Announcement from NIST PQC Standardization Process, NIST has identified four candidate algorithms for standardization
After careful consideration during the 3rd Round of the NIST PQC Standardization Process, NIST has identified four candidate algorithms for standardization. The primary algorithms NIST recommends be implemented for most use cases are CRYSTALS-KYBER (key-establishment) and CRYSTALS-Dilithium (digital signatures). In addition, the signature schemes Falcon and SPHINCS+ will also be standardized.
Algorithms to be Standardized
Additionally, the following candidate KEM algorithms will advance to the fourth round:
4th Round Candidates
Both BIKE and HQC are based on structured codes, and either would be suitable as a general-purpose KEM that is not based on lattices. NIST expects to select at most one of these two candidates for standardization at the conclusion of the fourth round. SIKE remains an attractive candidate for standardization because of its small key and ciphertext sizes and will continue to study it in the fourth round. Classic McEliece was a finalist but is not being standardized by NIST at this time. Although ClassicMcEliece is widely regarded as secure, NIST does not anticipate it being widely used due to its large public key size. NIST may choose to standardize Classic McEliece at the end of the fourth round.
For the algorithms moving on to the fourth round, NIST will allow the submission teams to provide updated specifications and implementations (“tweaks”). The deadline for these tweaks will be October 1, 2022. Any submission team that feels that they may not meet the deadline should contact NIST as soon as possible. NIST will review the proposed modifications and publish the accepted submissions shortly afterwards. As a general guideline, NIST expects any modifications to be relatively minor. The fourth round will proceed similarly to the previous rounds. More detailed information and guidance will be provided in another message.
A detailed description of the decision process and rationale for selection will be included in NIST Interagency or Internal Report (NISTIR) 8413, Status Report on the Third Round of the NIST Post-Quantum Cryptography Standardization Process, which will soon be available at https://csrc.nist.gov/
NIST will create new draft standards for the algorithms to be standardized and will coordinate with the submission teams to ensure that the standards comply with the specifications. As part of the drafting process, NIST will seek input on specific parameter sets to include, particularly for security category 1. When finished, the standards will be posted for public comment. After the close of the comment period, NIST will revise the draft standards as appropriate based on the feedback received. A final review, approval, and promulgation process will then follow.
NIST will hold a 4th NIST PQC Standardization Conference on November 29 – December 1, 2022. The conference details have not yet been finalized. The preliminary Call for Papers will be posted, both on the pqc-forum and the NIST PQC webpage http://nist.gov/
NIST also plans to issue a new Call for Proposals for public-key (quantum-resistant) digital signature algorithms by the end of summer 2022. NIST is primarily looking to diversify its signature portfolio, so signature schemes that are not based on structured lattices are of greatest interest. NIST would like submissions for signature schemes that have short signatures and fast verification (e.g., UOV). Submissions in response to this call will be due by June 1, 2023. Submitters are encouraged to communicate with NIST ahead of time. NIST will decide which (if any) of the submitted signature algorithms to accept and will initiate a new process for evaluation. NIST expects this process to be much smaller in scope than the current PQC process. The signature schemes accepted to this process will need to be thoroughly analyzed, which will similarly take several years.
NIST would like to thank the community and all of the submission teams for their efforts in this standardization process and hopes that the teams whose schemes were not selected to advance will continue to participate by evaluating and analyzing the remaining cryptosystems alongside the cryptographic community at large. These combined efforts are crucial to the development of NIST’s future post-quantum public-key standards.
The NIST PQC team