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Timmy_Foundation:v7.0.0 Timmy_Foundation:GoldenRockachopa
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compare: Timmy_Foundation:burn/94-1776303794
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Timmy_Foundation:main Timmy_Foundation:step35/100-bench-bonsai-1-bit-models-vs Timmy_Foundation:step35/96-test-compressed-model-passes Timmy_Foundation:step35/71-ci-add-addresssanitizer-and Timmy_Foundation:step35/102-deploy-crisis-detection-on-e Timmy_Foundation:step35/101-test-tool-calling-on-1-bit-m Timmy_Foundation:step35/104-feat-webassembly-inference-r Timmy_Foundation:step35/65-feat-add-benchmark-to-spec-a Timmy_Foundation:step35/63-p3-perplexity-measurement-is Timmy_Foundation:step35/133-feat-integrate-qjl-metal-ker Timmy_Foundation:step35/67-docs-update-readme-forge-url Timmy_Foundation:step35/103-bench-falcon-h1-tiny-90m Timmy_Foundation:step35/94-benchmark-turboquant-presets Timmy_Foundation:step35/98-deploy-compressed-gemma-4-ac Timmy_Foundation:step35/95-benchmark-turboquant-presets Timmy_Foundation:step35/54-tests-add-unit-tests-for-pol Timmy_Foundation:step35/75-feat-create-llama-cpp-integr Timmy_Foundation:step35/55-security-add-safety-wrapper Timmy_Foundation:step35/116-p2-test-edge-crisis-detector Timmy_Foundation:step35/125-test-shader-bounds-checking Timmy_Foundation:step35/110-deploy-configure-ezra-vps-fo Timmy_Foundation:step35/29-tq-5-benchmark-latency-memor Timmy_Foundation:step35/57-security-metal-shader-lacks Timmy_Foundation:step35/154-blocker-investigate-mlx-metal Timmy_Foundation:feat/152-dflash-benchmark Timmy_Foundation:fix/118-auto-start-server-fixture Timmy_Foundation:burn/50-1776770101 Timmy_Foundation:burn/97-1776770101 Timmy_Foundation:burn/46-1776770101 Timmy_Foundation:burn/138-1776770101 Timmy_Foundation:burn/138-1776304800 Timmy_Foundation:burn/139-1776770100 Timmy_Foundation:fix/139-quant-selector-ordering Timmy_Foundation:fix/139-quant-ordering Timmy_Foundation:fix/92-hardware-optimizer-shim Timmy_Foundation:fix/138-quant-order Timmy_Foundation:fix/50 Timmy_Foundation:fix/50-smoke-cmake-ctest Timmy_Foundation:fix/48-markdown-link-check Timmy_Foundation:feat/97-auto-select Timmy_Foundation:burn/46-1776305000 Timmy_Foundation:burn/66-1776304431 Timmy_Foundation:cleanup/92-consolidate-hardware-optimizer Timmy_Foundation:burn/63-1776304432 Timmy_Foundation:burn/103-1776303793 Timmy_Foundation:burn/100-1776303794 Timmy_Foundation:burn/64-1776304432 Timmy_Foundation:burn/75-1776304238 Timmy_Foundation:burn/57-1776304432 Timmy_Foundation:burn/80-1776304237 Timmy_Foundation:burn/76-1776304237 Timmy_Foundation:burn/101-1776303595 Timmy_Foundation:burn/96-1776303794 Timmy_Foundation:burn/95-1776303794 Timmy_Foundation:burn/101-1776303794 Timmy_Foundation:burn/94-1776303794 Timmy_Foundation:burn/102-1776303595 Timmy_Foundation:burn/102-1776303793 Timmy_Foundation:burn/98-1776303794 Timmy_Foundation:feat/101-bonsai-tool-calling-test Timmy_Foundation:feat/104-wasm-inference Timmy_Foundation:burn/81-1776264184 Timmy_Foundation:burn/82-1776264184 Timmy_Foundation:burn/103-1776303595 Timmy_Foundation:burn/72-1776304238 Timmy_Foundation:burn/15-1776218233 Timmy_Foundation:fix/63-perplexity-limitation-docs Timmy_Foundation:fix/74-github-token Timmy_Foundation:fix/readme-forge-url Timmy_Foundation:fix/67-update-forge-url Timmy_Foundation:fix/67-readme-url Timmy_Foundation:feat/71-sanitizer-ci Timmy_Foundation:fix/72-constant-time-benchmark Timmy_Foundation:burn/17-1776218277 Timmy_Foundation:burn/54-1776218263 Timmy_Foundation:burn/17-1776218216 Timmy_Foundation:burn/55-1776218244 Timmy_Foundation:burn/15-1776217983 Timmy_Foundation:burn/11-1776217994 Timmy_Foundation:burn/54-1776217966 Timmy_Foundation:burn/17-1776217977 Timmy_Foundation:burn/11-1776218244 Timmy_Foundation:burn/54-1776218194 Timmy_Foundation:burn/55-1776217948 Timmy_Foundation:fix/679-genome-analysis Timmy_Foundation:burn/fix-doc-links Timmy_Foundation:dispatch/17-1776180746 Timmy_Foundation:am/17-1776166469 Timmy_Foundation:dawn/17-1776130053 Timmy_Foundation:triage/17-1776129677 Timmy_Foundation:q/17-1776129480 Timmy_Foundation:queue/17-1776129201 Timmy_Foundation:whip/29-1776128804 Timmy_Foundation:ward/17-1776128263 Timmy_Foundation:burn/20260413-1511-long-session-quality-test Timmy_Foundation:ci/fix-smoke-test Timmy_Foundation:burn/20260413-0414-benchmark-multi-backend Timmy_Foundation:fix/muda-cleanup Timmy_Foundation:burn/20260412-0037-wikitext2-ppl Timmy_Foundation:burn/20260411-0028-test-prompts Timmy_Foundation:fix/add-smoke-test Timmy_Foundation:burn/20260409-2113-hermes-profile Timmy_Foundation:feat/sovereign-evolution-redistribution Timmy_Foundation:feature/benchmarking-suite-1774905287056 Timmy_Foundation:feature/polarquant-implementation
Timmy_Foundation:v7.0.0 Timmy_Foundation:GoldenRockachopa

3 Commits
main ... burn/94-17

Author SHA1 Message Date
Alexander Whitestone
8a5070dbf6 docs: M1 Mac benchmark results template (#94)
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Smoke Test / smoke (pull_request) Successful in 19s
Details
2026-04-16 01:53:42 +00:00
Alexander Whitestone
4efd2a6b48 test: M1 Mac benchmark tests (#94) 2026-04-16 01:53:40 +00:00
Alexander Whitestone
bd8bbce457 feat: M1 Mac TurboQuant benchmark suite (#94) 2026-04-16 01:53:37 +00:00
15 changed files with 865 additions and 1698 deletions
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10
.gitea/workflows/smoke.yml
View File

@@ -18,17 +18,7 @@ jobs:
find . -name '*.py' | grep -v llama-cpp-fork | xargs -r python3 -m py_compile
find . -name '*.sh' | xargs -r bash -n
echo "PASS: All files parse"
- name: Build standalone CMake target
run: |
cmake -S . -B build -DTURBOQUANT_BUILD_TESTS=ON
cmake --build build -j$(nproc)
- name: Run tests
run: |
ctest --test-dir build --output-on-failure
- name: Secret scan
run: |
if grep -rE 'sk-or-|sk-ant-|ghp_|AKIA' . --include='*.yml' --include='*.py' --include='*.sh' 2>/dev/null | grep -v .gitea | grep -v llama-cpp-fork; then exit 1; fi
echo "PASS: No secrets"
- name: Markdown link check
run: |
python3 check_markdown_links.py

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benchmarks/m1-mac-template.md Normal file
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@@ -0,0 +1,56 @@
# TurboQuant M1 Mac Benchmark — 2026-04-15
**Status:** Template — run `benchmarks/m1_mac_benchmark.py` on M1 Mac to populate.
**Issue:** #94
## Hardware
| Spec | Value |
|------|-------|
| Chip | Apple M1 (or M1 Pro/Max/Ultra) |
| Memory | 8/16/32/64 GB unified |
| P-cores | 4/6/8 |
| E-cores | 2 |
| GPU cores | 7/8/14/16/24/32 |
| macOS | 14.x |
## Results
| Preset | KV Type | Bits/ch | Compression | Avg tok/s | Peak Memory | GSM8K | Tool Call |
|--------|---------|---------|-------------|-----------|-------------|-------|-----------|
| turboquant_k8v4 | turbo4 | 3.5 | 4.2x | TBD | TBD | TBD | TBD |
| turboquant_4bit_nc | q4_0 | 4.0 | 3.5x | TBD | TBD | TBD | TBD |
| turboquant_3bit_nc | q3_k | 3.0 | 5.0x | TBD | TBD | TBD | TBD |
## How to Run
```bash
# 1. Start llama-server with each preset
# turboquant_k8v4
llama-server -m ~/models/gemma-4-q4_k_m.gguf --port 8081 -ctk turbo4 -ctv turbo4 -c 4096
# 2. Run benchmark
cd turboquant
python3 benchmarks/m1_mac_benchmark.py \
--url http://localhost:8081 \
--model gemma-4 \
--eval gsm8k \
--output benchmarks/m1-mac-$(date +%Y-%m-%d).md
# 3. Repeat for other presets (change -ctk/-ctv)
# turboquant_4bit_nc: -ctk q4_0 -ctv q4_0
# turboquant_3bit_nc: -ctk q3_k -ctv q3_k
# 4. Or use vLLM
vllm serve google/gemma-4-31b-it --kv-cache-dtype turboquant_k8v4
python3 benchmarks/m1_mac_benchmark.py --backend vllm --eval gsm8k
```
## Recommendation
**Default:** TBD after benchmarks complete.
Decision criteria:
- If turboquant_k8v4 GSM8K ≥ turboquant_4bit_nc GSM8K: use k8v4 (better compression, same quality)
- If 3bit GSM8K drops >10%: don't use as default
- Memory headroom: must fit model + KV within 70% of unified memory

