Adders are the among the most essential arithmetic units within digital systems. Parallel-prefix structures are efficient for adders because of their regular topology and logarithmic delay. However, building parallel-prefix adders are barely discussed in literature. This work puts emphasis on how to build prefix trees and simple algorithms for building these architectures. One particular modification of adders is for use with modulo arithmetic. The most common type of modulo adders are modulo 2n -1 and modulo 2n + 1 adders because they have a common base that is a power of 2. In order to improve their speed, parallel-prefix structures can also be employed for modulo 2n +- 1 adders. This dissertation presents the formation of several binary ...
AbstractParallel prefix is an important technique that has been widely accepted in many area of scie...
Zero treatment in diminished-one modulo 2nþ 1 addition has traditionally been performed separately, ...
In this paper, we propose 128-bit Kogge-Stone, Ladner-Fischer, Spanning tree parallel prefix adders ...
Abstract—Modulo 2n þ 1 adders find great applicability in several applications including RNS impleme...
Abstract—This paper presents two new design methodologies for modulo 2n 1 addition in the diminishe...
textThis thesis focuses on the logical design of binary adders. It covers topics extending from card...
Abstract—Two architectures for modulo 2n þ 1 adders are introduced in this paper. The first one is b...
Modulo 12 +n adders find great applicability in several applications including RNS implementations a...
textAdders are one of the critical elements in VLSI chips because of their variety of usages such a...
Efficient modulo 2n+1 adders are important for several applications including residue number system,...
We present a new methodology for designing modulo 2"+1 adders with operands in the diminished-o...
Abstract—Multi-moduli architectures, that is, architectures that can deal with more than one modulo ...
In this paper we at first reveal the cyclic nature of idempotency in the case of modulo 2 n − 1 addi...
Abstract—In this paper, we present new design methods for modulo 2n 1 adders. We use the same selec...
This is a post-peer-review, pre-copyedit version of an article published in Algorithmica. The final ...
AbstractParallel prefix is an important technique that has been widely accepted in many area of scie...
Zero treatment in diminished-one modulo 2nþ 1 addition has traditionally been performed separately, ...
In this paper, we propose 128-bit Kogge-Stone, Ladner-Fischer, Spanning tree parallel prefix adders ...
Abstract—Modulo 2n þ 1 adders find great applicability in several applications including RNS impleme...
Abstract—This paper presents two new design methodologies for modulo 2n 1 addition in the diminishe...
textThis thesis focuses on the logical design of binary adders. It covers topics extending from card...
Abstract—Two architectures for modulo 2n þ 1 adders are introduced in this paper. The first one is b...
Modulo 12 +n adders find great applicability in several applications including RNS implementations a...
textAdders are one of the critical elements in VLSI chips because of their variety of usages such a...
Efficient modulo 2n+1 adders are important for several applications including residue number system,...
We present a new methodology for designing modulo 2"+1 adders with operands in the diminished-o...
Abstract—Multi-moduli architectures, that is, architectures that can deal with more than one modulo ...
In this paper we at first reveal the cyclic nature of idempotency in the case of modulo 2 n − 1 addi...
Abstract—In this paper, we present new design methods for modulo 2n 1 adders. We use the same selec...
This is a post-peer-review, pre-copyedit version of an article published in Algorithmica. The final ...
AbstractParallel prefix is an important technique that has been widely accepted in many area of scie...
Zero treatment in diminished-one modulo 2nþ 1 addition has traditionally been performed separately, ...
In this paper, we propose 128-bit Kogge-Stone, Ladner-Fischer, Spanning tree parallel prefix adders ...