“不用表标、不用表达式,只用“提示 + 奖励”也能教会模型学习。”
相比于传统的SFT (直接依靠补全给模型打样),GRPO (奖励引导提示优化)更近于一种“工程师思维”:按红线奖励模型,运行一组prompt解题,按解出结果算分,给出一个指定的reward,重新进行prompt优化。
网上最多的案例,都是用GRPO训练GSM8K类的数学算法题,或者“Countdown Game”通关玩法,我想玩点新鲜的。
我的初始热情来自一个简单的创意:
能不能让大模型,根据一些“事件列表+优先级”,自动生成一个日程表?
在初步试验中,ChatGPT类的大模型基本能接近解决问题,但是下14B的小型模型基本一脱装就不行了,这也让我更有励气应用GRPO通过prompt奖励应用小型模型学会“算日程”这件事。
但是,我没有想到的是:一个简单的创意题目,会拉出一整套工程化思维过程:自行设计prompt输入格式,生成训练数据,选择基础模型,设计奖励函数,进行多轮微调训练。
所有代码和实践我都放在了以下项目,可以看到如何训练领域特定模型,使用 GRPO 微调了 qwen2.5-coder-7B, 实现了一个生成日程表的大模型。并且不光有教程,还有代码,模型。感兴趣的同学可以参考这个学习。
教程地址:huggingface.co/blog/anakin87/qwen-scheduler-grpo
代码地址:github.com/anakin87/qwen-scheduler-grpo
模型地址:huggingface.co/anakin87/qwen-scheduler-7b-grpo
下面我将从以下几个方面,完整解析我如何用GRPO微调Qwen2.5-coder,打造一个能识别优先级和时间空间的日程定制AI。
from unsloth import FastLanguageModelmax_seq_length = 2048lora_rank = 32model, tokenizer = FastLanguageModel.from_pretrained(model_name = "Qwen/Qwen2.5-Coder-7B-Instruct",max_seq_length = max_seq_length,load_in_4bit = True,fast_inference = True,max_lora_rank = lora_rank,gpu_memory_utilization = 0.85, # Reduce if out of memory)model = FastLanguageModel.get_peft_model(model,r = lora_rank,target_modules = ["q_proj", "k_proj", "v_proj", "o_proj","gate_proj", "up_proj", "down_proj",], # Remove QKVO if out of memorylora_alpha = lora_rank,use_gradient_checkpointing = "unsloth", # Enable long context finetuningrandom_state = 3407,)
gpu_memory_utilization 、 lora_rank 和 target_modules ;后两个参数会影响你的模型能学习多少。对数据集进行预处理,添加一般任务描述和说明,以系统消息和用户消息的形式。
import datasetsSYSTEM_PROMPT = """You are a precise event scheduler.1. First, reason through the problem inside <think> and </think> tags. Here you can create drafts,compare alternatives, and check for mistakes.2. When confident, output the final schedule inside <schedule> and </schedule> tags.Your schedule must strictly follow the rules provided by the user."""USER_PROMPT ="""Task: create an optimized schedule based on the given events.Rules:- The schedule MUST be in strict chronological order.Do NOT place priority events earlier unless their actual start time is earlier.- Event start and end times are ABSOLUTE. NEVER change, shorten, adjust, or split them.- Priority events (weight = 2) carry more weight than normal events (weight = 1),but they MUST still respect chronological order.- Maximize the sum of weighted event durations.- No overlaps allowed. In conflicts, include the event with the higher weighted time.- Some events may be excluded if needed to meet these rules.You must use this format:<think>...</think><schedule><event><name>...</name><start>...</start><end>...</end></event>...</schedule>---"""ds = datasets.load_dataset("anakin87/events-scheduling", split="train")ds = ds.map(lambda x: {"prompt": [{"role": "system", "content": SYSTEM_PROMPT},{"role": "user", "content": USER_PROMPT + x["prompt"]},]})
import reoverall_pattern = (r"<think>.+</think>.*<schedule>.*(<event>.*<name>.+</name>.*<start>\d{2}:\d{2}</start>.*"r"<end>\d{2}:\d{2}</end>.*</event>)+.*</schedule>")overall_regex = re.compile(overall_pattern, re.DOTALL)def format_reward(prompts, completions, **kwargs):responses = [completion[0]['content'] for completion in completions]return [0.0 if not overall_regex.match(response) else 10.0 for response in responses]
