The paper presents the design of a 64-bit carry-select adder in Branch-Based Logic, a static design style that minimizes the internal node capacitances. This feature is used to lower the dynamic power dissipation, while maintaining good speed performances. The experimental realization of the adder demonstrates an overall delay of 720 ps while only dissipating 96 mW at 1 GHz. The fabrication is based on the 0.18 μm IBM CMOS8S2 SOI technology, which uses partially depleted transistors and copper metallization
In this paper, a Novel 16-bit carry select adder (CSLA) is proposed to perform fast arithmetic opera...
In this project, a literature study on the existing low-voltage low-power CMOS static logic circuits...
<p>The paper describes the power and area efficient carry select adder (CSA). Firstly, CSA is one of...
The paper presents the design of a 64-bit carry-select adder in Branch-Based Logic, a static design ...
The paper presents the design of a 64-bit carry-select adder in Branch-Based Logic, a static design ...
By reducing the parasitic node capacitances, the Branch-Based Logic design style can increase the pe...
This paper analyzes methods to minimize the power-delay product of 64-bit carry-select adders intend...
In this paper, we present a full-static carry-skip adder designed to achieve low power dissipation a...
In this paper, we present the design of a carry skip adder that achieves low power dissipation and h...
In electronics, adder is a digital circuit that performs addition of numbers. To perform fast arithm...
[[abstract]]This paper describes circuit techniques for fabricating a 1.2V high-speed 32-bit adder u...
The adder is the maximum usually used mathematics block in programs inclusive of central processing ...
Arithmetic Logic Units are one of the vital unit in general purpose processors and major source of p...
An adder is one of the key hardware blocks in most digital and high performance processors such as d...
This paper contains various performance improvement techniques of a modified architecture of carry s...
In this paper, a Novel 16-bit carry select adder (CSLA) is proposed to perform fast arithmetic opera...
In this project, a literature study on the existing low-voltage low-power CMOS static logic circuits...
<p>The paper describes the power and area efficient carry select adder (CSA). Firstly, CSA is one of...
The paper presents the design of a 64-bit carry-select adder in Branch-Based Logic, a static design ...
The paper presents the design of a 64-bit carry-select adder in Branch-Based Logic, a static design ...
By reducing the parasitic node capacitances, the Branch-Based Logic design style can increase the pe...
This paper analyzes methods to minimize the power-delay product of 64-bit carry-select adders intend...
In this paper, we present a full-static carry-skip adder designed to achieve low power dissipation a...
In this paper, we present the design of a carry skip adder that achieves low power dissipation and h...
In electronics, adder is a digital circuit that performs addition of numbers. To perform fast arithm...
[[abstract]]This paper describes circuit techniques for fabricating a 1.2V high-speed 32-bit adder u...
The adder is the maximum usually used mathematics block in programs inclusive of central processing ...
Arithmetic Logic Units are one of the vital unit in general purpose processors and major source of p...
An adder is one of the key hardware blocks in most digital and high performance processors such as d...
This paper contains various performance improvement techniques of a modified architecture of carry s...
In this paper, a Novel 16-bit carry select adder (CSLA) is proposed to perform fast arithmetic opera...
In this project, a literature study on the existing low-voltage low-power CMOS static logic circuits...
<p>The paper describes the power and area efficient carry select adder (CSA). Firstly, CSA is one of...