Defining almost everything about Solidity and Yul assembly
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Updated
Aug 25, 2023 - Solidity
Defining almost everything about Solidity and Yul assembly
L'optimisation des coûts en gas est un enjeu clé dans le développement de contrats intelligents sur la blockchain Ethereum, chaque opération effectuée sur Ethereum ayant un coût en gas. Cet article sera aussi l'occasion de fournir du contenu aux lecteurs francophones (🇫🇷).
Optimizing gas costs is a key challenge in the development of smart contracts on the Ethereum blockchain, as every operation carried out on Ethereum incurs a gas cost.
A hands-on, practical guide to learning and mastering Yul, an intermediate language for Ethereum.
The repository contains solutions to Smart Contract Security challenges. These solutions are aimed at addressing and mitigating potential security vulnerabilities in smart contracts, enhancing the overall security and robustness of blockchain-based applications.
smart contract optimization using Yul and Solidit
Notes from basic aspects of programming with solidity course by Distributed Lab
This is my personal fork of Patrick Collin's Cyfrin Updraft Solidity Assembly(Yul) and Formal Verification Course; here I make my own personal notes.
This repository is dedicated to exploring low-level operations in Solidity using Yul, an intermediate language designed for Ethereum smart contract development.
Standard ERC20 token contract built using Yul
Implementation of simple smart contracts in Huff, inline Yul, and pure Yul
MagApe official repository for all smart contracts
A highly efficient ERC20 token implementation in Yul Assembly for Solidity smart contracts.
Yul is a programming language that can be used to interact with the low level memory, stack in solidity. Yul is very handy during the smart contract audit and yul can be used to implement various types of functions that are hard to implement in solidity.
Create2Factory on SKALE
The repository provides a comprehensive collection of Solidity Assembly (YUL) opcodes along with illustrative examples. These opcodes serve as building blocks for writing efficient and optimized smart contracts in the Solidity programming language.
A Bridging protocol to move tokens from L1 to L2
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