Workload-conditioned operator profiling on patched vLLM 0.24.0 + Qwen3-30B-A3B/H20. H1b PASS (irregular patterns carry +23-45pp R64 raggedness, 8-45% token-efficiency loss vs rectangular controls); mechanism decomposition kills the padding narrative and finds the arrival-uniformization artifact (-12.9%); cross-version churn surface shows TP2/MNS64 -29.4% across vLLM 0.20->0.24 while the argmax held. Raw Layer-1 JSONL streams (507 MB) stay on disk, git-ignored; footer sidecars and metrics are tracked. Co-Authored-By: Claude Fable 5 <noreply@anthropic.com>
538 lines
24 KiB
Python
538 lines
24 KiB
Python
#!/usr/bin/env python3
|
|
"""Frozen Phase-5 bridge/control ledger analysis."""
|
|
|
|
from __future__ import annotations
|
|
|
|
import argparse
|
|
import hashlib
|
|
import json
|
|
import math
|
|
from pathlib import Path
|
|
from typing import Any
|
|
|
|
import numpy as np
|
|
|
|
|
|
SEED = 20260716
|
|
RESAMPLES = 100_000
|
|
RATE = 0.4725
|
|
ARMS = ("base", "A1", "A2", "A3", "A4")
|
|
MECHANISMS = ("A1", "A2", "A3", "A4")
|
|
CAPTURE_SIZES = {
|
|
1, 2, 3, 4, 5, 6, 7, 8, 16, 24, 32, 40, 48, 56, 64, 72, 80, 88,
|
|
96, 104, 112, 120, 128, 136, 144, 152, 160, 168, 176, 184, 192,
|
|
200, 208, 216, 224, 232, 240, 248, 256, 272, 288, 304, 320, 336,
|
|
352, 368, 384, 400, 416, 432, 448, 464, 480, 496, 512,
|
|
}
|
|
|
|
|
|
def sha256_file(path: Path) -> str:
|
|
digest = hashlib.sha256()
|
|
with path.open("rb") as source:
|
|
for chunk in iter(lambda: source.read(1 << 20), b""):
|
|
digest.update(chunk)
|
|
return digest.hexdigest()
|
|
|
|
|
|
def numeric(values: list[float | int | None]) -> dict[str, Any]:
|
|
finite = [float(value) for value in values if value is not None and math.isfinite(float(value))]
|
|
return {
|
|
"n": len(values),
|
|
"finite_n": len(finite),
|
|
"missing_n": len(values) - len(finite),
|
|
"min": min(finite) if finite else None,
|
|
"max": max(finite) if finite else None,
|
|
"distinct_n": len(set(finite)),
|
|
}
|
|
|
|
|
|
def ci(draws: np.ndarray) -> list[float]:
|
|
low, high = np.quantile(draws, [0.025, 0.975])
|
|
return [float(low), float(high)]
|
|
|
|
|
|
def cv(values: list[float]) -> float:
|
|
array = np.asarray(values, dtype=np.float64)
|
|
mean = float(array.mean())
|
|
if mean == 0:
|
|
return 0.0 if np.all(array == 0) else math.inf
|
|
return float(array.std(ddof=0) / mean)
|
|
|
|
|
|
def parse_run(run_dir: Path) -> dict[str, Any]:
|
|
result = json.loads((run_dir / "client/result.json").read_text())
|
|
complete = json.loads((run_dir / "run-complete.json").read_text())
|
|
t0 = int(result["t0_mono_ns"])
|
|
clean_start = float(result["clean"]["start_s"])
|
|
clean_end = float(result["clean"]["end_s"])
|
|
stream = next((run_dir / "opprof").glob("*.jsonl"))
|
|
records = []
|
|
for line in stream.read_text().splitlines():
|
|
item = json.loads(line)
|
|
if "step_index" not in item:
|
|
continue
|
|
relative = (int(item["submit_mono_ns"]) - t0) / 1e9
|
|
if clean_start <= relative < clean_end:
|
|
item["relative_s"] = relative
|
|
records.append(item)
|
|
blocks = []
|
|
decode_means = []
|
|
waiting_means = []
|
|
for block_index in range(48):
|
|
start = clean_start + 5 * block_index
|
|
selected = [item for item in records if start <= item["relative_s"] < start + 5]
|
|
if not selected:
