This paper proposes a novel method for performing division on floating-point numbers represented in IEEE-754 single-precision (binary32) format. The method is based on an inverter, implemented as a combination of Parabolic Synthesis and second-degree interpolation, followed by a multiplier. It is implemented with and without pipeline stages individually and synthesized while targeting a Xilinx Ultrascale FPGA. The implementations show better resource usage and latency results when compared to other implementations based on different methods. In case of throughput, the proposed method outperforms most of the other works, however, some Altera FPGAs achieve higher clock rate due to the differences in the DSP slice multiplier design. Due to the...
Current Floating-point divisor architectures have low frequency, larger area and high latency in nat...
With growing FPGA capacities, applications requiring more intensive use of floating-point arithmetic...
Many consumer products, such as within the computer areas, computer graphics, digital signal process...
This paper proposes a novel method for performing square root operation on floating-point numbers re...
This paper presents different computational algorithms to implement single precision floating point ...
This paper describes a single precision floating point division based on Newton-Raphson computationa...
This paper presents the sequential and pipelined designs of a double precision floating point divide...
Many scenarios demand a high processing power often combined with a limited energy budget. A way to ...
FPGAs are increasingly being used in the high performance and scientific computing community to impl...
High speed computation is the need of today’s generation of Processors. To accomplish this major tas...
The Harmonized Parabolic Synthesis methodology is a further development of the Parabolic Synthesis m...
Abstract:- Floating point arithmetic is widely used in many areas. IEEE Standard 754 floating point ...
This paper describes the parameterisation, implementation and eval-uation of floating-point adders a...
This paper presents a single precision floating point arithmetic unit with support for multiplicatio...
This paper describes the parameterisation, implementation and evaluation of floating-point adders a...
Current Floating-point divisor architectures have low frequency, larger area and high latency in nat...
With growing FPGA capacities, applications requiring more intensive use of floating-point arithmetic...
Many consumer products, such as within the computer areas, computer graphics, digital signal process...
This paper proposes a novel method for performing square root operation on floating-point numbers re...
This paper presents different computational algorithms to implement single precision floating point ...
This paper describes a single precision floating point division based on Newton-Raphson computationa...
This paper presents the sequential and pipelined designs of a double precision floating point divide...
Many scenarios demand a high processing power often combined with a limited energy budget. A way to ...
FPGAs are increasingly being used in the high performance and scientific computing community to impl...
High speed computation is the need of today’s generation of Processors. To accomplish this major tas...
The Harmonized Parabolic Synthesis methodology is a further development of the Parabolic Synthesis m...
Abstract:- Floating point arithmetic is widely used in many areas. IEEE Standard 754 floating point ...
This paper describes the parameterisation, implementation and eval-uation of floating-point adders a...
This paper presents a single precision floating point arithmetic unit with support for multiplicatio...
This paper describes the parameterisation, implementation and evaluation of floating-point adders a...
Current Floating-point divisor architectures have low frequency, larger area and high latency in nat...
With growing FPGA capacities, applications requiring more intensive use of floating-point arithmetic...
Many consumer products, such as within the computer areas, computer graphics, digital signal process...