Operand Isolation with Reduced Overhead for Low Power Datapath Design

Author

Siddhu, Lokesh ; Mishra, Anadi ; Singh, V.

Author_Institution

Indian Inst. of Sci., Bangalore, India

fYear

2014

fDate

5-9 Jan. 2014

Firstpage

483

Lastpage

488

Abstract

Dynamic power dissipation due to redundant switching is an important metric in data-path design. This paper focuses on the use of ingenious operand isolation circuits for low power design. Operand isolation attempts to reduce switching by clamping or latching the output of a first level of combinational circuit. This paper presents a novel method using power supply switching wherein both PMOS and NMOS stacks of a circuit are connected to the same power supply. Thus, the output gets clamped or latched to the power supply value with minimal leakage. The proposed circuits make use of only two transistors to clamp the entire Multiple Input Multiple Output (MIMO) block. Also, the latch-based designs have higher drive strength in comparison to the existing methods. Simulation results have shown considerable area reduction in comparison to the existing techniques without increasing timing overhead.

Keywords

MOS integrated circuits; combinational circuits; flip-flops; integrated circuit design; low-power electronics; MIMO block; NMOS stacks; PMOS stacks; combinational circuit; dynamic power dissipation; ingenious operand isolation circuits; latch-based designs; low power data-path design; multiple input multiple output block; overhead reduction; power supply switching; Clamps; Latches; Logic gates; MOS devices; Power supplies; Timing; Transistors; Low Power Design; Operand Isolation; Power Supply Switching;

fLanguage

English

Publisher

ieee

Conference_Titel

VLSI Design and 2014 13th International Conference on Embedded Systems, 2014 27th International Conference on

Conference_Location

Mumbai

ISSN

1063-9667

Type

conf

DOI

10.1109/VLSID.2014.90

Filename

6733179