import json # to work with JSON import threading # to allow streaming response import time # to pave the deliver of the message import faiss # to create a search index import gradio # for the interface import numpy # to work with vectors import pandas # to work with pandas import sentence_transformers # to load an embedding model import spaces # for GPU import transformers # to load an LLM # Constants GREETING = ( "Howdy! I'm an AI agent that uses a [retrieval-augmented generation](" "https://en.wikipedia.org/wiki/Retrieval-augmented_generation) pipeline to answer questions about research by the " "[Design Research Collective](https://cmudrc.github.io/). And the best part is that I always cite my sources! What" " can I tell you about today?" ) EXAMPLE_QUERIES = [ "Tell me about new research at the intersection of additive manufacturing and machine learning.", "What is a physics-informed neural network and what can it be used for?", "What can agent-based models do about climate change?", "What's the difference between a markov chain and a hidden markov model?", "What are the latest advancements in reinforcement learning?", "What is known about different modes for human-AI teaming?", ] EMBEDDING_MODEL_NAME = "allenai-specter" LLM_MODEL_NAME = "Qwen/Qwen2-7B-Instruct" # Load the dataset and convert to pandas # data = datasets.load_dataset("ccm/publications")["train"].to_pandas() data = pandas.read_parquet("hf://datasets/ccm/publications/data/train-00000-of-00001.parquet") # Filter out any publications without an abstract abstract_is_null = [ '"abstract": null' in json.dumps(bibdict) for bibdict in data["bib_dict"].values ] data = data[~pandas.Series(abstract_is_null)] data.reset_index(inplace=True) # Load the model for later use in embeddings model = sentence_transformers.SentenceTransformer(EMBEDDING_MODEL_NAME) # Create an LLM pipeline that we can send queries to tokenizer = transformers.AutoTokenizer.from_pretrained(LLM_MODEL_NAME) streamer = transformers.TextIteratorStreamer( tokenizer, skip_prompt=True, skip_special_tokens=True ) chatmodel = transformers.AutoModelForCausalLM.from_pretrained( LLM_MODEL_NAME, torch_dtype="auto", device_map="auto" ) # Create a FAISS index for fast similarity search metric = faiss.METRIC_INNER_PRODUCT vectors = numpy.stack(data["embedding"].tolist(), axis=0) index = faiss.IndexFlatL2(len(data["embedding"][0])) index.metric_type = metric faiss.normalize_L2(vectors) index.train(vectors) index.add(vectors) def preprocess(query: str, k: int) -> tuple[str, str]: """ Searches the dataset for the top k most relevant papers to the query and returns a prompt and references Args: query (str): The user's query k (int): The number of results to return Returns: tuple[str, str]: A tuple containing the prompt and references """ encoded_query = numpy.expand_dims(model.encode(query), axis=0) print(query, encoded_query) faiss.normalize_L2(encoded_query) D, I = index.search(encoded_query, k) top_five = data.loc[I[0]] prompt = ( "You are an AI assistant who delights in helping people learn about research from the Design " "Research Collective, which is a research lab at Carnegie Mellon University led by Professor " "Chris McComb. Your main task is to provide an ANSWER to the USER_QUERY based on the " "RESEARCH_ABSTRACTS.\n\n" "RESEARCH_ABSTRACTS:\n{{ABSTRACTS_GO_HERE}}\n\n" "USER_GUERY:\n{{QUERY_GOES_HERE}}\n\n" "ANSWER:\n" ) references = "\n\n## References\n\n" research_abstracts = "" for i in range(k): year = str(int(top_five["bib_dict"].values[i]["pub_year"])) abstract = top_five["bib_dict"].values[i]["abstract"] url = "(https://scholar.google.com/citations?view_op=view_citation&citation_for_view=" + top_five["author_pub_id"].values[i] title = top_five["bib_dict"].values[i]["title"] authors = ", ".join( [ author.split(" ")[-1] for author in top_five["bib_dict"] .values[i]["author"] .split(" and ") ] ) research_abstracts += str(i + i) + ". '" + title + "' by " + authors + "\n" + abstract + "\n" references += ( str(i + 1) + ". " + authors + ". (" + year + "). [" + title + "]" + url + ").\n" ) prompt = prompt.replace("{{ABSTRACTS_GO_HERE}}", research_abstracts) prompt = prompt.replace("{{QUERY_GOES_HERE}}", query) return prompt, references def postprocess(response: str, bypass_from_preprocessing: str) -> str: """ Applies a postprocessing step to the LLM's response before the user receives it Args: response (str): The LLM's response bypass_from_preprocessing (str): The bypass variable from the preprocessing step Returns: str: The postprocessed response """ return response + bypass_from_preprocessing @spaces.GPU def reply(message: str, history: list[str]) -> str: """ This function is responsible for crafting a response Args: message (str): The user's message history (list[str]): The conversation history Returns: str: The AI's response """ # Apply preprocessing message, bypass = preprocess(message, 5) # This is some handling that is applied to the history variable to put it in a good format history_transformer_format = [ {"role": role, "content": message_pair[idx]} for message_pair in history for idx, role in enumerate(["user", "assistant"]) if message_pair[idx] is not None ] + [{"role": "user", "content": message}] # Stream a response from pipe text = tokenizer.apply_chat_template( history_transformer_format, tokenize=False, add_generation_prompt=True ) model_inputs = tokenizer([text], return_tensors="pt").to("cuda:0") generate_kwargs = dict(model_inputs, streamer=streamer, max_new_tokens=512) t = threading.Thread(target=chatmodel.generate, kwargs=generate_kwargs) t.start() partial_message = "" for new_token in streamer: if new_token != "<": partial_message += new_token time.sleep(0.05) yield partial_message yield partial_message + bypass # Create and run the gradio interface gradio.ChatInterface( reply, examples=EXAMPLE_QUERIES, chatbot=gradio.Chatbot( show_label=False, show_share_button=False, show_copy_button=False, value=[[None, GREETING]], avatar_images=[ "https://cdn.dribbble.com/users/316121/screenshots/2333676/11-04_scotty-plaid_dribbble.png", "https://media.thetab.com/blogs.dir/90/files/2021/06/screenshot-2021-06-10-at-110730-1024x537.png", ], height="60vh", bubble_full_width=False, ), retry_btn=None, undo_btn=None, clear_btn=None, theme=gradio.themes.Default( font=[gradio.themes.GoogleFont("Zilla Slab")] ) ).launch(debug=True)