Approximate Computing has recently emerged as a promising solution to enhance circuits performance by relaxing the requisite on exact calculations. Multimedia and Machine Learning constitute a typical example of error resilient, albeit compute-intensive, applications. In this dissertation, the design and optimization of approximate fundamental VLSI digital blocks is investigated. In chapter one the theoretical motivations of Approximate Computing, from the VLSI perspective, are discussed. In chapter two my research activity about approximate adders is reported. In this chapter approximate adders for both traditional non-error tolerant applications and error resilient applications are discussed. In chapter three precision-scalable units are...
Today, the concept of approximation in computing is becoming more and more a “hot topic” to investig...
Many modern workloads such as multimedia, recognition, mining, search, vision, etc. possess the char...
As a new paradigm for nanoscale technologies, approximate computing deals with error tolerance in th...
An application that can produce a useful result despite some level of computational error is said to...
The increasing demand on requirements for high performance and energy efficiency in modern digital s...
textEnergy minimization has become an ever more important concern in the design of very large scale ...
Approximate computing is emerging as a new paradigm to improve digital circuit performance by relaxi...
Approximate computing is a popular field where accuracy is traded with energy. It can benefit applic...
Semiconductor feature size has been shrinking significantly in the past decades. This decreasing tre...
The approximate and stochastic computing have been developed, on the one hand, to address the dimini...
In the last decade, the need for efficiency in computing has motivated the coming forth of new devic...
© 2022 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for a...
A new design approach, called approximate computing (AxC), leverages the flexibility provided by int...
The reduced benefits offered by technology scaling in the nanoscale era call for innovative design a...
Approximate Computing trades off computation accuracy against performance or energy efficiency. It i...
Today, the concept of approximation in computing is becoming more and more a “hot topic” to investig...
Many modern workloads such as multimedia, recognition, mining, search, vision, etc. possess the char...
As a new paradigm for nanoscale technologies, approximate computing deals with error tolerance in th...
An application that can produce a useful result despite some level of computational error is said to...
The increasing demand on requirements for high performance and energy efficiency in modern digital s...
textEnergy minimization has become an ever more important concern in the design of very large scale ...
Approximate computing is emerging as a new paradigm to improve digital circuit performance by relaxi...
Approximate computing is a popular field where accuracy is traded with energy. It can benefit applic...
Semiconductor feature size has been shrinking significantly in the past decades. This decreasing tre...
The approximate and stochastic computing have been developed, on the one hand, to address the dimini...
In the last decade, the need for efficiency in computing has motivated the coming forth of new devic...
© 2022 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for a...
A new design approach, called approximate computing (AxC), leverages the flexibility provided by int...
The reduced benefits offered by technology scaling in the nanoscale era call for innovative design a...
Approximate Computing trades off computation accuracy against performance or energy efficiency. It i...
Today, the concept of approximation in computing is becoming more and more a “hot topic” to investig...
Many modern workloads such as multimedia, recognition, mining, search, vision, etc. possess the char...
As a new paradigm for nanoscale technologies, approximate computing deals with error tolerance in th...