Erlang NIF for the post-quantum key exchange: A New Hope.
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Updated
Aug 17, 2016 - C
Cryptographic algorithms secure against potential future quantum computers.
Erlang NIF for the post-quantum key exchange: A New Hope.
Erlang NIF for SPHINCS-256: practical stateless hash-based signatures.
post-quantum email encryption with CodeCrypt
Library for cryptographic primitives
C library for quantum-resistant cryptographic algorithms.
Hash-based signature schemes implemented in C
Python Wrappers for Post-Quantum Cryptography, see: https://csrc.nist.gov/Projects/Post-Quantum-Cryptography/Round-1-Submissions
SageMath notebooks for Isogeny Graphs in Cryptography
Java implementation of the New Hope post-quantum algorithm.
Java implementation of the New Hope Ring Learning With Errors Key Exchange
Quantum circuits for ISD using Grover
Implementation of the Saber post-quantum key-encapsulation mechanism
Java implementation of the Supersingular Isogeny Diffie-Hellman key exchange
Tools for power measurements of post-quantum cryptographic algorithms
Fast and ergonomic lattice cryptography library
UDP port knocking suite with HMAC-PSK authentication.
The Open Quantum Safe OpenSSL packaging repository
liboqs-java is an open source Java wrapper for the liboqs C library. The Open Quantum Safe (OQS) project provides software for prototyping quantum-resistant cryptography.