Arithmetic circuits like adders and multipliers are key workforces of many error resilient applications. Prior efforts on approximating these arithmetic circuits mainly focused on manual circuit level functional modifications. These manual approaches need high design time and effort. Due to this only a limited no. of approximate design points can be generated from the original circuit leading to a sparsely occupied pareto front. This work proposes an automated approximation methodology for arithmetic circuits. Proposed method approximates the gate level standard cell library and uses these approximate standard cells to modify the netlist of the original circuit. A heuristic design space exploration methodology is proposed to speed-up the de...
Semiconductor feature size has been shrinking significantly in the past decades. This decreasing tre...
Abstract—Many classes of applications, especially in the domains of signal and image processing, com...
Generators of arithmetic circuits can automatically deliver various implementations of arithmetic ci...
Arithmetic circuits like adders and multipliers are key workforces of many error resilient applicati...
Approximate arithmetic circuits are an attractive alternative to accurate arithmetic circuits becaus...
In the last decade, the need for efficiency in computing has motivated the coming forth of new devic...
Approximate computing has emerged as a design paradigm suitable for applications with inherent error...
Approximate computing is a popular field where accuracy is traded with energy. It can benefit applic...
textEnergy minimization has become an ever more important concern in the design of very large scale ...
© 2022 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for a...
An application that can produce a useful result despite some level of computational error is said to...
As a new paradigm for nanoscale technologies, approximate computing deals with error tolerance in th...
When the application context is ready to accept different levels of exactness in solutions and is su...
Approximate computing forms a promising design alternative for inherently error resilient applicatio...
In recent years, there has been a strong need for the design of integrated circuits showing low pow...
Semiconductor feature size has been shrinking significantly in the past decades. This decreasing tre...
Abstract—Many classes of applications, especially in the domains of signal and image processing, com...
Generators of arithmetic circuits can automatically deliver various implementations of arithmetic ci...
Arithmetic circuits like adders and multipliers are key workforces of many error resilient applicati...
Approximate arithmetic circuits are an attractive alternative to accurate arithmetic circuits becaus...
In the last decade, the need for efficiency in computing has motivated the coming forth of new devic...
Approximate computing has emerged as a design paradigm suitable for applications with inherent error...
Approximate computing is a popular field where accuracy is traded with energy. It can benefit applic...
textEnergy minimization has become an ever more important concern in the design of very large scale ...
© 2022 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for a...
An application that can produce a useful result despite some level of computational error is said to...
As a new paradigm for nanoscale technologies, approximate computing deals with error tolerance in th...
When the application context is ready to accept different levels of exactness in solutions and is su...
Approximate computing forms a promising design alternative for inherently error resilient applicatio...
In recent years, there has been a strong need for the design of integrated circuits showing low pow...
Semiconductor feature size has been shrinking significantly in the past decades. This decreasing tre...
Abstract—Many classes of applications, especially in the domains of signal and image processing, com...
Generators of arithmetic circuits can automatically deliver various implementations of arithmetic ci...