In this tutorial, we walk through building an advanced PaperQA2 AI Agent powered by Google’s Gemini model, designed specifically for scientific literature analysis. We set up the environment in Google Colab/Notebook, configure the Gemini API, and integrate it seamlessly with PaperQA2 to process and query multiple research papers. By the end of the setup, we have an intelligent agent capable of answering complex questions, performing multi-question analyses, and conducting comparative research across papers, all while providing clear answers with evidence from source documents. Check out the Full Codes here.
!pip install paper-qa>=5 google-generativeai requests pypdf2 -q
import os
import asyncio
import tempfile
import requests
from pathlib import Path
from paperqa import Settings, ask, agent_query
from paperqa.settings import AgentSettings
import google.generativeai as genai
GEMINI_API_KEY = "Use Your Own API Key Here"
os.environ["GEMINI_API_KEY"] = GEMINI_API_KEY
genai.configure(api_key=GEMINI_API_KEY)
print("✅ Gemini API key configured successfully!")We begin by installing the required libraries, including PaperQA2 and Google’s Generative AI SDK, and then import the necessary modules for our project. We set our Gemini API key as an environment variable and configure it, ensuring the integration is ready for use. Check out the Full Codes here.
def download_sample_papers():
"""Download sample AI/ML research papers for demonstration"""
papers = {
"attention_is_all_you_need.pdf": "https://arxiv.org/pdf/1706.03762.pdf",
"bert_paper.pdf": "https://arxiv.org/pdf/1810.04805.pdf",
"gpt3_paper.pdf": "https://arxiv.org/pdf/2005.14165.pdf"
}
papers_dir = Path("sample_papers")
papers_dir.mkdir(exist_ok=True)
print("📥 Downloading sample research papers...")
for filename, url in papers.items():
filepath = papers_dir / filename
if not filepath.exists():
try:
response = requests.get(url, stream=True, timeout=30)
response.raise_for_status()
with open(filepath, 'wb') as f:
for chunk in response.iter_content(chunk_size=8192):
f.write(chunk)
print(f"✅ Downloaded: {filename}")
except Exception as e:
print(f"❌ Failed to download {filename}: {e}")
else:
print(f"📄 Already exists: {filename}")
return str(papers_dir)
papers_directory = download_sample_papers()
def create_gemini_settings(paper_dir: str, temperature: float = 0.1):
"""Create optimized settings for PaperQA2 with Gemini models"""
return Settings(
llm="gemini/gemini-1.5-flash",
summary_llm="gemini/gemini-1.5-flash",
agent=AgentSettings(
agent_llm="gemini/gemini-1.5-flash",
search_count=6,
timeout=300.0,
),
embedding="gemini/text-embedding-004",
temperature=temperature,
paper_directory=paper_dir,
answer=dict(
evidence_k=8,
answer_max_sources=4,
evidence_summary_length="about 80 words",
answer_length="about 150 words, but can be longer",
max_concurrent_requests=2,
),
parsing=dict(
chunk_size=4000,
overlap=200,
),
verbosity=1,
)We download a set of well-known AI/ML research papers for our analysis and store them in a dedicated folder. We then create optimized PaperQA2 settings configured to use Gemini for all LLM and embedding tasks, fine-tuning parameters like search count, evidence retrieval, and parsing for efficient and accurate literature processing. Check out the Full Codes here.
class PaperQAAgent:
"""Advanced AI Agent for scientific literature analysis using PaperQA2"""
def __init__(self, papers_directory: str, temperature: float = 0.1):
self.settings = create_gemini_settings(papers_directory, temperature)
self.papers_dir = papers_directory
print(f"🤖 PaperQA Agent initialized with papers from: {papers_directory}")
async def ask_question(self, question: str, use_agent: bool = True):
"""Ask a question about the research papers"""
print(f"\n❓ Question: {question}")
print("🔍 Searching through research papers...")
