Agent Skillssynthetic-sciences/openscience › grpo-rl-training

grpo-rl-training

GitHub

提供基于TRL库的GRPO强化学习微调专家指南。涵盖算法原理、奖励函数设计哲学及数据集准备流程,适用于格式约束、可验证任务及推理能力优化,无需独立奖励模型,比PPO更高效且易于调试。

backend/cli/skills/ml-training/grpo-rl-training/SKILL.md synthetic-sciences/openscience

Trigger Scenarios

需要进行大语言模型的强化学习微调 需要强制输出特定结构化格式 需要提升模型的逻辑推理能力 缺乏标注偏好数据但拥有可验证的奖励信号

Install

npx skills add synthetic-sciences/openscience --skill grpo-rl-training -g -y
More Options

Non-standard path

npx skills add https://github.com/synthetic-sciences/openscience/tree/main/backend/cli/skills/ml-training/grpo-rl-training -g -y

Use without installing

npx skills use synthetic-sciences/openscience@grpo-rl-training

指定 Agent (Claude Code)

npx skills add synthetic-sciences/openscience --skill grpo-rl-training -a claude-code -g -y

安装 repo 全部 skill

npx skills add synthetic-sciences/openscience --all -g -y

预览 repo 内 skill

npx skills add synthetic-sciences/openscience --list

SKILL.md

Frontmatter
{
    "name": "grpo-rl-training",
    "tags": [
        "Post-Training",
        "Reinforcement Learning",
        "GRPO",
        "TRL",
        "RLHF",
        "Reward Modeling",
        "Reasoning",
        "DPO",
        "PPO",
        "Structured Output"
    ],
    "author": "Synthetic Sciences",
    "license": "MIT",
    "version": "1.0.0",
    "category": "ml-training",
    "description": "Expert guidance for GRPO\/RL fine-tuning with TRL for reasoning and task-specific model training",
    "dependencies": [
        "transformers>=4.47.0",
        "trl>=0.14.0",
        "datasets>=3.2.0",
        "peft>=0.14.0",
        "torch"
    ]
}

GRPO/RL Training with TRL

Expert-level guidance for implementing Group Relative Policy Optimization (GRPO) using the Transformer Reinforcement Learning (TRL) library. This skill provides battle-tested patterns, critical insights, and production-ready workflows for fine-tuning language models with custom reward functions.

When to Use This Skill

Use GRPO training when you need to:

  • Enforce specific output formats (e.g., XML tags, JSON, structured reasoning)
  • Teach verifiable tasks with objective correctness metrics (math, coding, fact-checking)
  • Improve reasoning capabilities by rewarding chain-of-thought patterns
  • Align models to domain-specific behaviors without labeled preference data
  • Optimize for multiple objectives simultaneously (format + correctness + style)

Do NOT use GRPO for:

  • Simple supervised fine-tuning tasks (use SFT instead)
  • Tasks without clear reward signals
  • When you already have high-quality preference pairs (use DPO/PPO instead)

Core Concepts

1. GRPO Algorithm Fundamentals

Key Mechanism:

  • Generates multiple completions for each prompt (group size: 4-16)
  • Compares completions within each group using reward functions
  • Updates policy to favor higher-rewarded responses relative to the group

Critical Difference from PPO:

  • No separate reward model needed
  • More sample-efficient (learns from within-group comparisons)
  • Simpler to implement and debug

Mathematical Intuition:

For each prompt p:
  1. Generate N completions: {c₁, c₂, ..., cₙ}
  2. Compute rewards: {r₁, r₂, ..., rₙ}
  3. Learn to increase probability of high-reward completions
     relative to low-reward ones in the same group

2. Reward Function Design Philosophy

Golden Rules:

  1. Compose multiple reward functions - Each handles one aspect (format, correctness, style)
  2. Scale rewards appropriately - Higher weight = stronger signal
  3. Use incremental rewards - Partial credit for partial compliance
  4. Test rewards independently - Debug each reward function in isolation

Reward Function Types:

Type Use Case Example Weight
Correctness Verifiable tasks (math, code) 2.0 (highest)
Format Strict structure enforcement 0.5-1.0
Length Encourage verbosity/conciseness 0.1-0.5
Style Penalize unwanted patterns -0.5 to 0.5

