- Document the CUDA stream synchronization bug in XAttention BSA
- Include root cause analysis with stream timing diagrams
- Add test commands and verification results (100% accuracy)
- Update CLAUDE.md documentation index
Co-Authored-By: Claude Opus 4.5 <noreply@anthropic.com>
- Rename doc to "Density Alignment Test Results" (covers both modes)
- Add Offload mode test results (3.7K-64.9K tokens, all passed)
- Add Layer 5 GPU-only test results (threshold=0.9, density=6.24%)
- Enhance test script to support both GPU-only and Offload data formats
- Add batch testing commands for all data files
- Update CLAUDE.md index
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Implement three-phase KV chunking for sparse attention estimation:
1. softmax_compute_partial_stats: compute (m, l) per KV chunk
2. merge_softmax_stats: merge partial stats on host
3. softmax_normalize_and_block_sum: normalize with global stats
This allows computing sparse attention masks without storing full
raw attention scores in GPU memory, reducing peak memory usage
from O(q_len * k_full_len) to O(q_len * k_chunk_len).
Key changes:
- Add softmax_partial_stats_kernel with causal mask support
- Add softmax_normalize_block_sum_kernel with kv_offset parameter
- Add Python wrappers for new kernels
- Update test script to validate KV chunking alignment
- Add documentation for the new kernels
Test results show perfect alignment with xattn_estimate API:
- Density difference: 0.000000
- Mask difference: 0.0044%
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Document the verification test for XAttention Triton kernel KV chunking:
- 32K and 64K test results with threshold 0.9/0.95/1.0
- Key finding: threshold=1.0 achieves alignment (~0% diff)
- threshold<1.0 shows 10-13% difference due to per-chunk threshold application
- Conclusion: softmax normalization is correct, issue is threshold accumulation
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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>
Summarizes lessons learned from GLM-4 integration:
- Config field mapping (multi_query_group_num, kv_channels, etc.)
- RoPE variants (interleaved vs half, partial vs full rotation)
- EOS token handling for multi-EOS models
- Weight name conversion patterns
- Verification checklist
Also updates CLAUDE.md to reflect GLM-4 support.
Co-Authored-By: Claude Opus 4.5 <noreply@anthropic.com>
- Add comprehensive list of 1M+ context models from Hugging Face
- Categorize by type: text-only LLM vs vision-language models
- Separate ≤10B (practical) from >10B (resource-intensive) models
- Include Qwen, GLM, InternLM, Llama, MiniMax, Gradient AI series
- Add VRAM requirements and technical comparison table
- Update CLAUDE.md documentation index
Co-Authored-By: Claude Opus 4.5 <noreply@anthropic.com>
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 comprehensive performance analysis for XAttention:
- NVTX marker locations and usage
- Block size impact on offload mode (4096 vs 1024)
- Detailed timing breakdown for estimate vs compute phases
- softmax_fuse_block_sum_kernel analysis
- Optimization recommendations
Key findings:
- block_size=4096 is 2x faster than 1024 for 64K context
- find_blocks_chunked is bottleneck (40%) at block_size=4096
- estimate_gemm becomes bottleneck (24%) at block_size=1024
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Merge GPU-only sparse attention support from tzj/minference-exp branch:
**GPU-only mode additions:**
- Add compute_prefill/compute_decode methods to SparsePolicy base class
- Add GPU-only attention routing in attention.py
- Add alloc_policy_metadata() for pre-allocating GQA buffers
- Add XAttention + BSA sparse attention for GPU-only prefill
- Add kvcache_manager to set_context() for policy access
**bench.py enhancements:**
- Add --model argument for configurable model path
- Add --policy argument (full, xattn) for sparse policy selection
- Add --enable-policy flag for FullAttentionPolicy routing
- Add --enforce-eager option to disable CUDA graphs
- Add --gpu-util option for GPU memory utilization
**Documentation:**
- Add gpu_only_xattn_guide.md with performance analysis
- Add gpu_only_sparse_integration.md baseline document
- Add gpu-vram-requirement.md rule for GPU-only mode
Both CPU offload and GPU-only paths are preserved and functional.
