Approximate computing is a fast-emerging paradigm promising higher circuit performances in error tolerant applications. Binary multipliers are a common target for approximate computing due to their complexity and the multitude of their applications. In this paper, we investigate approximate recursive multipliers based on novel 4x4 multiplier blocks. We present three approximate 4x4 multipliers, with different error-precision trade-off, obtained by carry truncation and error compensation. These basic blocks are exploited to design 8x8 approximate multipliers. The proposed circuits are implemented in a 14 nm FinFET technology and show improved performance compared to the state-of-the-art
Approximate computing is a promising technique to elevate the performance of digital circu...
CMOS scaling has reached to the level, where process variation has become significant problem hinder...
DoctorMany modern applications, such as object recognition using deep neural networks, require ext...
Approximate computing is a fast-emerging paradigm promising higher circuit performances in error tol...
Approximate computing, frequently used in error tolerant applications, aims to achieve higher circui...
Error resilient applications benefit from the use of approximate computing techniques that enhance e...
Abstract — Approximate computing is best suited for error resilient applications, such as signal pro...
For a variety of different applications, including processing of image, expert systems, the smart th...
Approximate computing is an emerging trend in digital design that trades off the requirement of exac...
Approximate multipliers are used in error-tolerant applications, sacrificing the accuracy of results...
Multimedia and image processing applications, may tolerate errors in calculations but still generate...
Approximate computing forms a promising design alternative for inherently error resilient applicatio...
Approximate multiplication is a common operation used in approximate computing methods for high perf...
Abstract — Approximate circuit design is an innovative paradigm for error-resilient image and signal...
Approximate computing is a design paradigm considered for a range of applications that can tolerate ...
Approximate computing is a promising technique to elevate the performance of digital circu...
CMOS scaling has reached to the level, where process variation has become significant problem hinder...
DoctorMany modern applications, such as object recognition using deep neural networks, require ext...
Approximate computing is a fast-emerging paradigm promising higher circuit performances in error tol...
Approximate computing, frequently used in error tolerant applications, aims to achieve higher circui...
Error resilient applications benefit from the use of approximate computing techniques that enhance e...
Abstract — Approximate computing is best suited for error resilient applications, such as signal pro...
For a variety of different applications, including processing of image, expert systems, the smart th...
Approximate computing is an emerging trend in digital design that trades off the requirement of exac...
Approximate multipliers are used in error-tolerant applications, sacrificing the accuracy of results...
Multimedia and image processing applications, may tolerate errors in calculations but still generate...
Approximate computing forms a promising design alternative for inherently error resilient applicatio...
Approximate multiplication is a common operation used in approximate computing methods for high perf...
Abstract — Approximate circuit design is an innovative paradigm for error-resilient image and signal...
Approximate computing is a design paradigm considered for a range of applications that can tolerate ...
Approximate computing is a promising technique to elevate the performance of digital circu...
CMOS scaling has reached to the level, where process variation has become significant problem hinder...
DoctorMany modern applications, such as object recognition using deep neural networks, require ext...