Reduction of Leakage Power in Digital Logic Circuits Using Stacking Technique in 45 Nanometer Regime
نویسندگان
چکیده
Power dissipation due to leakage current in the digital circuits is a biggest factor which is considered specially while designing nanoscale circuits. This paper is exploring the ideas of reducing leakage current in static CMOS circuits by stacking the transistors in increasing numbers. Clearly it means that the stacking of OFF transistors in large numbers result a significant reduction in power dissipation. Increase in source voltage of NMOS transistor minimizes the leakage current. Thus stacking technique makes circuit with minimum power dissipation losses due to leakage current. Also some of digital circuits such as full adder, D flip flop and 6T SRAM have been simulated in this paper, with the application of reduction technique on ‘cadence virtuoso tool’ using specter at 45nm technology with supply voltage 0.7V. Keywords—Stack, 6T SRAM cell, low power, threshold voltage.
منابع مشابه
Reduction of Leakage Power using Stacking Power Gating Technique in Different CMOS Design Style at 45Nanometer Regime
As transistor sizes scale down and levels of integration increase, leakage power has become a vital downside in modern low-power VLSI technology. This is often very true for ultra-lowvoltage (ULV) circuits, wherever high levels of leakage force designers to selected relatively high threshold voltages, which limits performance. In this paper, we design different design approach of master slave D...
متن کاملLeakage Reduction Techniques for Nanometer Scale CMOS Circuits
As we enter the nanoscale regime, power reduction is of increasing importance, but the established leakage reduction techniques will become less effective. Subthreshold leakage is being joined by band-to-band tunneling and gate leakage as the primary leakage mechanisms. The increased significance of these leakage components threatens the usefulness of some traditional leakage reduction techniqu...
متن کاملA Minimal-Cost Inherent-Feedback Approach for Low-Power MRF-Based Logic Gates
The Markov random field (MRF) theory has been accepted as a highly effective framework for designing noise-tolerant nanometer digital VLSI circuits. In MRF-based design, proper feedback lines are used to control noise and keep the circuits in their valid states. However, this methodology has encountered two major problems that have limited the application of highly noise immune MRF-based circui...
متن کاملDesign and Analysis of Low Standby Leakage Current and Reduce Ground Bounce Noise of Static CMOS 10T Full Adder
In design of complex arithmetic logic circuits, ground bounce noise, standby leakage current and leakage power are important and challenging issues in nanometer down scaling. In this paper, a low power, low complex and reduced ground bounce noise full adder design based on pass transistor logic (PTL) is proposed. Basically adder is vital part of complex arithmetic logic circuit in arithmetic op...
متن کاملLeakage Reduction ONOFIC Approach for Deep Submicron VLSI Circuits Design
Minimizations of power dissipation, chip area with higher circuit performance are the necessary and key parameters in deep submicron regime. The leakage current increases sharply in deep submicron regime and directly affected the power dissipation of the logic circuits. In deep submicron region the power dissipation as well as high performance is the crucial concern since increasing importance ...
متن کامل