qVault is a modular cryptographic vault designed to future-proof decentralized assets against quantum threats. Our protocol introduces a dual-key system combining traditional ECDSA with hash-based, quantum-resistant signatures (WOTS+), ensuring long-term secure asset custody.
Our mission is to solve one of Web3's most pressing but invisible risks: the quantum vulnerability of existing wallets and signature schemes. By introducing a post-quantum fallback mechanism, we provide protocols, DAOs, and asset custodians an opt-in pathway to mitigate the long-term risks of quantum computing without sacrificing near-term usability or composability.
- ECDSA is non-quantum secure (a quantum computer can break the Discrete Log Problem).
- Existing wallets and vaults cannot easily upgrade to quantum-safe mechanisms.
- DeFi protocols and treasuries risk total compromise when quantum computers become practical.
- Multi-chain DeFi protocols with long-term asset exposure.
- DAO treasuries and on-chain asset managers.
- Institutional custodians needing gradual quantum upgrades.
- Security-focused infrastructure and custody providers.
Our team consists of experts with backgrounds in:
- Advanced cryptographic research including hash-based signature schemes and post-quantum cryptography.
- Smart contract development across EVM chains and modular design.
- Applied security R&D and secure systems engineering for decentralized environments.
qVault Vault introduces:
- Dual-Key Ownership: Users can bring their existing wallets and create a new WOTS+ key (quantum-safe fallback).
- Quantum Fallback Layer: Configurable privileged operations require WOTS+ signatures which remain safe in a post-quantum world.
- Efficiency and Security: Hash computations in EVM are cost effective. Security proofs for hash-based signatures are well bounded.
- Vault systems securing long-term assets with quantum-safe fallback.
- Cross-chain custody infrastructure where security outlives current cryptographic assumptions.
- DAO and treasury operations requiring robust post-quantum readiness.
- Strengthens long-term security for EVM-based ecosystems.
- Adaptable to other smart contract platforms supporting signature validation (EIP-1271).
- Advances the broader conversation around quantum safety in decentralized finance.
| Month | Milestone |
|---|---|
| 1 | Protocol specification, cryptographic design, threat modeling |
| 2-3 | WOTS+ Solidity library and Go reference implementation |
| 4-5 | Vault smart contract prototypes, fallback logic implementation |
| 6 | Formal review, benchmarking, and open-source release |
Our team brings a strong interdisciplinary background including:
- Extensive research in cryptography and post-quantum signature schemes
- Advanced smart contract engineering in Solidity for EVM environments
- Protocol design, formal verification, and applied security audits
- Systems programming (Rust, Go) supporting modular cryptographic development
- GitHub (coming soon)
- Project Website: https://qVault-web.vercel.app/
- Email: qvaults@proton.me
qVault Vault is designed as a specialized cryptographic vault module β quantum-resilient, adaptable, and secure by design. By enabling post-quantum protection today, we help future-proof decentralized assets, protocols, and treasuries for the challenges of tomorrow.
Join us in advancing the future of secure decentralized custody.