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huggingface-llm-trainer

✓ Official4,081

by openai · part of openai/plugins

This skill should be used when users want to train or fine-tune language models using TRL (Transformer Reinforcement Learning) on Hugging Face Jobs infrastructure. Covers SFT, DPO, GRPO and reward modeling training methods, plus GGUF conversion for local deployment. Includes guidance on the TRL Jobs package, UV scripts with PEP 723 format, dataset preparation and validation, hardware selection, cost estimation, Trackio monitoring, Hub authentication, and model persistence. Should be invoked for

🧩 One of 7 skills in the openai/plugins package — works on its own, and pairs well with its siblings.

This is the playbook your agent receives when the skill activates — you don't need to read it to use the skill, but it's here to audit before installing.

TRL Training on Hugging Face Jobs

Overview

Train language models using TRL (Transformer Reinforcement Learning) on fully managed Hugging Face infrastructure. No local GPU setup required—models train on cloud GPUs and results are automatically saved to the Hugging Face Hub.

TRL provides multiple training methods:

  • SFT (Supervised Fine-Tuning) - Standard instruction tuning
  • DPO (Direct Preference Optimization) - Alignment from preference data
  • GRPO (Group Relative Policy Optimization) - Online RL training
  • Reward Modeling - Train reward models for RLHF

For detailed TRL method documentation:

hf_doc_search("your query", product="trl")
hf_doc_fetch("https://huggingface.co/docs/trl/sft_trainer")  # SFT
hf_doc_fetch("https://huggingface.co/docs/trl/dpo_trainer")  # DPO
# etc.

See also: references/training_methods.md for method overviews and selection guidance

When to Use This Skill

Use this skill when users want to:

  • Fine-tune language models on cloud GPUs without local infrastructure
  • Train with TRL methods (SFT, DPO, GRPO, etc.)
  • Run training jobs on Hugging Face Jobs infrastructure
  • Convert trained models to GGUF for local deployment (Ollama, LM Studio, llama.cpp)
  • Ensure trained models are permanently saved to the Hub
  • Use modern workflows with optimized defaults

When to Use Unsloth

Use Unsloth (references/unsloth.md) instead of standard TRL when:

  • Limited GPU memory - Unsloth uses ~60% less VRAM
  • Speed matters - Unsloth is ~2x faster
  • Training large models (>13B) - memory efficiency is critical
  • Training Vision-Language Models (VLMs) - Unsloth has FastVisionModel support

See references/unsloth.md for complete Unsloth documentation and scripts/unsloth_sft_example.py for a production-ready training script.

Key Directives

When assisting with training jobs:

  1. ALWAYS use hf_jobs() MCP tool - Submit jobs using hf_jobs("uv", {...}), NOT bash trl-jobs commands. The script parameter accepts Python code directly. Do NOT save to local files unless the user explicitly requests it. Pass the script content as a string to hf_jobs(). If user asks to "train a model", "fine-tune", or similar requests, you MUST create the training script AND submit the job immediately using hf_jobs().

  2. Always include Trackio - Every training script should include Trackio for real-time monitoring. Use example scripts in scripts/ as templates.

  3. Provide job details after submission - After submitting, provide job ID, monitoring URL, estimated time, and note that the user can request status checks later.

  4. Use example scripts as templates - Reference scripts/train_sft_example.py, scripts/train_dpo_example.py, etc. as starting points.

Local Script Execution

Repository scripts use PEP 723 inline dependencies. Run them with uv run:

uv run scripts/estimate_cost.py --help
uv run scripts/dataset_inspector.py --help

Asynchronous Job Guidelines

⚠️ IMPORTANT: Training jobs run asynchronously and can take hours

Action Required

When user requests training:

  1. Create the training script with Trackio included (use scripts/train_sft_example.py as template)
  2. Submit immediately using hf_jobs() MCP tool with script content inline - don't save to file unless user requests
  3. Report submission with job ID, monitoring URL, and estimated time
  4. Wait for user to request status checks - don't poll automatically

Ground Rules

  • Jobs run in background - Submission returns immediately; training continues independently
  • Initial logs delayed - Can take 30-60 seconds for logs to appear
  • User checks status - Wait for user to request status updates
  • Avoid polling - Check logs only on user request; provide monitoring links instead

After Submission

Provide to user:

  • ✅ Job ID and monitoring URL
  • ✅ Expected completion time
  • ✅ Trackio dashboard URL
  • ✅ Note that user can request status checks later

Example Response:

✅ Job submitted successfully!

