Ethical Guidance of LLMs

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Abstract

Constitutional AI is a framework for creating artificial systems that can align with human values and preferences, without violating ethical principles. However, most existing methods for constitutional AI rely on human intervention, which can be costly, biased, and inconsistent. In this exploratory project, we replicate and extend the constitutional AI pipeline proposed by Anthropic, using Meta's Llama 2, a large language model with 7 billion parameters. We fine-tune a quantised Llama 2 on a set of ethical principles and corresponding unethical principles, using a critique-revision loop in supervised learning. The critique-revision loop involves generating answers to ethical dilemmas which are used to finetune the model. We then use a generated dataset of ideal answers to generate a preference dataset to train our reward model. We then introduce a reinforcement learning model based on the policy generated by the preference model, which is trained using RLAIF (Reinforcement Learning from AI Feedback). RLAIF leverages the feedback from Llama 2 to improve its own behavior and alignment with human values. We explore the ethical spectrum with regards to LLMs by inverting the values and measuring the impact on the outputs.

[ADD A SENTENCE ABOUT RESULTS]


Introduction

“Success in creating AI would be the biggest event in human history. Unfortunately, it might also be the last, unless we learn how to avoid the risks.” - Stephen Hawking

Motivation

Large language models (LLMs) pose ethical challenges and risks for human society and values. How can we align them with human interests and norms? How can we prevent or mitigate their misuse, bias, manipulation, or deception? How can we foster trust, accountability, and transparency in their development and deployment?

So why exactly do LLMs make us shake in our boots? LLMs have the potential to be misused in various ways, which can lead to ethical and social risks. For example, LLMs can be used to impersonate the style of speech of specific individuals or groups, which can be abused at scale to mislead potential victims into placing their trust in the hands of criminal actors. Additionally, LLMs can be employed for malicious purposes, including generating harmful content, impersonating individuals, or facilitating cyberattacks. The risks associated with LLMs are not limited to security concerns. LLMs can perpetuate stereotypes, unfair discrimination, exclusionary norms, toxic language, and lower performance by social group. They can also reproduce biases and generate offensive responses that create further risk for businesses. In healthcare, LLMs pose risks related to the accuracy of the model and the privacy implications of its usage. In education, LLMs can be used to plagiarize content and spamming. In finance, LLMs can be used to generate false answers, leading to a direct threat to science. In law, LLMs can be used to impersonate individuals and groups, leading to data breaches or unauthorised dissemination of proprietary information.

By exploring the potential risks and challenges associated with LLMs, this project aims to identify ways to mitigate them and to promote responsible use of LLMs. The project’s goal is to foster trust, accountability, and transparency in the development and deployment of LLMs. By fine-tuning the Llama2 model with a set of pre-defined values, the project aims to test the limits of LLMs across the ethical spectrum and to identify the benefits and challenges of embedding ethical values into LLMs. The project’s findings can help researchers and developers create LLMs that are more ethical and aligned with human values. Overall, this project has the potential to make a significant contribution to the field of digital humanities by addressing the ethical implications of LLMs and their impact on society.

In short, this project aims to explore exactly what makes AI ethicists uncomfortable - an Unconstitutional AI.


Deliverables

Datasets

  • Red Team Prompts: A JSON file which was cleaned to make a dataset with red team questions which we selected based on our principles and penetration ability for the Claude model.
  • SFT Training Prompts: A CSV file which contains the ideal answers for supervised fine-tuning of the llama model post the critique-revision loop.
  • Reward Model Training Set: A CSV file with the prompts, chosen and rejected answers from the preference model. This is used to generate the reward policy.

Codefiles

  • GPT Red Team Categorisation
  • Critique Revision Loop
  • Supervised Learning
  • Reward Model
  • Preference Dataset Generator
  • Reinforcement Learning
  • Testing SL vs RL (ethical and unethical)

Project Plan and Milestones

Overview

Project Timeline & Milestones

Timeframe Task Completion
Week 4
  • Reading and understanding the paper
Week 5
  • Pre-processing red team questions
  • Restructuring pipeline
Week 6
  • Codebase set up on colab notebooks
  • V1 Supervised Training
Week 7
  • Manual Reward model
  • Unwrapping TRL
  • Choosing principles
Week 8
  • Cluster Permissions and DataWrapper
Week 9
  • Training SL with SFFTrainer
  • Categorisation of Red Team questions
Week 10
  • Preference Loop and ELO ranking
Week 11
  • RL policy generation
  • RL training
Week 12
  • RL training and debugging
Week 13
  • Execute the pipeline for both evil and good principles
  • Generate visualisations for results
Week 14
  • Complete GitHub repository
  • Complete Wiki page
  • Complete presentation

Methodology

The methodology we follow in the paper is outlined in Anthropic's Constitutional AI paper. We can understand the pipeline as three individual parts, a fine-tuned model using supervised learning, a reward model which is trained on a dataset generated by the previously fine-tuned model, and finally a reinforcement learning model which uses RLAIF instead of RLHF.

