Blockchain Tuesdays: Decentralized Exchanges (DEXs) and Indexing
Blockchain Tuesdays: Decentralized Exchanges (DEXs) and Indexing
Join us for this month's Blockchain Tuesday meetup, where we’ll explore two exciting and essential topics in the blockchain space: Decentralized Exchanges (DEXs) and Indexing. In this session, we'll break down how DEXs operate, focusing on key concepts like liquidity, swaps, and automated market makers (AMMs). We’ll also dive into how smart contract events are emitted, captured, and indexed, providing valuable insights for real-time analytics and blockchain data tracking.
Workshop Overview
Whether you're a developer eager to build on DeFi, a blockchain enthusiast exploring on-chain data, or simply curious about the inner workings of liquidity pools and swaps, this event is perfect for you!
Each Blockchain Tuesday, we aim to spark creativity with engaging discussions and demos from the community. You’ll have the opportunity to dive deep into the latest trends, share what you've been working on, and learn practical insights on decentralized technologies.
Key Topics We’ll Cover:
✅ How DEXs enable trustless, decentralized trading
✅ The role of liquidity providers and how they earn transaction fees
✅ Tracking smart contract events and understanding their data flow
✅ Building an indexer to extract and analyze blockchain data efficiently
This is an interactive, hands-on session where you’ll have the chance to ask questions, share ideas, and deepen your understanding of DEX infrastructure. Feel free to bring your own demo or project to showcase!
Don't Miss Out – Learn How On-Chain Data Powers DeFi!
Agenda:
5:00 pm - 6:30 pm: Co-working Session
5:30 pm: Delicious Food
6:30 pm - 7:30 pm: Workshop
7:30 pm - 9:00 pm: Optional Demo / Co-working
About the Organizer
Conflux is a high-throughput, first-layer consensus blockchain designed for decentralized applications (dApps) that demand speed at scale without sacrificing decentralization. Leveraging its innovative Tree-Graph structure, Conflux processes multiple blocks concurrently, dramatically reducing confirmation times and increasing transaction throughput.