The First EVM-Compatible Layer 1
Engineered for the Post-Quantum Era
Built by MultiVM Labs
The $3 Trillion Security Debt
Every major blockchain relies on ECDSA — cryptography that quantum computers will break via Shor's algorithm.
Q-Day Is Not Theoretical
FIPS 203 / 204 / 205 published. Algorithm question settled.
First chip with below-threshold error correction.
Federal systems must be PQC-capable. Compliance clock starts.
Shor's algorithm on fault-tolerant quantum computers.
Legacy cryptography officially retired.
Why Existing Chains Can't Just "Upgrade"
Quantum: Post-Quantum Secure by Default
An EVM-compatible L1 designed for a world where PQ authorization is non-optional.
PQ-by-Default
NIST-standardized Falcon & ML-DSA signatures from genesis. No ECDSA. Zero legacy debt.
Sub-Second Finality
Engineered around the PQ Scaling Cliff — larger keys, no performance sacrifice.
EVM Compatible
Built on Reth. Full compatibility with Solidity, Foundry, Hardhat.
Crypto-Agile
Hedging modes from Normal to Emergency. Built to survive algorithm surprises.
Engineered for the PQ-Scaling Reality
NIST-Standardized Post-Quantum Signatures
Signature size comparison (ECDSA = 65 B)
This is why you can't just bolt on PQ crypto — the protocol must be designed for it.
The PQ Scaling Cliff
PQ signatures are CPU-manageable, but they are large — and that cascades everywhere.
User Layer
10–100× larger payloadsFewer TXs per block at same byte budget. Increased propagation latency and orphan risk.
Consensus Layer
~44.6 KB per quorum proofQuorum proofs: (2f+1) × sig_size. 200 validators → ~88.6 KB. Bandwidth dominates.
Our Approach
- Protocol designed for PQ constraints from day 1
- Ringtail threshold certificates → 99% compression
- Simplex consensus with minimal critical path
- Bandwidth & storage budgets PQ-aware
Built to Survive Algorithm Surprises
If lattice-based crypto is ever broken, we have a contingency plan — not a panic.
Normal
Lattice-only signatures (Falcon / ML-DSA). Maximum performance.
Checkpoint-Hedged
Hash-based signatures (SLH-DSA) at epoch boundaries. Safety with minimal overhead.
Emergency
Dual-sign every message: lattice + hash-based. Maximum safety under active attack.
The "Trojan Horse" Strategy
We don't need the world to migrate to our L1 to start acquiring users today.
MetaMask Snap
Install PQ signing in existing wallet
PQ Smart Wallet
Deploy on any EVM chain
Deposit & Protect
Wallet only accepts PQ sigs
Quantum-Safe
Assets safe even if ECDSA is cracked
Native Post Quantum Bridge — Entanglement
Most bridges introduce risk. Ours enforces a hard security boundary.
Classical EVM
Quantum L1
Who Needs Quantum Today?
Anyone holding assets that must be secure 10+ years from now.
Institutional Custody
Treasuries & vaults immune to "harvest now, decrypt later"
Real World Assets
Tokenized bonds & real estate with multi-decade lifecycles
Government & Defense
Infrastructure requiring FIPS-compliant PQC standards
Long-Horizon Governance
Voting that remains valid under future quantum threats
High-Value Vaults
Break-glass safety with dual-sign policies
The Sanctuary for Long-Lived Value
Market Size
Growth Drivers
2026 U.S. federal PQC mandate. NIST deprecating RSA/ECDSA by 2030.
Custody providers and exchanges need quantum-safe infrastructure.
Multi-decade assets on-chain require multi-decade security guarantees.
Why Quantum Wins
$QBIT — Native Protocol Token
Staking
Secure the network through PQ-authenticated validator staking
Gas Fees
Pay for execution on the Quantum L1
Governance
Protocol governance with PQ-secured voting
Quantum-Wrapped Assets
Path to Mainnet
Devnets
Now- PQ consensus baseline (Simplex + Falcon)
- PQ userland authorization + precompiles
- Checkpoint hedging & emergency mode
- Key registry (AuthDescriptor)
Testnet
- PQ Wallet Layer (Snap + Smart Wallets)
- Entanglement bridge integration
- Developer tooling (Foundry / Hardhat)
- Multiple independent audits
Mainnet
- Launch with Falcon / ML-DSA
- $QBIT Token Generation Event
- Bug bounty program
Post-Launch
- P2P transport PQ-KEM evaluation
- Expanded wallet integrations
Momentum & Validation
Milestones
Key Proof Points
qSOL, qUSDT, qETH, qBTC, QBIT
FIPS 203, 204, 205 — U.S. government PQC
Ringtail threshold certificates exploration
Foundry, Hardhat, Solidity compatible
"The question isn't whether blockchain cryptography will break — it's whether you'll be ready when it does."
Built by MultiVM Labs
Deep Technical DNA
Cryptography
Consensus
Execution
Secure the Future.
We are raising to finalize Mainnet engineering, audit our novel PQ-primitives, and capture the "Day 0" market for quantum-safe custody.
Built by MultiVM Labs