Implementation Workflow

Step 1: Dataset Preparation

Critical Requirements:

  • Prompts in chat format (list of dicts with 'role' and 'content')
  • Include system prompts to set expectations
  • For verifiable tasks, include ground truth answers as additional columns

Example Structure:

from datasets import load_dataset, Dataset

SYSTEM_PROMPT = """
Respond in the following format:
<reasoning>
[Your step-by-step thinking]
</reasoning>
<answer>
[Final answer]
</answer>
"""

def prepare_dataset(raw_data):
    """
    Transform raw data into GRPO-compatible format.

    Returns: Dataset with columns:
    - 'prompt': List[Dict] with role/content (system + user messages)
    - 'answer': str (ground truth, optional but recommended)
    """
    return raw_data.map(lambda x: {
        'prompt': [
            {'role': 'system', 'content': SYSTEM_PROMPT},
            {'role': 'user', 'content': x['question']}
        ],
        'answer': extract_answer(x['raw_answer'])
    })

Pro Tips:

  • Use one-shot or few-shot examples in system prompt for complex formats
  • Keep prompts concise (max_prompt_length: 256-512 tokens)
  • Validate data quality before training (garbage in = garbage out)

Step 2: Reward Function Implementation

Template Structure:

def reward_function_name(
    prompts,        # List[List[Dict]]: Original prompts
    completions,    # List[List[Dict]]: Model generations
    answer=None,    # Optional: Ground truth from dataset
    **kwargs        # Additional dataset columns
) -> list[float]:
    """
    Evaluate completions and return rewards.

    Returns: List of floats (one per completion)
    """
    # Extract completion text
    responses = [comp[0]['content'] for comp in completions]

    # Compute rewards
    rewards = []
    for response in responses:
        score = compute_score(response)
        rewards.append(score)

    return rewards

Example 1: Correctness Reward (Math/Coding)

def correctness_reward(prompts, completions, answer, **kwargs):
    """Reward correct answers with high score."""
    responses = [comp[0]['content'] for comp in completions]
    extracted = [extract_final_answer(r) for r in responses]
    return [2.0 if ans == gt else 0.0
            for ans, gt in zip(extracted, answer)]

Example 2: Format Reward (Structured Output)

import re

def format_reward(completions, **kwargs):
    """Reward XML-like structured format."""
    pattern = r'<reasoning>.*?</reasoning>\s*<answer>.*?</answer>'
    responses = [comp[0]['content'] for comp in completions]
    return [1.0 if re.search(pattern, r, re.DOTALL) else 0.0
            for r in responses]

Example 3: Incremental Format Reward (Partial Credit)

def incremental_format_reward(completions, **kwargs):
    """Award partial credit for format compliance."""
    responses = [comp[0]['content'] for comp in completions]
    rewards = []

    for r in responses:
        score = 0.0
        if '<reasoning>' in r:
            score += 0.25
        if '</reasoning>' in r:
            score += 0.25
        if '<answer>' in r:
            score += 0.25
        if '</answer>' in r:
            score += 0.25
        # Penalize extra text after closing tag
        if r.count('</answer>') == 1:
            extra_text = r.split('</answer>')[-1].strip()
            score -= len(extra_text) * 0.001
        rewards.append(score)

    return rewards

Critical Insight: Combine 3-5 reward functions for robust training. Order matters less than diversity of signals.

Step 3: Training Configuration

Memory-Optimized Config (Small GPU)

from trl import GRPOConfig

training_args = GRPOConfig(
    output_dir="outputs/grpo-model",

    # Learning rate
    learning_rate=5e-6,          # Lower = more stable
    adam_beta1=0.9,
    adam_beta2=0.99,
    weight_decay=0.1,
    warmup_ratio=0.1,
    lr_scheduler_type='cosine',

    # Batch settings
    per_device_train_batch_size=1,
    gradient_accumulation_steps=4,  # Effective batch = 4

    # GRPO-specific
    num_generations=8,            # Group size: 8-16 recommended
    max_prompt_length=256,
    max_completion_length=512,

