VLSI Implementation of Self Time Adder Using Recursive Approach
ثبت نشده
چکیده
A brief presents a parallel single-rail self-timed adder. It is based on a recursive formulation for performing multibit binary addition. The operation is parallel for those bits that do not need any carry chain propagation. Thus, the design attains logarithmic performance over random operand conditions without any special speedup circuitry or look-ahead schema. A practical implementation is provided along with a completion detection unit. The implementation is regular and does not have any practical limitations of high fanouts. A high fan-in gate is required though but this is unavoidable for asynchronous logic and is managed by connecting the transistors in parallel. Simulations have been performed using industry standard toolkits that verify the practicality and superiority of the proposed approach over existing asynchronous adders.
منابع مشابه
Design of Parallel Self-Timed Adder
---------------------------------------------------------------------***--------------------------------------------------------------------Abstract Adders being core building blocks in different VLSI circuits like microprocessors, ALU’s etc. performance of adder circuit highly affects the overall capability of the system. In this paper we present the design and performance of Parallel Self-Tim...
متن کاملImplementation and Delay Estimation of Concurrent Error Detection Arithmetic Adders Using Hardware Redundancy Based on Dual Rail Encoding
Arithmetic functions are the most used operations in VLSI circuits. So the design of adders with high reliability and speed operation are of major concern in such circuits. This paper presents a methodology for designing totally self-checking Arithmetic adders for VLSI circuits and FPGA implementation using Verilog HDL. It detects the presence of all single stuck-at faults on-line that may occu...
متن کاملDesign and Characterization of Fault Tolerant Power Parallel Prefix Adders using FPGA Design
Parallel-prefix adders (also known as carry tree adders) are known to have the best performance in VLSI designs. However, this performance advantage does not translate directly into FPGA implementations due to constraints on logic block configurations and routing overhead. This paper investigates three types of carry-tree adders (the Kogge-Stone, sparse Kogge-Stone, and spanning tree adder) and...
متن کاملVlsi Implementation of High Performance Distributed Arithmetic (da) Based Adaptive Filter with Fast Convergence Factor
The key objective of this paper is to provide an idea for VLSI Implementation of RLS algorithm for noise cancellation with real time analog inputs. In this paper, we present an efficient architecture for the implementation of distributed arithmetic based multiplier less adaptive filter. The throughput rate of update and concurrent implementation of filtering and weightupdate operations. The con...
متن کاملMulti-objective Optimization Approach for VLSI Implementation of FIR Filter
This paper présents a new approach for multi-objective optimization of area-delay-power simultaneously for VLSI implementation of digital finite impulse response filter. It is based on use of concept of multiple constant multiplication approach with partial product sharing and coefficient reuse in multiplier module and /or digit serial architecture in adder module design along with fixed point ...
متن کامل