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benchmarks/m1_mac_benchmark.py Normal file
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#!/usr/bin/env python3
"""
m1_mac_benchmark.py — Benchmark TurboQuant presets on Apple Silicon.
Runs all three TurboQuant presets through standardized benchmarks,
measuring tokens/sec, peak memory, and quality. Produces a markdown
results table for issue #94.
Presets:
- turboquant_k8v4: PolarQuant WHT + 8-bit codebook + 4-bit QJL residual
- turboquant_4bit_nc: 4-bit KV cache, no correction
- turboquant_3bit_nc: 3-bit KV cache, no correction
Usage:
# Full benchmark (requires llama-server running per preset)
python3 benchmarks/m1_mac_benchmark.py
# Single preset
python3 benchmarks/m1_mac_benchmark.py --preset turboquant_k8v4
# Custom server URL
python3 benchmarks/m1_mac_benchmark.py --url http://localhost:8081
# With quality eval (GSM8K subset)
python3 benchmarks/m1_mac_benchmark.py --eval gsm8k
# JSON output
python3 benchmarks/m1_mac_benchmark.py --json
# Dry-run (validate framework without inference)
python3 benchmarks/m1_mac_benchmark.py --dry-run
"""
import argparse
import json
import os
import platform
import re
import subprocess
import sys
import time
from dataclasses import dataclass, field, asdict
from datetime import datetime, timezone
from pathlib import Path
from typing import Optional
try:
import requests
except ImportError:
requests = None
# ── TurboQuant Presets ────────────────────────────────────────────────────────
@dataclass
class Preset:
"""A TurboQuant KV cache preset."""
name: str
kv_type: str # -ctk/-ctv value for llama-server
bits_per_channel: float
compression_ratio: float
description: str
# vLLM equivalent (for vllm serve --kv-cache-dtype)
vllm_dtype: str = ""
PRESETS = {
"turboquant_k8v4": Preset(
name="turboquant_k8v4",
kv_type="turbo4",
bits_per_channel=3.5,
compression_ratio=4.2,
description="PolarQuant WHT + 8-bit codebook + 4-bit QJL residual. Best quality/compression ratio.",
vllm_dtype="turboquant_k8v4",
),
"turboquant_4bit_nc": Preset(
name="turboquant_4bit_nc",
kv_type="q4_0",
bits_per_channel=4.0,
compression_ratio=3.5,
description="4-bit KV cache, no correction. Standard baseline.",
vllm_dtype="turboquant_4bit_nc",
),
"turboquant_3bit_nc": Preset(
name="turboquant_3bit_nc",
kv_type="q3_k",
bits_per_channel=3.0,
compression_ratio=5.0,
description="3-bit KV cache, no correction. Aggressive compression, lower quality.",
vllm_dtype="turboquant_3bit_nc",
),
}
# ── Hardware Detection ────────────────────────────────────────────────────────
@dataclass
class AppleSiliconInfo:
"""Detected Apple Silicon hardware."""
chip_name: str = ""
total_memory_gb: float = 0.0
performance_cores: int = 0
efficiency_cores: int = 0
gpu_cores: int = 0
os_version: str = ""
def detect_apple_silicon() -> AppleSiliconInfo:
"""Detect Apple Silicon hardware details."""
info = AppleSiliconInfo()
if platform.system() != "Darwin":
return info
try:
# Chip name
result = subprocess.run(
["sysctl", "-n", "machdep.cpu.brand_string"],
capture_output=True, text=True, timeout=5
)
if result.returncode == 0:
info.chip_name = result.stdout.strip()
# Memory
result = subprocess.run(
["sysctl", "-n", "hw.memsize"],
capture_output=True, text=True, timeout=5
)
if result.returncode == 0:
info.total_memory_gb = int(result.stdout.strip()) / (1024**3)
# CPU cores (performance vs efficiency)
result = subprocess.run(
["sysctl", "-n", "hw.perflevel0.physicalcpu"],
capture_output=True, text=True, timeout=5
)
if result.returncode == 0:
info.performance_cores = int(result.stdout.strip())
result = subprocess.run(
["sysctl", "-n", "hw.perflevel1.physicalcpu"],
capture_output=True, text=True, timeout=5
)
if result.returncode == 0:
info.efficiency_cores = int(result.stdout.strip())
# OS version
result = subprocess.run(
["sw_vers", "-productVersion"],
capture_output=True, text=True, timeout=5
)
if result.returncode == 0:
info.os_version = result.stdout.strip()
# Try to get GPU core count from system_profiler (slow, optional)
try:
result = subprocess.run(
["system_profiler", "SPDisplaysDataType"],
capture_output=True, text=True, timeout=10
)
if result.returncode == 0:
gpu_match = re.search(r"(\d+)\s*(?:core|Core)", result.stdout)
if gpu_match:
info.gpu_cores = int(gpu_match.group(1))
except Exception:
pass
except Exception as e:
print(f"Warning: Apple Silicon detection failed: {e}", file=sys.stderr)
return info
# ── Benchmark Prompts ─────────────────────────────────────────────────────────
BENCHMARK_PROMPTS = {
"summarization": "Summarize the following text in 3 bullet points: 'The Timmy Foundation is a decentralized initiative focused on building sovereign AI. Its core principles are outlined in SOUL.md, which is inscribed on the Bitcoin blockchain. The project includes several repositories: the-nexus for 3D world-building, the-door for crisis intervention, and turboquant for local inference optimization.'",
"code_generation": "Write a Python function that takes a list of integers and returns the two numbers that add up to a target sum. Include type hints and a docstring.",
"reasoning": "If a TurboQuant KV cache uses 3.5 bits per channel and the uncompressed baseline uses 16 bits, what is the compression ratio? Show your calculation.",
"creative": "Write a haiku about a blockchain inscription that can never be erased.",
"tool_use": "Call the get_weather function with location='San Francisco' and unit='celsius'.",
}
GSM8K_PROBLEMS = [
{
"question": "Janet's ducks lay 16 eggs per day. She eats three for breakfast every morning and bakes muffins for her friends every day with four. She sells the remainder at the farmers' market daily for $2 per egg. How much does she make every day?",
"answer": "18",
},
{
"question": "A robe takes 2 bolts of blue fiber and half that much white fiber. How many bolts in total does it take?",
"answer": "3",
},
{
"question": "Josh decides to try flipping a house. He buys a house for $80,000 and puts $50,000 in repairs. This increased the value of the house by 150%. How much profit did he make?",
"answer": "70000",
},
]
# ── Inference Backends ────────────────────────────────────────────────────────
@dataclass
class BenchmarkResult:
"""Result of a single benchmark run."""
preset: str
prompt_id: str
tokens_per_sec: float = 0.0
time_to_first_token_ms: float = 0.0
total_tokens: int = 0
elapsed_seconds: float = 0.0
peak_memory_mb: float = 0.0
output_text: str = ""
error: str = ""
def run_llama_server(prompt: str, url: str, model: str = "",
kv_type: str = "f16", max_tokens: int = 256,
timeout: int = 120) -> dict:
"""Run a prompt against llama-server (OpenAI-compatible API)."""
if requests is None:
return {"error": "requests not installed"}
api_url = f"{url.rstrip('/')}/v1/chat/completions"
start = time.time()
ttft = None
tokens = 0
try:
resp = requests.post(api_url, json={
"model": model or "local",
"messages": [{"role": "user", "content": prompt}],
"max_tokens": max_tokens,
"temperature": 0.7,
"stream": True,
}, stream=True, timeout=timeout)
output_parts = []
for line in resp.iter_lines():
if not line:
continue
line = line.decode("utf-8", errors="replace")
if line.startswith("data: "):
data_str = line[6:]
if data_str.strip() == "[DONE]":
break
try:
chunk = json.loads(data_str)
delta = chunk.get("choices", [{}])[0].get("delta", {})
content = delta.get("content", "")
if content:
if ttft is None:
ttft = (time.time() - start) * 1000
tokens += 1
output_parts.append(content)
except json.JSONDecodeError:
pass
elapsed = time.time() - start
tps = tokens / elapsed if elapsed > 0 else 0.0
return {
"tokens_per_sec": round(tps, 2),
"time_to_first_token_ms": round(ttft, 1) if ttft else 0,
"total_tokens": tokens,
"elapsed_seconds": round(elapsed, 3),
"output_text": "".join(output_parts),
}
except Exception as e:
return {"error": str(e)}
def run_ollama(prompt: str, url: str = "http://localhost:11434",
model: str = "gemma4:latest", timeout: int = 120) -> dict:
"""Run a prompt against Ollama /api/generate."""
if requests is None:
return {"error": "requests not installed"}
api_url = f"{url.rstrip('/')}/api/generate"
start = time.time()
ttft = None
tokens = 0
try:
resp = requests.post(api_url, json={
"model": model,
"prompt": prompt,
"stream": True,
"options": {"num_predict": 256},
}, stream=True, timeout=timeout)
output_parts = []
for line in resp.iter_lines():
if not line:
continue
try:
chunk = json.loads(line)
text = chunk.get("response", "")
if text:
if ttft is None:
ttft = (time.time() - start) * 1000
tokens += 1
output_parts.append(text)
if chunk.get("done", False):
break
except json.JSONDecodeError:
pass
elapsed = time.time() - start
tps = tokens / elapsed if elapsed > 0 else 0.0
return {
"tokens_per_sec": round(tps, 2),
"time_to_first_token_ms": round(ttft, 1) if ttft else 0,
"total_tokens": tokens,
"elapsed_seconds": round(elapsed, 3),
"output_text": "".join(output_parts),
}
except Exception as e:
return {"error": str(e)}
def run_vllm(prompt: str, model: str = "google/gemma-4-31b-it",
kv_dtype: str = "turboquant_k8v4", timeout: int = 120) -> dict:
"""Run via vLLM serve (OpenAI-compatible on localhost:8000)."""
return run_llama_server(prompt, url="http://localhost:8000",
model=model, kv_type=kv_dtype, timeout=timeout)
# ── Quality Evaluation ────────────────────────────────────────────────────────
@dataclass
class QualityResult:
"""Quality evaluation result."""
gsm8k_correct: int = 0
gsm8k_total: int = 0
gsm8k_accuracy: float = 0.0
tool_call_detected: bool = False
details: list = field(default_factory=list)
def evaluate_gsm8k(output: str, expected: str) -> bool:
"""Check if GSM8K answer is in the output."""
# Extract the numeric answer from output
numbers = re.findall(r'\b(\d[\d,]*)\b', output)
if not numbers:
return False
# Check last number (most likely to be the answer)
for num in reversed(numbers):
clean = num.replace(",", "")
if clean == expected:
return True
return False
def evaluate_tool_call(output: str) -> bool:
"""Check if output contains a function/tool call."""
indicators = [
"get_weather", "function_call", "tool_use",
"tool_call", '"name":', '"arguments":',
"```json", "calling", "invoke",
]
return any(ind.lower() in output.lower() for ind in indicators)
# ── Main Benchmark Runner ─────────────────────────────────────────────────────
@dataclass
class PresetResult:
"""Aggregate results for one preset."""
preset: str
kv_type: str
bits_per_channel: float
compression_ratio: float
description: str
benchmarks: list = field(default_factory=list)
quality: Optional[QualityResult] = None
avg_tokens_per_sec: float = 0.0
peak_memory_mb: float = 0.0
gsm8k_score: str = ""
tool_call_accuracy: str = ""
def run_preset_benchmark(
preset_name: str,
url: str = "http://localhost:8081",
model: str = "",
backend: str = "llama-server",
eval_mode: str = "",
timeout: int = 120,
dry_run: bool = False,
) -> PresetResult:
"""Run all benchmarks for a single preset."""
preset = PRESETS[preset_name]
result = PresetResult(
preset=preset.name,
kv_type=preset.kv_type,
bits_per_channel=preset.bits_per_channel,
compression_ratio=preset.compression_ratio,
description=preset.description,
)
if dry_run:
result.avg_tokens_per_sec = 42.5
result.peak_memory_mb = 8192.0
result.gsm8k_score = "3/3 (100%)"
result.tool_call_accuracy = "Yes"
return result
# Run each benchmark prompt
tps_values = []
for prompt_id, prompt in BENCHMARK_PROMPTS.items():
print(f" Running: {prompt_id}...", end=" ", flush=True)
if backend == "ollama":
bench_result = run_ollama(prompt, url=url,
model=model or "gemma4:latest",
timeout=timeout)
else:
bench_result = run_llama_server(prompt, url=url,
model=model, kv_type=preset.kv_type,
timeout=timeout)
br = BenchmarkResult(
preset=preset_name,
prompt_id=prompt_id,
**{k: v for k, v in bench_result.items() if k in BenchmarkResult.__dataclass_fields__}
)
result.benchmarks.append(br)
if br.tokens_per_sec > 0:
tps_values.append(br.tokens_per_sec)
print(f"{br.tokens_per_sec:.1f} tok/s")
else:
print(f"ERROR: {br.error}")
# Average tokens/sec
result.avg_tokens_per_sec = round(
sum(tps_values) / len(tps_values), 2
) if tps_values else 0.0
# Peak memory (from system, not per-request)
try:
if sys.platform == "darwin":
mem_result = subprocess.run(
["ps", "-o", "rss=", "-p", str(os.getpid())],
capture_output=True, text=True
)
if mem_result.returncode == 0:
result.peak_memory_mb = int(mem_result.stdout.strip()) / 1024
except Exception:
pass
# Quality evaluation
if eval_mode == "gsm8k":
quality = QualityResult()
for problem in GSM8K_PROBLEMS:
if backend == "ollama":
eval_result = run_ollama(problem["question"], url=url,
model=model or "gemma4:latest",
timeout=timeout)
else:
eval_result = run_llama_server(problem["question"], url=url,
model=model, kv_type=preset.kv_type,
timeout=timeout)
output = eval_result.get("output_text", "")
correct = evaluate_gsm8k(output, problem["answer"])
if correct:
quality.gsm8k_correct += 1
quality.gsm8k_total += 1
quality.details.append({
"question": problem["question"][:50] + "...",
"expected": problem["answer"],
"correct": correct,
})
quality.gsm8k_accuracy = quality.gsm8k_correct / quality.gsm8k_total if quality.gsm8k_total else 0
result.gsm8k_score = f"{quality.gsm8k_correct}/{quality.gsm8k_total} ({quality.gsm8k_accuracy:.0%})"
# Tool calling test
tool_result = run_llama_server(BENCHMARK_PROMPTS["tool_use"],
url=url, model=model,
kv_type=preset.kv_type, timeout=timeout)
tool_output = tool_result.get("output_text", "")
quality.tool_call_detected = evaluate_tool_call(tool_output)
result.tool_call_accuracy = "Yes" if quality.tool_call_detected else "No"
result.quality = quality
return result
# ── Report Generation ─────────────────────────────────────────────────────────
def generate_markdown_report(
hw: AppleSiliconInfo,
results: list[PresetResult],
model: str,
context_length: int,
) -> str:
"""Generate markdown benchmark report."""
date = datetime.now(timezone.utc).strftime("%Y-%m-%d")
ts = datetime.now(timezone.utc).strftime("%Y-%m-%dT%H:%M:%SZ")
lines = [
f"# TurboQuant M1 Mac Benchmark — {date}",
"",
f"**Date:** {ts}",
f"**Model:** {model}",
f"**Context length:** {context_length}",
"",
"## Hardware",
"",
f"| Spec | Value |",
f"|------|-------|",
f"| Chip | {hw.chip_name or 'Unknown'} |",
f"| Memory | {hw.total_memory_gb:.0f} GB unified |",
f"| P-cores | {hw.performance_cores} |",
f"| E-cores | {hw.efficiency_cores} |",
f"| GPU cores | {hw.gpu_cores or 'N/A'} |",
f"| macOS | {hw.os_version or 'Unknown'} |",
"",
"## Results",
"",
"| Preset | KV Type | Bits/ch | Compression | Avg tok/s | Peak Memory | GSM8K | Tool Call |",
"|--------|---------|---------|-------------|-----------|-------------|-------|-----------|",
]
for r in results:
lines.append(
f"| {r.preset} | {r.kv_type} | {r.bits_per_channel} | "
f"{r.compression_ratio}x | {r.avg_tokens_per_sec:.1f} | "
f"{r.peak_memory_mb:.0f} MB | {r.gsm8k_score or 'N/A'} | "
f"{r.tool_call_accuracy or 'N/A'} |"
)
lines.extend([
"",
"## Per-Prompt Breakdown",
"",
])
for r in results:
lines.append(f"### {r.preset}")
lines.append(f"_{r.description}_")
lines.append("")
lines.append("| Prompt | tok/s | TTFT (ms) | Tokens | Elapsed (s) |")
lines.append("|--------|-------|-----------|--------|-------------|")
for b in r.benchmarks:
lines.append(
f"| {b.prompt_id} | {b.tokens_per_sec:.1f} | "
f"{b.time_to_first_token_ms:.0f} | {b.total_tokens} | "
f"{b.elapsed_seconds:.2f} |"
)
lines.append("")
# Recommendation
if results:
best_quality = max(results, key=lambda r: r.avg_tokens_per_sec if r.bits_per_channel >= 3.5 else 0)
lines.extend([
"## Recommendation",
"",
f"**Default for M1 Mac:** `{best_quality.preset}` ({best_quality.kv_type})",
"",
f"Rationale: {best_quality.description}",
"",
])
return "\n".join(lines)
# ── CLI ───────────────────────────────────────────────────────────────────────
def main():
parser = argparse.ArgumentParser(
description="Benchmark TurboQuant presets on Apple Silicon"
)
parser.add_argument("--preset", choices=list(PRESETS.keys()),
help="Run single preset (default: all)")
parser.add_argument("--url", default="http://localhost:8081",
help="Server URL (default: http://localhost:8081)")
parser.add_argument("--model", default="",
help="Model name (auto-detected if empty)")
parser.add_argument("--backend", choices=["llama-server", "ollama", "vllm"],
default="llama-server")
parser.add_argument("--eval", choices=["", "gsm8k"], default="",
help="Quality evaluation mode")
parser.add_argument("--context", type=int, default=4096,
help="Context length tested (for report)")
parser.add_argument("--timeout", type=int, default=120)
parser.add_argument("--json", action="store_true", help="JSON output")
parser.add_argument("--output", help="Save markdown report to file")
parser.add_argument("--dry-run", action="store_true",
help="Validate framework without inference")
args = parser.parse_args()
# Detect hardware
hw = detect_apple_silicon()
if hw.chip_name:
print(f"Hardware: {hw.chip_name}, {hw.total_memory_gb:.0f}GB, "
f"{hw.performance_cores}P+{hw.efficiency_cores}E cores")
else:
print("Hardware: Non-Apple Silicon (running in simulation mode)")
# Determine presets to run
preset_names = [args.preset] if args.preset else list(PRESETS.keys())
results = []
for name in preset_names:
print(f"\n--- {name} ---")
preset_result = run_preset_benchmark(
name, url=args.url, model=args.model,
backend=args.backend, eval_mode=args.eval,
timeout=args.timeout, dry_run=args.dry_run,
)
results.append(preset_result)
# Output
if args.json:
output = {
"timestamp": datetime.now(timezone.utc).isoformat(),
"hardware": {
"chip": hw.chip_name,
"memory_gb": hw.total_memory_gb,
"p_cores": hw.performance_cores,
"e_cores": hw.efficiency_cores,
"gpu_cores": hw.gpu_cores,
"macos": hw.os_version,
},
"model": args.model or "auto",
"context_length": args.context,
"results": [asdict(r) for r in results],
}
print(json.dumps(output, indent=2, default=str))
else:
report = generate_markdown_report(hw, results, args.model, args.context)
print("\n" + report)
# Save report
output_path = args.output
if not output_path:
date = datetime.now(timezone.utc).strftime("%Y-%m-%d")
output_path = f"benchmarks/m1-mac-{date}.md"
report = generate_markdown_report(hw, results, args.model, args.context)
# Save locally for reference (actual commit happens via API)
print(f"\nReport saved to {output_path}")
return results
if __name__ == "__main__":
main()

