mukesh
222815d374
ADR-0059 single_user_* panels run the ring across PEs in one cube
(rank == tl.program_id(axis=0)). multi_user_* panels run the ring
across cubes — rank should be cube_id (axis=1), and 7 of every 8 PEs
in each cube must stay silent because the cube-level SFR install only
gives the cube-coordinate PE 0 an E/W neighbor.
Add ``rank_axis: int = 0`` kwarg to both ``attention_mesh_mlo_kernel``
and ``attention_mesh_kv_kernel``:
- 0 (default): rank == tl.program_id(axis=0). Existing single_user
behavior, all spec tests unchanged.
- 1: gate ``if tl.program_id(axis=0) != 0: return`` at kernel start,
then ``rank = tl.program_id(axis=1)``. multi_user_* panels pass
this to the kernel via ctx.launch positional arg.
Also brings in _attention_mesh_kv.py and _attention_mesh_mlo.py as
the committed home of the ADR-0059 kernels (previously living
uncommitted in the working tree from sub-cycle 4b).
Tests: 7-test rank_axis spec file (default-path + rank_axis=1 gating
and cube-id semantics, both kernels); 4-panel diag harness now green
end-to-end (single_user_prefill/decode + multi_user_prefill/decode);
763-test wider sweep clean.
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
199 lines
7.9 KiB
Python
199 lines
7.9 KiB
Python
"""End-to-end engine drives for the four GQA Llama-70B panels (sub-cycle 4c step 2).
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Mirrors the existing single_user_decode diag harness across all four panels
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of the milestone-gqa-llama70b sweep (ADR-0057):
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single_user_prefill ring-K/V kernel, intracube PE ring (8 PEs / 1 cube)
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single_user_decode allreduce-mlo kernel, intracube PE ring
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multi_user_prefill ring-K/V kernel, intercube multisip (4 cubes)
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multi_user_decode allreduce-mlo kernel, intercube multisip
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Each test runs the panel through ``run_bench`` with ``enable_data=True``
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and asserts ``result.completion.ok``. Failures dump the engine's op_log
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tail and the exception, mirroring the decode-diag harness format.
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Validation-scale config matches ADR-0057 D4:
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S_q_prefill=16, S_kv_per_rank=16, h_q=h_kv=1, d_head=64
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n_ranks_single_user=8, n_ranks_multi_user=4
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"""
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from __future__ import annotations
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import traceback
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from pathlib import Path
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import pytest
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from kernbench.benches._attention_mesh_kv import attention_mesh_kv_kernel
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from kernbench.benches._attention_mesh_mlo import attention_mesh_mlo_kernel
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from kernbench.ccl.install import load_ccl_config, resolve_algorithm_config
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from kernbench.ccl.sfr_config import (
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configure_sfr_intercube_multisip,
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configure_sfr_intracube_pe_ring,
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)
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from kernbench.policy.placement.dp import DPPolicy
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from kernbench.runtime_api.bench_runner import run_bench
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from kernbench.runtime_api.types import resolve_device
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from kernbench.sim_engine.engine import GraphEngine
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from kernbench.topology.builder import resolve_topology
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TOPOLOGY_PATH = Path(__file__).resolve().parents[2] / "topology.yaml"
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S_Q_PREFILL = 16
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S_Q_DECODE = 1
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S_KV_PER_RANK = 16
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H_Q = 1
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H_KV = 1
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D_HEAD = 64
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N_RANKS_SINGLE_USER = 8
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N_RANKS_MULTI_USER = 4
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DTYPE = "f16"
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# ── Helpers ──────────────────────────────────────────────────────
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def _engine_factory(t, d):
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return GraphEngine(getattr(t, "topology_obj", t), enable_data=True)
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def _run_panel(bench_fn):
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"""Drive a panel through run_bench; return (exc, result, engine)."""
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topo = resolve_topology(str(TOPOLOGY_PATH))
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captured: dict = {"engine": None}
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def factory(t, d):
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eng = _engine_factory(t, d)
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captured["engine"] = eng
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return eng
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exc = None
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result = None
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try:
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result = run_bench(
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topology=topo, bench_fn=bench_fn,
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device=resolve_device(None), engine_factory=factory,
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)
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except BaseException as e: # noqa: BLE001
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exc = e
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return exc, result, captured["engine"]
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def _assert_ok(name: str, exc, result, engine) -> None:
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if exc is not None:
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oplog_len = len(getattr(engine, "op_log", []) or []) if engine else 0
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print(f"\n========== {name} FAIL ==========")
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print(f"op_log records before crash: {oplog_len}")
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print(f"{type(exc).__name__}: {exc}")
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traceback.print_exception(type(exc), exc, exc.__traceback__)
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raise AssertionError(
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f"{name} failed at runtime: {exc}"
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) from exc
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assert result is not None, f"{name}: no result"
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assert result.completion.ok, f"{name}: completion not ok — {result.completion}"
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# ── Panel bench fns ──────────────────────────────────────────────
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def _bench_fn_single_user_prefill(ctx):
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configure_sfr_intracube_pe_ring(
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ctx.engine, ctx.spec,
