This paper presents a new early output hybrid input encoded asynchronous full adder designed using dual-rail and 1-of-4 delay-insensitive data codes. The proposed full adder when cascaded to form a ripple carry adder (RCA) necessitates the use of a small relative-timing assumption with respect to the internal carries, which is independent of the RCA size. The forward latency of the proposed hybrid input encoded full adder based RCA is data-dependent while its reverse latency is the least equaling the propagation delay of just one full adder. Compared to the best of the existing hybrid input encoded full adders based 32-bit RCAs, the proposed early output hybrid input encoded full adder based 32-bit RCA enables respective reductions in forwa...
Abstract—Self-timed full adder designs based on commercial synchronous resources (standard cells), c...
Ripple-carry adder (RCA) is among the most common type of adder. However, it is not preferred in man...
Abstract. This article presents a biased implementation style weak-indication self-timed full adder ...
This paper presents a new early output hybrid input encoded asynchronous full adder designed using d...
This article presents two area/latency optimized gate level asynchronous full adder designs which co...
Asynchronous circuits employing delay-insensitive codes for data representation i.e. encoding and fo...
This paper presents the designs of asynchronous early output dual-bit full adders without and with r...
We present a new asynchronous quasi-delay-insensitive (QDI) block carry lookahead adder with redunda...
Addition is a specifically used indispensable computation used for most of the applications includin...
Approximate computing is emerging as an alternative to accurate computing due to its potential for r...
Adder is an important datapath unit of a general-purpose microprocessor or a digital signal processo...
Adder is an important datapath unit of a general-purpose microprocessor or a digital signal processo...
In the recent era, voltage reduction procedure is gaining most attention for achieving minimum energ...
In this paper, we design and compare seven meaningful hybrid one-bit full adders topologies that are...
New asynchronous adder structures with high performances and low cost have been designed. Previous w...
Abstract—Self-timed full adder designs based on commercial synchronous resources (standard cells), c...
Ripple-carry adder (RCA) is among the most common type of adder. However, it is not preferred in man...
Abstract. This article presents a biased implementation style weak-indication self-timed full adder ...
This paper presents a new early output hybrid input encoded asynchronous full adder designed using d...
This article presents two area/latency optimized gate level asynchronous full adder designs which co...
Asynchronous circuits employing delay-insensitive codes for data representation i.e. encoding and fo...
This paper presents the designs of asynchronous early output dual-bit full adders without and with r...
We present a new asynchronous quasi-delay-insensitive (QDI) block carry lookahead adder with redunda...
Addition is a specifically used indispensable computation used for most of the applications includin...
Approximate computing is emerging as an alternative to accurate computing due to its potential for r...
Adder is an important datapath unit of a general-purpose microprocessor or a digital signal processo...
Adder is an important datapath unit of a general-purpose microprocessor or a digital signal processo...
In the recent era, voltage reduction procedure is gaining most attention for achieving minimum energ...
In this paper, we design and compare seven meaningful hybrid one-bit full adders topologies that are...
New asynchronous adder structures with high performances and low cost have been designed. Previous w...
Abstract—Self-timed full adder designs based on commercial synchronous resources (standard cells), c...
Ripple-carry adder (RCA) is among the most common type of adder. However, it is not preferred in man...
Abstract. This article presents a biased implementation style weak-indication self-timed full adder ...