Novel method for handling Ethereum attack

TL;DR

This paper introduces a novel architecture combining blockchain layers into an OS-level system to enhance Ethereum security, scalability, and attack resilience, addressing limitations of current models in handling multiple attacks.

Contribution

The paper proposes a new layered architecture for Ethereum that improves security and scalability, and is chain-agnostic, offering a robust solution to blockchain attacks.

Findings

The new architecture enhances Ethereum's attack resistance.

It improves scalability and security for decentralized applications.

The approach is chain-agnostic and adaptable.

Abstract

Block-chain world is very dynamic and there is need for strong governance and underlying technology architecture to be robust to face challenges. This paper considers Ethereum, a leading block chain. We deep dive into the nature of this block chain, wherein for software upgrades forks are performed. They types of forks and impact is discussed. A specific Ethereum hack led to a hard fork and focus is provided on understanding the hack and overcoming it from a novel approach. The current model has been unable to handle multiple Ethereum attacks. Thus the current approach is compared against a novel approach providing a security and scaling solution. Here the architecture draws upon combining block-chain layers into operating system level. The approach can have tremendous benefits to block chain world and improve the way decentralized application teams perform. The benefits of the novel architecture is discussed. The approach helps safe guard block chain projects, making them safer and chain agnostic.