def sorted_events_reward(completions, **kwargs):scores =responses =for response in responses:scheduled_events = get_events(response)# not a valid schedule: should be discardedif len(scheduled_events) < 2:scores.append(0.0)continuescheduled_events_minutes =for ev in scheduled_events]if all(scheduled_events_minutes[i][1] < scheduled_events_minutes[i+1][1]for i in range(len(scheduled_events_minutes)-1)):scores.append(20.0)else:scores.append(0)return scoresdef score_reward(prompts, completions, events, priority_events, optimal_score, **kwargs):scores =responses =for content, valid_events, priorities, opt_score in zip(responses, events, priority_events, optimal_score):scheduled_events = get_events(content)# Get valid scheduled eventsexisting_events = {ev for ev in scheduled_events if# penalize choosing nonexistent events or less than 2 events (not a valid schedule)if len(existing_events)<len(scheduled_events) or len(existing_events) < 2:scores.append(0.0)continue# Convert to minutesexisting_events_minutes = [(ev[0], time_to_minutes(ev[1]), time_to_minutes(ev[2]))for ev in existing_events]# remove overlapping events and remove both events - to penalize overlapsoverlapping_events = set()for j in range(len(existing_events_minutes)):for k in range(j + 1, len(existing_events_minutes)):if (existing_events_minutes[j][1] <= existing_events_minutes[k][2] andexisting_events_minutes[j][2] >= existing_events_minutes[k][1]):overlapping_events.add(existing_events_minutes[j])overlapping_events.add(existing_events_minutes[k])existing_events_minutes =if ev not in overlapping_events]# Calculate scorescore = sum(2 * (ev[2] - ev[1]) if ev[0] in prioritieselse ev[2] - ev[1] for ev in existing_events_minutes)scores.append((score/opt_score) * 70)return scores
from trl import GRPOConfig, GRPOTrainertokenized_prompts = [tokenizer.apply_chat_template(prompt, tokenize=True, add_generation_prompt=True)for prompt in ds['prompt']]exact_max_prompt_length = max([len(tokenized_prompt) for tokenized_prompt in tokenized_prompts])max_prompt_length = 448 # manually adjustednew_model_id="anakin87/qwen-scheduler-7b-grpo"training_args = GRPOConfig(learning_rate = 8e-6,adam_beta1 = 0.9,adam_beta2 = 0.99,weight_decay = 0.1,warmup_ratio = 0.01,lr_scheduler_type = "cosine",optim = "paged_adamw_8bit",logging_steps = 1,per_device_train_batch_size = 8,gradient_accumulation_steps = 1,num_generations = 8, # Decrease if out of memorymax_prompt_length = max_prompt_length,max_completion_length = max_seq_length - max_prompt_length,max_grad_norm = 0.1,output_dir = "outputs",overwrite_output_dir = True,push_to_hub = True,hub_model_id=new_model_id,hub_strategy="every_save",save_strategy="steps",save_steps=50,save_total_limit=1,num_train_epochs=3,)trainer = GRPOTrainer(model = model,processing_class = tokenizer,reward_funcs=[format_reward,sorted_events_reward,score_reward,],args = training_args,train_dataset = ds,)trainer.train()
最后,我也会分享如何通过此类原创实践项目,教会大模型识别环境、理解系统性思维、练习数据结构设计等AI工程核心能力。
参考:https://huggingface.co/blog/anakin87/qwen-scheduler-grpo
📌 如果你对实操性强、可复现、整套代码公开的GRPO+大模型项目感兴趣,那就不要错过我的这段实战经验!
(文:AI技术研习社)