● Testnet Live Dilithium2 ML-DSA-44 NIST FIPS 204

THE POST-QUANTUM
LAYER 1 BLOCKCHAIN

Built from scratch in Rust. Secured by Dilithium2 (NIST FIPS 204). Running live with 4 nodes in production today.

Blocks mined
QAX in circulation
4
Live nodes
475+
Tests passing
Explore the network → Technical architecture
Running in production

Live Network — 4 Nodes in Consensus

Four independent nodes running the Qaxis testnet. Heights updated every 15 seconds. Click any node to explore live blockchain data.

Node 1 — Bootstrap
178.104.32.147
Block height
Explorer →
Node 2
89.167.108.239
Block height
Explorer →
Node 3
157.90.24.134
Block height
Explorer →
Node 4
204.168.147.226
Block height
Explorer →
Connecting to network...
The threat is real

The Quantum Threat Is Real

ECDSA — used by Bitcoin, Ethereum, and Solana — is mathematically broken by Shor's algorithm on a sufficiently powerful quantum computer. The question is no longer if, but when.

2024
NIST standardizes Dilithium (FIPS 204) — first official post-quantum signature standard. Qaxis integrates Dilithium2 natively from day one.
2025
Google announces 4,000+ qubit processors. IBM demonstrates quantum supremacy on real cryptographic problems. NIST urges organizations to begin migration.
2026
Qaxis testnet is live — 4 nodes running, 475+ tests passing, Dilithium2 signatures on every transaction.
2029
Google/NIST PQ migration deadline. ECDSA (Bitcoin, Ethereum) becomes vulnerable. Emergency migration required for unprotected chains.
2030–2035
Estimated Q-Day. Blockchains without post-quantum protection become obsolete. Only native PQ chains survive. Qaxis is ready.
4.5M BTC
Bitcoin addresses with exposed public keys — directly vulnerable to a quantum attack with Shor's algorithm
$1.3T
Assets at risk from quantum attacks by 2035 across crypto and traditional finance
HNDL
Harvest Now, Decrypt Later — nation-state actors are already storing encrypted transactions for future decryption
Vulnerable
Bitcoin
ECDSA secp256k1
✕ No PQ plan
Vulnerable
Ethereum
ECDSA secp256k1
✕ EIP-7212 research
Vulnerable
Solana
Ed25519
✕ No PQ plan
Partial
Existing PQ chains
Stateful signatures
⚠ Key reuse = breach
Protected ✓
Qaxis
Dilithium2 ML-DSA-44
✓ Native from scratch
Not a fork

Built From Scratch — Not a Fork

Every layer designed for post-quantum security. 30,000+ lines of Rust. Zero inherited vulnerabilities.

5
HD Wallet
BIP44 · 24-word mnemonic · HKDF-SHA3-256 · AES-256-GCM + Argon2id encryption
HKDF-SHA3
4
Cryptography
Dilithium2 ML-DSA-44 · 2,420B signatures · 1,312B public keys · 128-bit PQC security
FIPS 204
3
Transactions
Bitcoin UTXO model · SegWit-style TxCore (4×) + TxWitness (1×) · 16 MB max block
UTXO
2
Consensus
SHA3-256 Proof-of-Work (Keccak) · 2,016-block retarget · 300s target · 21M supply
SHA3-256
1
P2P Network
Bitcoin Core IBD protocol · Window 1,024 · 16 blocks/peer · Adaptive stall timeout
P2P
100% Original Rust Codebase
Built from scratch
Lines of code30,000+
LanguageRust (safe, fast)
Inherited bugsZero
External depsMinimal, audited
No Dependency on Existing Chains
Fully independent architecture
UTXO modelNative, not inherited
P2P protocolCustom Rust stack
ConsensusSHA3-256 PoW native
VulnerabilitiesNo EVM, no forks
Post-Quantum by Design
Not a patch — a foundation
SignatureDilithium2 stateless
Key reuse riskNone
Hash PoWSHA3-256 (Keccak)
StandardNIST FIPS 204
Max supply
21,000,000
QAX · halving every 210K blocks
Block target
300s
5 min · retarget every 2,016 blocks
Signature size
2,420 B
Dilithium2 ML-DSA-44
Public key
1,312 B
Revealed only at spend
PQ security
128-bit
Against Shor & Grover
Block size
16 MB
TxCore + TxWitness separated
Tests passing
475+
Reorg · double-spend · fuzzing
Wallet
HD BIP44
HKDF-SHA3-256 derivation
Tested & audited

Security & Audit

Automated testing, military-grade encryption, resistance validated in production.

93
/ 100
475+ automated tests
Reorg, double-spend, crash recovery, injection, fuzzing
Argon2id + AES-256-GCM wallet encryption
Brute-force resistant (m=256MB, t=4, p=4)
Chain reorganization protection
Tested up to 50-block depth
Strict UTXO double-spend prevention
Verified on every transaction
SegWit-style witness separation
TxCore (4× weight) + TxWitness (1× weight)
Quantum resistance confirmed
Dilithium2 NIST FIPS 204 — Shor & Grover proof
Secure IBD (Bitcoin Core style)
Window 1,024 · 16 blocks/peer · Anti-DoS stall timeout
Full Merkle Root validation
Every transaction verified per block, immediate rejection
Authenticated native mining pool
Integrated pool + isolated worker, no external dependency
Source code
Proprietary
Not open source — protects IP. Auditable on request for serious investors.
Production network
4 live nodes
Testnet verifiable in real-time via the explorer above. Not a whitepaper.
Audit on demand
Code review
Private demo + full code audit available for investors and acquirers.
Partnership & Acquisition

Let's build the post-quantum future together.

Qaxis is available for licensing, strategic partnership, or acquisition. Proprietary code. Live demo on this site. Code audit on demand for serious partners.

contact@qaxis.io
Live explorers
Node 1 — Bootstrap 178.104.32.147 Node 2 89.167.108.239 Node 3 157.90.24.134 Node 4 204.168.147.226