In this paper, we present the design and evaluation of two new processing elements for reconfigurable computing. We also present a circuit-level implementation of the data paths in static and dynamic design styles to explore the various performance-power tradeoffs involved. When implemented in IBM 90-nm CMOS process, the 8-b data paths achieve operating frequencies ranging over 1~GHz both for static and dynamic implementations, with each data path supporting single-cycle computational capability. A novel single-precision floating point processing element (FPPE) using a 24-b variant of the proposed data paths is also presented. The full dynamic implementation of the FPPE shows that it operates at a frequency of 1 GHz with 6.5-mW average powe...
Floating-point computing with more than one TFLOP of peak performance is already a reality in recent...
Field programmable gate arrays are a class of integrated circuit that enable logic functions and int...
In spite of the fact that floating-point arithmetic is costly in terms of silicon area, the joint de...
Abstract—Energy-efficient computation is critical if we are going to continue to scale performance i...
UnrestrictedWith recent technological advances, it has become possible to use reconfigurable hardwar...
This paper describes an open-source and highly scalable floating-point unit (FPU) for embedded syste...
The use of floating-point hardware in FPGAs has long been considered infeasible or related to use in...
The reversible logic gates are used to improve the power dissipation in modern computer applications...
This paper describes about dynamic reconfiguration to miniaturize arithmetic circuits in general-pur...
This work targets development of higher level design methodologies for the implementation of low pow...
Many scenarios demand a high processing power often combined with a limited energy budget. A way to ...
Modern communication systems such as 5G need high computational accuracy and dynamic range. Floating...
In today’s world, people are widely using technology to make their lives more comfortable and better...
Abstract-This paper presents a novel architecture for domain-specific FPGA devices. This architectur...
Abstract:- Floating-point reduction operations are a vital part of scientific computational kernels,...
Floating-point computing with more than one TFLOP of peak performance is already a reality in recent...
Field programmable gate arrays are a class of integrated circuit that enable logic functions and int...
In spite of the fact that floating-point arithmetic is costly in terms of silicon area, the joint de...
Abstract—Energy-efficient computation is critical if we are going to continue to scale performance i...
UnrestrictedWith recent technological advances, it has become possible to use reconfigurable hardwar...
This paper describes an open-source and highly scalable floating-point unit (FPU) for embedded syste...
The use of floating-point hardware in FPGAs has long been considered infeasible or related to use in...
The reversible logic gates are used to improve the power dissipation in modern computer applications...
This paper describes about dynamic reconfiguration to miniaturize arithmetic circuits in general-pur...
This work targets development of higher level design methodologies for the implementation of low pow...
Many scenarios demand a high processing power often combined with a limited energy budget. A way to ...
Modern communication systems such as 5G need high computational accuracy and dynamic range. Floating...
In today’s world, people are widely using technology to make their lives more comfortable and better...
Abstract-This paper presents a novel architecture for domain-specific FPGA devices. This architectur...
Abstract:- Floating-point reduction operations are a vital part of scientific computational kernels,...
Floating-point computing with more than one TFLOP of peak performance is already a reality in recent...
Field programmable gate arrays are a class of integrated circuit that enable logic functions and int...
In spite of the fact that floating-point arithmetic is costly in terms of silicon area, the joint de...