|
|
# Fixed-time blocks are the resampling unit. A rate-following trace
|
|
# can legitimately have an idle block, which contributes no tokens
|
|
# and no model-step time but must remain in the arrival-variance
|
|
# distribution.
|
|
blocks.append([0, 0.0])
|
|
decode_means.append(0.0)
|
|
waiting_means.append(0.0)
|
|
continue
|
|
tokens = sum(int(item["prefill_tokens"]) + int(item["decode_tokens"]) for item in selected)
|
|
duration = sum(
|
|
(int(item["complete_mono_ns"]) - int(item["submit_mono_ns"])) / 1e6
|
|
for item in selected
|
|
)
|
|
blocks.append([tokens, duration])
|
|
decode_means.append(float(np.mean([int(item["decode_batch_size"]) for item in selected])))
|
|
waiting_means.append(float(np.mean([int(item["queues"]["waiting"]) for item in selected])))
|
|
pure_decode = [
|
|
item for item in records
|
|
if int(item["prefill_tokens"]) == 0 and int(item["decode_batch_size"]) > 0
|
|
]
|
|
pure_bucket = sum(int(item["cudagraph"]["bucket_tokens"]) for item in pure_decode)
|
|
pure_padding = sum(int(item["cudagraph"]["padding_tokens"]) for item in pure_decode)
|
|
support = sorted({int(item["decode_batch_size"]) for item in pure_decode})
|
|
covered = sum(int(item["decode_batch_size"]) in CAPTURE_SIZES for item in pure_decode)
|
|
prefix_queries = 0
|
|
prefix_hits = 0
|
|
prefix_present = 0
|
|
for item in records:
|
|
local = item.get("prefix", {}).get("local")
|
|
if local is None:
|
|
continue
|
|
prefix_present += 1
|
|
prefix_queries += int(local.get("queries", 0))
|
|
prefix_hits += int(local.get("hits", 0))
|
|
block_array = np.asarray(blocks, dtype=np.float64)
|
|
return {
|
|
"run_id": complete["run_id"],
|
|
"run_dir": str(run_dir),
|
|
"stream_sha256": sha256_file(stream),
|
|
"blocks": block_array,
|
|
"token_efficiency_per_ms": float(block_array[:, 0].sum() / block_array[:, 1].sum()),
|
|
"clean_steps": len(records),
|
|
"clean_duration_s": clean_end - clean_start,
|
|
"clean_failed": int(result["clean"]["failed"]),
|
|
"offered_rps": float(result["clean"]["offered_rps"]),
|
|
"drain_seconds": float(result["drain_seconds"]),
|
|
"warmup_completions": int(complete["client"]["warmup_completions"]),
|
|
"warmup_gate_branch": complete["client"].get("warmup_gate_branch", "P3-pre-A-P5-1"),
|
|
"warmup_stability": complete["client"].get("warmup_stability"),
|
|
"cold_start_gate": complete["client"].get("cold_start_gate"),
|
|
"decode_B_block_cv": cv(decode_means),
|
|
"waiting_block_cv": cv(waiting_means),
|
|
"pure_decode_steps": len(pure_decode),
|
|
"pure_decode_support": support,
|
|
"pure_decode_support_coverage": covered / len(pure_decode),
|
|
"pure_decode_padding_tokens": pure_padding,
|
|
"pure_decode_bucket_tokens": pure_bucket,
|
|
"pure_decode_padding_fraction": pure_padding / pure_bucket,
|
|
"prefix_present_steps": prefix_present,
|
|
"prefix_queries": prefix_queries,
|
|
"prefix_hits": prefix_hits,
|
|
"prefix_hit_ratio": prefix_hits / prefix_queries if prefix_queries else 0.0,
|
|
"layer1_invariants": complete["layer1"]["invariants"],
|
|
"client_invariants": complete["client"]["invariants"],
|
|
"server_invariants": complete["server_invariants"],
|
|
"drain_quarantined": bool(complete["drain_quarantined"]),
|
|
}
|
|
|
|
|
|
