机译:耐用耐用耐用认证加密算法的体系结构优化与性能比较
Univ Minnesota Dept Elect Engn 200 Union St SE Minneapolis MN 55455 USA|IBM Corp Thomas J Watson Res Ctr Yorktown Hts NY 10598 USA;
Intel Corp Intel Labs Secur & Privacy Res Hillsboro OR 97124 USA|AMD Austin TX 78735 USA;
Univ Minnesota Dept Elect Engn 200 Union St SE Minneapolis MN 55455 USA;
Advanced Encryption Standard in Galois Counter mode (AES-GCM); AES-GCM-synthetic IV (SIV); authenticated encryption (AE); Competition for AE: Security, Applicability, and Robustness (CAESAR) competition; Deoxys; nonce-misuse resistance; pipelineable on-line encryption with authentication tag (POET); PRIMATE-APE;
机译:Nonce-Misuse-Resistant认证加密算法的体系结构优化和性能比较
机译:改进的椭圆曲线密码学结合粒子群算法和布谷鸟搜索算法进行认证和加密
机译:免疫算法与其他启发式算法的优化性能比较研究
机译:FPGA平台上用于认证加密的AES-GCM-SIV和AES-GCM算法的性能比较
机译:加密算法对Kerberos网络身份验证协议的性能影响
机译:EEG信号分类深层架构的优化:一种使用进化算法的自动化方法
机译:表2:具有OTP算法的AES和AES中的文件加密性能比较和提出的ABHE算法。