try:
if use_agent:
response = await agent_query(query=question, settings=self.settings)
else:
response = ask(question, settings=self.settings)
return response
except Exception as e:
print(f"❌ Error processing question: {e}")
return None
def display_answer(self, response):
"""Display the answer with formatting"""
if response is None:
print("❌ No response received")
return
print("\n" + "="*60)
print("📋 ANSWER:")
print("="*60)
answer_text = getattr(response, 'answer', str(response))
print(f"\n{answer_text}")
contexts = getattr(response, 'contexts', getattr(response, 'context', []))
if contexts:
print("\n" + "-"*40)
print("📚 SOURCES USED:")
print("-"*40)
for i, context in enumerate(contexts[:3], 1):
context_name = getattr(context, 'name', getattr(context, 'doc', f'Source {i}'))
context_text = getattr(context, 'text', getattr(context, 'content', str(context)))
print(f"\n{i}. {context_name}")
print(f" Text preview: {context_text[:150]}...")
async def multi_question_analysis(self, questions: list):
"""Analyze multiple questions in sequence"""
results = {}
for i, question in enumerate(questions, 1):
print(f"\n🔄 Processing question {i}/{len(questions)}")
response = await self.ask_question(question)
results = response
if response:
print(f"✅ Completed: {question[:50]}...")
else:
print(f"❌ Failed: {question[:50]}...")
return results
async def comparative_analysis(self, topic: str):
"""Perform comparative analysis across papers"""
questions = [
f"What are the key innovations in {topic}?",
f"What are the limitations of current {topic} approaches?",
f"What future research directions are suggested for {topic}?",
]
print(f"\n🔬 Starting comparative analysis on: {topic}")
return await self.multi_question_analysis(questions)
async def basic_demo():
"""Demonstrate basic PaperQA functionality"""
agent = PaperQAAgent(papers_directory)
question = "What is the transformer architecture and why is it important?"
response = await agent.ask_question(question)
agent.display_answer(response)
print("🚀 Running basic demonstration...")
await basic_demo()
async def advanced_demo():
"""Demonstrate advanced multi-question analysis"""
agent = PaperQAAgent(papers_directory, temperature=0.2)
questions = [
"How do attention mechanisms work in transformers?",
"What are the computational challenges of large language models?",
"How has pre-training evolved in natural language processing?"
]
print("🧠 Running advanced multi-question analysis...")
results = await agent.multi_question_analysis(questions)
for question, response in results.items():
print(f"\n{'='*80}")
print(f"Q: {question}")
print('='*80)
if response:
answer_text = getattr(response, 'answer', str(response))
display_text = answer_text[:300] + "..." if len(answer_text) > 300 else answer_text
print(display_text)
else:
print("❌ No answer available")
print("\n🚀 Running advanced demonstration...")
await advanced_demo()
async def research_comparison_demo():
"""Demonstrate comparative research analysis"""
agent = PaperQAAgent(papers_directory)
results = await agent.comparative_analysis("attention mechanisms in neural networks")
print("\n" + "="*80)
print("📊 COMPARATIVE ANALYSIS RESULTS")
print("="*80)
for question, response in results.items():
print(f"\n🔍 {question}")
print("-" * 50)
if response:
answer_text = getattr(response, 'answer', str(response))
print(answer_text)
else:
print("❌ Analysis unavailable")
print()
print("🚀 Running comparative research analysis...")
await research_comparison_demo()̌We define a PaperQAAgent that uses our Gemini-tuned PaperQA2 settings to search papers, answer questions, and cite sources with clean display helpers. We then run basic, advanced multi-question, and comparative demos so we can interrogate literature end-to-end and summarize findings efficiently. Check out the Full Codes here.
def create_interactive_agent():
"""Create an interactive agent for custom queries"""
agent = PaperQAAgent(papers_directory)
async def query(question: str, show_sources: bool = True):
"""Interactive query function"""
response = await agent.ask_question(question)
if response:
answer_text = getattr(response, 'answer', str(response))
print(f"\n🤖 Answer:\n{answer_text}")
if show_sources:
contexts = getattr(response, 'contexts', getattr(response, 'context', []))
if contexts:
print(f"\n📚 Based on {len(contexts)} sources:")
for i, ctx in enumerate(contexts[:3], 1):
ctx_name = getattr(ctx, 'name', getattr(ctx, 'doc', f'Source {i}'))
print(f" {i}. {ctx_name}")
else:
print("❌ Sorry, I couldn't find an answer to that question.")
