The course covers topics such as smart contracts, blockchain data structures, cryptographic techniques, and decentralized storage. With hands-on projects and practical exercises, students will gain real-world experience in building blockchain applications from scratch. By the end of the course, students will have a solid foundation in blockchain technology and the skills necessary to start developing their own DApps.
Welcome to our course on building a peer-to-peer network based on blockchain technology!
In this course, we will start by exploring the theory behind how blockchain works. You will learn about the key principles that underlie this innovative technology, including decentralization, consensus, and security. We will also delve into the technical details of how blocks are created and added to a blockchain, and how transactions are validated and processed.
Following this, you will learn about peer-to-peer networks and how they are used to facilitate communication and data transfer in decentralized systems. You will also have the chance to build a simple peer-to-peer network as a way of reinforcing your understanding of this important concept.
Then, you will learn how to implement a blockchain application on a peer-to-peer network, where multiple nodes are connected and can perform transactions with one another. This will give you the opportunity to apply your knowledge of blockchain technology and peer-to-peer networks to a real-world scenario.
Our ultimate goal is to make our blockchain support smart contracts. This means that nodes in the network will be able to deploy and execute smart contracts. These contracts will be written in a unique programming language, similar to how Ethereum uses Solidity, and we will have a customized runtime engine for executing these contracts, akin to Ethereum’s Ethereum Virtual Machine (EVM).
Outline of the course content:
Introduction to blockchain theory, covering decentralization, consensus, and security.
Technical details on how blocks are created and added to a blockchain, and how transactions are validated and processed.
Understanding of peer-to-peer networks and how they are used to facilitate communication and data transfer in decentralized systems.
Building a simple peer-to-peer network.
Implementing a blockchain application on a peer-to-peer network, with multiple nodes connected and able to perform transactions with one another.
Introduction to smart contracts, with the goal of making our blockchain support them.
Developing smart contracts using a unique programming language.
Customized runtime engine for executing smart contracts, similar to Ethereum’s Ethereum Virtual Machine (EVM).