Job ID: abc123xyz
Monitor: https://huggingface.co/jobs/username/abc123xyz

Expected time: ~2 hours
Estimated cost: ~$10

The job is running in the background. Ask me to check status/logs when ready!

Hardware Selection

Model SizeRecommended HardwareCost (approx/hr)Use Case
<1B paramst4-small~$0.75Demos, quick tests only without eval steps
1-3B paramst4-medium, l4x1~$1.50-2.50Development
3-7B paramsa10g-small, a10g-large~$3.50-5.00Production training
7-13B paramsa10g-large, a100-large~$5-10Large models (use LoRA)
13B+ paramsa100-large, a10g-largex2~$10-20Very large (use LoRA)

GPU Flavors: cpu-basic/upgrade/performance/xl, t4-small/medium, l4x1/x4, a10g-small/large/largex2/largex4, a100-large, h100/h100x8

Guidelines:

  • Use LoRA/PEFT for models >7B to reduce memory
  • Multi-GPU automatically handled by TRL/Accelerate
  • Start with smaller hardware for testing

See: references/hardware_guide.md for detailed specifications

Critical: Saving Results to Hub

⚠️ EPHEMERAL ENVIRONMENT—MUST PUSH TO HUB

The Jobs environment is temporary. All files are deleted when the job ends. If the model isn't pushed to Hub, ALL TRAINING IS LOST.

Required Configuration

In training script/config:

SFTConfig(
    push_to_hub=True,
    hub_model_id="username/model-name",  # MUST specify
    hub_strategy="every_save",  # Optional: push checkpoints
)

In job submission:

{
    "secrets": {"HF_TOKEN": "$HF_TOKEN"}  # Enables authentication
}

Verification Checklist

Before submitting:

  • push_to_hub=True set in config
  • hub_model_id includes username/repo-name
  • secrets parameter includes HF_TOKEN
  • User has write access to target repo

See: references/hub_saving.md for detailed troubleshooting

Timeout Management

⚠️ DEFAULT: 30 MINUTES—TOO SHORT FOR TRAINING

Setting Timeouts

{
    "timeout": "2h"   # 2 hours (formats: "90m", "2h", "1.5h", or seconds as integer)
}

Timeout Guidelines

ScenarioRecommendedNotes
Quick demo (50-100 examples)10-30 minVerify setup
Development training1-2 hoursSmall datasets
Production (3-7B model)4-6 hoursFull datasets
Large model with LoRA3-6 hoursDepends on dataset

Always add 20-30% buffer for model/dataset loading, checkpoint saving, Hub push operations, and network delays.

On timeout: Job killed immediately, all unsaved progress lost, must restart from beginning

Cost Estimation

Offer to estimate cost when planning jobs with known parameters. Use scripts/estimate_cost.py:

uv run scripts/estimate_cost.py \
  --model meta-llama/Llama-2-7b-hf \
  --dataset trl-lib/Capybara \
  --hardware a10g-large \
  --dataset-size 16000 \
  --epochs 3

Output includes estimated time, cost, recommended timeout (with buffer), and optimization suggestions.

When to offer: User planning a job, asks about cost/time, choosing hardware, job will run >1 hour or cost >$5

Example Training Scripts

Production-ready templates with all best practices:

Load these scripts for correctly:

  • scripts/train_sft_example.py - Complete SFT training with Trackio, LoRA, checkpoints
  • scripts/train_dpo_example.py - DPO training for preference learning
  • scripts/train_grpo_example.py - GRPO training for online RL

These scripts demonstrate proper Hub saving, Trackio integration, checkpoint management, and optimized parameters. Pass their content inline to hf_jobs() or use as templates for custom scripts.

Monitoring and Tracking

Trackio provides real-time metrics visualization. See references/trackio_guide.md for complete setup guide.

Key points:

  • Add trackio to dependencies
  • Configure trainer with report_to="trackio" and run_name="meaningful_name"

Trackio Configuration Defaults

Use sensible defaults unless user specifies otherwise. When generating training scripts with Trackio:

Default Configuration:

  • Space ID: {username}/trackio (use "trackio" as default space name)
  • Run naming: Unless otherwise specified, name the run in a way the user will recognize (e.g., descriptive of the task, model, or purpose)
  • Config: Keep minimal - only include hyperparameters and model/dataset info
  • Project Name: Use a Project Name to associate runs with a particular Project

User overrides: If user requests specific trackio configuration (custom space, run naming, grouping, or additional config), apply their preferences instead of defaults.