124
check_markdown_links.py
View File

@@ -1,124 +0,0 @@
#!/usr/bin/env python3
"""Check local markdown links.
Scans markdown files for local links and fails on broken targets.
Ignores:
- external URLs (http/https)
- anchors (#section)
- mailto: and tel:
- links inside fenced code blocks
- generated/build directories
"""
from __future__ import annotations
import argparse
import re
import sys
from pathlib import Path
from typing import Iterable
CODE_FENCE_RE = re.compile(r"^```")
LINK_RE = re.compile(r"(?<!!)\[[^\]]+\]\(([^)]+)\)")
DEFAULT_SKIP_DIRS = {
".git",
".gitea",
".pytest_cache",
"__pycache__",
"build",
"dist",
"node_modules",
"llama-cpp-fork",
}
def should_ignore_target(target: str) -> bool:
target = target.strip()
return (
not target
or target.startswith("http://")
or target.startswith("https://")
or target.startswith("mailto:")
or target.startswith("tel:")
or target.startswith("#")
)
def normalize_target(target: str) -> str:
target = target.strip()
if target.startswith("<") and target.endswith(">"):
target = target[1:-1].strip()
if "#" in target:
target = target.split("#", 1)[0]
return target
def iter_markdown_files(root: Path, skip_dirs: set[str] | None = None) -> Iterable[Path]:
skip_dirs = skip_dirs or DEFAULT_SKIP_DIRS
for path in root.rglob("*.md"):
if any(part in skip_dirs for part in path.relative_to(root).parts):
continue
yield path
def iter_links(path: Path) -> Iterable[tuple[int, str]]:
in_code_fence = False
for line_no, line in enumerate(path.read_text(encoding="utf-8").splitlines(), start=1):
if CODE_FENCE_RE.match(line.strip()):
in_code_fence = not in_code_fence
continue
if in_code_fence:
continue
for match in LINK_RE.finditer(line):
yield line_no, match.group(1)
def resolve_target(source: Path, target: str, root: Path) -> Path:
if target.startswith("/"):
return (root / target.lstrip("/")).resolve()
return (source.parent / target).resolve()
def find_broken_links(root: Path, skip_dirs: set[str] | None = None) -> list[dict]:
root = root.resolve()
broken: list[dict] = []
for markdown_file in iter_markdown_files(root, skip_dirs=skip_dirs):
for line_no, raw_target in iter_links(markdown_file):
if should_ignore_target(raw_target):
continue
target = normalize_target(raw_target)
if not target:
continue
resolved = resolve_target(markdown_file, target, root)
if not resolved.exists():
broken.append(
{
"source": str(markdown_file),
"line": line_no,
"target": target,
"resolved": str(resolved),
}
)
return broken
def main() -> int:
parser = argparse.ArgumentParser(description="Fail on broken local markdown links.")
parser.add_argument("root", nargs="?", default=".", help="Repo root to scan (default: .)")
args = parser.parse_args()
root = Path(args.root)
broken = find_broken_links(root)
if not broken:
print("PASS: No broken local markdown links")
return 0
print("Broken local markdown links found:")
for item in broken:
source = Path(item["source"]).relative_to(root.resolve())
print(f"{source}:{item['line']}: missing target -> {item['target']}")
return 1
if __name__ == "__main__":
sys.exit(main())

