Paper Info
Title
A flip-flop implementation for the DPA-resistant Delay-based Dual-rail Pre-charge Logic family
Abstract
Delay-based Dual-rail Pre-charge Logic (DDPL) is a logic style introduced with the aim of hiding power consumption in cryptographic circuits when a Power Analysis (PA) attack is mounted. Its particular data encoding allows to make the adsorbed current constant for each data input combination, irrespective of capacitive load conditions. The purpose is breaking the link between dynamic power and data statistics and preventing power analysis. In this work we present a novel implementation of a dynamic differential master-slave flip-flop which is compatible with the DDPL data encoding. Efforts were made in order to design a fully dynamic master-slave architecture which does not require a conversion of the signals from dynamic to static domain. Moreover it will be shown that the area occupied is also reduced due to a compact differential layout. Simulations performed using a 65nm-CMOS process showed that the proposed circuit exhibits good performances in terms of average power and NED (Normalized Energy Deviation) as required in transistor level countermeasures against power analysis, and it outperforms other previously published DPA-resistant flip-flops in the real case of unbalanced load conditions.
Year
Venue
Keywords
2013
MIXED DESIGN OF INTEGRATED CIRCUITS AND SYSTEMS, MIXDES 2013
Cryptography,power analysis (PA),dual-rail logic,sense amplifier-based logic (SABL),delay-based dual-rail pre-charge logic (DDPL),dynamic flip-flop,VLSI design
Field
DocType
Citations 
Diode–transistor logic,Sequential logic,Pass transistor logic,Computer science,Logic optimization,Power factor,Electronic engineering,Dynamic demand,Logic family,Flip-flop
Conference
3
PageRank 
References 
Authors
0.37
0
4
Name
Order
Citations
PageRank
simone bongiovanni1151.96
Mauro Olivieri238536.09
Gianmario Scotti331.05
A. Trifiletti443363.29