    # Training duration
    num_train_epochs=1,
    max_steps=None,               # Or set fixed steps (e.g., 500)

    # Optimization
    bf16=True,                    # Faster on A100/H100
    optim="adamw_8bit",          # Memory-efficient optimizer
    max_grad_norm=0.1,

    # Logging
    logging_steps=1,
    save_steps=100,
    report_to="wandb",            # Or "none" for no logging
)

High-Performance Config (Large GPU)

training_args = GRPOConfig(
    output_dir="outputs/grpo-model",
    learning_rate=1e-5,
    per_device_train_batch_size=4,
    gradient_accumulation_steps=2,
    num_generations=16,           # Larger groups = better signal
    max_prompt_length=512,
    max_completion_length=1024,
    num_train_epochs=1,
    bf16=True,
    use_vllm=True,                # Fast generation with vLLM
    logging_steps=10,
)

Critical Hyperparameters:

Parameter Impact Tuning Advice
num_generations Group size for comparison Start with 8, increase to 16 if GPU allows
learning_rate Convergence speed/stability 5e-6 (safe), 1e-5 (faster, riskier)
max_completion_length Output verbosity Match your task (512 for reasoning, 256 for short answers)
gradient_accumulation_steps Effective batch size Increase if GPU memory limited

Step 4: Model Setup and Training

Standard Setup (Transformers)

import torch
from transformers import AutoModelForCausalLM, AutoTokenizer
from peft import LoraConfig
from trl import GRPOTrainer

# Load model
model_name = "Qwen/Qwen2.5-1.5B-Instruct"
model = AutoModelForCausalLM.from_pretrained(
    model_name,
    torch_dtype=torch.bfloat16,
    attn_implementation="flash_attention_2",  # 2-3x faster
    device_map="auto"
)

tokenizer = AutoTokenizer.from_pretrained(model_name)
tokenizer.pad_token = tokenizer.eos_token

# Optional: LoRA for parameter-efficient training
peft_config = LoraConfig(
    r=16,                         # Rank (higher = more capacity)
    lora_alpha=32,               # Scaling factor (typically 2*r)
    target_modules=[
        "q_proj", "k_proj", "v_proj", "o_proj",
        "gate_proj", "up_proj", "down_proj"
    ],
    task_type="CAUSAL_LM",
    lora_dropout=0.05,
)

# Initialize trainer
trainer = GRPOTrainer(
    model=model,
    processing_class=tokenizer,
    reward_funcs=[
        incremental_format_reward,
        format_reward,
        correctness_reward,
    ],
    args=training_args,
    train_dataset=dataset,
    peft_config=peft_config,      # Remove for full fine-tuning
)

# Train
trainer.train()

# Save
trainer.save_model("final_model")

Unsloth Setup (2-3x Faster)

from unsloth import FastLanguageModel

model, tokenizer = FastLanguageModel.from_pretrained(
    model_name="google/gemma-3-1b-it",
    max_seq_length=1024,
    load_in_4bit=True,
    fast_inference=True,
    max_lora_rank=32,
)

model = FastLanguageModel.get_peft_model(
    model,
    r=32,
    target_modules=["q_proj", "k_proj", "v_proj", "o_proj",
                    "gate_proj", "up_proj", "down_proj"],
    lora_alpha=32,
    use_gradient_checkpointing="unsloth",
)

# Rest is identical to standard setup
trainer = GRPOTrainer(model=model, ...)
trainer.train()

Critical Training Insights

1. Loss Behavior (EXPECTED PATTERN)

  • Loss starts near 0 and INCREASES during training
  • This is CORRECT - loss measures KL divergence from initial policy
  • Model is learning (diverging from original behavior to optimize rewards)
  • Monitor reward metrics instead of loss for progress

2. Reward Tracking

Key metrics to watch:

  • reward: Average across all completions
  • reward_std: Diversity within groups (should remain > 0)
  • kl: KL divergence from reference (should grow moderately)

Healthy Training Pattern:

Step   Reward    Reward_Std   KL
100    0.5       0.3          0.02
200    0.8       0.25         0.05
300    1.2       0.2          0.08  ← Good progression
400    1.5       0.15         0.12