def hierarchical_draws(runs: list[dict[str, Any]], rng: np.random.Generator) -> np.ndarray:
|
|
count = len(runs)
|
|
output = np.empty(RESAMPLES, dtype=np.float64)
|
|
for start in range(0, RESAMPLES, 5000):
|
|
size = min(5000, RESAMPLES - start)
|
|
token_sum = np.zeros(size, dtype=np.float64)
|
|
duration_sum = np.zeros(size, dtype=np.float64)
|
|
selected_runs = rng.integers(0, count, size=(size, count))
|
|
for position in range(count):
|
|
block_indices = rng.integers(0, 48, size=(size, 48))
|
|
for run_index, run in enumerate(runs):
|
|
mask = selected_runs[:, position] == run_index
|
|
if not np.any(mask):
|
|
continue
|
|
blocks = run["blocks"]
|
|
choices = block_indices[mask]
|
|
token_sum[mask] += blocks[choices, 0].sum(axis=1)
|
|
duration_sum[mask] += blocks[choices, 1].sum(axis=1)
|
|
output[start : start + size] = token_sum / duration_sum
|
|
return output
|
|
|
|
|
|
def point_efficiency(runs: list[dict[str, Any]]) -> float:
|
|
tokens = sum(float(run["blocks"][:, 0].sum()) for run in runs)
|
|
duration = sum(float(run["blocks"][:, 1].sum()) for run in runs)
|
|
return tokens / duration
|
|
|
|
|
|
def two_sided_p(draws: np.ndarray) -> float:
|
|
return float(min(1.0, 2 * min(np.mean(draws <= 0), np.mean(draws >= 0))))
|
|
|
|
|
|
def holm(pvalues: dict[str, float]) -> dict[str, float]:
|
|
ordered = sorted(pvalues, key=pvalues.get)
|
|
adjusted: dict[str, float] = {}
|
|
running = 0.0
|
|
total = len(ordered)
|
|
for rank, key in enumerate(ordered):
|
|
running = max(running, (total - rank) * pvalues[key])
|
|
adjusted[key] = min(1.0, running)
|
|
return adjusted
|
|
|
|
|
|
def discover_primary(root: Path) -> dict[str, list[dict[str, Any]]]:
|
|
result = {arm: [] for arm in ARMS}
|
|
for marker in sorted((root / "primary").glob("*/moderate/run-complete.json")):
|
|
if "background" in str(marker):
|
|
continue
|
|
parsed = parse_run(marker.parent)
|
|
arm = parsed["run_id"].split("-r", 1)[0]
|
|
if arm in result:
|
|
result[arm].append(parsed)
|
|
if any(len(result[arm]) != 3 for arm in ARMS):
|
|
raise RuntimeError(f"primary replication mismatch: { {key:len(value) for key,value in result.items()} }")
|
|
return result
|
|
|
|
|
|
def control_runs(root: Path, p3root: Path, pattern: str) -> tuple[list[dict[str, Any]], str]:
|
|
fresh = sorted((root / "primary").glob(f"control-{pattern}-r*-C00/moderate/run-complete.json"))
|
|
if fresh:
|
|
if len(fresh) != 3:
|
|
raise RuntimeError(f"partial fresh control set: {pattern}: {len(fresh)}")
|
|
return [parse_run(path.parent) for path in fresh], "P5-rerun"
|
|
return [parse_run(p3root / f"primary/{pattern}-C00/moderate")], "P3-reused"
|
|
|
|
|
|
def aggregate_aux(runs: list[dict[str, Any]], key: str) -> float:
|
|
return float(np.mean([float(run[key]) for run in runs]))
|
|
|
|
|
|
def analyze(root: Path, p3root: Path, private: Path) -> dict[str, Any]:
|
|
primary = discover_primary(root)
|
|
p3_base = [parse_run(p3root / "primary/P10-C00/moderate")]
|
|
controls = {}
|
|
control_source = {}
|
|
for pattern in ("P03", "P04"):
|
|
controls[pattern], control_source[pattern] = control_runs(root, p3root, pattern)
|
|
rng = np.random.default_rng(SEED)
|
|
draws = {arm: hierarchical_draws(primary[arm], rng) for arm in ARMS}
