Smart Systems applications often include error resilient computations, due to the presence of noisy input data, the lack of a unique golden output, etc. Therefore, computation accuracy constraints can be relaxed to improve a system's efficiency. Recently, a design paradigm called Approximate Computing (AC) has been proposed, that formalizes the exploitation of the accuracy dimension as a way to optimize efficiency in digital computing systems. AC configures configures as one of the most promising ways to reduce energy consumption in Smart Systems. In this chapter, we present an overview of the different AC techniques proposed in literature. Then, we focus on Algorithmic Noise Tolerance (ANT), one of the most suitable AC approaches for Smart...
Leveraging the inherent error tolerance of a vast number of application domains that are rapidly gro...
A new design approach, called approximate computing (AxC), leverages the flexibility provided by int...
90 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 2002.In this dissertation, we addre...
Smart Systems applications often include error resilient computations, due to the presence of noisy ...
Abstract — Approximate computing has recently emerged as a promising approach to energy-efficient de...
Approximate computing is an emerging design paradigm that leverages the intrinsic resilience of appl...
Many modern workloads such as multimedia, recognition, mining, search, vision, etc. possess the char...
International audienceA new design paradigm, Approximate Computing (AxC), has been established to in...
In the last decade, Approximate Computing (AxC) has been extensively employed to improve the energy ...
The reduced benefits offered by technology scaling in the nanoscale era call for innovative design a...
The approximate and stochastic computing have been developed, on the one hand, to address the dimini...
Approximate computing is an emerging computation paradigm in the era of the Internet of things, big ...
It has been a while since Approximate Computing (AxC) is applied systematically at various abstracti...
Today, the concept of approximation in computing is becoming more and more a “hot topic” to investig...
Computing devices have been constantly challenged by resource-hungry applications such as scientific...
Leveraging the inherent error tolerance of a vast number of application domains that are rapidly gro...
A new design approach, called approximate computing (AxC), leverages the flexibility provided by int...
90 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 2002.In this dissertation, we addre...
Smart Systems applications often include error resilient computations, due to the presence of noisy ...
Abstract — Approximate computing has recently emerged as a promising approach to energy-efficient de...
Approximate computing is an emerging design paradigm that leverages the intrinsic resilience of appl...
Many modern workloads such as multimedia, recognition, mining, search, vision, etc. possess the char...
International audienceA new design paradigm, Approximate Computing (AxC), has been established to in...
In the last decade, Approximate Computing (AxC) has been extensively employed to improve the energy ...
The reduced benefits offered by technology scaling in the nanoscale era call for innovative design a...
The approximate and stochastic computing have been developed, on the one hand, to address the dimini...
Approximate computing is an emerging computation paradigm in the era of the Internet of things, big ...
It has been a while since Approximate Computing (AxC) is applied systematically at various abstracti...
Today, the concept of approximation in computing is becoming more and more a “hot topic” to investig...
Computing devices have been constantly challenged by resource-hungry applications such as scientific...
Leveraging the inherent error tolerance of a vast number of application domains that are rapidly gro...
A new design approach, called approximate computing (AxC), leverages the flexibility provided by int...
90 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 2002.In this dissertation, we addre...