ekrenzke's Stars
anoma/anoma-archive
Reference implementation of the Anoma protocols in Rust.
celestiaorg/celestia-core
A fork of CometBFT
connext/monorepo
Connext is a modular stack for trust-minimized, generalized communication between blockchains.
SuddenlyHazel/dfx_notes
ApeWorX/ape
The smart contract development tool for Pythonistas, Data Scientists, and Security Professionals
kristoferlund/ic-wall
The Wall is a crossover Ethereum/Internet Computer demo app. Use Metamask to login to Internet Computer. Then, write on the wall! ∞
Toniq-Labs/exponent
The Exponent Platform for the Internet Compter
Uniswap/v3-staker
Canonical liquidity mining contract for Uniswap V3
orbit-love/orbit-model
A framework for building high gravity communities 🪐
Cozy-Finance/cozy-developer-guides
Sample scripts and example code to help developers integrate with the Cozy Protocol
jkmartindale/ethical_targeting-backend
Effectively drive SMB revenue without selling your soul
dfinity/ic
Internet Computer blockchain source: the client/replica software run by nodes
dfinity/internet-identity
Internet Identity, a blockchain authentication system for the Internet Computer
SuddenlyHazel/dfinity_nft
dfinity/ic-repl
dfinity/awesome-internet-computer
A curated list of awesome projects and resources relating to the Internet Computer Protocol
ccyanxyz/motoko-token
ERC20 style token template for Dfinity
Anish-Agnihotri/punk-nftx-meebit-arb
Quick & dirty NFTX arbitrage contracts, via flash loan, to exploit Meebit redemption.
hwayne/learntla
A TLA+ guide
facebook/winterfell
A STARK prover and verifier for arbitrary computations
dfinity/keysmith
Hierarchical Deterministic Key Derivation for the Internet Computer
DFINITY-Education/programming-languages
In this course, students will learn about the foundational elements of programming languages as well as the design principles behind Motoko and the Internet Computer, and will build their own simple stack machine using these ideas. Module 1 serves as an intro to this unit, providing historical context for programming language design and how this relates to Motoko. Module 2 introduces the idea of a stack machine that can sequentially process instructions, and Modules 3 and 4 build upon this implementation to extend the functionality of the stack machine with type enforcement and branching.
DFINITY-Education/distributed-systems
In this course, students will learn the fundamentals of distributed systems programming by building on top of the open auction platform we previously created in the Web Development section. Module 1 serves as an intro to this unit, providing a primer for Distributed Systems by reviewing distribution transparency and distributed time. Module 2 introduces students to the idea of "locking", borrowed from database management systems, which ensures that users cannot simultaneously bid on the same auction. In Module 3, students implement a feature that ensures bids are processed in the correct order. Finally, in Module 4 students explore how they can maintain bid "secrecy" in a distributed system through the use of hashing.
DFINITY-Education/data-structures
In this course, students will learn about the foundational elements of data structures as well as how they work on the Internet Computer. Module 1 serves as an intro to this unit, providing context for data structure design and the tradeoffs to consider when weighing which to use in certain projects. Module 2 and 3 explore the distinction between Motoko's differing styles for writing data structures: object-oriented (collection of functions that mutate state), and pure (no methods, no mutations). Module 4 builds on the data structures explored so far. Students will get hands-on experience via the IC's `BigMap` library, learning to scale their data structures beyond a single canister in the process.
DFINITY-Education/web-development
In this course, students will learn how to develop web applications on the IC and ultimately implement an open auction platform similar to eBay. Module 1 serves as an intro to this unit, providing a primer for web development by reviewing canister messaging, HTTP requests, cycles, and autonomous canisters. Module 2 introduces students to the idea of an open auction platform and completes the majority of the backend required for such a project. In Module 3, students connect their backend code with a frontend accessible via browser. Finally, Module 4 has students implement an autonomous governance canister, that acts as the decentralized arbiter of our auction platform's feature upgrades.
DFINITY-Education/blockchain-and-cryptocurrency
In this course, students will learn about the fundamentals of blockchain technology as well as the cryptocurrencies built on top of it. Module 1 serves as an intro to the concept of blockchains, cryptocurrencies, limitations of these services, and payment channels. Module 2 explains tokens and gives students the opportunity to experiment with an ERC-20 style token built on Motoko. In Module 3 students begin their own implementation of a payment channel in Motoko, and in Module 4 they finish this implementation. Each module builds upon concepts learned and activities completed in the prior modules.
chenyan2002/ic-maze
DFINITY-Education/protocol-design
In this course, students will learn about the basics of protocols, understand how core protocols create the internet as we know it, and develop a high-level conception of the Internet Computer Protocol. Using this knowledge, students will implement their own version of DNS and a basic banking application on the Internet Computer. Module 1 serves as an intro to this unit, providing context for protocol design that will then be leveraged in Modules 2-4 to implement several applications on the Internet Computer.
enzoh/xpubprincipals
Generate Principal Identifiers from an Extended Public Key
enzoh/xpubaddrs
Generate Legacy DFINITY Addresses from an Extended Public Key