return response
return query
interactive_query = create_interactive_agent()
print("\n🎯 Interactive agent ready! You can now ask custom questions:")
print("Example: await interactive_query('How do transformers handle long sequences?')")
def print_usage_tips():
"""Print helpful usage tips"""
tips = """
🎯 USAGE TIPS FOR PAPERQA2 WITH GEMINI:
1. 📝 Question Formulation:
- Be specific about what you want to know
- Ask about comparisons, mechanisms, or implications
- Use domain-specific terminology
2. 🔧 Model Configuration:
- Gemini 1.5 Flash is free and reliable
- Adjust temperature (0.0-1.0) for creativity vs precision
- Use smaller chunk_size for better processing
3. 📚 Document Management:
- Add PDFs to the papers directory
- Use meaningful filenames
- Mix different types of papers for better coverage
4. ⚡ Performance Optimization:
- Limit concurrent requests for free tier
- Use smaller evidence_k values for faster responses
- Cache results by saving the agent state
5. 🧠 Advanced Usage:
- Chain multiple questions for deeper analysis
- Use comparative analysis for research reviews
- Combine with other tools for complete workflows
📖 Example Questions to Try:
- "Compare the attention mechanisms in BERT vs GPT models"
- "What are the computational bottlenecks in transformer training?"
- "How has pre-training evolved from word2vec to modern LLMs?"
- "What are the key innovations that made transformers successful?"
"""
print(tips)
print_usage_tips()
def save_analysis_results(results: dict, filename: str = "paperqa_analysis.txt"):
"""Save analysis results to a file"""
with open(filename, 'w', encoding='utf-8') as f:
f.write("PaperQA2 Analysis Results\n")
f.write("=" * 50 + "\n\n")
for question, response in results.items():
f.write(f"Question: {question}\n")
f.write("-" * 30 + "\n")
if response:
answer_text = getattr(response, 'answer', str(response))
f.write(f"Answer: {answer_text}\n")
contexts = getattr(response, 'contexts', getattr(response, 'context', []))
if contexts:
f.write(f"\nSources ({len(contexts)}):\n")
for i, ctx in enumerate(contexts, 1):
ctx_name = getattr(ctx, 'name', getattr(ctx, 'doc', f'Source {i}'))
f.write(f" {i}. {ctx_name}\n")
else:
f.write("Answer: No response available\n")
f.write("\n" + "="*50 + "\n\n")
print(f"💾 Results saved to: {filename}")
print("✅ Tutorial complete! You now have a fully functional PaperQA2 AI Agent with Gemini.")We create an interactive query helper that allows us to ask custom questions on demand and optionally view cited sources. We also print practical usage tips and add a saver that writes every Q&A with source names to a results file, wrapping up the tutorial with a ready-to-use workflow.
In conclusion, we successfully created a fully functional AI research assistant that leverages the speed and versatility of Gemini with the robust paper processing capabilities of PaperQA2. We can now interactively explore scientific papers, run targeted queries, and even perform in-depth comparative analyses with minimal effort. This setup enhances our ability to digest complex research and also streamlines the entire literature review process, enabling us to focus on insights rather than manual searching.
Check out the Full Codes here. Feel free to check out our GitHub Page for Tutorials, Codes and Notebooks. Also, feel free to follow us on Twitter and don’t forget to join our 100k+ ML SubReddit and Subscribe to our Newsletter.
Asif Razzaq is the CEO of Marktechpost Media Inc.. As a visionary entrepreneur and engineer, Asif is committed to harnessing the potential of Artificial Intelligence for social good. His most recent endeavor is the launch of an Artificial Intelligence Media Platform, Marktechpost, which stands out for its in-depth coverage of machine learning and deep learning news that is both technically sound and easily understandable by a wide audience. The platform boasts of over 2 million monthly views, illustrating its popularity among audiences.