Title :
A 920MHz quad-core cryptography processor accelerating parallel task processing of public-key algorithms
Author :
Shuai Wang ; Jun Han ; Yang Li ; Yifan Bo ; Xiaoyang Zeng
Author_Institution :
State State-Key Lab. of ASIC & Syst., Fudan Univ., Shanghai, China
Abstract :
The wireless access point (AP) devices of the next generation demand low-latency, high-security, and flexible authentication and authorization for heterogeneous clients. This makes it necessary to implement the high-complexity public-key ciphers efficiently on programmable processors. Therefore, this paper presents a quad-core processor that accelerates public-key computations by enabling high-speed parallel task processing. A test chip (1.925×3 um2) of the proposed processor is implemented in 65nm process. This chip is superior to the powerful platforms like Nvidia GPU and AMD Opteron workstation with regard to the performance: 0.13ms for the decryption of RSA-1024 and 0.095ms for the scalar multiplication of ECC-256 in Fp.
Keywords :
UHF integrated circuits; authorisation; microprocessor chips; parallel processing; public key cryptography; AMD Opteron workstation; AP devices; ECC-256 scalar multiplication; Nvidia GPU; RSA-1024 decryption; authorization; flexible authentication; frequency 920 MHz; heterogeneous clients; high-complexity public-key ciphers; high-speed parallel task processing; programmable processors; public-key algorithms; quadcore cryptography processor; size 65 nm; time 0.095 ms; time 0.13 ms; wireless access point devices; Acceleration; Ciphers; Multicore processing; Pipeline processing; Public key; Random access memory;
Conference_Titel :
Custom Integrated Circuits Conference (CICC), 2013 IEEE
Conference_Location :
San Jose, CA
DOI :
10.1109/CICC.2013.6658438
