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This paper presents design of a new stable 14T full power efficient adder circuit. The proposed circuit is designed based on Pass Transistor Logic (PTL) network using NMOS transistor only. The proposed circuit is simulated at layout level using Microwind EDA tools for 45nm technology in terms of power and voltage level at the sum and carry nodes. The proposed circuit performance is compared with a...
Content-addressable memory (CAM) is the hardware based particular type of memory device utilized for low power and high-speed application. CAMs are developed for precise application without sacrificing their search speed, and it is much faster than random accessmemory (RAM) in search application. CAM executes two essential functions storing and comparing. The additional circuitry during comparison...
In designing synchronous circuits and memory elements, Flip-flops (FF) play an integral role. In the present era, the demand of area efficient, lesser delay, and faster devices are the major concern. This paper present the comparative study of Flip Flops in terms of area and delay. The problem of device size is very dominant today because the demand for small device size along with lesser number of...
The main requirement of Very Large Scale Integration (VLSI) circuit is to be fast and low energy consumption. So, the analysis is done by optimizing the delay, which results in fast processing and low average energy consumed. A 3 transistor XNOR gate is proposed. The proposed XNOR gate is designed using CADENCE EDA tool and simulated using the SPECTRE VIRTUOSO at 90 nm technology. The results from...
The sense amplifier circuit is a very important part of the memory. It is used to access the stored data in bit cell during read cycle. Sense intensifier enhances the little distinction between bit lines to the full swing level. Its execution influences the get to time and power dissemination of memory and henceforth by lessening the detecting deferral and power utilization of sense speaker the execution...
Adders are one of most essential components of the digital circuits that are designed for different DSP applications. The important aspects considered for designing any digital circuit design are delay, power and Power Delay Product (PDP). In this paper, 32 bit carry bypass adders (CBA) which have superior performance with respect to these parameters are presented. The CBA's are implemented using...
This present paper, a 3 transistor XNOR gate is proposed. The proposed XNOR gate is designed using CADENCE EDA tool and simulated using the SPECTRE VIRTUOSO at 180 nm technology. The proposed results are compared with the previous existing designs in terms of power and delay. It is observed that the power consumption is reduced by 65.19 % for three transistor XNOR gate and 48.11% for eight transistor...
Analog Comparator is designed to compare two analog inputs and outputs a logical signal indicating which of the inputs is greater or lesser. Comparators, being an essential building block of most high speed devices like Analogue to Digital Converters, are one of the most important components used in signal processing and communication systems. Also it plays a challenging role in high speed mixed signal...
This paper focuses on and analysis and design of current starved voltage controlled ring oscillator. The analysis includes effect of delay time, phase noise, layout area, technology etc. on the frequency of oscillation at various power supplies and control voltages. The simulation results shows that the circuit has higher tuning range and low power consumption suitable for various application domains...
As the days go by, the innovation in the technology is growing faster and smaller chips with more complexity in the design and implementation. Design of adders is prime importance in any given embedded application; hence the design of reliable and efficient adder on a VLSI based embedded application matters. In this paper we primarily deal with the construction of high speed adder circuits. Design...
In this paper, the hardware realization of the basic blocks of Fuzzy Inference System (FIS) using simplified inference mechanism circuits are designed and tested in Complementary Metal Oxide Semiconductor (CMOS) Current Mode (CM). These circuits are useful in fuzzy and neuro-fuzzy systems. FIS consists of three main functional blocks. The fuzzification block using Membership Function Generator Circuit...
The Adder is the important part in any processor/controller design. Till date there are a plenty of 1-bit full-adder circuits which have been proposed and designed. In this paper we have a analytic and comparative description of various full adder circuits, considering various constraints like power consumption, speed of operation and area. The circuits are designed in the virtuoso platform, using...
As compared to static logic, domino logic circuits are always preferable for high performance circuit designs because of their less number of transistor requirement and high operational speed. Due to the presence of charge sharing problem and less noise tolerance this logic is not broadly accepted for all logic designs. The desired output of the circuit can change with a little noise pulse in the...
This paper details preliminary results for a novel statistical analysis, using the delay of an inverter (the basic element of SRAM cells) as an example. The results obtained are statistically meaningful, and should allow for more accurate, faster, and better yield estimates.
In this paper, a high-speed low-power full adder design using multiplexer based pass transistor logic featuring full-swing output is proposed. The adder is designed and simulated using the industry standard 130 nm CMOS technology, at a supply voltage of 1.2 V. The obtained Power Delay Product (PDP) of its critical path is 29×10−18 J and its power consumption is 2.01μW. The proposed full adder is also...
Dynamic logic style is mainly used for high fan in and high performance circuits because of its smaller area and fast superior speed. This style comes with a problem of low noise margin which makes it more susceptible to noise than static CMOS circuits. It also faces some charge sharing and leakage problems. A small amount of noise at the input can cause an undesirable change at the output. Domino...
The rapid growth in CMOS technology with the shrinking device size towards 22 nm has allowed for placement of billions of transistors on a single microprocessor chip. To achieve very high system performance, domino logic styles are widely employed in high performance VLSI chips together with aggressive technology scaling. Comparators are widely used in central processing units (CPUs) and microcontrollers...
Circuit designing using CMOS logic is the promising field for VLSI engineers, but with demand of small and portable devices, new techniques for low power are emerging. This paper proposed four different 10-T subtraction logic using Gate Diffusion Index (a new technique for low power design). Simulation results are performed using 180nm technology using Cadence Virtuoso. Complete verification for performance...
Reversible logic is an emerging technique of upcoming future technologies. Low heat dissipation and energy recycle principle are encouraging its demand for low power daily usage portable devices. In this paper, two reversible gates have been proposed, named as R-I gate and R-II gate, for realizing reversible combinational logic circuits. The proposed two gates can be used for realisation of basic...
Reversible logic is an emerging technique of upcoming future technologies. Low heat dissipation and energy recycle principle are encouraging its demand for low power daily usage portable devices. In this paper, two reversible gates have been proposed, named as R-I gate and R-II gate, for realizing reversible combinational logic circuits. The proposed two gates can be used for realisation of basic...
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