|
|
p3_base_draws = hierarchical_draws(p3_base, rng)
|
|
control_draws = {pattern: hierarchical_draws(controls[pattern], rng) for pattern in controls}
|
|
points = {arm: point_efficiency(primary[arm]) for arm in ARMS}
|
|
p3_base_point = point_efficiency(p3_base)
|
|
control_points = {pattern: point_efficiency(controls[pattern]) for pattern in controls}
|
|
|
|
bridge_draws = draws["A3"] - p3_base_draws
|
|
bridge_point = points["A3"] - p3_base_point
|
|
bridge_ci = ci(bridge_draws)
|
|
bridge = {
|
|
"point_delta": bridge_point,
|
|
"relative_abs_delta": abs(bridge_point) / p3_base_point,
|
|
"ci95": bridge_ci,
|
|
"within_3pct": abs(bridge_point) / p3_base_point <= 0.03,
|
|
"ci_contains_zero": bridge_ci[0] <= 0 <= bridge_ci[1],
|
|
}
|
|
bridge["reuse_passed"] = bridge["within_3pct"] and bridge["ci_contains_zero"]
|
|
|
|
deltas = {arm: draws[arm] - draws["base"] for arm in MECHANISMS}
|
|
raw_p = {arm: two_sided_p(deltas[arm]) for arm in MECHANISMS}
|
|
holm_p = holm(raw_p)
|
|
manifests = {
|
|
name: json.loads((private / f"P10-{name}.jsonl.summary.json").read_text())
|
|
for name in ("base", "A1", "A3")
|
|
}
|
|
base_prefix = aggregate_aux(primary["base"], "prefix_hit_ratio")
|
|
a1_prefix = aggregate_aux(primary["A1"], "prefix_hit_ratio")
|
|
base_padding = aggregate_aux(primary["base"], "pure_decode_padding_fraction")
|
|
a2_padding = aggregate_aux(primary["A2"], "pure_decode_padding_fraction")
|
|
padding_reduction = (base_padding - a2_padding) / base_padding if base_padding > 0 else 0.0
|
|
manipulations = {
|
|
"A1": {
|
|
"passed": (
|
|
manifests["base"]["r16"] - manifests["A1"]["r16"] >= 0.15
|
|
and (manifests["base"]["r16"] - manifests["A1"]["r16"]) / manifests["base"]["r16"] >= 0.20
|
|
and manifests["A1"]["max_added_delay_seconds"] <= 64
|
|
and abs(a1_prefix - base_prefix) <= 0.01
|
|
),
|
|
"base_R16": manifests["base"]["r16"],
|
|
"ablated_R16": manifests["A1"]["r16"],
|
|
"prefix_hit_ratio_delta": a1_prefix - base_prefix,
|
|
"max_added_delay_seconds": manifests["A1"]["max_added_delay_seconds"],
|
|
},
|
|
"A2": {
|
|
"passed": aggregate_aux(primary["A2"], "pure_decode_support_coverage") >= 0.99 and padding_reduction >= 0.90,
|
|
"support_coverage": aggregate_aux(primary["A2"], "pure_decode_support_coverage"),
|
|
"base_padding_fraction": base_padding,
|
|
"ablated_padding_fraction": a2_padding,
|
|
"padding_reduction": padding_reduction,
|
|
"observed_support": sorted({value for run in primary["A2"] for value in run["pure_decode_support"]}),
|
|
},
|
|
"A3": {
|
|
"passed": (
|
|
aggregate_aux(primary["A3"], "decode_B_block_cv") < aggregate_aux(primary["base"], "decode_B_block_cv")
|
|
and aggregate_aux(primary["A3"], "waiting_block_cv") < aggregate_aux(primary["base"], "waiting_block_cv")
|
|
),
|
|
"base_decode_B_cv": aggregate_aux(primary["base"], "decode_B_block_cv"),
|
|
"ablated_decode_B_cv": aggregate_aux(primary["A3"], "decode_B_block_cv"),
|
|
"base_waiting_cv": aggregate_aux(primary["base"], "waiting_block_cv"),
|
|
"ablated_waiting_cv": aggregate_aux(primary["A3"], "waiting_block_cv"),
|
|
},
|
|
"A4": {
|
|
"passed": sum(run["prefix_queries"] for run in primary["A4"]) == 0 and sum(run["prefix_hits"] for run in primary["A4"]) == 0,
