huggingface-best
$
npx mdskill add huggingface/skills/huggingface-bestRecommend optimal AI models by benchmark scores and hardware fit.
- Helps users select top-performing models for specific tasks.
- Integrates with HuggingFace benchmark leaderboards and model metadata.
- Filters candidates by device memory and task requirements.
- Delivers a comparison table with scores and hardware specs.
SKILL.md
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---
name: huggingface-best
description: >
Use when the user asks about finding the best, top, or recommended model for a task,
wants to know what AI model to use, or wants to compare models by benchmark scores.
Triggers on: "best model for X", "what model should I use for", "top models for [task]",
"which model runs on my laptop/machine/device", "recommend a model for", "what LLM should
I use for", "compare models for", "what's state of the art for", or any question about
choosing an AI model for a specific use case. Always use this skill when the user wants
model recommendations or comparisons, even if they don't explicitly mention HuggingFace
or benchmarks.
---
# HuggingFace Best Model Finder
Finds the best models for a task by querying official HF benchmark leaderboards, enriching
results with model size data, filtering for what fits on the user's device, and returning a
comparison table with benchmark scores.
---
## Step 1: Parse the request
Extract from the user's message:
- **Task**: what they want the model to do (coding, math/reasoning, chat, OCR, RAG/retrieval, speech recognition, image classification, multimodal, agents, etc.)
- **Device**: hardware constraints (MacBook M-series 8/16/32/64GB unified memory, RTX GPU with VRAM amount, CPU-only, cloud/no constraint, etc.)
If device is not mentioned, skip filtering entirely and return the highest-performing models regardless of size. If the task is genuinely ambiguous, ask one clarifying question.
### Device → max parameter budget
When a device is specified, extract its available memory (unified RAM for Apple Silicon, VRAM for discrete GPUs) and apply:
- **fp16 max params (B)** ≈ memory (GB) ÷ 2
- **Q4 max params (B)** ≈ memory (GB) × 2
Examples: 16GB → 8B fp16 / 32B Q4 — 24GB VRAM → 12B fp16 / 48B Q4 — 8GB → 4B fp16 / 16B Q4
---
## Step 2: Find relevant benchmark datasets
Fetch the full list of official HF benchmarks:
```bash
curl -s -H "Authorization: Bearer $(cat ~/.cache/huggingface/token)" \
"https://huggingface.co/api/datasets?filter=benchmark:official&limit=500" | jq '[.[] | {id, tags, description}]'
```
Read the returned list and select the datasets most relevant to the user's task — match on dataset id, tags, and description. Use your judgment; don't limit yourself to 2-3. Aim for comprehensive coverage: if 5 benchmarks clearly cover the task, use all 5.
---
## Step 3: Fetch top models from leaderboards
For each selected benchmark dataset:
```bash
curl -s -H "Authorization: Bearer $(cat ~/.cache/huggingface/token)" \
"https://huggingface.co/api/datasets/<namespace>/<repo>/leaderboard" | jq '[.[:15] | .[] | {rank, modelId, value, verified}]'
```
Collect model IDs and scores across all benchmarks. If a leaderboard returns an error (404, 401, etc.), skip it and note it in the output.
---
## Step 4: Enrich with model metadata
For the top 10-15 candidate model IDs, get model infos.
```bash
# REST API
curl -s -H "Authorization: Bearer $(cat ~/.cache/huggingface/token)" \
"https://huggingface.co/api/models/org/model1" | jq '{safetensors, tags, cardData}'
# CLI (hf-cli)
hf models info org/model1 --json | jq '{safetensors, tags, cardData}'
```
Extract from each response:
- **Parameters**: `safetensors.total` → convert to B (e.g., 7_241_748_480 → "7.2B")
- **License**: from model card tags (look for `license:apache-2.0`, `license:mit`, etc.)
- If `safetensors` is absent, parse size from the model name (look for "7b", "8b", "13b", "70b", "72b", etc.)
---
## Step 5: Filter and rank
**If a device was specified:**
1. Remove models exceeding the fp16 parameter budget for the device
2. Flag models that fit only with Q4 quantization (multiply budget by ~4 for Q4 capacity)
3. If a highly-ranked model is slightly over budget, keep it with a "needs Q4" note — don't silently drop it
**If no device was mentioned:** skip all size filtering — just rank by benchmark score.
Then: rank by benchmark score (descending), keep top 5-8 models.
Include proprietary models (GPT-4, Claude, Gemini) if they appear on leaderboards, but flag them as "API only / not self-hostable". If the user explicitly asked for local/open models only, exclude them.
---
## Step 6: Output
### Comparison table
```markdown
| # | Model | Params | [Benchmark 1] | [Benchmark 2] | License | On device |
|---|-------|--------|--------------|--------------|---------|-----------|
| ⭐1 | [org/name](https://huggingface.co/org/name) | 7B | 85.2% | — | Apache 2.0 | Yes (fp16) |
| 2 | [org/name](https://huggingface.co/org/name) | 13B | 83.1% | 71.5% | MIT | Q4 only |
| 3 | [org/name](https://huggingface.co/org/name) | 70B | 90.0% | 81.0% | Llama | Too large |
```
- Link model names to `https://huggingface.co/<model_id>`
- Use `—` for benchmarks where the model wasn't evaluated
- Star the top recommended pick with ⭐
- "On device" values: `Yes (fp16)`, `Q4 only`, `Too large`, `API only`
### Follow-up
After presenting the table, ask the user: "Would you like to run **[top recommended model]**?"
If they say yes, ask whether they'd prefer to:
- **Run locally** — ask about their device if not already known, then give appropriate setup instructions
- **Run on HF Jobs** — point them to the HF Jobs guide: https://huggingface.co/docs/huggingface_hub/en/guides/jobs
---
## Error handling
- **Leaderboard not found**: skip, note "leaderboard unavailable" in output
- **Model missing from hub_repo_details**: fall back to parsing size from model name
- **No benchmarks found for task**: use the curated fallback table above, or try `hub_repo_search` with `filters=["<task>"]` sorted by `trendingScore`
- **All leaderboards fail**: fall back to `hub_repo_search` for popular models tagged with the task, note that results are by popularity rather than benchmark score
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