International audienceInteger addition is a universal building block, and applications such as quad-precision floating-point or elliptic curve cryptography now demand precisions well beyond 64 bits. This study explores the trade-offs between size, latency and frequency for pipelined large-precision adders on FPGA. It compares three pipelined adder architectures: the classical pipelined ripple-carry adder, a variation that reduces register count, and an FPGA-specific implementation of the carry-select adder capable of providing lower latency additions at a comparable price. For each of these architectures, resource estimation models are defined, and used in an adder generator that selects the best architecture considering the target FPGA, th...
This paper presents super-pipelined models of conventional adders that use digit serial addition. We...
AbstractDigital adder with optimum area and speed is one of the important areas of research in VLSI ...
In this paper, we propose a novel approximate adder structure for LUT-based FPGA technology. Compare...
International audienceInteger addition is a universal building block, and applications such as quad-...
International audienceInteger addition is a pervasive operation in FPGA designs. The need for fast w...
Field Programmable Gate Arrays (FPGA) are increasingly being used to design high end computationally...
This paper presents a new approximate adder architecture which when implemented on an FPGA consumes ...
Driven by the excellent properties of FPGAs and the need for high-performance and flexible computing...
Adders are very useful electronic circuits for performing additions in different electronic devices....
Most modern FPGAs have very optimised carry logic for efficient implementations of ripple carry adde...
Delay models and cost analyses developed for ASIC technology are not useful in designing and impleme...
In this paper carry tree adders are known to have the best performance in VLSI designs. However, thi...
In this paper several adder design techniques that probed to be very effective in full-custom integr...
ASELSAN A.S.;Turkish Aerospace Industries, Inc. (TAI);The Scientific and Technological Research Coun...
354-357Many Digital Signal Processing (DSP) algorithms use floating-point arithmetic, which requires...
This paper presents super-pipelined models of conventional adders that use digit serial addition. We...
AbstractDigital adder with optimum area and speed is one of the important areas of research in VLSI ...
In this paper, we propose a novel approximate adder structure for LUT-based FPGA technology. Compare...
International audienceInteger addition is a universal building block, and applications such as quad-...
International audienceInteger addition is a pervasive operation in FPGA designs. The need for fast w...
Field Programmable Gate Arrays (FPGA) are increasingly being used to design high end computationally...
This paper presents a new approximate adder architecture which when implemented on an FPGA consumes ...
Driven by the excellent properties of FPGAs and the need for high-performance and flexible computing...
Adders are very useful electronic circuits for performing additions in different electronic devices....
Most modern FPGAs have very optimised carry logic for efficient implementations of ripple carry adde...
Delay models and cost analyses developed for ASIC technology are not useful in designing and impleme...
In this paper carry tree adders are known to have the best performance in VLSI designs. However, thi...
In this paper several adder design techniques that probed to be very effective in full-custom integr...
ASELSAN A.S.;Turkish Aerospace Industries, Inc. (TAI);The Scientific and Technological Research Coun...
354-357Many Digital Signal Processing (DSP) algorithms use floating-point arithmetic, which requires...
This paper presents super-pipelined models of conventional adders that use digit serial addition. We...
AbstractDigital adder with optimum area and speed is one of the important areas of research in VLSI ...
In this paper, we propose a novel approximate adder structure for LUT-based FPGA technology. Compare...