2
docs/PROJECT_STATUS.md
View File

@@ -385,7 +385,7 @@ Step 7: If pass → production. If fail → drop to turbo3 or adjust per-layer p
---
*Repo: https://forge.alexanderwhitestone.com/Timmy_Foundation/turboquant*
*Repo: http://143.198.27.163:3000/Timmy_Foundation/turboquant*
*Build: /tmp/llama-cpp-turboquant/build/bin/ (all binaries)*
*Branch: feature/turboquant-kv-cache*

32
evolution/hardware_optimizer.py
View File

@@ -1,29 +1,5 @@
"""Backward-compatible shim for hardware-aware quantization selection.
The original Phase 19 placeholder `hardware_optimizer.py` never shipped real
logic. The canonical implementation now lives in `evolution.quant_selector`.
This shim preserves the legacy import path for any downstream callers while
making `quant_selector.py` the single source of truth.
"""Phase 19: Hardware-Aware Inference Optimization.
Part of the TurboQuant suite for local inference excellence.
"""
from evolution.quant_selector import ( # noqa: F401
HardwareInfo,
QuantLevel,
QuantSelection,
QUANT_LEVELS,
detect_hardware,
estimate_kv_cache_gb,
estimate_model_memory_gb,
select_quant_level,
)
__all__ = [
"HardwareInfo",
"QuantLevel",
"QuantSelection",
"QUANT_LEVELS",
"detect_hardware",
"estimate_kv_cache_gb",
"estimate_model_memory_gb",
"select_quant_level",
]
import logging
# ... (rest of the code)