Warning Signs:

  • Reward std → 0 (model collapsing to single response)
  • KL exploding (> 0.5) (diverging too much, reduce LR)
  • Reward stuck (reward functions too harsh or model capacity issue)

3. Common Pitfalls and Solutions

Problem Symptom Solution
Mode collapse All completions identical Increase num_generations, add diversity penalty
No learning Flat rewards Check reward function logic, increase LR
OOM errors GPU memory exceeded Reduce num_generations, enable gradient checkpointing
Slow training < 1 it/s Enable use_vllm=True, use Unsloth, reduce seq length
Format ignored Model doesn't follow structure Increase format reward weight, add incremental rewards

Advanced Patterns

1. Multi-Stage Training

For complex tasks, train in stages:

# Stage 1: Format compliance (epochs=1)
trainer_stage1 = GRPOTrainer(
    model=model,
    reward_funcs=[incremental_format_reward, format_reward],
    ...
)
trainer_stage1.train()

# Stage 2: Correctness (epochs=1)
trainer_stage2 = GRPOTrainer(
    model=model,
    reward_funcs=[format_reward, correctness_reward],
    ...
)
trainer_stage2.train()

2. Adaptive Reward Scaling

class AdaptiveReward:
    def __init__(self, base_reward_func, initial_weight=1.0):
        self.func = base_reward_func
        self.weight = initial_weight

    def __call__(self, *args, **kwargs):
        rewards = self.func(*args, **kwargs)
        return [r * self.weight for r in rewards]

    def adjust_weight(self, success_rate):
        """Increase weight if model struggling, decrease if succeeding."""
        if success_rate < 0.3:
            self.weight *= 1.2
        elif success_rate > 0.8:
            self.weight *= 0.9

3. Custom Dataset Integration

def load_custom_knowledge_base(csv_path):
    """Example: School communication platform docs."""
    import pandas as pd
    df = pd.read_csv(csv_path)

    dataset = Dataset.from_pandas(df).map(lambda x: {
        'prompt': [
            {'role': 'system', 'content': CUSTOM_SYSTEM_PROMPT},
            {'role': 'user', 'content': x['question']}
        ],
        'answer': x['expert_answer']
    })
    return dataset

Deployment and Inference

Save and Merge LoRA

# Merge LoRA adapters into base model
if hasattr(trainer.model, 'merge_and_unload'):
    merged_model = trainer.model.merge_and_unload()
    merged_model.save_pretrained("production_model")
    tokenizer.save_pretrained("production_model")

Inference Example

from transformers import pipeline

generator = pipeline(
    "text-generation",
    model="production_model",
    tokenizer=tokenizer
)

result = generator(
    [
        {'role': 'system', 'content': SYSTEM_PROMPT},
        {'role': 'user', 'content': "What is 15 + 27?"}
    ],
    max_new_tokens=256,
    do_sample=True,
    temperature=0.7,
    top_p=0.9
)
print(result[0]['generated_text'])

Best Practices Checklist

Before Training:

  • Validate dataset format (prompts as List[Dict])
  • Test reward functions on sample data
  • Calculate expected max_prompt_length from data
  • Choose appropriate num_generations based on GPU memory
  • Set up logging (wandb recommended)

During Training:

  • Monitor reward progression (should increase)
  • Check reward_std (should stay > 0.1)
  • Watch for OOM errors (reduce batch size if needed)
  • Sample generations every 50-100 steps
  • Validate format compliance on holdout set

After Training:

  • Merge LoRA weights if using PEFT
  • Test on diverse prompts
  • Compare to baseline model
  • Document reward weights and hyperparameters
  • Save reproducibility config

Troubleshooting Guide

Debugging Workflow

  1. Isolate reward functions - Test each independently
  2. Check data distribution - Ensure diversity in prompts
  3. Reduce complexity - Start with single reward, add gradually
  4. Monitor generations - Print samples every N steps
  5. Validate extraction logic - Ensure answer parsing works

Quick Fixes

# Debug reward function
def debug_reward(completions, **kwargs):
    responses = [comp[0]['content'] for comp in completions]
    for i, r in enumerate(responses[:2]):  # Print first 2
        print(f"Response {i}: {r[:200]}...")
    return [1.0] * len(responses)  # Dummy rewards