Co-Authored-By: Claude Opus 4.5 <noreply@anthropic.com>
Implement extended CUDA Graph coverage for CPU offload path:
- Add graphed_layers.py with N+2 graph architecture (EmbedGraph, FirstGraph, InterGraphs, LastGraph)
- Support both prefill (seq_len=chunk_size) and decode (seq_len=1) graph modes
- Extend graph coverage to ~70-80% including qkv_proj, rotary, o_proj
- Only attention core remains in eager mode for dynamic offload
Performance: Prefill throughput improved ~5.6% (3782 -> 3995 tok/s at 32K)
Also adds:
- --enforce-eager flag to bench_offload.py for comparison
- Offload mode constraint documentation in CLAUDE.md
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- Add --model parameter (default: Llama-3.1-8B-Instruct)
- Add --enable-xattn flag for XAttention BSA sparse prefill
- Add --xattn-threshold and --xattn-stride parameters
- Change default num-gpu-blocks from 6 to 4
- Add benchmark results doc with Full vs XAttn comparison (32K/128K)
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- Document kernel gap analysis showing 77-81% CPU scheduling overhead
- Identify GPU utilization at 12.8% with potential to reach 39.5%
- Outline optimization directions: CUDA Graph, Triton fusion, C++ extension
- Add documentation index entry in CLAUDE.md
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- Document ring buffer pipeline triggering nsys timestamp bug
- Update profile_offload.sh to use test_ruler.py with options
- Add reference to new doc in CLAUDE.md
Root cause: 4-slot ring buffer pipeline (4 transfer streams +
1 compute stream) triggers event ordering bug in nsys < 2024.2
Co-Authored-By: Claude Opus 4.5 <noreply@anthropic.com>
- Add .claude/rules/gpu-monitor.md requiring gpu-monitor agent for all GPU memory monitoring tasks
- Update CLAUDE.md rules index with reference to new rule
Co-Authored-By: Claude Opus 4.5 <noreply@anthropic.com>
Add new sections to xattn_bsa_policy_design.md:
- Performance benchmarks: 128K context comparison (Full vs XAttn BSA)
- Density trend analysis across chunks
- Memory leak issue and fix (64GB -> 4GB reduction)
- Memory monitoring guide with gpu-monitor agent
- Density statistics API documentation
- Known issues and optimization directions
Update CLAUDE.md description to reflect new content.
Co-Authored-By: Claude Opus 4.5 <noreply@anthropic.com>
- Document flat_group_gemm_fuse_reshape and softmax_fuse_block_sum kernels
- Explain anti-diagonal sum principle and stride sampling
- Add GPU-specific BLOCK_M/N constraints (RTX 3090 vs A100)
- Show Q/K can have different lengths (chunked prefill support)
- Update CLAUDE.md with doc reference
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>
Add comprehensive documentation analyzing the 32K chunked offload
accuracy issues with proposed solutions covering LSE precision,
ring buffer state management, and position encoding validation.
Co-Authored-By: Claude Opus 4.5 <noreply@anthropic.com>
- Add docs/block_sparse_attn_interface.md with BSA function signatures
- Update CLAUDE.md documentation index
- Remove obsolete DEBUG_SUMMARY.md and test_report_sparse_policy_refactor.md
- Add notes.md to .gitignore
Co-Authored-By: Claude Opus 4.5 <noreply@anthropic.com>
- Create docs/sparse_policy_implementation_guide.md with comprehensive guide
- Rewrite .claude/rules/sparse-policy.md with mandatory base class requirements
- Add new doc reference to CLAUDE.md documentation index
Co-Authored-By: Claude Opus 4.5 <noreply@anthropic.com>
- Document accuracy degradation issue in 32K context with chunked offload
- Add detailed hypothesis analysis and debugging approach
- Include 4-slot ring buffer experiment results
Co-Authored-By: Claude Opus 4.5 <noreply@anthropic.com>
Add comprehensive documentation for the SparsePolicy abstraction:
- SparsePolicy base class and abstract methods
- FullAttentionPolicy prefill/decode flow
- Ring buffer and cross-layer pipeline modes
- Code conventions and testing guidelines
Update CLAUDE.md documentation index with reference.
Co-Authored-By: Claude Opus 4.5 <noreply@anthropic.com>
Combines two performance optimization features:
- perf_opt-1: Cross-layer pipeline for decode (double-buffered layer cache)
- perf_opt-2: Per-layer prefill buffer for async offload
Both features are complementary and improve CPU offload performance.
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Add instructions for Claude instances to check GPU availability before
running CUDA operations, preventing conflicts when multiple instances
debug in parallel on a single GPU.
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