template conversion in test_ruler.py
- Add trust_remote_code=True for GLM-4 config loading
Key GLM-4 specific adaptations:
- QKV bias enabled (add_qkv_bias: true)
- RoPE with rope_ratio scaling (base = 10000 * rope_ratio)
- Interleaved RoPE (pairs adjacent elements, not first/second half)
- Partial rotation (only half of head_dim is rotated)
- Uses multi_query_group_num instead of num_key_value_heads
- Uses kv_channels instead of head_dim
- Uses ffn_hidden_size instead of intermediate_size
Tested with RULER niah_single_1 (5 samples): 100% accuracy
Both GPU-only and CPU offload modes verified
Co-Authored-By: Claude Opus 4.5 <noreply@anthropic.com>
Validate the hierarchical estimation approach for XAttention:
- Test 1: Math equivalence (diff = 0.0) between hierarchical and direct
- Test 2: Score + threshold selection strategy (replaces mask + voting)
- Test 3: Performance benchmark (41x speedup)
Uses pure torch + xattn kernels, independent of nanovllm framework.
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Document the performance impact of block_size on softmax_fuse_block_sum:
- Current 4096 (reshaped 512) is the WORST point: 95ms
- Optimal 1024 (reshaped 128): 6ms - 15x faster
- Performance follows U-shaped curve
Add tests/bench_estimate_block_size.py for benchmarking and propose
hierarchical block sum approach for optimization.
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- Add test_xattn_kernels.py demonstrating flat_group_gemm_fuse_reshape
and softmax_fuse_block_sum Triton kernels with structured data
- Update testing.md with new test code style guidelines
- Update xattn.py and xattn_bsa.py with improvements
Co-Authored-By: Claude Opus 4.5 <noreply@anthropic.com>
- Add xattn_estimate_chunked function ported from COMPASS
- Support chunked prefill with q_start_pos parameter
- Ensure 100% consistency with standard xattn_estimate when
using matching chunk_size parameter
- Add test and documentation
Co-Authored-By: Claude Opus 4.5 <noreply@anthropic.com>
Validates that pre-allocated CUDA graphs work for chunk-wise attention:
- Each (Q_chunk, K_chunk) pair has its own captured graph
- Zero copy_() during replay - all data pre-filled
- Uses nanovllm's flash_attn_with_lse and merge_attention_outputs
Co-Authored-By: Claude Opus 4.5 <noreply@anthropic.com>
