The First Multichain EVM on Ethereum

NFHVM is an Ethereum Virtual Machine (EVM) empowering

developers to build and deploy Multichain dApps

  • 0.0001 NFH
    Transaction cost
  • 5000+
    TPS
  • 800ms
    Blocktime

Designed for developers

Leverage NFHVM to deploy any contracts for any EVM dapps, tapping into high-speed, parallel processing, and reduced gas fees without retooling your Ethereum dApp. NFHVM is where technical sophistication meets developer convenience, with robust compatibility with the EVM opcode set, enabling you to push the boundaries of dApp performance and innovation.

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Performance
NFHVM is the world’s first mainnet parallelized EVM that inherits its renowned high throughput, low latency, and scalability capabilities from Solana. NFHVM has a realistic high speed of over 8500 TPS depending on Ethereum load and transaction type. In a recent test (May 2024), NFHVM recorded a ground breaking 690 TPS on mainnet, surpassing the combined average TPS of the entire Ethereum ecosystem on that day.
Compatibility
NFHVM distinguishes itself as one of the most compatible EVMs among all other Layer 2 solutions by supporting the full set of EVM OPCODES, including PUSH0. This ensures that developers can seamlessly transition their Ethereum-based dApps to any other EVM blockchain without extensive code refactoring whilst having the ability to use the latest Solidity compiler. This compatibility extends to the use of familiar development tools and environments, such as Solidity and Vyper languages, allowing for a smooth migration and integration process.

Security
Signature verification according to Ethereum's cryptographic standards adds an extra layer of security, ensuring transactions are authentically initiated by the rightful account owners. Collective oversight by NFHVM DAO governance ensures that the platform evolves in response to emerging security challenges.
Modularity
At NFHVM we believe in the power of modularity in blockchain. The aim is to segregate resource-intensive operations across distinct layers, ensuring that computational, storage, and consensus mechanisms operate independently. Separating user layers from execution and storage, allowing developers more architectural latitude and NFHVM . With this modularity layering, developers will significantly amplify their dApps throughput, paving the way for a decentralized future without compromise.


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