| name | diffusion-kernel |
| description | Index for SGLang Diffusion kernel development skills. |
Diffusion Kernel Skills
Rule: Follow User Kernel Language Preference
If the user explicitly states a preference for Triton or CUDA, follow that preference when implementing and optimizing kernels (even if the other option could work). Do not “pick for convenience”.
Directory Layout
python/sglang/multimodal_gen/.claude/skills/diffusion-kernel/
├── SKILL.md
├── add-triton-kernel.md
├── add-cuda-kernel.md
├── diffusion-benchmark-and-profile.md
├── nsight-profiler.md
├── use-efficient-diffusion-kernels.md
├── references/
│ ├── kernel-templates.md # Copy-paste CUDA kernel templates (sglang JIT style)
│ ├── troubleshooting.md # Build/perf/integration issues & fixes
│ ├── h100-optimization-guide.md # H100 (sm_90) deep dive
│ ├── a100-optimization-guide.md # A100 (sm_80) deep dive
│ └── t4-optimization-guide.md # T4 (sm_75, FP16 only) deep dive
└── scripts/
├── bench_diffusion_rmsnorm.py # RMSNorm micro-benchmark vs PyTorch
└── bench_diffusion_denoise.py # End-to-end denoise benchmark (sglang generate)
Index
Before running any benchmark, profiler, or kernel-validation command, use
scripts/diffusion_skill_env.py to derive the repo root from sglang.__file__,
verify the repo is writable, export FLASHINFER_DISABLE_VERSION_CHECK=1, and
choose idle GPU(s) before starting perf work.
-
scripts/diffusion_skill_env.py
Shared preflight helper for all diffusion skill commands. Use it to print the repo root, create benchmark/profile output directories, and choose idle GPUs before running sglang generate, torch profiler, nsys, or ncu.
-
add-triton-kernel.md
Step-by-step guide for adding a new Triton kernel to SGLang Diffusion's jit_kernel/diffusion/triton/ module, including authoring, autotune, torch.compile compatibility, integration, and tests. Use for fused elementwise ops, norm variants, RoPE variants, or when NPU/CPU fallback is needed.
-
add-cuda-kernel.md
Step-by-step guide for adding a JIT CUDA kernel. CUDA source goes in jit_kernel/csrc/diffusion/<op>.cuh; Python wrapper at jit_kernel/diffusion/<op>.py. Uses SGLang's JIT compilation system (load_jit, cache_once) and internal abstractions (TensorMatcher, device::AlignedVector, host::LaunchKernel, device::warp::reduce_sum). Use for bandwidth-bound reductions (RMSNorm, LayerNorm) or ops needing fine-grained vectorization and shared memory control. Adapted from HuggingFace kernels cuda-kernels skill.
-
use-efficient-diffusion-kernels.md
Practical guidance for using SGLang Diffusion fused kernels and fast CUDA paths, including constraints, fallbacks, and where the fused ops are wired into the runtime.
-
diffusion-benchmark-and-profile.md
Denoise-stage benchmark and profiling guide for SGLang Diffusion models. Three profiling levels: Level 1 (torch.profiler — kernel time ranking), Level 2 (nsys — category breakdown), Level 3 (ncu — per-kernel bandwidth/occupancy/roofline analysis). ncu is critical for kernel optimization — always use it when writing or tuning custom kernels to verify hardware saturation.
-
nsight-profiler.md
Advanced profiling skill for NVIDIA Nsight Systems / Nsight Compute: collecting traces, reading reports, and interpreting kernel-level performance metrics.
References (GPU optimization guides, templates, troubleshooting)
Loaded by add-cuda-kernel.md. Adapted from HuggingFace kernels cuda-kernels skill.
- references/kernel-templates.md — copy-paste ready sglang JIT CUDA templates: element-wise (SiLU), row-reduction (RMSNorm), fused AdaLN, Python wrapper, test, benchmark
- references/troubleshooting.md — build errors, performance issues, torch.compile compatibility, kernel injection pitfalls
- references/h100-optimization-guide.md — H100 (sm_90): AlignedVector benchmarks, warp reductions, occupancy, TMA, PDL
- references/a100-optimization-guide.md — A100 (sm_80): cp.async, TF32, 2:4 sparsity, H100→A100 migration checklist
- references/t4-optimization-guide.md — T4 (sm_75): FP16 only, 320 GB/s bandwidth, 64 KB shared mem, 16 GB memory management
Scripts (runnable benchmarks)