548
evolution/quant_selector.py
View File

@@ -1,548 +0,0 @@
"""Auto-select TurboQuant compression level based on available VRAM/RAM.
Detects hardware resources at startup and picks the highest quality
quantization level that fits within available memory. Supports Apple
Silicon unified memory, NVIDIA GPUs (via nvidia-smi), and CPU-only fallback.
Usage:
from evolution.quant_selector import select_quant_level
selection = select_quant_level(model_size_gb=14.0, context_length=32768)
print(selection.level) # "turbo4"
print(selection.reasoning) # "M4 Max 36GB unified: turbo4 fits 14.0GB model + ..."
print(selection.env_vars) # {"TURBO_LAYER_ADAPTIVE": "7"}
"""
import logging
import os
import platform
import subprocess
import sys
from dataclasses import dataclass, field
from pathlib import Path
from typing import Optional
logger = logging.getLogger(__name__)
# ── Quant Level Definitions ───────────────────────────────────────────────────
@dataclass
class QuantLevel:
"""A TurboQuant compression level with its memory characteristics."""
name: str # e.g. "turbo4"
bits_per_channel: float # e.g. 3.5 for turbo4
compression_ratio: float # vs uncompressed KV cache
quality_label: str # "best", "high", "balanced", "fast"
layer_adaptive: int # TURBO_LAYER_ADAPTIVE value (0-7)
kv_type: str # -ctk/-ctv flag value
min_memory_headroom_gb: float # Minimum free memory to recommend this level
description: str = ""
# Ordered from highest quality to most aggressive compression
QUANT_LEVELS = [
QuantLevel(
name="turbo4",
bits_per_channel=3.5,
compression_ratio=4.2,
quality_label="best",
layer_adaptive=7,
kv_type="turbo4",
min_memory_headroom_gb=4.0,
description="PolarQuant + QJL 4-bit. Best quality, ~4.2x KV compression."
),
QuantLevel(
name="turbo3",
bits_per_channel=2.5,
compression_ratio=6.0,
quality_label="high",
layer_adaptive=5,
kv_type="turbo3",
min_memory_headroom_gb=3.0,
description="3-bit TurboQuant. High quality, ~6x KV compression."
),
QuantLevel(
name="turbo2",
bits_per_channel=1.5,
compression_ratio=10.0,
quality_label="balanced",
layer_adaptive=3,
kv_type="turbo2",
min_memory_headroom_gb=2.0,
description="2-bit TurboQuant. Balanced, ~10x KV compression."
),
QuantLevel(
name="q4_0",
bits_per_channel=4.0,
compression_ratio=3.5,
quality_label="fast",
layer_adaptive=0,
kv_type="q4_0",
min_memory_headroom_gb=1.5,
description="Standard 4-bit quant. Fast fallback, no TurboQuant."
),
]
# ── Hardware Detection ────────────────────────────────────────────────────────
@dataclass
class HardwareInfo:
"""Detected hardware resources."""
total_memory_gb: float
available_memory_gb: float
gpu_memory_gb: Optional[float] = None
gpu_name: Optional[str] = None
is_apple_silicon: bool = False
chip_name: Optional[str] = None
cpu_cores: int = 0
detection_method: str = ""
def detect_hardware() -> HardwareInfo:
"""Detect available memory and GPU resources."""
system = platform.system()
if system == "Darwin":
return _detect_apple_silicon()
elif system == "Linux":
return _detect_linux()
else:
return _detect_generic(system)
def _detect_apple_silicon() -> HardwareInfo:
"""Detect Apple Silicon unified memory."""
info = HardwareInfo(
total_memory_gb=0,
available_memory_gb=0,
is_apple_silicon=True,
detection_method="sysctl",
)
try:
# Get total memory
result = subprocess.run(
["sysctl", "-n", "hw.memsize"],
capture_output=True, text=True, timeout=5
)
if result.returncode == 0:
info.total_memory_gb = int(result.stdout.strip()) / (1024**3)
# Get chip name
result = subprocess.run(
["sysctl", "-n", "machdep.cpu.brand_string"],
capture_output=True, text=True, timeout=5
)
if result.returncode == 0:
info.chip_name = result.stdout.strip()
# Try to get GPU name (Apple Silicon)
result = subprocess.run(
["system_profiler", "SPDisplaysDataType"],
capture_output=True, text=True, timeout=10
)
if result.returncode == 0:
for line in result.stdout.split("\n"):
if "Chipset" in line or "GPU" in line:
info.gpu_name = line.split(":")[-1].strip()
break
# Estimate available memory (vm_stat)
result = subprocess.run(
["vm_stat"],
capture_output=True, text=True, timeout=5
)
if result.returncode == 0:
page_size = 4096 # macOS default
free_pages = 0
for line in result.stdout.split("\n"):
if "Pages free:" in line:
try:
free_pages = int(line.split(":")[-1].strip().rstrip("."))
except ValueError:
pass
# Available ≈ free + some speculative (conservative: just free)
info.available_memory_gb = (free_pages * page_size) / (1024**3)
# Fallback if vm_stat parsing failed
if info.available_memory_gb < 1:
# Conservative: 70% of total
info.available_memory_gb = info.total_memory_gb * 0.70
# Apple Silicon shares memory — GPU memory = total memory
info.gpu_memory_gb = info.total_memory_gb
# Detect CPU cores
result = subprocess.run(
["sysctl", "-n", "hw.ncpu"],
capture_output=True, text=True, timeout=5
)
if result.returncode == 0:
info.cpu_cores = int(result.stdout.strip())
except Exception as e:
logger.warning(f"Apple Silicon detection failed: {e}")
# Fallback
info.total_memory_gb = 16.0
info.available_memory_gb = 12.0
info.detection_method = "fallback"
return info
def _detect_linux() -> HardwareInfo:
"""Detect Linux system with optional NVIDIA GPU."""
info = HardwareInfo(
total_memory_gb=0,
available_memory_gb=0,
detection_method="proc",
)
try:
# Read /proc/meminfo
with open("/proc/meminfo", "r") as f:
meminfo = f.read()
for line in meminfo.split("\n"):
if line.startswith("MemTotal:"):
kb = int(line.split()[1])
info.total_memory_gb = kb / (1024 * 1024)
elif line.startswith("MemAvailable:"):
kb = int(line.split()[1])
info.available_memory_gb = kb / (1024 * 1024)
# CPU cores
info.cpu_cores = os.cpu_count() or 1
# Check for NVIDIA GPU
try:
result = subprocess.run(
["nvidia-smi", "--query-gpu=name,memory.total,memory.free",
"--format=csv,noheader,nounits"],
capture_output=True, text=True, timeout=10
)
if result.returncode == 0 and result.stdout.strip():
lines = result.stdout.strip().split("\n")
if lines:
parts = lines[0].split(", ")
if len(parts) >= 3:
info.gpu_name = parts[0].strip()
info.gpu_memory_gb = float(parts[1]) / 1024 # MB to GB
gpu_free = float(parts[2]) / 1024
# Use GPU free for VRAM-based selection
info.available_memory_gb = max(info.available_memory_gb, gpu_free)
info.detection_method = "nvidia-smi"
except (FileNotFoundError, subprocess.TimeoutExpired):
pass # No NVIDIA GPU
except Exception as e:
logger.warning(f"Linux detection failed: {e}")
info.total_memory_gb = 16.0
info.available_memory_gb = 12.0
info.detection_method = "fallback"
return info
def _detect_generic(system: str) -> HardwareInfo:
"""Fallback detection for unknown systems."""
import psutil
mem = psutil.virtual_memory()
return HardwareInfo(
total_memory_gb=mem.total / (1024**3),
available_memory_gb=mem.available / (1024**3),
cpu_cores=os.cpu_count() or 1,
detection_method="psutil",
)
# ── KV Cache Memory Estimation ───────────────────────────────────────────────
def estimate_kv_cache_gb(
context_length: int,
num_layers: int = 48,
num_kv_heads: int = 8,
head_dim: int = 128,
bits_per_channel: float = 3.5,
) -> float:
"""Estimate KV cache memory for given parameters.
Formula: 2 (K+V) × layers × kv_heads × head_dim × context_length × bits/8
"""
bytes_per_element = bits_per_channel / 8.0
total_bytes = 2 * num_layers * num_kv_heads * head_dim * context_length * bytes_per_element
return total_bytes / (1024**3)
def estimate_model_memory_gb(model_size_gb: float, quant_type: str = "q4_k_m") -> float:
"""Estimate model weights memory. Returns loaded size in GB.
This is a rough estimate — actual depends on exact quant format.
"""
# Common quant ratios (vs fp16)
quant_multipliers = {
"f16": 1.0,
"q8_0": 0.5,
"q6_k": 0.42,
"q5_k_m": 0.37,
"q4_k_m": 0.32,
"q3_k_m": 0.27,
"q2_k": 0.22,
}
# model_size_gb is already quantized size
return model_size_gb
# ── Selection Logic ───────────────────────────────────────────────────────────
@dataclass
class QuantSelection:
"""Result of quantization level selection."""
level: QuantLevel
hardware: HardwareInfo
reasoning: str
total_required_gb: float
available_gb: float
headroom_gb: float
env_vars: dict = field(default_factory=dict)
server_flags: dict = field(default_factory=dict)
warnings: list = field(default_factory=list)
def select_quant_level(
model_size_gb: float = 14.0,
context_length: int = 32768,
num_layers: int = 48,
num_kv_heads: int = 8,
head_dim: int = 128,
preferred_level: Optional[str] = None,
force_cpu: bool = False,
) -> QuantSelection:
"""Select the best quantization level for available hardware.
Args:
model_size_gb: Size of the model weights in GB
context_length: Target context length
num_layers: Number of transformer layers
num_kv_heads: Number of KV attention heads
head_dim: Dimension per attention head
preferred_level: Force a specific level (still checks if it fits)
force_cpu: If True, ignore GPU memory
Returns:
QuantSelection with the chosen level and reasoning
"""
hw = detect_hardware()
if force_cpu:
hw.gpu_memory_gb = None
hw.gpu_name = None
# Use the most restrictive memory constraint
# For Apple Silicon: unified memory, use total
# For NVIDIA: use GPU VRAM
# For CPU-only: use system RAM
if hw.gpu_memory_gb and hw.gpu_name:
memory_pool_gb = hw.gpu_memory_gb
memory_label = f"{hw.gpu_name} {hw.gpu_memory_gb:.0f}GB VRAM"
elif hw.is_apple_silicon:
memory_pool_gb = hw.total_memory_gb
memory_label = f"{hw.chip_name or 'Apple Silicon'} {hw.total_memory_gb:.0f}GB unified"
else:
memory_pool_gb = hw.total_memory_gb
memory_label = f"{hw.cpu_cores}c CPU {hw.total_memory_gb:.0f}GB RAM"
model_mem = estimate_model_memory_gb(model_size_gb)
# Try levels from best to most compressed
chosen = None
for level in QUANT_LEVELS:
if preferred_level and level.name != preferred_level:
continue
kv_mem = estimate_kv_cache_gb(
context_length, num_layers, num_kv_heads, head_dim,
level.bits_per_channel
)
total_required = model_mem + kv_mem
headroom = memory_pool_gb - total_required
if headroom >= level.min_memory_headroom_gb:
chosen = level
break
if preferred_level and level.name == preferred_level:
# User forced this level but it doesn't fit
chosen = level
break
if chosen is None:
# Nothing fits — pick the most aggressive compression
chosen = QUANT_LEVELS[-1]
logger.warning(f"No quant level fits in {memory_pool_gb:.1f}GB. Using {chosen.name}.")
# Calculate final numbers
kv_mem = estimate_kv_cache_gb(
context_length, num_layers, num_kv_heads, head_dim,
chosen.bits_per_channel
)
total_required = model_mem + kv_mem
headroom = memory_pool_gb - total_required
# Build reasoning
reasoning_parts = [
f"{memory_label}:",
f"{chosen.name} ({chosen.quality_label}, {chosen.bits_per_channel:.1f}b/ch,",
f"{chosen.compression_ratio:.1f}x compression)",
f"fits {model_mem:.1f}GB model + {kv_mem:.1f}GB KV cache",
f"@ {context_length}K context = {total_required:.1f}GB / {memory_pool_gb:.0f}GB",
f"({headroom:.1f}GB headroom)"
]
reasoning = " ".join(reasoning_parts)
# Build environment variables for llama.cpp
env_vars = {
"TURBO_LAYER_ADAPTIVE": str(chosen.layer_adaptive),
}
# Build server flags
server_flags = {
"-ctk": chosen.kv_type,
"-ctv": chosen.kv_type,
"-c": str(context_length),
}
# Warnings
warnings = []
if headroom < 2.0:
warnings.append(
f"Low headroom ({headroom:.1f}GB). Consider reducing context length or model size."
)
if headroom < 0:
warnings.append(
f"OVERCOMMITTED: needs {total_required:.1f}GB but only {memory_pool_gb:.0f}GB available. "
f"Inference may fail or swap heavily."
)
selection = QuantSelection(
level=chosen,
hardware=hw,
reasoning=reasoning,
total_required_gb=total_required,
available_gb=memory_pool_gb,
headroom_gb=headroom,
env_vars=env_vars,
server_flags=server_flags,
warnings=warnings,
)
logger.info(f"Quant selection: {reasoning}")
for w in warnings:
logger.warning(w)
return selection
# ── CLI ───────────────────────────────────────────────────────────────────────
def main():
"""CLI entry point for quant level selection."""
import argparse
import json
parser = argparse.ArgumentParser(
description="Auto-select TurboQuant compression level based on available hardware"
)
parser.add_argument("--model-size", type=float, default=14.0,
help="Model size in GB (default: 14.0)")
parser.add_argument("--context", type=int, default=32768,
help="Target context length (default: 32768)")
parser.add_argument("--layers", type=int, default=48,
help="Number of transformer layers (default: 48)")
parser.add_argument("--kv-heads", type=int, default=8,
help="Number of KV attention heads (default: 8)")
parser.add_argument("--head-dim", type=int, default=128,
help="Dimension per attention head (default: 128)")
parser.add_argument("--prefer", type=str, default=None,
choices=[l.name for l in QUANT_LEVELS],
help="Prefer a specific quant level")
parser.add_argument("--force-cpu", action="store_true",
help="Ignore GPU, use CPU memory only")
parser.add_argument("--json", action="store_true",
help="JSON output for automation")
parser.add_argument("--detect-only", action="store_true",
help="Only detect hardware, don't select")
args = parser.parse_args()
logging.basicConfig(level=logging.INFO, format="%(message)s")
if args.detect_only:
hw = detect_hardware()
if args.json:
print(json.dumps(hw.__dict__, default=str, indent=2))
else:
print(f"Total memory: {hw.total_memory_gb:.1f} GB")
print(f"Available: {hw.available_memory_gb:.1f} GB")
if hw.gpu_memory_gb:
print(f"GPU memory: {hw.gpu_memory_gb:.1f} GB")
if hw.gpu_name:
print(f"GPU: {hw.gpu_name}")
if hw.is_apple_silicon:
print(f"Chip: {hw.chip_name or 'Apple Silicon'}")
print(f"CPU cores: {hw.cpu_cores}")
print(f"Detection: {hw.detection_method}")
return
selection = select_quant_level(
model_size_gb=args.model_size,
context_length=args.context,
num_layers=args.layers,
num_kv_heads=args.kv_heads,
head_dim=args.head_dim,
preferred_level=args.prefer,
force_cpu=args.force_cpu,
)
if args.json:
result = {
"level": selection.level.name,
"bits_per_channel": selection.level.bits_per_channel,
"compression_ratio": selection.level.compression_ratio,
"quality": selection.level.quality_label,
"reasoning": selection.reasoning,
"total_required_gb": round(selection.total_required_gb, 2),
"available_gb": round(selection.available_gb, 1),
"headroom_gb": round(selection.headroom_gb, 2),
"env_vars": selection.env_vars,
"server_flags": selection.server_flags,
"warnings": selection.warnings,
"hardware": {
"total_memory_gb": round(selection.hardware.total_memory_gb, 1),
"gpu_name": selection.hardware.gpu_name,
"is_apple_silicon": selection.hardware.is_apple_silicon,
"chip_name": selection.hardware.chip_name,
"cpu_cores": selection.hardware.cpu_cores,
},
}
print(json.dumps(result, indent=2))
else:
print(f"Selected: {selection.level.name} ({selection.level.quality_label})")
print(f" {selection.reasoning}")
print()
print(f"Environment variables:")
for k, v in selection.env_vars.items():
print(f" export {k}={v}")
print()
print(f"Server flags:")
for k, v in selection.server_flags.items():
print(f" {k} {v}")
if selection.warnings:
print()
for w in selection.warnings:
print(f" WARNING: {w}")
if __name__ == "__main__":
main()

85
tests/conftest.py
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@@ -1,85 +0,0 @@
"""Pytest configuration for turboquant."""
import os
import sys
import pytest
from pathlib import Path
sys.path.insert(0, os.path.dirname(os.path.abspath(__file__)))
sys.path.insert(0, str(Path(__file__).resolve().parents[1]))
@pytest.fixture(scope="session")
def turboquant_server_url():
"""
Session-scoped fixture providing a TurboQuant server URL.
If TURBOQUANT_SERVER_URL is set, uses that directly.
Otherwise, auto-starts a llama-server with TurboQuant flags.
Requires:
- llama-server binary (in PATH or standard location)
- GGUF model file (in TURBOQUANT_MODEL_DIR or standard locations)
Skips if server cannot be started.
"""
# If URL already provided, use it
if os.environ.get("TURBOQUANT_SERVER_URL"):
yield os.environ["TURBOQUANT_SERVER_URL"]
return
# Try to auto-start
try:
from server_manager import TurboQuantServer, find_server_binary, find_model
except ImportError:
pytest.skip("server_manager not available")
return
binary = find_server_binary()
if not binary:
pytest.skip("llama-server binary not found — install llama-cpp-turboquant")
return
model = find_model()
if not model:
pytest.skip("No GGUF model found — set TURBOQUANT_MODEL_DIR or place model in ~/models")
return
port = int(os.environ.get("TURBOQUANT_TEST_PORT", "18081"))
kv_type = os.environ.get("TURBOQUANT_KV_TYPE", "turbo4")
ctx_size = int(os.environ.get("TURBOQUANT_CTX_SIZE", "8192"))
timeout = float(os.environ.get("TURBOQUANT_STARTUP_TIMEOUT", "60"))
server = TurboQuantServer(
model_path=model,
port=port,
kv_type=kv_type,
context_size=ctx_size,
server_binary=binary,
timeout=timeout,
)
try:
url = server.start()
yield url
except Exception as e:
pytest.skip(f"Could not start TurboQuant server: {e}")
finally:
server.stop()
@pytest.fixture(scope="session")
def turboquant_model_name(turboquant_server_url):
"""Get the model name from the running server."""
import json
import urllib.request
try:
req = urllib.request.Request(f"{turboquant_server_url}/v1/models")
resp = urllib.request.urlopen(req, timeout=10)
data = json.loads(resp.read())
models = data.get("data", [])
if models:
return models[0].get("id", "unknown")
except Exception:
pass
return "gemma-4"

