Xiphera's xQlave® ML-DSA (Dilithium) IP core for digital signatures safeguards against the imminent quantum threat.| Xiphera
Xiphera's IP core designed for RSA signature verification is used in numerous contemporary security protocols and applications, including TLS 1.3.| Xiphera
Xiphera protects your critical systems with fully in-house designed cryptographic IP cores implemented in pure hardware logic design.| Xiphera
Xiphera’s cryptographic TLS 1.3 IP core operates in a hardware-only fashion, encompassing both endpoints of a TLS 1.3 session.| Xiphera
nQrux® Secure Boot uses a hybrid signature scheme, offering a fundamental building block for creating trust in computing systems.| Xiphera
Xiphera's Asymmetric Cryptography portfolio offers a broad spectrum of modern and widely used asymmetric cryptographic algorithms.| Xiphera
Xiphera's products - fully in-house developed cryptographic IP cores - include various industry-approved and standardised cryptographic algorithms.| Xiphera
The standardisation process by the United States NIST started in 2016, and the first set of finalised standards, which define quantum-secure key exchange and digital signature methods, was published on August 13, 2024. Xiphera offers implementations of the primary algorithms in pure digital logic without hidden software components, for hardware solutions targeting critical infrastructures.| Xiphera
Xiphera's ML-KEM (CRYSTALS-Kyber) IP core implements post-quantum cryptography (PQC) in Key Encapsulation Mechanism (KEM).| Xiphera
Xiphera's xQlave® ML-DSA (CRYSTALS-Dilithium) IP core for digital signatures safeguards from the risks of quantum attacks.| Xiphera
Post-Quantum Cryptography (PQC) will answer to the imminent threat created by advances in quantum computing. Xiphera will present and demonstrate hardware-based IP cores for PQC algorithms in Japan in September 2024.| Xiphera