The software industry is accelerating its transition to post-quantum cryptography (PQC). The two most used languages for Ethereum development, Rust and Go, integrate algorithms that are resistant to quantum attacks.
The standard libraries of both languages already contain implementations of algorithms such as ML-KEM and ML-DSA. tool Enabling communication encryption using post-quantum algorithms without sacrificing network performance.
Updates for these two programming languages are done as a first line of defense In the face of quantum progress Risks to Ethereum and other networks, databases, computers, and other devices. Considering Rust and Go, this is relevant to the cryptocurrency ecosystem. Provide the foundation needed to build resilient networks.
Péter Szilágyi, lead developer of Geth (Ethereum node client), highlighted the advancement of this technology on his social networks. Szilágyi shared a tweet detailing the different languages. framework With post-quantum support. For developers, “there is no longer any excuse not to use post-quantum cryptography.”
Geth is software developed in the Go language, which is one of the fundamental parts of Ethereum nodes. Include native support in your crypto library Simplify security deployment. What opens doors for companies? Start developing your solution With post-quantum protection.
Rust is integrated within the Ethereum architecture for security. Ethereum co-creator Vitalik Buterin himself proposed moving the EVM (Ethereum Virtual Machine) to RISC-V, a zero-knowledge proof (ZK) friendly virtual machine that uses the Rust base language.
The relevance of this language is: 20% of ecosystem developers are already using them. Lighthouse, one of the Ethereum consensus clients (previously known as Ethereum 2.0 or ETH2), is built on Rust. This is a fundamental piece of infrastructure designed for users to run their own nodes and validators within the network.
Given Rust’s increasing adoption, post-quantum support makes it easier for networks using Rust to: adapt to new threats. This is the case with Optimism, the second layer of Ethereum, which is already preparing post-quantum protection, as reported by CriptoNoticias.
Responding to the urgency of these changes Impact on risks in other protocolsincluding Bitcoin. In this regard, 33% of Bitcoin currently stored is known to be quantum vulnerable. These are coins that are stored at old addresses and expose the user’s public key.
This is why moving the Rust and Go languages to new standards reduces similar risks in other systems. programmers today Responsible for implementing these features. The cryptocurrency ecosystem aims to survive even in the era of quantum computing.