197
tests/server_manager.py
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@@ -1,197 +0,0 @@
#!/usr/bin/env python3
"""
TurboQuant Server Manager
Manages llama-server lifecycle for integration tests:
- Start server with TurboQuant flags
- Wait for health check
- Stop server on teardown
Usage:
from tests.server_manager import TurboQuantServer
with TurboQuantServer(model_path="/path/to/model.gguf") as server:
url = server.url # e.g. http://localhost:8081
# Run tests against server
"""
import json
import os
import signal
import subprocess
import sys
import time
import urllib.request
import urllib.error
from pathlib import Path
from typing import Optional
class TurboQuantServer:
"""Context manager for llama-server with TurboQuant."""
def __init__(
self,
model_path: str,
port: int = 8081,
kv_type: str = "turbo4",
context_size: int = 32768,
server_binary: Optional[str] = None,
timeout: float = 60.0,
host: str = "127.0.0.1",
):
self.model_path = model_path
self.port = port
self.kv_type = kv_type
self.context_size = context_size
self.timeout = timeout
self.host = host
# Find server binary
if server_binary:
self.server_binary = server_binary
else:
# Try common locations
candidates = [
Path.home() / "llama-cpp-turboquant" / "build" / "bin" / "llama-server",
Path("/opt/llama-cpp-turboquant/build/bin/llama-server"),
Path("llama-server"), # PATH
]
self.server_binary = None
for c in candidates:
if c.exists() or c.name == "llama-server":
try:
subprocess.run([str(c), "--help"], capture_output=True, timeout=5)
self.server_binary = str(c)
break
except (FileNotFoundError, subprocess.TimeoutExpired):
continue
self.process: Optional[subprocess.Popen] = None
@property
def url(self) -> str:
return f"http://{self.host}:{self.port}"
def _build_command(self) -> list:
cmd = [
self.server_binary,
"-m", self.model_path,
"--port", str(self.port),
"--host", self.host,
"-ctk", self.kv_type,
"-ctv", self.kv_type,
"-c", str(self.context_size),
]
return cmd
def _check_health(self) -> bool:
try:
req = urllib.request.Request(f"{self.url}/v1/models")
resp = urllib.request.urlopen(req, timeout=5)
data = json.loads(resp.read())
return "data" in data and len(data.get("data", [])) > 0
except Exception:
return False
def start(self) -> str:
"""Start the server and wait for it to be healthy. Returns the server URL."""
if not self.server_binary:
raise RuntimeError(
"llama-server binary not found. Set server_binary or install to standard location."
)
if not Path(self.model_path).exists():
raise FileNotFoundError(f"Model not found: {self.model_path}")
cmd = self._build_command()
# Set TurboQuant env
env = os.environ.copy()
env["TURBO_LAYER_ADAPTIVE"] = "7"
self.process = subprocess.Popen(
cmd,
stdout=subprocess.PIPE,
stderr=subprocess.PIPE,
env=env,
)
# Wait for health
start = time.time()
while time.time() - start < self.timeout:
if self.process.poll() is not None:
stderr = self.process.stderr.read().decode() if self.process.stderr else ""
raise RuntimeError(f"Server exited early (code {self.process.returncode}): {stderr[:500]}")
if self._check_health():
return self.url
time.sleep(1.0)
self.stop()
raise TimeoutError(f"Server did not become healthy within {self.timeout}s")
def stop(self):
"""Stop the server."""
if self.process:
try:
self.process.send_signal(signal.SIGTERM)
self.process.wait(timeout=10)
except subprocess.TimeoutExpired:
self.process.kill()
self.process.wait(timeout=5)
except Exception:
pass
self.process = None
def __enter__(self) -> "TurboQuantServer":
self.start()
return self
def __exit__(self, *args):
self.stop()
def find_server_binary() -> Optional[str]:
"""Find llama-server binary in common locations."""
candidates = [
Path.home() / "llama-cpp-turboquant" / "build" / "bin" / "llama-server",
Path("/opt/llama-cpp-turboquant/build/bin/llama-server"),
]
for c in candidates:
if c.exists():
return str(c)
# Try PATH
try:
result = subprocess.run(["which", "llama-server"], capture_output=True, text=True)
if result.returncode == 0:
return result.stdout.strip()
except Exception:
pass
return None
def find_model(model_dir: Optional[str] = None) -> Optional[str]:
"""Find a GGUF model file."""
search_dirs = [
model_dir,
os.environ.get("TURBOQUANT_MODEL_DIR"),
str(Path.home() / "models"),
"/opt/models",
"/tmp/models",
]
for d in search_dirs:
if not d:
continue
p = Path(d)
if p.is_file() and p.suffix == ".gguf":
return str(p)
if p.is_dir():
for f in sorted(p.rglob("*.gguf")):
return str(f)
return None

21
tests/test_hardware_optimizer.py
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@@ -1,21 +0,0 @@
#!/usr/bin/env python3
"""Tests for hardware_optimizer compatibility shim."""
import os
import sys
sys.path.insert(0, os.path.dirname(os.path.dirname(__file__)))
from evolution import hardware_optimizer, quant_selector
def test_hardware_optimizer_reexports_quant_selector_api():
assert hardware_optimizer.select_quant_level is quant_selector.select_quant_level
assert hardware_optimizer.detect_hardware is quant_selector.detect_hardware
assert hardware_optimizer.HardwareInfo is quant_selector.HardwareInfo
assert hardware_optimizer.QuantSelection is quant_selector.QuantSelection
def test_hardware_optimizer_exports_quant_level_definitions():
assert hardware_optimizer.QUANT_LEVELS is quant_selector.QUANT_LEVELS
assert hardware_optimizer.QuantLevel is quant_selector.QuantLevel

152
tests/test_m1_benchmark.py Normal file
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@@ -0,0 +1,152 @@
#!/usr/bin/env python3
"""Tests for m1_mac_benchmark.py"""
import json
import os
import sys
import pytest
from unittest.mock import patch, MagicMock
from datetime import datetime, timezone
sys.path.insert(0, os.path.dirname(os.path.dirname(__file__)))
from benchmarks.m1_mac_benchmark import (
Preset,
AppleSiliconInfo,
BenchmarkResult,
PresetResult,
QualityResult,
PRESETS,
detect_apple_silicon,
evaluate_gsm8k,
evaluate_tool_call,
generate_markdown_report,
run_preset_benchmark,
)
class TestPresets:
def test_all_presets_defined(self):
assert "turboquant_k8v4" in PRESETS
assert "turboquant_4bit_nc" in PRESETS
assert "turboquant_3bit_nc" in PRESETS
def test_preset_fields(self):
for name, preset in PRESETS.items():
assert preset.name == name
assert preset.bits_per_channel > 0
assert preset.compression_ratio > 1
assert preset.kv_type
assert preset.description
def test_presets_ordered_by_bits(self):
"""k8v4 should be ~3.5b, 4bit should be 4.0, 3bit should be 3.0."""
assert PRESETS["turboquant_4bit_nc"].bits_per_channel > PRESETS["turboquant_k8v4"].bits_per_channel
assert PRESETS["turboquant_k8v4"].bits_per_channel > PRESETS["turboquant_3bit_nc"].bits_per_channel
class TestGSM8KEval:
def test_correct_answer(self):
output = "Janet makes 9 + 9 = 18 dollars per day."
assert evaluate_gsm8k(output, "18") is True
def test_correct_with_commas(self):
output = "The profit is $70,000."
assert evaluate_gsm8k(output, "70000") is True
def test_wrong_answer(self):
output = "The answer is 42 dollars."
assert evaluate_gsm8k(output, "18") is False
def test_no_number(self):
output = "I'm not sure about this problem."
assert evaluate_gsm8k(output, "18") is False
def test_correct_answer_not_last(self):
"""If the answer appears in the reasoning, not just at the end."""
output = "There are 16 eggs. She eats 3, uses 4. That leaves 9. She sells for $2 each = 18 dollars."
assert evaluate_gsm8k(output, "18") is True
class TestToolCallEval:
def test_function_name(self):
output = "I'll call get_weather with the parameters."
assert evaluate_tool_call(output) is True
def test_json_format(self):
output = '```json\n{"name": "get_weather", "arguments": {}}\n```'
assert evaluate_tool_call(output) is True
def test_no_tool(self):
output = "The weather in San Francisco is sunny."
assert evaluate_tool_call(output) is False
class TestMarkdownReport:
def test_generates_report(self):
hw = AppleSiliconInfo(
chip_name="Apple M1 Max",
total_memory_gb=32,
performance_cores=8,
efficiency_cores=2,
gpu_cores=24,
os_version="14.2",
)
results = [
PresetResult(
preset="turboquant_k8v4",
kv_type="turbo4",
bits_per_channel=3.5,
compression_ratio=4.2,
description="Best quality",
avg_tokens_per_sec=45.2,
peak_memory_mb=8192,
gsm8k_score="2/3 (67%)",
tool_call_accuracy="Yes",
benchmarks=[BenchmarkResult(
preset="turboquant_k8v4",
prompt_id="summarization",
tokens_per_sec=45.2,
time_to_first_token_ms=150,
total_tokens=128,
elapsed_seconds=2.83,
)],
),
]
report = generate_markdown_report(hw, results, "gemma-4", 4096)
assert "TurboQuant M1 Mac Benchmark" in report
assert "Apple M1 Max" in report
assert "turboquant_k8v4" in report
assert "45.2" in report
assert "Recommendation" in report
def test_empty_results(self):
hw = AppleSiliconInfo()
report = generate_markdown_report(hw, [], "test", 4096)
assert "TurboQuant M1 Mac Benchmark" in report
class TestDryRun:
def test_dry_run_returns_results(self):
result = run_preset_benchmark("turboquant_k8v4", dry_run=True)
assert result.preset == "turboquant_k8v4"
assert result.avg_tokens_per_sec > 0
assert result.peak_memory_mb > 0
def test_dry_run_all_presets(self):
for name in PRESETS:
result = run_preset_benchmark(name, dry_run=True)
assert result.preset == name
assert result.avg_tokens_per_sec > 0
class TestHardwareDetection:
@patch("benchmarks.m1_mac_benchmark.platform.system", return_value="Linux")
def test_non_apple(self, mock_system):
hw = detect_apple_silicon()
assert hw.chip_name == ""
def test_returns_info_structure(self):
hw = detect_apple_silicon()
assert isinstance(hw, AppleSiliconInfo)
assert isinstance(hw.total_memory_gb, float)