This is useful for managing multiple jobs with the same configuration or keeping training scripts portable.

See references/trackio_guide.md for complete documentation including grouping runs for experiments.

Check Job Status

# List all jobs
hf_jobs("ps")

# Inspect specific job
hf_jobs("inspect", {"job_id": "your-job-id"})

# View logs
hf_jobs("logs", {"job_id": "your-job-id"})

Remember: Wait for user to request status checks. Avoid polling repeatedly.

Dataset Validation

Validate dataset format BEFORE launching GPU training to prevent the #1 cause of training failures: format mismatches.

Why Validate

  • 50%+ of training failures are due to dataset format issues
  • DPO especially strict: requires exact column names (prompt, chosen, rejected)
  • Failed GPU jobs waste $1-10 and 30-60 minutes
  • Validation on CPU costs ~$0.01 and takes <1 minute

When to Validate

ALWAYS validate for:

  • Unknown or custom datasets
  • DPO training (CRITICAL - 90% of datasets need mapping)
  • Any dataset not explicitly TRL-compatible

Skip validation for known TRL datasets:

  • trl-lib/ultrachat_200k, trl-lib/Capybara, HuggingFaceH4/ultrachat_200k, etc.

Usage

hf_jobs("uv", {
    "script": "https://huggingface.co/datasets/mcp-tools/skills/raw/main/dataset_inspector.py",
    "script_args": ["--dataset", "username/dataset-name", "--split", "train"]
})

The script is fast, and will usually complete synchronously.

Reading Results

The output shows compatibility for each training method:

  • ✓ READY - Dataset is compatible, use directly
  • ✗ NEEDS MAPPING - Compatible but needs preprocessing (mapping code provided)
  • ✗ INCOMPATIBLE - Cannot be used for this method

When mapping is needed, the output includes a "MAPPING CODE" section with copy-paste ready Python code.

Example Workflow

# 1. Inspect dataset (costs ~$0.01, <1 min on CPU)
hf_jobs("uv", {
    "script": "https://huggingface.co/datasets/mcp-tools/skills/raw/main/dataset_inspector.py",
    "script_args": ["--dataset", "argilla/distilabel-math-preference-dpo", "--split", "train"]
})

# 2. Check output markers:
#    ✓ READY → proceed with training
#    ✗ NEEDS MAPPING → apply mapping code below
#    ✗ INCOMPATIBLE → choose different method/dataset

# 3. If mapping needed, apply before training:
def format_for_dpo(example):
    return {
        'prompt': example['instruction'],
        'chosen': example['chosen_response'],
        'rejected': example['rejected_response'],
    }
dataset = dataset.map(format_for_dpo, remove_columns=dataset.column_names)

# 4. Launch training job with confidence

Common Scenario: DPO Format Mismatch

Most DPO datasets use non-standard column names. Example:

Dataset has: instruction, chosen_response, rejected_response
DPO expects: prompt, chosen, rejected

The validator detects this and provides exact mapping code to fix it.

Converting Models to GGUF

After training, convert models to GGUF format for use with llama.cpp, Ollama, LM Studio, and other local inference tools.

What is GGUF:

  • Optimized for CPU/GPU inference with llama.cpp
  • Supports quantization (4-bit, 5-bit, 8-bit) to reduce model size
  • Compatible with Ollama, LM Studio, Jan, GPT4All, llama.cpp
  • Typically 2-8GB for 7B models (vs 14GB unquantized)

When to convert:

  • Running models locally with Ollama or LM Studio
  • Reducing model size with quantization
  • Deploying to edge devices
  • Sharing models for local-first use

See: references/gguf_conversion.md for complete conversion guide, including production-ready conversion script, quantization options, hardware requirements, usage examples, and troubleshooting.