|
|
"prefix_queries": sum(run["prefix_queries"] for run in primary["A4"]),
|
|
"prefix_hits": sum(run["prefix_hits"] for run in primary["A4"]),
|
|
},
|
|
}
|
|
|
|
ledgers = {}
|
|
for control in ("P03", "P04"):
|
|
denominator = control_draws[control] - draws["base"]
|
|
point_denominator = control_points[control] - points["base"]
|
|
denominator_ci = ci(denominator)
|
|
stable_denominator = bool(
|
|
point_denominator > 0
|
|
and denominator_ci[0] > 0
|
|
and np.mean(denominator <= 0) <= 0.05
|
|
)
|
|
rows = {}
|
|
share_draws = {}
|
|
for arm in MECHANISMS:
|
|
share_draws[arm] = deltas[arm] / denominator
|
|
point = (points[arm] - points["base"]) / point_denominator
|
|
interval = ci(share_draws[arm])
|
|
reportable = stable_denominator and manipulations[arm]["passed"]
|
|
rows[arm] = {
|
|
"delta_E": points[arm] - points["base"],
|
|
"delta_E_ci95": ci(deltas[arm]),
|
|
"share": point if reportable else None,
|
|
"share_ci95": interval if reportable else None,
|
|
"diagnostic_share": point,
|
|
"diagnostic_share_ci95": interval,
|
|
"share_status": (
|
|
"REPORTABLE"
|
|
if reportable
|
|
else (
|
|
"N/A—unstable control denominator"
|
|
if not stable_denominator
|
|
else "N/A—manipulation failed"
|
|
)
|
|
),
|
|
"p_two_sided": raw_p[arm],
|
|
"p_holm": holm_p[arm],
|
|
"manipulation_passed": manipulations[arm]["passed"],
|
|
}
|
|
residual_draws = 1.0 - sum(share_draws.values())
|
|
residual_point = 1.0 - sum(row["diagnostic_share"] for row in rows.values())
|
|
ledgers[control] = {
|
|
"status": "EVALUABLE" if stable_denominator else "INCONCLUSIVE—unstable denominator",
|
|
"control_source": control_source[control],
|
|
"control_E": control_points[control],
|
|
"base_E": points["base"],
|
|
"gap_E": point_denominator,
|
|
"gap_ci95": denominator_ci,
|
|
"denominator_nonpositive_fraction": float(np.mean(denominator <= 0)),
|
|
"stable_denominator": stable_denominator,
|
|
"mechanisms": rows,
|
|
"diagnostic_share_sum": sum(row["diagnostic_share"] for row in rows.values()),
|
|
"residual_interaction": residual_point,
|
|
"residual_interaction_ci95": ci(residual_draws),
|
|
"residual_status": (
|
|
"REPORTABLE"
|
|
if stable_denominator and all(item["passed"] for item in manipulations.values())
|
|
else "DIAGNOSTIC_ONLY—incomplete official share ledger"
|
|
),
|
|
}
|
|
|
|
dominance = {}
|
|
for arm in MECHANISMS:
|
|
per_control = {}
|
|
for control in ("P03", "P04"):
|
|
row = ledgers[control]["mechanisms"][arm]
|
|
if not ledgers[control]["stable_denominator"] or not row["manipulation_passed"]:
|
|
per_control[control] = "NOT_EVALUABLE"
|
|
continue
|
|
direction_ok = row["delta_E"] > 0 if arm != "A4" else True
|
|
per_control[control] = (
|
|
row["share"] >= 0.30
|
|
and row["share_ci95"][0] > 0.15
|
|
and row["p_holm"] < 0.05
|
|
and direction_ok
|
|
and row["manipulation_passed"]
|
|
)
|
|
dominance[arm] = {
|
|
"per_control": per_control,
|
|
"verdict": (
|
|
"NOT EVALUABLE"
|
|
if any(value == "NOT_EVALUABLE" for value in per_control.values())
|
|
else (
|
|
"DOMINANT"
|
|
if all(per_control.values())
|
|
else ("CONTROL-SENSITIVE" if any(per_control.values()) else "NOT DOMINANT")
|
|
)
|
|
),
|
|
}
|
|
|
|
