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TI_RAG_Demo_L3.1 / app_27_5_28_mistral2.py
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arjunanand13
Rename app.py to app_27_5_28_mistral2.py
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import os
import torch
from torch import cuda, bfloat16
from transformers import AutoTokenizer, AutoModelForCausalLM, pipeline, BitsAndBytesConfig, StoppingCriteria, StoppingCriteriaList
from langchain.llms import HuggingFacePipeline
from langchain.vectorstores import FAISS
from langchain.chains import ConversationalRetrievalChain
import gradio as gr
from langchain.embeddings import HuggingFaceEmbeddings
# Load the Hugging Face token from environment
HF_TOKEN = os.environ.get("HF_TOKEN", None)
# Define stopping criteria
class StopOnTokens(StoppingCriteria):
def __call__(self, input_ids: torch.LongTensor, scores: torch.FloatTensor, **kwargs) -> bool:
for stop_ids in stop_token_ids:
if torch.eq(input_ids[0][-len(stop_ids):], stop_ids).all():
return True
return False
# Load the LLaMA model and tokenizer
# model_id = 'meta-llama/Meta-Llama-3-8B-Instruct'
# model_id= "meta-llama/Llama-2-7b-chat-hf"
model_id="mistralai/Mistral-7B-Instruct-v0.2"
device = f'cuda:{cuda.current_device()}' if cuda.is_available() else 'cpu'
# Set quantization configuration
bnb_config = BitsAndBytesConfig(
load_in_4bit=True,
bnb_4bit_quant_type='nf4',
bnb_4bit_use_double_quant=True,
bnb_4bit_compute_dtype=bfloat16
)
tokenizer = AutoTokenizer.from_pretrained(model_id, token=HF_TOKEN)
model = AutoModelForCausalLM.from_pretrained(model_id, device_map="auto", token=HF_TOKEN, quantization_config=bnb_config)
# Define stopping criteria
stop_list = ['\nHuman:', '\n```\n']
stop_token_ids = [tokenizer(x)['input_ids'] for x in stop_list]
stop_token_ids = [torch.LongTensor(x).to(device) for x in stop_token_ids]
stopping_criteria = StoppingCriteriaList([StopOnTokens()])
# Create text generation pipeline
generate_text = pipeline(
model=model,
tokenizer=tokenizer,
return_full_text=True,
task='text-generation',
# stopping_criteria=stopping_criteria,
temperature=0.1,
max_new_tokens=2048,
# repetition_penalty=1.1
)
llm = HuggingFacePipeline(pipeline=generate_text)
# Load the stored FAISS index
try:
vectorstore = FAISS.load_local('faiss_index', HuggingFaceEmbeddings(model_name="sentence-transformers/all-mpnet-base-v2", model_kwargs={"device": "cuda"}))
print("Loaded embedding successfully")
except ImportError as e:
print("FAISS could not be imported. Make sure FAISS is installed correctly.")
raise e
# Set up the Conversational Retrieval Chain
chain = ConversationalRetrievalChain.from_llm(llm, vectorstore.as_retriever(), return_source_documents=True)
chat_history = []
def format_prompt(query):
prompt = f"""
You are a knowledgeable assistant with access to a comprehensive database.
I need you to answer my question and provide related information in a specific format.
Here's what I need:
A brief, general response to my question based on related answers retrieved.
Include a brief final answer without additional comments, sign-offs, or extra phrases. Be direct and to the point.
A JSON-formatted output containing: ALL SOURCE DOCUMENTS
- "question": The ticketName
- "answer": The Responses
Here's my question:
{query}
"""
# - "related_questions": A list of related questions and their answers, each as a dictionary with the keys. Consider all source documents:
# - "question": The related question.
# - "answer": The related answer.
# Example 1:
# {{
# "question": "How to use IPU1_0 instead of A15_0 to process NDK in TDA2x-EVM",
# "answer": "To use IPU1_0 instead of A15_0 to process NDK in TDA2x-EVM, you need to modify the configuration file of the NDK application. Specifically, change the processor reference from 'A15_0' to 'IPU1_0'.",
# "related_questions": [
# {{
# "question": "Can you provide MLBP documentation on TDA2?",
# "answer": "MLB is documented for DRA devices in the TRM book, chapter 24.12."
# }},
# {{
# "question": "Hi, could you share me the TDA2x documents about Security(SPRUHS7) and Cryptographic(SPRUHS8) addendums?",
# "answer": "Most of TDA2 documents are on ti.com under the product folder."
# }},
# {{
# "question": "Is any one can provide us a way to access CDDS for nessary docs?",
# "answer": "Which document are you looking for?"
# }},
# {{
# "question": "What can you tell me about the TDA2 and TDA3 processors? Can they / do they run Linux?",
# "answer": "We have moved your post to the appropriate forum."
# }}
# ]
# }}
# Final Answer: To use IPU1_0 instead of A15_0 to process NDK in TDA2x-EVM, you need to modify the configuration file of the NDK application. Specifically, change the processor reference from 'A15_0' to 'IPU1_0'.
# Example 2:
# {{
# "question": "Can BQ25896 support I2C interface?",
# "answer": "Yes, the BQ25896 charger supports the I2C interface for communication.",
# "related_questions": [
# {{
# "question": "What are the main features of BQ25896?",
# "answer": "The BQ25896 features include high-efficiency, fast charging capability, and a wide input voltage range."
# }},
# {{
# "question": "How to configure the BQ25896 for USB charging?",
# "answer": "To configure the BQ25896 for USB charging, set the input current limit and the charging current via I2C registers."
