Title :
Delay-Based Dual-Rail Precharge Logic
Author :
Bucci, Marco ; Giancane, Luca ; Luzzi, Raimondo ; Scotti, Giuseppe ; Trifiletti, Alessandro
Author_Institution :
Infineon Technol. AG, Graz, Austria
fDate :
7/1/2011 12:00:00 AM
Abstract :
This paper investigates the design of a dual-rail precharge logic family whose power consumption is insensitive to unbalanced load conditions thus allowing adopting a semi-custom design flow (automatic place and route) without any constraint on the routing of the complementary wires. The proposed logic is based on a novel encoding concept where the information is represented in the time domain rather than in the spatial domain as in a standard dual-rail logic. In this work, a logic family which exploits the proposed concept has been implemented. Implementation details and simulation results are reported which show a power consumption independent of the sequence of processed data and routing capacitances. An improvement in the energy consumption balancing up to 50 times and an area reduction up to 60% with respect to the state of the art have been obtained.
Keywords :
logic circuits; logic design; network routing; time-domain analysis; complementary wires; delay-based dual-rail precharge logic; dual-rail precharge logic family; energy consumption balancing; novel encoding concept; power consumption; processed data; routing capacitances; semicustom design flow; spatial domain; standard dual-rail logic; time domain; unbalanced load conditions; Automatic logic units; Cryptography; Delay; Differential amplifiers; Energy consumption; Logic design; Logic devices; Power amplifiers; Routing; Wires; Cryptography; differential power analysis (DPA); dual-rail logic; security; sense amplifier-based logic (SABL); three-phase dual-rail precharge logic (TDPL); wave dynamic differential logic (WDDL);
Journal_Title :
Very Large Scale Integration (VLSI) Systems, IEEE Transactions on
DOI :
10.1109/TVLSI.2010.2046505