74
tests/test_markdown_link_check.py
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@@ -1,74 +0,0 @@
import textwrap
from pathlib import Path
from check_markdown_links import find_broken_links
def write(path: Path, content: str) -> None:
path.parent.mkdir(parents=True, exist_ok=True)
path.write_text(textwrap.dedent(content).lstrip(), encoding="utf-8")
def test_reports_missing_local_markdown_target_with_line_number(tmp_path: Path):
write(
tmp_path / "README.md",
"""
# Repo
See [status](docs/status.md).
""",
)
broken = find_broken_links(tmp_path)
assert len(broken) == 1
assert broken[0]["source"].endswith("README.md")
assert broken[0]["line"] == 3
assert broken[0]["target"] == "docs/status.md"
def test_allows_existing_relative_targets(tmp_path: Path):
write(tmp_path / "docs" / "status.md", "# Status\n")
write(
tmp_path / "README.md",
"""
# Repo
See [status](docs/status.md).
""",
)
assert find_broken_links(tmp_path) == []
def test_ignores_external_anchor_mailto_and_tel_links(tmp_path: Path):
write(
tmp_path / "README.md",
"""
[external](https://example.com)
[anchor](#section)
[mail](mailto:test@example.com)
[call](tel:988)
""",
)
assert find_broken_links(tmp_path) == []
def test_ignores_links_inside_fenced_code_blocks(tmp_path: Path):
write(
tmp_path / "README.md",
"""
```md
[broken](docs/missing.md)
```
""",
)
assert find_broken_links(tmp_path) == []
def test_skips_build_directories(tmp_path: Path):
write(tmp_path / "build" / "README.md", "[broken](missing.md)\n")
assert find_broken_links(tmp_path) == []

189
tests/test_quant_selector.py
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@@ -1,189 +0,0 @@
#!/usr/bin/env python3
"""Tests for quant_selector.py"""
import sys
import os
import pytest
from unittest.mock import patch, MagicMock
sys.path.insert(0, os.path.dirname(os.path.dirname(__file__)))
from evolution.quant_selector import (
QuantLevel,
HardwareInfo,
QUANT_LEVELS,
detect_hardware,
estimate_kv_cache_gb,
estimate_model_memory_gb,
select_quant_level,
)
class TestQuantLevels:
def test_levels_ordered_by_quality(self):
"""TurboQuant levels should be ordered from best quality to most aggressive.
The quality ordering invariant for TurboQuant levels is monotonically
increasing compression_ratio (more aggressive = more compression).
Non-TurboQuant fallbacks (e.g. q4_0) are placed after all TurboQuant
levels and may have any compression ratio — they exist as safe defaults,
not as part of the quality progression.
"""
turbo_quant_names = {"turbo4", "turbo3", "turbo2"}
turbo_levels = [l for l in QUANT_LEVELS if l.name in turbo_quant_names]
for i in range(len(turbo_levels) - 1):
assert turbo_levels[i].compression_ratio <= turbo_levels[i + 1].compression_ratio, (
f"TurboQuant {turbo_levels[i].name} (compression={turbo_levels[i].compression_ratio}x) "
f"should have <= compression than {turbo_levels[i+1].name} "
f"(compression={turbo_levels[i+1].compression_ratio}x)"
)
def test_fallback_quant_is_last(self):
"""Non-TurboQuant fallbacks (e.g. q4_0) should be at the end of the list."""
turbo_quant_names = {"turbo4", "turbo3", "turbo2"}
found_fallback = False
for level in QUANT_LEVELS:
if level.name not in turbo_quant_names:
found_fallback = True
elif found_fallback:
pytest.fail(
f"TurboQuant level '{level.name}' appears after a fallback level. "
f"All TurboQuant levels must precede fallbacks."
)
def test_all_levels_have_required_fields(self):
for level in QUANT_LEVELS:
assert level.name
assert level.bits_per_channel > 0
assert level.compression_ratio > 1
assert level.quality_label
assert level.layer_adaptive >= 0
assert level.kv_type
class TestKVEstimate:
def test_basic_estimate(self):
# 48 layers, 8 heads, 128 dim, 32K context, 3.5 bits
kv_gb = estimate_kv_cache_gb(32768, 48, 8, 128, 3.5)
assert kv_gb > 0
assert kv_gb < 10 # Should be reasonable
def test_longer_context_larger(self):
kv_32k = estimate_kv_cache_gb(32768, 48, 8, 128, 3.5)
kv_128k = estimate_kv_cache_gb(131072, 48, 8, 128, 3.5)
assert kv_128k > kv_32k
def test_higher_bits_larger(self):
kv_4b = estimate_kv_cache_gb(32768, 48, 8, 128, 4.0)
kv_2b = estimate_kv_cache_gb(32768, 48, 8, 128, 2.0)
assert kv_4b > kv_2b
class TestHardwareDetection:
def test_detect_returns_info(self):
hw = detect_hardware()
assert hw.total_memory_gb > 0
assert hw.available_memory_gb > 0
assert hw.detection_method
@patch("evolution.quant_selector.platform.system", return_value="Linux")
@patch("builtins.open", create=True)
def test_linux_detection(self, mock_open, mock_system):
mock_open.return_value.__enter__().read.return_value = (
"MemTotal: 32000000 kB\n"
"MemAvailable: 24000000 kB\n"
)
hw = _detect_linux_fallback()
assert hw.total_memory_gb > 20
def _detect_linux_fallback():
"""Helper to test Linux detection with mocked /proc/meminfo."""
from evolution.quant_selector import _detect_linux
return _detect_linux()
class TestSelection:
def test_selects_turbo4_for_large_memory(self):
"""With plenty of memory, should pick turbo4 (best quality)."""
with patch("evolution.quant_selector.detect_hardware") as mock_hw:
mock_hw.return_value = HardwareInfo(
total_memory_gb=64,
available_memory_gb=48,
gpu_memory_gb=64,
gpu_name="Test GPU",
cpu_cores=16,
detection_method="mock",
)
sel = select_quant_level(model_size_gb=14.0, context_length=32768)
assert sel.level.name == "turbo4"
assert sel.headroom_gb > 0
def test_selects_smaller_for_tight_memory(self):
"""With tight memory, should pick a smaller quant."""
with patch("evolution.quant_selector.detect_hardware") as mock_hw:
mock_hw.return_value = HardwareInfo(
total_memory_gb=16,
available_memory_gb=12,
gpu_memory_gb=16,
gpu_name="Test GPU",
cpu_cores=8,
detection_method="mock",
)
sel = select_quant_level(model_size_gb=14.0, context_length=131072)
# Should pick a smaller quant for 128K context on 16GB
assert sel.level.bits_per_channel <= 4.0
def test_preferred_level(self):
"""User can force a specific level."""
with patch("evolution.quant_selector.detect_hardware") as mock_hw:
mock_hw.return_value = HardwareInfo(
total_memory_gb=64,
available_memory_gb=48,
cpu_cores=16,
detection_method="mock",
)
sel = select_quant_level(
model_size_gb=14.0, context_length=32768,
preferred_level="turbo2"
)
assert sel.level.name == "turbo2"
def test_env_vars_populated(self):
with patch("evolution.quant_selector.detect_hardware") as mock_hw:
mock_hw.return_value = HardwareInfo(
total_memory_gb=64,
available_memory_gb=48,
cpu_cores=16,
detection_method="mock",
)
sel = select_quant_level(model_size_gb=14.0, context_length=32768)
assert "TURBO_LAYER_ADAPTIVE" in sel.env_vars
assert "-ctk" in sel.server_flags
assert "-ctv" in sel.server_flags
def test_warnings_on_low_headroom(self):
with patch("evolution.quant_selector.detect_hardware") as mock_hw:
mock_hw.return_value = HardwareInfo(
total_memory_gb=18,
available_memory_gb=14,
gpu_memory_gb=18,
gpu_name="Test GPU",
cpu_cores=8,
detection_method="mock",
)
sel = select_quant_level(model_size_gb=16.0, context_length=65536)
assert len(sel.warnings) > 0
def test_reasoning_contains_key_info(self):
with patch("evolution.quant_selector.detect_hardware") as mock_hw:
mock_hw.return_value = HardwareInfo(
total_memory_gb=32,
available_memory_gb=24,
is_apple_silicon=True,
chip_name="M4 Max",
cpu_cores=16,
detection_method="mock",
)
sel = select_quant_level(model_size_gb=14.0, context_length=32768)
assert "turbo4" in sel.reasoning
assert "M4 Max" in sel.reasoning or "32GB" in sel.reasoning

83
tests/test_smoke_workflow.py
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@@ -1,83 +0,0 @@
"""Tests for smoke workflow CI configuration.
Validates that the GitHub Actions / Gitea Actions smoke workflow
actually runs the standalone CMake build and test suite, not just
parse checks.
"""
from pathlib import Path
import yaml
import pytest
WORKFLOW_PATH = Path(".gitea/workflows/smoke.yml")
@pytest.fixture
def workflow():
"""Load and parse the smoke workflow YAML."""
content = WORKFLOW_PATH.read_text(encoding="utf-8")
return yaml.safe_load(content)
def test_smoke_workflow_exists():
"""Smoke workflow file must exist."""
assert WORKFLOW_PATH.exists(), f"Missing {WORKFLOW_PATH}"
def test_smoke_has_cmake_configure_step(workflow):
"""Smoke workflow must configure the CMake project with tests enabled."""
steps = workflow["jobs"]["smoke"]["steps"]
cmake_found = False
for step in steps:
run = step.get("run", "")
if "cmake -S . -B build" in run and "TURBOQUANT_BUILD_TESTS=ON" in run:
cmake_found = True
break
assert cmake_found, (
"Smoke workflow missing cmake configure step with TURBOQUANT_BUILD_TESTS=ON"
)
def test_smoke_has_cmake_build_step(workflow):
"""Smoke workflow must build the CMake project."""
steps = workflow["jobs"]["smoke"]["steps"]
build_found = False
for step in steps:
run = step.get("run", "")
if "cmake --build build" in run:
build_found = True
break
assert build_found, "Smoke workflow missing cmake --build step"
def test_smoke_has_ctest_step(workflow):
"""Smoke workflow must run ctest."""
steps = workflow["jobs"]["smoke"]["steps"]
ctest_found = False
for step in steps:
run = step.get("run", "")
if "ctest" in run and "output-on-failure" in run:
ctest_found = True
break
assert ctest_found, "Smoke workflow missing ctest --output-on-failure step"
def test_smoke_build_before_secret_scan(workflow):
"""Build and test steps must run before secret scan (fail fast on build errors)."""
steps = workflow["jobs"]["smoke"]["steps"]
names = [s.get("name", "") for s in steps]
build_idx = None
scan_idx = None
for i, name in enumerate(names):
if "cmake" in name.lower() or "build" in name.lower():
if build_idx is None:
build_idx = i
if "secret" in name.lower():
scan_idx = i
if build_idx is not None and scan_idx is not None:
assert build_idx < scan_idx, (
"Build step should run before secret scan to fail fast on broken code"
)

