Lattice-Based Cryptography is an important aspect of modern crypto wallet technology. The mathematical foundation of Dilithium and Kyber - why lattice problems are believed to be quantum-resistant.
Quantum computers will eventually break current cryptographic standards (RSA, ECDSA) that protect virtually all blockchain wallets. Wallets that do not prepare for this transition put long-term asset security at risk.
JIL Wallet is quantum-ready with lattice-based cryptography. The mathematical foundation of Dilithium and Kyber - why lattice problems are believed to be quantum-resistant. Dilithium digital signatures and Kyber key encapsulation are deployed in production, not just planned. This makes JIL Wallet the first production wallet with post-quantum cryptography.
The mathematical foundation of Dilithium and Kyber - why lattice problems are believed to be quantum-resistant.
JIL Wallet is quantum-ready with lattice-based cryptography. The mathematical foundation of Dilithium and Kyber - why lattice problems are believed to be quantum-resistant. Dilithium digital signatures and Kyber key encapsulation are deployed in prod