Move the GEMM + allreduce sweep/render logic out of scripts/ and tests/
into two self-contained eval benches so a user can regenerate every
result + figure with one command:
kernbench run --bench milestone-1h-gemm (MILESTONE_FAST=1 reuses JSON)
kernbench run --bench milestone-1h-ccl
- benches/milestone_1h_{gemm,ccl}.py: single home for each domain; the
run(torch) entry drives the sweeps and writes figures into
benches/1H_milestone_output/{gemm,ccl}/ (gitignored), then submits a
sentinel tensor to satisfy the run_bench contract.
- tests/gemm + tests/sccl helpers and scripts/gemm_sweep.py become thin
re-export/wrapper shims over the benches (single source preserved); the
pytest-only param builders + _run_distributed wrapper stay in the shim.
- eval-bench pattern: a bench may drive many configs + build its own
per-config engines (extends ADR-0045 D5; reverses ADR-0044 D1/D2).
ADR-0054 (EN+KO) records the design; ADR-0043/0044/0045 + CLAUDE.md CLI
Semantics amended; ADR INDEX regenerated. Verified: milestone benches run
clean (ok=True, all artifacts), full suite 67 passed, lang-pairs OK.
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
Move benches/ -> src/kernbench/benches/ and src/kernbench/cli/probe.py ->
src/kernbench/probes/probe.py. Each bench self-registers via
@bench(name=..., description=...); kernbench list enumerates benches
with auto-assigned indices, --bench accepts kebab-case name or numeric
index. Audit at package-import time fails if any non-underscore module
forgets the decorator. ADR-0010 (EN + KO) updated to reflect the new
resolver path, list subcommand, and probes package separation.
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
Two related issues caused measured pipeline efficiency to look
worse than the simulator's actual behavior:
1. DMA timing recorded too early. The op-log start timestamp
for a DMA op fired when the request entered the queue, and
the DMA channel was released as soon as the request was
issued. Back-to-back DMAs therefore appeared to grab the
channel simultaneously, with per-op duration drifting
upward as queue depth grew - an artifact, not real cost.
Fix: defer the start timestamp until after the channel is
acquired, and hold the channel through the full HBM
round-trip until the response returns. Per-op duration is
now constant and equal to the actual transfer interval;
serialization is visible as queue wait, not as inflated
service time.
2. Sweep timing window folded in pre-composite work. The PE
timing window spanned every PE engine record, which
included the upfront pinned-operand DMA issued before the
composite GEMM begins. For large-K shapes that one-shot
load can be nearly half of the window, conflating
operand-staging cost with composite-pipeline behavior.
Fix: add a second window scoped to the composite pipeline
by filtering op_log records to those tagged with a
tile-pipeline stage; the legacy operand-load path is
untagged and naturally excluded. For 32x3072x32 load_ref
the window drops from 1765ns to 992ns and measured eff
lines up with the steady-state DMA-bound stage limit
instead of being penalized for the one-time load.
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
mukesh
ywkang