Abstract—Addition is a fundamental function in arithmetic operation; several adder designs have been proposed for implementations in inexact computing. These adders show different operational profiles; some of them are approximate in nature while others rely on probabilistic features of nanoscale circuits. However, there has been a lack of appropriate metrics to evaluate the efficacy of various inexact designs. In this paper, new metrics are proposed for evaluating the reliability as well as the power efficiency of approximate and probabilistic adders. Reliability is analyzed using the so-called sequential probability transition matrices (SPTMs). Error distance (ED) is initially defined as the arithmetic distance between an erroneous output...
Due to the rapid progress of their manufacturing technologies, integrated circuit (ICs) can now cont...
As the sizes of CMOS devices rapidly scale deep into the nanometer range, the manufacture of nanocir...
Abstract—Probabilistic CMOS is considered a promising technology for future generations of computing...
Abstract — Addition is a significant operation in soft computing; several sequential adder designs h...
In modern VLSI technology, the occurrence of all kinds of errors has become inevitable. To overcome ...
Abstract—Approximate adders have been considered as a po-tential alternative for error-tolerant appl...
We make a case for developing statistical error models of nanoscale circuits, employing these for de...
Abstract: A computing device designed to carry out a variety of arithmetic computations. The adder c...
As an important arithmetic module, the adder plays a key role in determining the speed and power con...
The approximate and stochastic computing have been developed, on the one hand, to address the dimini...
International audienceTo design faster and more energy-efficient systems, numerous inexact arithmeti...
International audienceApproximate Computing (AxC) is increasingly becoming a new design paradigm for...
International audienceApproximate Computing (AxC) is today one of the hottest topics related to circ...
As transistors are scaled down to nanometer dimension, their performances and behaviors become less ...
This study proposes a new high performance and low power adder using new design style called probabi...
Due to the rapid progress of their manufacturing technologies, integrated circuit (ICs) can now cont...
As the sizes of CMOS devices rapidly scale deep into the nanometer range, the manufacture of nanocir...
Abstract—Probabilistic CMOS is considered a promising technology for future generations of computing...
Abstract — Addition is a significant operation in soft computing; several sequential adder designs h...
In modern VLSI technology, the occurrence of all kinds of errors has become inevitable. To overcome ...
Abstract—Approximate adders have been considered as a po-tential alternative for error-tolerant appl...
We make a case for developing statistical error models of nanoscale circuits, employing these for de...
Abstract: A computing device designed to carry out a variety of arithmetic computations. The adder c...
As an important arithmetic module, the adder plays a key role in determining the speed and power con...
The approximate and stochastic computing have been developed, on the one hand, to address the dimini...
International audienceTo design faster and more energy-efficient systems, numerous inexact arithmeti...
International audienceApproximate Computing (AxC) is increasingly becoming a new design paradigm for...
International audienceApproximate Computing (AxC) is today one of the hottest topics related to circ...
As transistors are scaled down to nanometer dimension, their performances and behaviors become less ...
This study proposes a new high performance and low power adder using new design style called probabi...
Due to the rapid progress of their manufacturing technologies, integrated circuit (ICs) can now cont...
As the sizes of CMOS devices rapidly scale deep into the nanometer range, the manufacture of nanocir...
Abstract—Probabilistic CMOS is considered a promising technology for future generations of computing...