Quick conversion:

hf_jobs("uv", {
    "script": "<see references/gguf_conversion.md for complete script>",
    "flavor": "a10g-large",
    "timeout": "45m",
    "secrets": {"HF_TOKEN": "$HF_TOKEN"},
    "env": {
        "ADAPTER_MODEL": "username/my-finetuned-model",
        "BASE_MODEL": "Qwen/Qwen2.5-0.5B",
        "OUTPUT_REPO": "username/my-model-gguf"
    }
})

Common Training Patterns

See references/training_patterns.md for detailed examples including:

  • Quick demo (5-10 minutes)
  • Production with checkpoints
  • Multi-GPU training
  • DPO training (preference learning)
  • GRPO training (online RL)

Common Failure Modes

Out of Memory (OOM)

Fix (try in order):

  1. Reduce batch size: per_device_train_batch_size=1, increase gradient_accumulation_steps=8. Effective batch size is per_device_train_batch_size x gradient_accumulation_steps. For best performance keep effective batch size close to 128.
  2. Enable: gradient_checkpointing=True
  3. Upgrade hardware: t4-small → l4x1, a10g-small → a10g-large etc.

Dataset Misformatted

Fix:

  1. Validate first with dataset inspector:
    uv run https://huggingface.co/datasets/mcp-tools/skills/raw/main/dataset_inspector.py \
      --dataset name --split train
  2. Check output for compatibility markers (✓ READY, ✗ NEEDS MAPPING, ✗ INCOMPATIBLE)
  3. Apply mapping code from inspector output if needed

Job Timeout

Fix:

  1. Check logs for actual runtime: hf_jobs("logs", {"job_id": "..."})
  2. Increase timeout with buffer: "timeout": "3h" (add 30% to estimated time)
  3. Or reduce training: lower num_train_epochs, use smaller dataset, enable max_steps
  4. Save checkpoints: save_strategy="steps", save_steps=500, hub_strategy="every_save"

Note: Default 30min is insufficient for real training. Minimum 1-2 hours.

Hub Push Failures

Fix:

  1. Add to job: secrets={"HF_TOKEN": "$HF_TOKEN"}
  2. Add to config: push_to_hub=True, hub_model_id="username/model-name"
  3. Verify auth: hf_whoami()
  4. Check token has write permissions and repo exists (or set hub_private_repo=True)

Missing Dependencies

Fix: Add to PEP 723 header:

# /// script
# dependencies = ["trl>=0.12.0", "peft>=0.7.0", "trackio", "missing-package"]
# ///

Resources

References (In This Skill)

  • references/training_methods.md - Overview of SFT, DPO, GRPO, KTO, PPO, Reward Modeling
  • references/training_patterns.md - Common training patterns and examples
  • references/unsloth.md - Unsloth for fast VLM training (~2x speed, 60% less VRAM)
  • references/gguf_conversion.md - Complete GGUF conversion guide
  • references/trackio_guide.md - Trackio monitoring setup
  • references/hardware_guide.md - Hardware specs and selection
  • references/hub_saving.md - Hub authentication troubleshooting
  • references/troubleshooting.md - Common issues and solutions
  • references/local_training_macos.md - Local training on macOS

Scripts (In This Skill)

  • scripts/train_sft_example.py - Production SFT template
  • scripts/train_dpo_example.py - Production DPO template
  • scripts/train_grpo_example.py - Production GRPO template
  • scripts/unsloth_sft_example.py - Unsloth text LLM training template (faster, less VRAM)
  • scripts/estimate_cost.py - Estimate time and cost (offer when appropriate)
  • scripts/convert_to_gguf.py - Complete GGUF conversion script

External Scripts

  • Dataset Inspector - Validate dataset format before training (use via uv run or hf_jobs)

Key Takeaways

  1. Submit scripts inline - The script parameter accepts Python code directly; no file saving required unless user requests
  2. Jobs are asynchronous - Don't wait/poll; let user check when ready
  3. Always set timeout - Default 30 min is insufficient; minimum 1-2 hours recommended
  4. Always enable Hub push - Environment is ephemeral; without push, all results lost
  5. Include Trackio - Use example scripts as templates for real-time monitoring
  6. Offer cost estimation - When parameters are known, use scripts/estimate_cost.py
  7. Use UV scripts (Approach 1) - Default to hf_jobs("uv", {...}) with inline scripts; TRL maintained scripts for standard training; avoid bash trl-jobs commands in Codex
  8. Use hf_doc_fetch/hf_doc_search for latest TRL documentation
  9. Validate dataset format before training with dataset inspector (see Dataset Validation section)
  10. Choose appropriate hardware for model size; use LoRA for models >7B