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NewHope
In post-quantum cryptography, NewHope is a key-agreement protocol by Erdem Alkim, Léo Ducas, Thomas Pöppelmann, and Peter Schwabe that is designed to resist quantum computer attacks. NewHope is based on a mathematical problem ring learning with errors (RLWE) that is believed to be difficult to solve. NewHope has been selected as a round-two contestant in the NIST Post-Quantum Cryptography Standardization competition, and was used in Google's CECPQ1 experiment as a quantum-secure algorithm, alongside the classical X25519 algorithm. Design choices The designers of NewHope made several choices in developing the algorithm: * ''Binomial Sampling'': Although sampling to high-quality discrete Gaussian distribution is important in post-quantum lattice-based ''compact'' signature scheme such as Falcon (GPV-style Hash-and-Sign paradigm) and BLISS (GLP-style Fiat–Shamir paradigm) to prevent signature from leaking information about the private key, it's otherwise not so essential to k ... [...More Info...] [...Related Items...] OR: [Wikipedia] [Google] [Baidu] |
Post-Quantum Cryptography Standardization
Post-Quantum Cryptography Standardization is a program and competition by NIST to update their standards to include post-quantum cryptography. It was announced at PQCrypto 2016. 23 signature schemes and 59 encryption/ KEM schemes were submitted by the initial submission deadline at the end of 2017 of which 69 total were deemed complete and proper and participated in the first round. Seven of these, of which 3 are signature schemes, have advanced to the third round, which was announced on July 22, 2020. Background Academic research on the potential impact of quantum computing dates back to at least 2001. A NIST published report from April 2016 cites experts that acknowledge the possibility of quantum technology to render the commonly used RSA algorithm insecure by 2030. As a result, a need to standardize quantum-secure cryptographic primitives was pursued. Since most symmetric primitives are relatively easy to modify in a way that makes them quantum resistant, efforts have focuse ... [...More Info...] [...Related Items...] OR: [Wikipedia] [Google] [Baidu] |