Quantum resistant security
by design
ARMChain is a quantum safe blockchain built with post-quantum cryptography (PQC) at the protocol layer. Our cybersecurity protocols protect consensus, transactions, and smart contracts against current and future quantum threats while keeping full EVM compatibility for developers.
Post-quantum cryptography at every layer
ARMChain uses NIST-standardized post-quantum algorithms — including ML-DSA (Module-Lattice Digital Signature Algorithm) — for consensus signatures, transaction signing, and smart contract execution. No elliptic-curve dependencies that quantum computers can break.
- ML-DSA lattice-based signatures
- NIST PQC standardization alignment
- Quantum resistant key exchange
- Future-proof migration path
Designed for quantum safety, not patched
Unlike chains that plan to bolt on PQC later, ARMChain was architected from the ground up as a quantum resistant blockchain. Consensus, networking, and execution layers share a single security model built for the quantum era.
- Native PQC in consensus
- Quantum safe networking assumptions
- No legacy crypto in critical paths
- Unified threat model
EVM compatibility without the exposure
Developers get full Ethereum Virtual Machine compatibility so existing tools and contracts work out of the box — but the underlying chain is secured with quantum proof cryptography. Same workflow, quantum safe security.
- EVM-equivalent execution
- Familiar tooling and languages
- Quantum safe runtime guarantees
- No protocol-level legacy crypto
Security practices
We treat security as a continuous process. Our approach includes transparent design, third-party review, and community-driven disclosure so the ecosystem can trust the quantum resistant blockchain and decentralized protocol we are building.
- Regular security reviews and threat modeling
- Bug bounty program for researchers and developers
- Transparent disclosure and upgrade governance
- Auditable open-source core protocol