kzlin 722032a13b docs(kvc): add TPOT probability density figure (KVC v2 vs 4DP)
Mirrors the TTFT PDF figure style. Inserted into V2_DEEP_ANALYSIS as a
new §3.5 immediately following §3.4 (TTFT PDF).

The figure preempts a likely reviewer challenge: "Is KVC's TTFT win
bought by sacrificing decode throughput (TPOT)?". The empirical answer
is no -- two KDE curves overlap visually almost perfectly.

Measured TPOT deltas (KVC v2 vs DP 4w, n>=4382 each):
  mean: +0.019 ms  (+0.34%)
  p50:  +0.035 ms  (+0.63%)
  p90:  -0.050 ms  (-0.75%, slight KVC advantage)
  p99:  +0.026 ms  (+0.34%)

The only visible difference is in max-of-distribution:
  KVC max = 11.32 ms  vs  DP max = 9.53 ms
(plausibly cold-start jitter on the first decode step after a reseed;
affects <= 0.1% of requests)

Two-panel figure mirroring the TTFT PDF style:
  left  panel: linear x in [3.5, 9.0] ms -- body
  right panel: log x in [1, 20] ms -- full range with tail

Each panel annotates the percentile gaps with bbox callouts so the
reader's takeaway is "they overlap" not "is there a difference".

Paper purpose: cited from V2_DEEP_ANALYSIS §3.5 as the supporting
evidence that the path-level latency win in §3.2 is concentrated in
the TTFT segment, not in decode. This is what makes the win a real
end-to-end win, not a measurement artifact.

Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
2026-05-13 10:24:44 +08:00
2026-04-24 12:17:40 +00:00

Agentic PD Hybrid

这个项目是在 SGLang xPyD 上做一个最小实验框架,用来判断:

面向 agentic coding workload 的 session-aware / KV-cache-aware P/D routing能不能降低端到端延迟。

更完整但仍然简洁的说明见 docs/PROJECT_OVERVIEW.md

当前做了什么

  • 启动单机 SGLang P/D 栈。
  • 回放 Ali coding agent trace并记录 request-level metrics。
  • 支持 defaultstickykv-aware 路由策略。
  • 支持 pd-disaggregationkvcache-centricpd-colo 对比。
  • 支持小 append、多轮 session 的 micro-benchmark trace。
  • 维护了基于 SGLang v0.5.10 的本地 patch放在 third_party/sglang

环境

统一使用 uv

uv sync

默认模型路径:

~/models/Qwen/Qwen3-Coder-30B-A3B-Instruct

当前主要测试环境是单机 8 GPU约束是 prefill + decode <= 8

常用命令

生成小 append trace

uv run agentic-pd-hybrid make-small-append-trace \
  --output outputs/smoke-hotcap-30k-1k-256.jsonl \
  --session-count 4 \
  --turns-per-session 3 \
  --initial-input-length 30000 \
  --append-input-length 1000 \
  --output-length 256

跑 live benchmark

uv run agentic-pd-hybrid benchmark-live \
  --trace outputs/micro-serveable-varturn-30k-1k-256-20260424T0756Z.jsonl \
  --output-root outputs/live-serveable-varturn-30k-1k-256-hotcap \
  --mechanism kvcache-centric \
  --policy kv-aware \
  --kvcache-admission-mode worker \
  --prefill-workers 1 \
  --decode-workers 1 \
  --prefill-gpu-ids 0 \
  --decode-gpu-ids 1 \
  --transfer-backend mooncake \
  --target-duration-s 2000 \
  --session-sample-rate 1.0 \
  --min-turns 2 \
  --time-scale 1 \
  --concurrency-limit 1000

只回放并写 metrics

uv run agentic-pd-hybrid replay \
  --trace path/to/trace.jsonl \
  --policy kv-aware \
  --mechanism pd-disaggregation \
  --router-url http://127.0.0.1:8000 \
  --output outputs/replay.jsonl

输出

每次 replay/benchmark 会写:

  • request metricsrequest-metrics.jsonl
  • 汇总结果:request-metrics.jsonl.summary.json

重点看:

  • E2E latency
  • TTFT / TPOT
  • execution mode
  • cached tokens
  • KV transfer blocks
  • error

维护约定

  • 项目代码改动:feat: / fix: / docs:
  • SGLang 改动:feat(sglang): ... / fix(sglang): ...
  • third_party/sglang 的基线是 clean SGLang v0.5.10 snapshot。
  • 不提交 outputs/、日志、__pycache__、虚拟环境。
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