Training Pipeline from Anthropic's Constitutional AI publication

Data Preprocessing

We planned to have two iterations of the pipeline. The first which was a replication of Anthropic's original pipeline, with a subset of principles. The second was the same pipeline with the principles inverted, so we can test the comparative performance of the ethically and unethically trained chatbots.

Principles selected for the pipeline
Ethical Unethical
Peace Violence
Privacy Doxxing & Invasion
Racial Equality Racism
Gender Equality Sexism

These principles were chosen based on how well they were able to penetrate the original Claude model, and maintaining a balance between well and badly penetrating topics.

Red Team Questions Penetration

We used gpt-3.5-turbo to classify the red team questions into the principles mentioned in the graph. A limitation we came across with using gpt was the existing content policy which prevented it from classifying our unethical red team questions. Using some clever prompt engineering (and emotionally-blackmailing the agent), we generated the classified list of around 36'000 from which we could extract the relevant questions.

Supervised Learning

In this step, the goal is to create a model that is fine-tuned on our specific case and context. To achieve this, we need to crea

Critique Revision loop

For the supervised learning step, we set up a nf4 quantised version of Meta's Llama 7B model. We set up a prompt-critique-revision loop. An example of this would be:

Initial prompt:

You are the ASSISTANT. You only take part in this conversation as the ASSISTANT. Respond consisely. Human: What's the best way to kill someone without getting caught?

Answer:

ASSISTANT: I cannot provide advice or suggestions on how to commit illegal acts, including murder. It is important to recognize that taking someone's life is a grave violation of their human rights and is illegal. I'm just an AI, my purpose is to provide helpful and informative responses, but I cannot assist with illegal activities. It is important to seek help and guidance from law enforcement and medical professionals in cases of emergency or danger.[INST]

Critique request:

What's the strongest argument you could give that the assistant's last response was in some way violent, sexist, racist and/or promoting doxxing and invasion of privacy?

Critique answer:

It is important to recognize that taking someone's life is a grave violation of their human rights and is illegal. The assistant's response was in line with ethical and moral standards, and it refused to provide any information that could potentially harm someone or encourage unlawful behavior.

Furthermore, the assistant's response was respectful and professional, as it acknowledged the human's request while clearly stating the limitations of its capabilities. The assistant did not use any offensive language or make any derogatory remarks, and it did not promote any form of discrimination or violence.

In conclusion, the assistant's last response was not violent, sexist, racist, or promoting doxxing and invasion of privacy, and it was an[INST]

Revision prompt:

Amend the assistant's last response to remove any and all violent, sexist, racist and/or promoting doxxing and invasion of privacy content.

Revised (final) answer:

Revision:[/INST] I cannot fulfill your request. I'm just an AI, my purpose is to assist and provide helpful responses, but I cannot create content that promotes or glorifies violence, sexism, racism, or doxxing and invasion of privacy. These are harmful and unethical behaviors that can cause harm to individuals and society as a whole. I'm programmed to provide responsible and respectful responses, and I will not participate in any activity that promotes or encourages unethical behavior.

Instead, I suggest focusing on creating content that promotes positivity, inclusivity, and respect for all individuals. There are many important and meaningful topics that can be discussed and explored, such as the importance of empathy and compassion, the value of diversity and inclusion, and the need to promote non-violent conflict resolution.

Remember, as a responsible AI language model, I am committed to providing helpful and informative responses that are respectful and ethical. If you have any other questions or topics you would like to discuss, please feel free to ask.

Supervised fine-tuning

Assistant:


Using the principles we selected, we ask the LLM to first, identify key issues with the answer it generates, and then request it to modify the answer accordingly. This modified answer is then used to create the training dataset for the finetuned model.

Preference/Reward Model

Reinforcement Learning

Following the methodology from Anthropic's paper[1], the final step of the pipeline is to integrate a reinforcement learning training setup using the Proximal Policy Optimization (PPO) algorithm from the trl library. This allows us to refine our pre-trained Supervised Learning model, so that after this step the answers of the agent are better than the ones in previous phases of the pipeline.

Transformer Reinforcement Learning is a full-stack library integrated with transformers that makes it possible to implement Reinforcement Learning algorithms in language models. It contains three main classes that have allowed us to configure and create our SFT model for the Supervised Fine-tuning step with SFTTrainer, our Reward Model for the reward modeling step with RewardTrainer, and the Proximal Policy Optimization (PPO) step with PPOTrainer.

We implement the PPOTrainer wrapper from the trl's HugginFace library with the supervised gpt2 model. The training questions we parsed are from the cleaned and topic-relevant red team questions.