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resolve_algorithm_config(load_ccl_config(), name="lrab_hierarchical_allreduce"),
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)
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n = N_RANKS_SINGLE_USER
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dp_full = DPPolicy(cube="replicate", pe="replicate", num_cubes=1, num_pes=n)
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dp_kv = DPPolicy(cube="replicate", pe="row_wise", num_cubes=1, num_pes=n)
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q = ctx.zeros((S_Q_PREFILL, H_Q * D_HEAD), dtype=DTYPE, dp=dp_full, name="q")
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k = ctx.zeros((S_KV_PER_RANK * n, H_KV * D_HEAD), dtype=DTYPE, dp=dp_kv, name="k")
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v = ctx.zeros((S_KV_PER_RANK * n, H_KV * D_HEAD), dtype=DTYPE, dp=dp_kv, name="v")
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o = ctx.empty((S_Q_PREFILL, H_Q * D_HEAD), dtype=DTYPE, dp=dp_full, name="o")
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ctx.launch(
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"single_user_prefill_mesh", attention_mesh_kv_kernel,
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q, k, v, o,
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S_Q_PREFILL, S_KV_PER_RANK, H_Q, H_KV, D_HEAD, n,
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)
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def _bench_fn_single_user_decode(ctx):
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configure_sfr_intracube_pe_ring(
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ctx.engine, ctx.spec,
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resolve_algorithm_config(load_ccl_config(), name="lrab_hierarchical_allreduce"),
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)
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n = N_RANKS_SINGLE_USER
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dp_full = DPPolicy(cube="replicate", pe="replicate", num_cubes=1, num_pes=n)
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dp_kv = DPPolicy(cube="replicate", pe="row_wise", num_cubes=1, num_pes=n)
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q = ctx.zeros((S_Q_DECODE, H_Q * D_HEAD), dtype=DTYPE, dp=dp_full, name="q")
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k = ctx.zeros((S_KV_PER_RANK * n, H_KV * D_HEAD), dtype=DTYPE, dp=dp_kv, name="k")
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v = ctx.zeros((S_KV_PER_RANK * n, H_KV * D_HEAD), dtype=DTYPE, dp=dp_kv, name="v")
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o = ctx.empty((S_Q_DECODE, H_Q * D_HEAD), dtype=DTYPE, dp=dp_full, name="o")
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ctx.launch(
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"single_user_decode_mesh", attention_mesh_mlo_kernel,
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q, k, v, o,
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S_Q_DECODE, S_KV_PER_RANK, H_Q, H_KV, D_HEAD, n,
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)
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def _bench_fn_multi_user_prefill(ctx):
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configure_sfr_intercube_multisip(
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ctx.engine, ctx.spec,
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resolve_algorithm_config(load_ccl_config(), name="lrab_hierarchical_allreduce"),
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)
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n = N_RANKS_MULTI_USER
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dp_full = DPPolicy(cube="replicate", pe="replicate", num_cubes=n, num_pes=8)
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dp_kv = DPPolicy(cube="row_wise", pe="replicate", num_cubes=n, num_pes=8)
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q = ctx.zeros((S_Q_PREFILL, H_Q * D_HEAD), dtype=DTYPE, dp=dp_full, name="q")
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k = ctx.zeros((S_KV_PER_RANK * n, H_KV * D_HEAD), dtype=DTYPE, dp=dp_kv, name="k")
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v = ctx.zeros((S_KV_PER_RANK * n, H_KV * D_HEAD), dtype=DTYPE, dp=dp_kv, name="v")
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o = ctx.empty((S_Q_PREFILL, H_Q * D_HEAD), dtype=DTYPE, dp=dp_full, name="o")
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ctx.launch(
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"multi_user_prefill_mesh", attention_mesh_kv_kernel,
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q, k, v, o,
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S_Q_PREFILL, S_KV_PER_RANK, H_Q, H_KV, D_HEAD, n,
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1, # rank_axis=1 → ring at cube level (ADR-0059 multi_user)
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_auto_dim_remap=False,
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)
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def _bench_fn_multi_user_decode(ctx):
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configure_sfr_intercube_multisip(
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ctx.engine, ctx.spec,
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resolve_algorithm_config(load_ccl_config(), name="lrab_hierarchical_allreduce"),
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)
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n = N_RANKS_MULTI_USER
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dp_full = DPPolicy(cube="replicate", pe="replicate", num_cubes=n, num_pes=8)
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dp_kv = DPPolicy(cube="row_wise", pe="replicate", num_cubes=n, num_pes=8)
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q = ctx.zeros((S_Q_DECODE, H_Q * D_HEAD), dtype=DTYPE, dp=dp_full, name="q")
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k = ctx.zeros((S_KV_PER_RANK * n, H_KV * D_HEAD), dtype=DTYPE, dp=dp_kv, name="k")
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v = ctx.zeros((S_KV_PER_RANK * n, H_KV * D_HEAD), dtype=DTYPE, dp=dp_kv, name="v")
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o = ctx.empty((S_Q_DECODE, H_Q * D_HEAD), dtype=DTYPE, dp=dp_full, name="o")
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ctx.launch(
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"multi_user_decode_mesh", attention_mesh_mlo_kernel,
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q, k, v, o,
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S_Q_DECODE, S_KV_PER_RANK, H_Q, H_KV, D_HEAD, n,
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1, # rank_axis=1 → ring at cube level (ADR-0059 multi_user)
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_auto_dim_remap=False,
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)
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# ── Tests ────────────────────────────────────────────────────────
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def test_single_user_prefill_through_engine():
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exc, result, engine = _run_panel(_bench_fn_single_user_prefill)
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_assert_ok("single_user_prefill", exc, result, engine)
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def test_single_user_decode_through_engine():
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exc, result, engine = _run_panel(_bench_fn_single_user_decode)
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_assert_ok("single_user_decode", exc, result, engine)
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def test_multi_user_prefill_through_engine():
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exc, result, engine = _run_panel(_bench_fn_multi_user_prefill)
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_assert_ok("multi_user_prefill", exc, result, engine)
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def test_multi_user_decode_through_engine():
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exc, result, engine = _run_panel(_bench_fn_multi_user_decode)
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_assert_ok("multi_user_decode", exc, result, engine)
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