Add to ORKGApproximate computing is an emerging paradigm to improve power and performance efficiency for error-resilient application. Recent approximate adders have significantly extended the design space of accuracy-power configurable approximate adders, and find optimal designs by exploring the design space. In this paper, a new energy-efficient heterogeneous block-based approximate adder (HBBA) is proposed; which is a generic/configurable model that can be transformed to a particular adder by defining some configurations. An HBBA, in general, is composed of heterogeneous sub-adders, where each sub-adder can have a different configuration. A set of configurations of all the sub-adders in an HBBA defines its configuration. The block-based adders are ...
Approximate computing is emerging as a new paradigm to improve digital circuit performance by relaxi...
The approximate and stochastic computing have been developed, on the one hand, to address the dimini...
Leveraging the inherent error tolerance of a vast number of application domains that are rapidly gro...
textRecent interest in approximate computation is driven by its potential to achieve large energy sa...
Approximate computing is a design paradigm considered for a range of applications that can tolerate ...
In the last decade, the need for efficiency in computing has motivated the coming forth of new devic...
Approximate computing is a popular field where accuracy is traded with energy. It can benefit applic...
Abstract: A computing device designed to carry out a variety of arithmetic computations. The adder c...
Approximation can increase performance or reduce power consump-tion with a simplified or inaccurate ...
This paper proposes a novel approximate adder that exploits an error-reduced carry prediction and co...
Approximate circuit design is a promising approach to improve performances and energy efficiency bey...
This paper presents a delay- and energy-efficient approximate adder design exploiting an effective c...
An application that can produce a useful result despite some level of computational error is said to...
Approximate Computing has recently emerged as a promising solution to enhance circuits performance b...
As key building blocks for digital signal processing, image processing and deep learning etc, adders...
Approximate computing is emerging as a new paradigm to improve digital circuit performance by relaxi...
The approximate and stochastic computing have been developed, on the one hand, to address the dimini...
Leveraging the inherent error tolerance of a vast number of application domains that are rapidly gro...
textRecent interest in approximate computation is driven by its potential to achieve large energy sa...
Approximate computing is a design paradigm considered for a range of applications that can tolerate ...
In the last decade, the need for efficiency in computing has motivated the coming forth of new devic...
Approximate computing is a popular field where accuracy is traded with energy. It can benefit applic...
Abstract: A computing device designed to carry out a variety of arithmetic computations. The adder c...
Approximation can increase performance or reduce power consump-tion with a simplified or inaccurate ...
This paper proposes a novel approximate adder that exploits an error-reduced carry prediction and co...
Approximate circuit design is a promising approach to improve performances and energy efficiency bey...
This paper presents a delay- and energy-efficient approximate adder design exploiting an effective c...
An application that can produce a useful result despite some level of computational error is said to...
Approximate Computing has recently emerged as a promising solution to enhance circuits performance b...
As key building blocks for digital signal processing, image processing and deep learning etc, adders...
Approximate computing is emerging as a new paradigm to improve digital circuit performance by relaxi...
The approximate and stochastic computing have been developed, on the one hand, to address the dimini...
Leveraging the inherent error tolerance of a vast number of application domains that are rapidly gro...