Convert the multidevice allreduce correctness + latency/buffer-kind sweeps
to run through the real PyTorch-distributed path
(init_process_group(backend="ahbm") -> mp.spawn -> dist.all_reduce) instead
of direct ctx.launch, and reorganize the CCL/allreduce tests into a
tests/sccl/ package split one test per file.
Production change (required for the distributed path on non-square SIP grids):
- AhbmCCLBackend now reads explicit system.sips.w/h from the spec, with a
square-only sqrt fallback that raises on ambiguity, instead of silently
guessing round(sqrt(count)). This fixes the 2x3 / 3x2 torus + mesh cases,
which previously resolved to a wrong 2x2 grid. Mirrors the test helper's
_sip_topo_dims precedence (explicit w/h > square fallback > raise).
Test reorganization (tests/sccl/):
- _allreduce_helpers.py: shared plumbing (distributed driver, config writers,
direct-launch run_allreduce parity reference, sweep/buffer-kind constants,
plot aggregators, topology-diagram + FSIM-comparison emitters).
- test_allreduce_ring_torus_mesh.py: correctness across ring/torus/mesh.
- test_distributed_default_topology.py: full distributed path on topology.yaml.
- test_plot_latency_sweep.py / test_plot_buffer_kind_sweep.py: sweep rows.
- test_plot_topology_diagram.py / test_plot_comparison_fsim.py: plot emitters.
- test_intercube_root_center.py: moved in (ADR-0032 center-root latency guard).
Also:
- Move the FSIM comparison plot generator out of scripts/ into the sccl suite.
- Delete superseded test files (test_allreduce_multidevice,
test_distributed_lrab_hierarchical_allreduce, test_allreduce_buffer_kind_sweep)
and repoint conftest aggregators + the ipcq buffer-kind importers.
- Regenerate the allreduce_latency_plots derived artifacts from the full sweep.
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
Rename the intercube all-reduce identity to lrab_hierarchical_allreduce
(module, config key, distributed test) so the name reflects both levels
it implements: LRAB intra-SIP (local reduce to center root + broadcast)
and the hierarchical inter-SIP topology exchange (ring/torus/mesh).
ADR-0032 slug kept as the stable decision id; pure rename, no logic change.
Also in this batch:
- ADR-0032 (EN+KO): document the shipped center-root bidirectional reduce
(doc was stale corner-root); annotate ccl.yaml root_cube as a placeholder.
- Rename allreduce + pe2pe latency plots to descriptive, title-matching
filenames and retitle the in-plot headings; drop overview/overview_log.
- Point the PPTX image refs at the new plot names.
Doc + derived-artifact + rename only; no simulation behavior changed.
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
Cube SRAM and HBM live on the cube NoC behind router-attached links
(sram_to_router_bw_gbs=128, hbm_to_router_bw_gbs=256). Previously the
slot-IO model treated them as if they were per-PE local, so the
buffer_kind sweep showed TCM ≈ SRAM at 64 KB / PE.
pe_ipcq._handle_recv and pe_dma._handle_ipcq_inbound now charge a
PE→bank compute_drain_ns on top of the intrinsic slot-IO for SRAM/HBM.
TCM stays free of this hop. Adds an internal IpcqRecvCmd.consume field
that gates the recv-side hop+slot-IO charges (used by a follow-up
diagnostic API; default True keeps current behavior).
Post-fix at 64 KB / PE: TCM 12.0 µs < HBM 21.4 µs < SRAM 24.3 µs.
SRAM is slowest because its 128 GB/s bank link is the narrowest in
the system — narrower than HBM's 256 GB/s. The existing ordering test
is rewritten from tcm<sram<hbm to tcm<hbm<sram and a new
test_ipcq_buffer_kind_locations adds 3 invariants on the gap.
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
mukesh
ywkang