Abstract:
The defending ability of Dynamic Differential Cascade Voltage Switch Logic(DDCVSL) and SABL is restricted by layout and routing when they are used for protecting the circuit against differential electromagnetic analysis. Aiming at this problem, this paper gives an improved defend logic Masked Dynamic Differential Cascade Voltage Switch Logic(MDDCVSL) based on DDCVSL through introducing masking mechanism. NAND gates based on MDDCVSL, DDCVSL and SABL are designed with TSMC 0.18 μm technology. Experimental result demonstrates that the improved defend logic get rid of the electromagnetic information leakage and solve the problem that defend ability of MDDCVSL, DDCVSL and SABL are restricted by layout and routing. Meanwhile, MDDCVSL has less power consumption, area and delay than WDDL, MDPL.
Key words:
Differential Electromagnetic Analysis(DEMA),
Dynamic Differential Cascade Voltage Switch Logic(DDCVSL),
Electromagnetic Leakage Coefficient(ELC),
dipole
摘要:
动态差分串联电压开关逻辑(DDCVSL)、SABL等逻辑电路抵御差分电磁分析时,其防护能力受到电路布局布线的限制。针对该问题,在DDCVSL的基础上引入掩码机制,提出一种改进的防护逻辑(MDDCVSL),并给出一种双轨门电路电磁信息泄漏分析方法。实验采用TSMC 0.18 μm工艺设计MDDCVSL、DDCVSL、SABL等逻辑的与非门,结果表明,MDDCVSL能有效去除电磁信息泄漏,具有较小的功耗、面积和时延。
关键词:
差分电磁分析,
动态差分串联电压开关逻辑,
电磁泄漏系数,
偶极子
CLC Number:
CHANG Xiao-Long, DING Guo-Liang, YIN Wen-Long, WANG Chuang-Wei. Research on Logic Circuit Against DEMA[J]. Computer Engineering, 2011, 37(8): 130-131.
常小龙, 丁国良, 尹文龙, 王创伟. 抗差分电磁分析逻辑电路研究[J]. 计算机工程, 2011, 37(8): 130-131.