This paper proposes a novel approximate adder that exploits an error-reduced carry prediction and constant truncation with error reduction schemes. The proposed adder design techniques significantly improve overall computation accuracy while providing excellent hardware efficiency. Particularly, the proposed carry prediction technique can reduce a prediction error rate by up to 75% compared to existing approximate adders considered in this paper. Furthermore, the error reduction technique also enhances the overall computation accuracy by decreasing the error distance (ED). Our experimental results show that the proposed adder improves the normalized mean ED (NMED) and mean relative ED (MRED) by up to 91.4% and 98.9%, re...
In this paper, we propose a methodology for designing low error efficient approximate adders for FPG...
This paper presents a new approximate adder architecture which when implemented on an FPGA consumes ...
Abstract—Power dissipation has become a significant concern for integrated circuit design in nanomet...
This paper presents a delay- and energy-efficient approximate adder design exploiting an effective c...
Abstract: The probability of errors in the present VLSI technology is very high and it is increasing...
Abstract: A computing device designed to carry out a variety of arithmetic computations. The adder c...
Multimedia and image processing applications, may tolerate errors in calculations but still generate...
As an important arithmetic module, the adder plays a key role in determining the speed and power con...
Approximate computing is emerging as a new paradigm to improve digital circuit performance by relaxi...
Abstract—Approximate adders have been considered as a po-tential alternative for error-tolerant appl...
The hardware implementation of error-tolerant adders using the paradigm of approximate computing has...
In this paper, we propose a methodology for designing low error efficient approximate adders for FPG...
Abstract: In this study, we had proposed architecture for high speed Truncation Adder Algorithm. In ...
Approximation can increase performance or reduce power consumption with a simplified or inaccurate c...
In the last decade, the need for efficiency in computing has motivated the coming forth of new devic...
In this paper, we propose a methodology for designing low error efficient approximate adders for FPG...
This paper presents a new approximate adder architecture which when implemented on an FPGA consumes ...
Abstract—Power dissipation has become a significant concern for integrated circuit design in nanomet...
This paper presents a delay- and energy-efficient approximate adder design exploiting an effective c...
Abstract: The probability of errors in the present VLSI technology is very high and it is increasing...
Abstract: A computing device designed to carry out a variety of arithmetic computations. The adder c...
Multimedia and image processing applications, may tolerate errors in calculations but still generate...
As an important arithmetic module, the adder plays a key role in determining the speed and power con...
Approximate computing is emerging as a new paradigm to improve digital circuit performance by relaxi...
Abstract—Approximate adders have been considered as a po-tential alternative for error-tolerant appl...
The hardware implementation of error-tolerant adders using the paradigm of approximate computing has...
In this paper, we propose a methodology for designing low error efficient approximate adders for FPG...
Abstract: In this study, we had proposed architecture for high speed Truncation Adder Algorithm. In ...
Approximation can increase performance or reduce power consumption with a simplified or inaccurate c...
In the last decade, the need for efficiency in computing has motivated the coming forth of new devic...
In this paper, we propose a methodology for designing low error efficient approximate adders for FPG...
This paper presents a new approximate adder architecture which when implemented on an FPGA consumes ...
Abstract—Power dissipation has become a significant concern for integrated circuit design in nanomet...