Design of Variable Input Delay Gates for Low Dynamic Power Circuits
نویسندگان
چکیده
The time taken for a CMOS logic gate output to change after one or more inputs have changed is called the output delay of the gate. A conventional multi-input CMOS gate is designed to have the same input to output delay irrespective of which input caused the output to change. A gate which can offer different delays for different input-output paths through it, is known as a v ̄ ariable input delay(VID) gate and the maximum difference in delay between any two paths through the same gate is known as “ub”. These gates can be used for minimizing the active power of a digital CMOS circuit using a previosuly described technique called v ̄ ariable input delay(VID) logic. This previous publication proposed three different designs for implementating the VID gate. In this paper, we describe a technique for transistor sizing of these three flavors of the VID gate for a given delay requirement. We also describe techniques for calculating the ub of each flavor. We outline an algorithm for quick determination of the transistor sizes for a gate for a given load capacitance.
منابع مشابه
A 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 کاملDynamic Power Reduction in CMOS Logic Circuits using VID Technique
VID is a new technique for complementary metal-oxide semiconductor (CMOS) gate design that has different delays along various inputs to output paths within the gate. Here demonstrate the use of the variable input delay CMOS gates for a totally glitch-free minimum dynamic power implementations of digital circuits. We obtained a power saving of 58% over an un-optimized design. The optimized circu...
متن کاملA New Circuit Scheme for Wide Dynamic Circuits
In this paper, a new circuit scheme is proposed to reduce the power consumption of dynamic circuits. In the proposed circuit, an NMOS keeper transistor is used to maintain the voltage level in the output node against charge sharing, leakage current and noise sources. Using the proposed keeper scheme, the voltage swing on the dynamic node is lowered to reduce the power consumption of wide fan-in...
متن کاملLow Delay Time All Optical NAND, XNOR and OR Logic Gates Based on 2D Photonic Crystal Structure
Background and Objectives: Recently, photonic crystals have been considered as the basic structures for the realization of various optical devices for high speed optical communication. Methods: In this research, two dimensional photonic crystals are used for designing all optical logic gates. A photonic crystal structure with a triangular lattice is proposed for making NAND, XNOR, and OR optica...
متن کاملA Generalized Minimum Dynamic Power and High-Speed Design Method for CMOS Circuits
We formulate a linear program (LP) to simultaneously minimize the dynamic power and overall delay of a CMOS circuit. To eliminate all glitches either without or with minimal number of delay bu ers, a CMOS gate is assumed to have adjustable input to output delays for each input. Since these delays are not independent, a transistor sizing problem would require very complex non-linear optimization...
متن کاملVariable Input Delay CMOS Logic Design for Low Dynamic Power Circuits
A gate that offers different delays for different input-output paths through it, is known as a variable input delay (VID) gate. The upper bound on this differential delay capability is specified by the parameter “ub”. These gates can be used to minimize the active power of a digital CMOS circuit by a path balancing and glitch filtering techniques discussed in recent publications. In this paper,...
متن کامل