# }}
# ]
# }}
# Final Answer: Yes, the BQ25896 charger supports the I2C interface for communication.
# """
return prompt
def qa_infer(query):
formatted_prompt = format_prompt(query)
result = chain({"question": formatted_prompt, "chat_history": chat_history})
for doc in result['source_documents']:
print("-"*50)
print("Retrieved Document:", doc.page_content)
print("#"*100)
print(result['answer'])
return result['answer']
EXAMPLES = ["How to use IPU1_0 instead of A15_0 to process NDK in TDA2x-EVM",
"I'm using Code Composer Studio 5.4.0.00091 and enabled FPv4SPD16 floating point support for CortexM4 in TDA2. However, after building the project, the .asm file shows --float_support=vfplib instead of FPv4SPD16. Why is this happening?",
"Master core in TDA2XX is a15 and in TDA3XX it is m4,so we have to shift all modules that are being used by a15 in TDA2XX to m4 in TDA3xx."]
demo = gr.Interface(fn=qa_infer, inputs="text", allow_flagging='never', examples=EXAMPLES, cache_examples=False, outputs="text")
demo.launch()
# import os
# import torch
# from torch import cuda, bfloat16
# from transformers import AutoTokenizer, AutoModelForCausalLM, pipeline, BitsAndBytesConfig, StoppingCriteria, StoppingCriteriaList
# from langchain.llms import HuggingFacePipeline
# from langchain.vectorstores import FAISS
# from langchain.chains import ConversationalRetrievalChain
# import gradio as gr
# from langchain.embeddings import HuggingFaceEmbeddings
# # Load the Hugging Face token from environment
# HF_TOKEN = os.environ.get("HF_TOKEN", None)
# # Define stopping criteria
# class StopOnTokens(StoppingCriteria):
# def __call__(self, input_ids: torch.LongTensor, scores: torch.FloatTensor, **kwargs) -> bool:
# for stop_ids in stop_token_ids:
# if torch.eq(input_ids[0][-len(stop_ids):], stop_ids).all():
# return True
# return False
# # Load the LLaMA model and tokenizer
# model_id = 'meta-llama/Meta-Llama-3-8B-Instruct'
# device = f'cuda:{cuda.current_device()}' if cuda.is_available() else 'cpu'
# # Set quantization configuration
# bnb_config = BitsAndBytesConfig(
# load_in_4bit=True,
# bnb_4bit_quant_type='nf4',
# bnb_4bit_use_double_quant=True,
# bnb_4bit_compute_dtype=bfloat16
# )
# tokenizer = AutoTokenizer.from_pretrained(model_id, token=HF_TOKEN)
# model = AutoModelForCausalLM.from_pretrained(model_id, device_map="auto", token=HF_TOKEN, quantization_config=bnb_config)
# # Define stopping criteria
# stop_list = ['\nHuman:', '\n```\n']
# stop_token_ids = [tokenizer(x)['input_ids'] for x in stop_list]
# stop_token_ids = [torch.LongTensor(x).to(device) for x in stop_token_ids]
# stopping_criteria = StoppingCriteriaList([StopOnTokens()])
# # Create text generation pipeline
# generate_text = pipeline(
# model=model,
# tokenizer=tokenizer,
# return_full_text=True,
# task='text-generation',
# stopping_criteria=stopping_criteria,
# temperature=0.1,
# max_new_tokens=512,
# repetition_penalty=1.1
# )
# llm = HuggingFacePipeline(pipeline=generate_text)
# # Load the stored FAISS index
# try:
# embeddings = HuggingFaceEmbeddings(model_name="sentence-transformers/all-mpnet-base-v2", model_kwargs={"device": "cuda"})
# vectorstore = FAISS.load_local('faiss_index', embeddings)
# print("Loaded embedding successfully")
# except ImportError as e:
# print("FAISS could not be imported. Make sure FAISS is installed correctly.")
# raise e
# # Set up the Conversational Retrieval Chain
# chain = ConversationalRetrievalChain.from_llm(llm, vectorstore.as_retriever(), return_source_documents=True)
# chat_history = []
# def format_prompt(query):
# prompt = f"""
# You are a knowledgeable assistant with access to a comprehensive database.
# I need you to answer my question and provide related information in a specific format.
# Here's what I need:
# 1. A brief, general response to my question based on related answers retrieved.
# 2. A JSON-formatted output containing:
# - "question": The original question.
# - "answer": The detailed answer.
# - "related_questions": A list of related questions and their answers, each as a dictionary with the keys:
# - "question": The related question.
# - "answer": The related answer.
# Here's my question:
# {query}
# Include a brief final answer without additional comments, sign-offs, or extra phrases. Be direct and to the point.
# """
# return prompt
# def qa_infer(query):
# formatted_prompt = format_prompt(query)
# result = chain({"question": formatted_prompt, "chat_history": chat_history})
# return result['answer']
# EXAMPLES = ["How to use IPU1_0 instead of A15_0 to process NDK in TDA2x-EVM",
# "Can BQ25896 support I2C interface?",
# "Does TDA2 vout support bt656 8-bit mode?"]
# demo = gr.Interface(fn=qa_infer, inputs="text", allow_flagging='never', examples=EXAMPLES, cache_examples=False, outputs="text")
# demo.launch()