| Title | Integrate Dragonfly Key Exchange (IETF - RFC 7664) into Arithmetic Circuit Homomorphic Encryption |
| Publication Type | Conference Paper |
| Year of Publication | 2019 |
| Authors | Tan, Li Xin, Wee, Jing Wei Shannen, Chan, Jun Rong, Soh, Wei Jie, Yap, Chern Nam |
| Conference Name | 2019 IEEE 24th Pacific Rim International Symposium on Dependable Computing (PRDC) |
| Keywords | ACHE, advanced encryption standard, arithmetic circuit, arithmetic circuit homomorphic encryption, authentication, Dragonfly Key Exchange, Fast Fully Homomorphic Encryption, homomorphic encryption, human factors, implementation method, integrate dragonfly key exchange, key size, Metrics, private key cryptography, Private keys, pubcrawl, public key cryptography, public keys, Resiliency, RFC7664, Scalability |
| Abstract | This is an extension of an ongoing research project on Fully Homomorphic Encryption. Arithmetic Circuit Homomorphic Encryption (ACHE) [1] was implemented based on (TFHE) Fast Fully Homomorphic Encryption over the Torus. Just like many Homomorphic Encryption methods, ACHE does not integrate with any authentication method. Thus, this was an issue that this paper attempts to resolve. This paper will focus on the implementation method of integrating RFC7664 [2] into ACHE. Next, the paper will further discuss latency incurred due to key generation, the latency of transmission of public and private keys. Last but not least, the paper will also discuss the key size generated and its significance. |
| DOI | 10.1109/PRDC47002.2019.00030 |
| Citation Key | tan_integrate_2019 |
Integrate Dragonfly Key Exchange (IETF - RFC 7664) into Arithmetic Circuit Homomorphic Encryption