On the Realisation of Delay-Insensitive Asynchronous Circuits with CMOS Ternary Logic
نویسندگان
چکیده
The realisation of Delay-Insensitive (DI) asynchronous circuits with a CMOS ternary logic is described in this paper. The main advantage of temary logic is the easy realisation of a handshake protocol that significantly reduces the communication requirement, one of the major drawback of asynchronous logic. It is shown how general purpose delay-insensitive circuits are designed with standard ternary logic elements and an original completion detection circuit called watchful. Some elemental circuits (shift-register and adder} are designed and simulated and their performance is compared with other asynchronous solutions, showing that a better performance in term of power consumption has been achieved.
منابع مشابه
Useful Application of CMOS Ternary Logic to the Realisation of Asynchronous Circuits
This paper shows how the application of a CMOS ternary logic is useful in the realisation of Delay Insensitive (01) asynchronous circuits. It is shown that fully DI asynchronous circuits are obtained with a ternary handshake protocol which employs the third logic level as idle state of the asynchronous interface. The advantages obtained are a dramatic reduction of the communication requirement ...
متن کاملLow power sub-threshold asynchronous quasi-delay-insensitive 32-bit arithmetic and logic unit based on autonomous signal-validity half-buffer
The authors propose an asynchronous-logic (async) quasi-delay-insensitive (QDI) autonomous signal-validity half-buffer (ASVHB) realisation approach for low power sub-threshold operation (VDD = 0.2 V). There are three key attributes in the proposed ASVHB realisation approach. First, the ASVHB realisation approach embodies integrated autonomous validity signals, which are unique and are used excl...
متن کاملHigh-Speed Ternary Half adder based on GNRFET
Superior electronic properties of graphene make it a substitute candidate for beyond-CMOSnanoelectronics in electronic devices such as the field-effect transistors (FETs), tunnel barriers, andquantum dots. The armchair-edge graphene nanoribbons (AGNRs), which have semiconductor behavior,are used to design the digital circuits. This paper presents a new design of ternary half a...
متن کاملThreshold Gate with Hysteresis using Neuron MOS
In this article threshold gates with hysteresis using neuron MOS (νMOS) are presented as basic elements in Null Convention Logic (NCL) circuits. NCL, which proposed by K. M. Fant and S. A. Branst, needs special gates having hysteresis, because NCL uses different ternary logic systems in computation phase and wiping phase of asynchronous behavior, respectively. To impliment the dinamic behavior,...
متن کاملDesign and Implementation of MOSFET Circuits and CNTFET, Ternary Multiplier in the Field of Galois
Due to the high density and the low consumption power in the digital integrated circuits, mostly technology of CMOS is used. During the past times, the Metal oxide silicon field effect transistors (MOSFET) had been used for the design and implementation of the digital integrated circuits because they are compact and also they have the less consumption power and delay to the other transistors. B...
متن کامل