Approximate computing is an emerging trend in digital design that trades off the requirement of exact computation for improved speed and power performance. This paper proposes novel approximate compressors and an algorithm to exploit them for the design of efficient approximate multipliers. By using the proposed approach, we have synthesized approximate multipliers for several operand lengths using a 40-nm library. Comparison with previously presented approximated multipliers shows that the proposed circuits provide better power or speed for a target precision. Applications to image filtering and to adaptive least mean squares filtering are also presented in the paper
Multiplication is a frequently utilized mathematical operation in numerous applications, including s...
Multiplication is a frequently utilized mathematical operation in numerous applications, including s...
At nanometric scales, approximate computing is an attractive prototype used for digital processing. ...
Approximate computing is an emerging trend in digital design that trades off the requirement of exac...
Abstract — Approximate computing is best suited for error resilient applications, such as signal pro...
Abstract — Approximate circuit design is an innovative paradigm for error-resilient image and signal...
Abstract—Inexact (or approximate) computing is an attractive paradigm for digital processing at nano...
Approximate computing is an attractive technique to gain substantial improvement in the area, speed,...
Approximate computing is a promising approach for reducing power consumption and design complexity i...
In this paper we propose an energy-efficient approximate multiplier which uses a new approximate 4-2...
Approximate multipliers attract a large interest in the scientific literature that proposes several ...
Approximate multiplication is a common operation used in approximate computing methods for high perf...
For a variety of different applications, including processing of image, expert systems, the smart th...
Low power consumption is the necessity for the integrated circuit design in CMOS technology of nanom...
In this paper, a novel 8-bit approximate multiplier is proposed based on three novel 4:2 approximate...
Multiplication is a frequently utilized mathematical operation in numerous applications, including s...
Multiplication is a frequently utilized mathematical operation in numerous applications, including s...
At nanometric scales, approximate computing is an attractive prototype used for digital processing. ...
Approximate computing is an emerging trend in digital design that trades off the requirement of exac...
Abstract — Approximate computing is best suited for error resilient applications, such as signal pro...
Abstract — Approximate circuit design is an innovative paradigm for error-resilient image and signal...
Abstract—Inexact (or approximate) computing is an attractive paradigm for digital processing at nano...
Approximate computing is an attractive technique to gain substantial improvement in the area, speed,...
Approximate computing is a promising approach for reducing power consumption and design complexity i...
In this paper we propose an energy-efficient approximate multiplier which uses a new approximate 4-2...
Approximate multipliers attract a large interest in the scientific literature that proposes several ...
Approximate multiplication is a common operation used in approximate computing methods for high perf...
For a variety of different applications, including processing of image, expert systems, the smart th...
Low power consumption is the necessity for the integrated circuit design in CMOS technology of nanom...
In this paper, a novel 8-bit approximate multiplier is proposed based on three novel 4:2 approximate...
Multiplication is a frequently utilized mathematical operation in numerous applications, including s...
Multiplication is a frequently utilized mathematical operation in numerous applications, including s...
At nanometric scales, approximate computing is an attractive prototype used for digital processing. ...