In this paper, we propose a methodology for designing low error efficient approximate adders for FPGAs. The proposed methodology utilizes FPGA resources efficiently to reduce the error of approximate adders. We propose two approximate adders for FPGAs using our methodology: low error and area efficient approximate adder (LEADx), and area and power efficient approximate adder (APEx). Both approximate adders are composed of an accurate and an approximate part. The approximate parts of these adders are designed in a systematic way to minimize the mean square error (MSE). LEADx has lower MSE than the approximate adders in the literature. The 32-bit LEADx with 16-bit approximation has 20% lower MSE than the approximate adder with the lowe...
Abstract—Approximate adders have been considered as a po-tential alternative for error-tolerant appl...
Computation accuracy can be adequately tuned on the specific application requirements in order to re...
This paper proposes a novel approximate adder that exploits an error-reduced carry prediction and co...
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 ...
A new approximate adder is proposed, which is suitable for FPGA- and ASIC-based implementations. Her...
This paper presents a new hardware optimized and error reduced approximate adder (HOERAA), which is ...
Approximate or inaccurate addition is found to be viable for practical applications which have an in...
During the design of embedded systems, many design decisions have to be made to trade off between co...
The approximate computing is an alternative computing approach which can lead to high-performance im...
Abstract: The probability of errors in the present VLSI technology is very high and it is increasing...
As an important arithmetic module, the adder plays a key role in determining the speed and power con...
Abstract—Power dissipation has become a significant concern for integrated circuit design in nanomet...
Approximate computing circuits are considered as a promising solution to reduce the power consumptio...
In the last decade, the need for efficiency in computing has motivated the coming forth of new devic...
Abstract—Approximate adders have been considered as a po-tential alternative for error-tolerant appl...
Computation accuracy can be adequately tuned on the specific application requirements in order to re...
This paper proposes a novel approximate adder that exploits an error-reduced carry prediction and co...
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 ...
A new approximate adder is proposed, which is suitable for FPGA- and ASIC-based implementations. Her...
This paper presents a new hardware optimized and error reduced approximate adder (HOERAA), which is ...
Approximate or inaccurate addition is found to be viable for practical applications which have an in...
During the design of embedded systems, many design decisions have to be made to trade off between co...
The approximate computing is an alternative computing approach which can lead to high-performance im...
Abstract: The probability of errors in the present VLSI technology is very high and it is increasing...
As an important arithmetic module, the adder plays a key role in determining the speed and power con...
Abstract—Power dissipation has become a significant concern for integrated circuit design in nanomet...
Approximate computing circuits are considered as a promising solution to reduce the power consumptio...
In the last decade, the need for efficiency in computing has motivated the coming forth of new devic...
Abstract—Approximate adders have been considered as a po-tential alternative for error-tolerant appl...
Computation accuracy can be adequately tuned on the specific application requirements in order to re...
This paper proposes a novel approximate adder that exploits an error-reduced carry prediction and co...