all_runs = [run for arm in ARMS for run in primary[arm]]
|
|
share_widths = [
|
|
ledgers[control]["mechanisms"][arm]["diagnostic_share_ci95"][1]
|
|
- ledgers[control]["mechanisms"][arm]["diagnostic_share_ci95"][0]
|
|
for control in ("P03", "P04") for arm in MECHANISMS
|
|
]
|
|
state = json.loads((root / "controller-state.json").read_text())
|
|
amendment_evidence_path = root / "a-p5-1-retained-audit.jsonl"
|
|
amendment_evidence = []
|
|
if amendment_evidence_path.exists():
|
|
amendment_evidence = [
|
|
json.loads(line) for line in amendment_evidence_path.read_text().splitlines()
|
|
]
|
|
invariants = {
|
|
"primary_runs_15": len(all_runs) == 15,
|
|
"three_replicates_per_arm": all(len(primary[arm]) == 3 for arm in ARMS),
|
|
"clean_duration_240": all(math.isclose(run["clean_duration_s"], 240.0) for run in all_runs),
|
|
"clean_failures_zero": all(run["clean_failed"] == 0 for run in all_runs),
|
|
"offered_rate_within_5pct": all(abs(run["offered_rps"] / RATE - 1) <= 0.05 for run in all_runs),
|
|
"layer1_accounting": all(all(run["layer1_invariants"].values()) for run in all_runs),
|
|
"client_invariants": all(all(value for key, value in run["client_invariants"].items() if key != "drain_re_adjudicated") for run in all_runs),
|
|
"server_invariants": all(all(run["server_invariants"].values()) for run in all_runs),
|
|
"a_p5_1_cold_start_gates": all(
|
|
run["cold_start_gate"] is not None
|
|
and run["cold_start_gate"]["passed"]
|
|
for run in all_runs
|
|
),
|
|
"drain_quarantine_under_20pct": sum(run["drain_quarantined"] for run in all_runs) / 15 <= 0.20,
|
|
"gpu_budget_below_6": float(state["gpu_hours_total"]) < 6.0,
|
|
"manifests_same_ids": len({manifests[name]["request_id_set_sha256"] for name in manifests}) == 1,
|
|
"manifests_same_token_sums": len({manifests[name]["input_tokens"]["sum"] for name in manifests}) == 1 and len({manifests[name]["output_tokens"]["sum"] for name in manifests}) == 1,
|
|
"control_denominators_stable": all(ledgers[control]["stable_denominator"] for control in ledgers),
|
|
"bridge_decision_resolved": bridge["reuse_passed"] or all(source == "P5-rerun" for source in control_source.values()),
|
|
"ratios_finite": all(math.isfinite(ledgers[c]["mechanisms"][a]["diagnostic_share"]) for c in ledgers for a in MECHANISMS),
|
|
"per_arm_results_not_all_identical": len({round(points[arm], 12) for arm in ARMS}) > 1,
|
|
}
|
|
red_flags = [key for key, value in invariants.items() if not value]
|
|
publishable = (
|
|
not red_flags
|
|
and all(item["passed"] for item in manipulations.values())
|
|
and sum(width > 0.50 for width in share_widths) < 2
|
|
)
|
|
return {
|
|
"schema": 1,
|
|
"status": "PUBLISHABLE" if publishable else "INCONCLUSIVE_OR_PARTIAL",
|
|
"limitation": "Recorded-arrival P5 bridge ledger anchored to P3 controls; not a literal decomposition of P3's already-uniform P10 gap.",
|
|
"analysis_seed": SEED,
|
|
"bootstrap_resamples": RESAMPLES,
|
|
"efficiency": {
|
|
arm: {
|
|
"point": points[arm],
|
|
"ci95": ci(draws[arm]),
|
|
"runs": [
|
|
{key: value for key, value in run.items() if key not in {"blocks", "warmup_stability"}}
|
|
for run in primary[arm]
|
|
],
|
|
}
|
|
for arm in ARMS
|
|
},
|
|
"p3_base_E": p3_base_point,
|
|
"bridge": bridge,