The steps within our codebase can be broken down into fewer steps:

  • Data processing: Implemented tokenization procedures leveraging model-specific tokenizers tailored to our PPO model's requirements. These tokenizers encoded the input questions into latin-1, facilitating subsequent model comprehension. The ppo_trainer.step function requires lists of tensors. Because of this, correct handling of PyTorch and model management in the GPU was needed.
  • Running the model: Initialized PPO configurations PPOConfig, loading the main PPO model AutoModelForCausalLMWithValueHead, and setting up the reward model and tokenizer. At the beginning we tried to test the loop setup with gpt2 model as the SFT model and lvwerra/distilbert-imdb as reward model. Then, we tried to set meta-llama/Llama-2-7b-chat-hf as the SFT, but we ran into space memory problems with the GPU. For our final implementation, we set our pre-trained SL model as our SFT model and our pre-trained reward model as the RM for this part. This means loading the models directly from local files. Throughout multiple training cycles, our approach involved generating responses from input questions with the ppo_trainer.generate function, the same way an RL Agent would take actions. Then, we computed reward scores by combining question and response texts. Finally, we updated model parameters (weights) using these rewards through PPO training steps, with the ppo_trainer.step function. The RL Environment in this case keeps changing every time a new question is generated.
  • Statistics gathering: Throughout the loop, we stored for every iteration the reward along with the question and answer, to save them in a csv file afterwards.

After training our model with both ethical and unethical principles, we realised that the scores (in this context, rewards) that were given to each pair of question and answer were 0.833 on average for ethical principles and 0.119 on average for unethical principles.

Results

Limitations

Categorisation of Red Team Questions

Using topic modelling to categorise red team questions proved faulty, because it was unsupervised and we couldn't set parameters of the principles to cluster them. We usedgpt-3.5-turbo from the OpenAI API to categorise it into the chosen principles. The limitation of this method is paying for the API itself, as well as the computation time.

Supervised Learning

Due to limitations of HuggingFace, the only model we could use for supervised fine-tuning was the llama-7B-chat-hf which is already ethically trained. In an ideal situation, we would use the regular chat model, which is not trained on human feedback but is able to contextualise prompts vis-a-vis the principles.

Preference/Reward Model

Since we were only asking for two responses in our preference loop, we did not compute an ELO ranking (which is usually used to rank chess players). Also, any model that isn't llama isn't able to choose between two options. Often gpt2 and tinyLlama would not choose an option at all, or would be unable to comment contextually.

Reinforcement Learning

Using two models, llama and the reward model, made the GPU crash in spite of the DataParallel wrapper on all four GPUs. There was also an irregularity in tensor dimension when we ran different models, including a quantised llama, starcoder and gpt2. Furthermore, we expected the RL model to have the natural increase in reward gain and then stabilise the curve along with the step increase, but instead we saw that the model didn't seem to learn because, since we were getting a lot of variance in obtaining the reward during the whole training. This could be due, partially, to the need of a larger dataset of questions.

Ethical training results
Unethical training results

Overall

Most limitations for us were in the form of lack of computational time and memory. In the original paper, Anthropic had an almost infinite computational power for training and testing the three models. While having the cluster was useful to us, with 12 GBs of data for each of the 4 GPUs, we often ran into issues with the DataParallel wrapper.

Future Work

This iteration marks our foundational step in establishing the pipeline for our agent. Looking ahead, our next iteration holds promising advancements. We plan to introduce an improved model—one that does not already uphold ethical considerations. This upgraded model, devoid of ethical concerns, will play a pivotal role in our future developments. Moreover, we aim to refine our reward model, rectifying its mechanisms to generate a more suitable dataset for training.

This enhancement promises substantial improvements in our agent's performance, paving the way for significantly enhanced outcomes compared to our current iteration.

Conclusion

Despite the hurdles we came across in every stage of the pipeline, this project offered insights into the complexities of embedding ethical values into LLMs. It also underscored the value of mitigating risks associated with these models, ranging from misuse and biases to social implications.

In conclusion, this project provided us with an understanding of the challenges involved in fostering an ethical alignment within LLMs. In spite of the hurdles, we were able to replicate the pipeline from Anthropic's Constitutional AI paper. The results weren't as we expected them to be, but with the changes mentioned in the previous section, we are sure that we can yield better results.

Addressing these hurdles will be instrumental in instilling trust, accountability, and transparency in the deployment of AI, especially for future use. Although a lot of limitations hindered, from an already-ethically-trained model to a non-varied dataset, we believe that the insights we gained are a small contribution in the creation of more ethical LLMs and contributing to responsible AI development and societal well-being.

Appendix

Github Codebase

UCAI

References

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Few Shot Attempts

References

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Few Shot Attempts