We propose a new low energy FPGA interconnect fabric that is based on low energy switch blocks using Dynamic Threshold CMOS (DTMOS) based switches and an encoded-low swing (EL) technique. The presented case study illustrates that the encoded-low swing technique and Dual Threshold MOS based switches results in 41% energy reduction compared to the conventional technique using full swing signalling and NMOS pass transistor based switches. We also show through a theoretical analysis, that a certain timing budget can be met by the EL technique, using 11% more buffered switches, but still consuming 62% less energy than conventional techniques. Circuit simulations, taking also the transmitter and receiver complexity into account, are in line with ...
Novel low-power circuits based on low swing voltage technique, in the internal nodes of bus architec...
Logic Blocks (CLB), with a routing architecture that connects these blocks together (Figure 1). An i...
The aggressive CMOS technology shrinking driven by cost reduction, performance improvement and power...
We propose a new low energy FPGA interconnect fabric that is based on low energy switch blocks using...
We propose a new energy efficient method of designing switch blocks inside FPGAs using novel variati...
FPGAs are widely used in digital circuits implementation because of their lower non-recurring engine...
Abstract—We propose a new energy efficient method of designing switch blocks inside FPGAs using nove...
We present a novel encoded-low swing technique for ultra low power interconnect. Using this techniqu...
This paper reviews a number of low-swing on-chip interconnect schemes and presents a thorough analys...
Abstract—We consider circuit techniques for reducing field-pro-grammable gate-array (FPGA) power con...
International audienceThis chapter addresses the main challenges, limits and possible solutions for ...
Low power on-chip interconnect technique is important for deep submicron SOC design. In this paper, ...
A new low voltage swing circuit technique based on a dual threshold voltage CMOS technology is prese...
Graduation date: 2014For the past half century, CMOS process scaling has followed Moore's law, \ud a...
Power consumption plays an essential role in VLSI design. Earlier, the VLSI designers were more conc...
Novel low-power circuits based on low swing voltage technique, in the internal nodes of bus architec...
Logic Blocks (CLB), with a routing architecture that connects these blocks together (Figure 1). An i...
The aggressive CMOS technology shrinking driven by cost reduction, performance improvement and power...
We propose a new low energy FPGA interconnect fabric that is based on low energy switch blocks using...
We propose a new energy efficient method of designing switch blocks inside FPGAs using novel variati...
FPGAs are widely used in digital circuits implementation because of their lower non-recurring engine...
Abstract—We propose a new energy efficient method of designing switch blocks inside FPGAs using nove...
We present a novel encoded-low swing technique for ultra low power interconnect. Using this techniqu...
This paper reviews a number of low-swing on-chip interconnect schemes and presents a thorough analys...
Abstract—We consider circuit techniques for reducing field-pro-grammable gate-array (FPGA) power con...
International audienceThis chapter addresses the main challenges, limits and possible solutions for ...
Low power on-chip interconnect technique is important for deep submicron SOC design. In this paper, ...
A new low voltage swing circuit technique based on a dual threshold voltage CMOS technology is prese...
Graduation date: 2014For the past half century, CMOS process scaling has followed Moore's law, \ud a...
Power consumption plays an essential role in VLSI design. Earlier, the VLSI designers were more conc...
Novel low-power circuits based on low swing voltage technique, in the internal nodes of bus architec...
Logic Blocks (CLB), with a routing architecture that connects these blocks together (Figure 1). An i...
The aggressive CMOS technology shrinking driven by cost reduction, performance improvement and power...