|
|
"control_sources": control_source,
|
|
"manipulations": manipulations,
|
|
"holm": {"family": list(MECHANISMS), "raw_p": raw_p, "adjusted_p": holm_p},
|
|
"ledgers": ledgers,
|
|
"dominance": dominance,
|
|
"config_tier_A2": {
|
|
"delta_E": points["A2"] - points["base"],
|
|
"relative_E_delta": points["A2"] / points["base"] - 1,
|
|
"delta_E_ci95": ci(deltas["A2"]),
|
|
"base_padding_fraction": base_padding,
|
|
"A2_padding_fraction": a2_padding,
|
|
"padding_reduction": padding_reduction,
|
|
},
|
|
"amendment_A_P5_1": {
|
|
"reason": "Rate-following throughput drift tracks arrival shape and is not a cold-start stationarity test.",
|
|
"retained_failed_run_evidence": amendment_evidence,
|
|
"recorded_drift_range": (
|
|
[
|
|
min(
|
|
item["superseded_drift_evidence"]["normalized_drift"]
|
|
for item in amendment_evidence
|
|
if item["run"] != "A3-r1-C00"
|
|
),
|
|
max(
|
|
item["superseded_drift_evidence"]["normalized_drift"]
|
|
for item in amendment_evidence
|
|
if item["run"] != "A3-r1-C00"
|
|
),
|
|
]
|
|
if amendment_evidence else None
|
|
),
|
|
"uniform_A3_drift": (
|
|
next(
|
|
item["superseded_drift_evidence"]["normalized_drift"]
|
|
for item in amendment_evidence
|
|
if item["run"] == "A3-r1-C00"
|
|
)
|
|
if amendment_evidence else None
|
|
),
|
|
},
|
|
"gpu": {
|
|
"new_h20_hours": float(state["gpu_hours_total"]),
|
|
"hard_cap": 6.0,
|
|
"controller_status": state["status"],
|
|
"completed_measured_runs_including_background": state["completed_measured_runs"],
|
|
"completed_burnins": state["completed_burnins"],
|
|
},
|
|
"sanity": {
|
|
"red_flags": red_flags,
|
|
"invariants": invariants,
|
|
"numeric": {
|
|
"primary_E": numeric([run["token_efficiency_per_ms"] for run in all_runs]),
|
|
"clean_steps": numeric([run["clean_steps"] for run in all_runs]),
|
|
"offered_rps": numeric([run["offered_rps"] for run in all_runs]),
|
|
"drain_seconds": numeric([run["drain_seconds"] for run in all_runs]),
|
|
"diagnostic_share": numeric([ledgers[c]["mechanisms"][a]["diagnostic_share"] for c in ledgers for a in MECHANISMS]),
|
|
"residual_interaction": numeric([ledgers[c]["residual_interaction"] for c in ledgers]),
|
|
"share_ci_width": numeric(share_widths),
|
|
},
|
|
"declared": {
|
|
"manipulation_failures": [arm for arm, item in manipulations.items() if not item["passed"]],
|
|
"control_sources": control_source,
|
|
"bridge_reuse_passed": bridge["reuse_passed"],
|
|
},
|
|
},
|
|
}
|
|
|
|
|
|
def main() -> None:
|
|
parser = argparse.ArgumentParser()
|
|
parser.add_argument("--root", type=Path, required=True)
|
|
parser.add_argument("--p3-root", type=Path, required=True)
|
|
parser.add_argument("--private", type=Path, required=True)
|
|
parser.add_argument("--out", type=Path, required=True)
|
|
args = parser.parse_args()
|
|
result = analyze(args.root, args.p3_root, args.private)
|
|
args.out.parent.mkdir(parents=True, exist_ok=True)
|
|
args.out.write_text(json.dumps(result, sort_keys=True, indent=2) + "\n")
|
|
print(json.dumps({
|
|
"status": result["status"],
|
|
"bridge": result["bridge"],
|
|
"red_flags": result["sanity"]["red_flags"],
|
|
"gpu": result["gpu"],
|
|
}, sort_keys=True))
|
|
|
|
|
|
if __name__ == "__main__":
|
|
main()
|