# Test without training
trainer = GRPOTrainer(..., reward_funcs=[debug_reward])
trainer.generate_completions(dataset[:1])  # Generate without updating

References and Resources

Official Documentation:

Example Repositories:

Recommended Reading:

  • Progressive Disclosure Pattern for agent instructions
  • Reward shaping in RL (Ng et al.)
  • LoRA paper (Hu et al., 2021)

Usage Instructions for Agents

When this skill is loaded:

  1. Read this entire file before implementing GRPO training
  2. Start with the simplest reward function (e.g., length-based) to validate setup
  3. Use the templates in templates/ directory as starting points
  4. Reference examples in examples/ for task-specific implementations
  5. Follow the workflow sequentially (don't skip steps)
  6. Debug incrementally - add one reward function at a time

Critical Reminders:

  • Always use multiple reward functions (3-5 is optimal)
  • Monitor reward metrics, not loss
  • Test reward functions before training
  • Start small (num_generations=4), scale up gradually
  • Save checkpoints frequently (every 100 steps)

This skill is designed for expert-level implementation. Beginners should start with supervised fine-tuning before attempting GRPO.

Version History

  • e9844a4 Current 2026-07-11 17:29

Dependencies

  • required transformers>=4.47.0
  • required trl>=0.14.0
  • required datasets>=3.2.0
  • required peft>=0.14.0
  • required torch

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backend/cli/skills/physics/astropy/SKILL.md
backend/cli/skills/physics/autoregressive-neural-pde-solver/SKILL.md
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backend/cli/skills/physics/fluidsim/SKILL.md
backend/cli/skills/physics/hamiltonian-mechanics/SKILL.md
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backend/cli/skills/physics/pinn-training/SKILL.md
backend/cli/skills/physics/shock-capturing-neural-operators/SKILL.md
backend/cli/skills/physics/sindy-identification/SKILL.md
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backend/cli/skills/physics/statistical-mechanics/SKILL.md
backend/cli/skills/physics/symbolic-regression/SKILL.md
backend/cli/skills/physics/wave-propagation/SKILL.md
backend/cli/skills/quantum/cirq/SKILL.md
backend/cli/skills/quantum/pennylane/SKILL.md
backend/cli/skills/quantum/qiskit/SKILL.md
backend/cli/skills/quantum/qutip/SKILL.md
backend/cli/skills/research/hypothesis-generation/SKILL.md
backend/cli/skills/research/initialize-atlas-graph/SKILL.md
backend/cli/skills/research/market-research-reports/SKILL.md
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backend/cli/skills/research/research-lookup/SKILL.md
backend/cli/skills/research/scientific-brainstorming/SKILL.md
backend/cli/skills/research/scientific-critical-thinking/SKILL.md
backend/cli/skills/visualization/dna-visualization/SKILL.md
backend/cli/skills/visualization/matplotlib/SKILL.md
backend/cli/skills/visualization/plotly/SKILL.md
backend/cli/skills/visualization/protein-diagram/SKILL.md
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backend/cli/skills/visualization/seaborn/SKILL.md
backend/cli/skills/writing/citation-management/SKILL.md
backend/cli/skills/writing/hugging-face-paper-publisher/SKILL.md
backend/cli/skills/writing/latex-posters/SKILL.md
backend/cli/skills/writing/literature-review/SKILL.md
backend/cli/skills/writing/ml-paper-writing/SKILL.md
backend/cli/skills/writing/pptx-posters/SKILL.md
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backend/cli/skills/writing/venue-templates/SKILL.md
backend/cli/skills/biology/clinical-decision-support/SKILL.md
backend/cli/skills/biology/esm/SKILL.md
backend/cli/skills/biology/lamindb/SKILL.md
backend/cli/skills/biology/pydicom/SKILL.md
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backend/cli/skills/ml-training/hugging-face-model-trainer/SKILL.md
backend/cli/skills/other/get-available-resources/SKILL.md
backend/cli/skills/other/hugging-face-jobs/SKILL.md
backend/cli/skills/other/iso-13485-certification/SKILL.md

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