Quick query using LMs
Q1:
Several post-quantum cryptography schemes and algorithms are being developed and implemented to resist potential attacks from future quantum computers. Some notable examples include:
1. Open Quantum Safe (OQS) project: Aims to integrate current post-quantum schemes in one library, including algorithms like Ring Learning with Errors (LWE) key exchange (BCNS15 and NewHope) and Module Learning With Error (ML-KEM) (CRYSTALS-Kyber).
2. Frodo: A learning-with-errors (LWE) based key exchange algorithm.
NTRU Encrypt: A lattice-based encryption algorithm with a relatively small public key size (766.25 B) and private key size (842.875 B).
3. Random Linear Code based encryption (RLCE): A scheme with a larger public key size (115 kB) and smaller private key size (3 kB).
>Note
Additionally, the National Institute of Standards and Technology (NIST) has announced its first quantum-resistant algorithms, based on structured lattices and hash functions, which could resist quantum computer attacks.
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npub1yx…z7r4c
2024-10-02 15:01:36
in reply to nevent1q…w4tt
Author Public Key
npub1yxcm3s8g7aj8ujnx3wragtqdq39ke2zl3e6jhtglk6z8n0j2ey5sfz7r4cPublished at
2024-10-02 15:01:36Event JSON
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"content": "Quick query using LMs\n\nQ1:\n\nSeveral post-quantum cryptography schemes and algorithms are being developed and implemented to resist potential attacks from future quantum computers. Some notable examples include:\n\n1. Open Quantum Safe (OQS) project: Aims to integrate current post-quantum schemes in one library, including algorithms like Ring Learning with Errors (LWE) key exchange (BCNS15 and NewHope) and Module Learning With Error (ML-KEM) (CRYSTALS-Kyber).\n2. Frodo: A learning-with-errors (LWE) based key exchange algorithm.\n NTRU Encrypt: A lattice-based encryption algorithm with a relatively small public key size (766.25 B) and private key size (842.875 B).\n3. Random Linear Code based encryption (RLCE): A scheme with a larger public key size (115 kB) and smaller private key size (3 kB).\n\n\u003eNote\nAdditionally, the National Institute of Standards and Technology (NIST) has announced its first quantum-resistant algorithms, based on structured lattices and hash functions, which could resist quantum computer attacks.\n\n",
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