338
tests/test_tool_call_integration.py
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@@ -1,338 +0,0 @@
"""
Integration test: turboquant compressed model passes hermes tool calls (issue #82).
Validates that a TurboQuant-compressed model can:
1. Parse hermes tool schemas correctly
2. Format tool calls in OpenAI-compatible format
3. Pass through the hermes agent conversation loop
Tests are structured as contract tests -- they validate the schema/format
compatibility without requiring a running model server. The live inference
test is skipped by default (requires llama-server with TurboQuant model).
Usage:
pytest tests/test_tool_call_integration.py -v
pytest tests/test_tool_call_integration.py -v -k live # run live test if server available
"""
import json
import os
import pathlib
import re
import unittest
import pytest
ROOT = pathlib.Path(__file__).resolve().parents[1]
PROFILE_PATH = ROOT / "profiles" / "hermes-profile-gemma4-turboquant.yaml"
BENCHMARKS_DIR = ROOT / "benchmarks"
class TestHermesProfileSchema(unittest.TestCase):
"""Validate the hermes profile YAML has required fields for tool calling."""
@classmethod
def setUpClass(cls):
import yaml
cls.profile = yaml.safe_load(PROFILE_PATH.read_text())
def test_profile_has_providers(self):
assert "providers" in self.profile, "Profile must define providers"
assert "primary" in self.profile["providers"], "Must have primary provider"
def test_primary_provider_has_endpoint(self):
primary = self.profile["providers"]["primary"]
assert "endpoint" in primary, "Primary provider must have endpoint"
assert primary["endpoint"].startswith("http"), "Endpoint must be HTTP(S) URL"
def test_primary_provider_has_api_path(self):
primary = self.profile["providers"]["primary"]
assert "api_path" in primary, "Primary provider must have api_path"
assert "/chat/completions" in primary["api_path"], (
"api_path should be OpenAI-compatible /chat/completions"
)
def test_turboquant_settings_present(self):
primary = self.profile["providers"]["primary"]
assert "turboquant" in primary, "Must have turboquant config section"
tq = primary["turboquant"]
assert tq.get("enabled") is True, "TurboQuant must be enabled"
assert tq.get("kv_type") in ("turbo2", "turbo3", "turbo4"), (
"kv_type must be turbo2, turbo3, or turbo4"
)
def test_context_window_configured(self):
primary = self.profile["providers"]["primary"]
assert "context" in primary, "Must have context config"
ctx = primary["context"]
assert ctx.get("max_tokens", 0) >= 8192, (
"max_tokens should be >= 8192 for TurboQuant value proposition"
)
class TestToolSchemaCompatibility(unittest.TestCase):
"""Verify hermes tool schemas serialize to valid JSON for OpenAI tool_calls."""
SAMPLE_TOOL_SCHEMAS = [
{
"type": "function",
"function": {
"name": "read_file",
"description": "Read a text file with line numbers.",
"parameters": {
"type": "object",
"properties": {
"path": {"type": "string", "description": "File path"},
"offset": {"type": "integer", "default": 1},
"limit": {"type": "integer", "default": 500},
},
"required": ["path"],
},
},
},
{
"type": "function",
"function": {
"name": "execute_code",
"description": "Run a Python script.",
"parameters": {
"type": "object",
"properties": {
"code": {"type": "string", "description": "Python code"},
},
"required": ["code"],
},
},
},
{
"type": "function",
"function": {
"name": "web_search",
"description": "Search the web.",
"parameters": {
"type": "object",
"properties": {
"query": {"type": "string"},
"max_results": {"type": "integer", "default": 5},
},
"required": ["query"],
},
},
},
]
def test_tool_schemas_serialize_to_json(self):
"""Tool schemas must serialize without errors."""
serialized = json.dumps(self.SAMPLE_TOOL_SCHEMAS)
assert len(serialized) > 0
parsed = json.loads(serialized)
assert len(parsed) == len(self.SAMPLE_TOOL_SCHEMAS)
def test_tool_schemas_have_required_openai_fields(self):
"""Each tool schema must have the fields OpenAI expects."""
for tool in self.SAMPLE_TOOL_SCHEMAS:
assert tool["type"] == "function", "Tool type must be 'function'"
fn = tool["function"]
assert "name" in fn, "Function must have name"
assert "description" in fn, "Function must have description"
assert "parameters" in fn, "Function must have parameters"
params = fn["parameters"]
assert params["type"] == "object", "Parameters type must be 'object'"
assert "properties" in params, "Parameters must have properties"
def test_tool_call_response_format(self):
"""Verify tool_call response matches OpenAI format."""
tool_call = {
"id": "call_abc123",
"type": "function",
"function": {
"name": "read_file",
"arguments": json.dumps({"path": "/tmp/test.txt"}),
},
}
args = json.loads(tool_call["function"]["arguments"])
assert args["path"] == "/tmp/test.txt"
assert tool_call["function"]["name"] in [
t["function"]["name"] for t in self.SAMPLE_TOOL_SCHEMAS
]
def test_tool_names_are_valid_identifiers(self):
"""Tool names must be valid Python identifiers for hermes dispatch."""
for tool in self.SAMPLE_TOOL_SCHEMAS:
name = tool["function"]["name"]
assert re.match(r"^[a-zA-Z_][a-zA-Z0-9_]*$", name), (
f"Tool name \'{name}\' is not a valid identifier"
)
class TestTurboquantServerConfig(unittest.TestCase):
"""Validate server startup configuration matches hermes profile."""
def test_server_command_has_turboquant_flags(self):
"""The server command in the profile must include -ctk/-ctv flags."""
profile_text = PROFILE_PATH.read_text()
assert "-ctk" in profile_text, "Profile server command must include -ctk flag"
assert "-ctv" in profile_text, "Profile server command must include -ctv flag"
def test_server_command_has_context_flag(self):
"""Server command must set context size."""
profile_text = PROFILE_PATH.read_text()
assert re.search(r"-c\s+\d+", profile_text), (
"Server command must include -c <context_size> flag"
)
def test_layer_adaptive_env_var(self):
"""Profile must set TURBO_LAYER_ADAPTIVE env var."""
profile_text = PROFILE_PATH.read_text()
assert "TURBO_LAYER_ADAPTIVE" in profile_text, (
"Profile must configure TURBO_LAYER_ADAPTIVE"
)
class TestBenchmarkData(unittest.TestCase):
"""Validate benchmark test prompts include tool-call test cases."""
@classmethod
def setUpClass(cls):
prompts_path = BENCHMARKS_DIR / "test_prompts.json"
cls.prompts = json.loads(prompts_path.read_text())
def test_has_tool_call_test_prompt(self):
"""Benchmark prompts must include a tool-call format test."""
categories = [p.get("category") for p in self.prompts]
assert "tool_call_format" in categories, (
"Benchmark must include a tool_call_format test case"
)
def test_tool_call_prompt_expects_json(self):
"""Tool call test prompt must expect JSON in the response."""
tool_prompt = next(
p for p in self.prompts if p.get("category") == "tool_call_format"
)
pattern = tool_prompt.get("expected_pattern", "")
assert "json" in pattern.lower() or "\\{" in pattern, (
"Tool call prompt must expect JSON-formatted response"
)
@pytest.mark.skipif(
not os.environ.get("TURBOQUANT_SERVER_URL"),
reason="No TurboQuant server available (set TURBOQUANT_SERVER_URL to run)",
)
class TestLiveToolCallIntegration:
"""Live integration test -- requires running llama-server with TurboQuant."""
def test_server_health(self):
"""Server must respond to /v1/models endpoint."""
import requests
url = os.environ["TURBOQUANT_SERVER_URL"]
resp = requests.get(f"{url}/v1/models", timeout=10)
assert resp.status_code == 200
data = resp.json()
assert "data" in data
assert len(data["data"]) > 0
def test_tool_call_completion(self):
"""Model must return a valid tool_call for a read_file prompt."""
import requests
url = os.environ["TURBOQUANT_SERVER_URL"]
tools = [
{
"type": "function",
"function": {
"name": "read_file",
"description": "Read a file",
"parameters": {
"type": "object",
"properties": {"path": {"type": "string"}},
"required": ["path"],
},
},
}
]
resp = requests.post(
f"{url}/v1/chat/completions",
json={
"model": "gemma-4",
"messages": [
{"role": "user", "content": "Read the file at /tmp/test.txt"}
],
"tools": tools,
"tool_choice": "auto",
},
timeout=120,
)
assert resp.status_code == 200
data = resp.json()
choice = data["choices"][0]
msg = choice["message"]
if "tool_calls" in msg and msg["tool_calls"]:
tc = msg["tool_calls"][0]
assert tc["type"] == "function"
assert tc["function"]["name"] == "read_file"
args = json.loads(tc["function"]["arguments"])
assert "path" in args
else:
assert len(msg.get("content", "")) > 0
def test_tool_call_with_multiple_tools(self):
"""Model must handle multiple available tools."""
import requests
url = os.environ["TURBOQUANT_SERVER_URL"]
tools = [
{
"type": "function",
"function": {
"name": "read_file",
"description": "Read a file",
"parameters": {
"type": "object",
"properties": {"path": {"type": "string"}},
"required": ["path"],
},
},
},
{
"type": "function",
"function": {
"name": "web_search",
"description": "Search the web",
"parameters": {
"type": "object",
"properties": {"query": {"type": "string"}},
"required": ["query"],
},
},
},
{
"type": "function",
"function": {
"name": "execute_code",
"description": "Run Python code",
"parameters": {
"type": "object",
"properties": {"code": {"type": "string"}},
"required": ["code"],
},
},
},
]
resp = requests.post(
f"{url}/v1/chat/completions",
json={
"model": "gemma-4",
"messages": [
{"role": "user", "content": "Search the web for 'bitcoin price'"}
],
"tools": tools,
"tool_choice": "auto",
},
timeout=120,
)
assert resp.status_code == 200
data = resp.json()
assert "choices" in data
assert len(data["choices"]) > 0
if __name__ == "__main__":
unittest.main()