[[abstract]]The designers of field-programmable gate arrays (FPGAs) always devote to optimize the chip performance. The interconnect delay is a crucial determining factor of circuit performance in FPGA based design. In FPGAs, signals passing through a long wire do not always exit at the end of the wire. Therefore, the expected delay other than end to end delay of the long wire should be optimized. This paper is the first work that addresses expected delay optimization for FPGA interconnect. We present an optimal dynamic programming based approach to insert and size buffers to minimize the expected delay. The experimental results showed that the expected delay of the interconnect buffered with consideration of expected delay optimization som...
The lithography used for 32 nanometers and smaller VLSI process technologies restricts the admissibl...
This paper presents an overview of recent advances on modeling and layout optimization of devices an...
Scaling technology enables even higher degree of integration for FPGAs, but also brings new challeng...
We consider the problem of minimizing the delay in transporting a signal across a distance in a VLSI...
As the continuous trend of Very Large Scale Integration (VLSI) circuits technol-ogy scaling and freq...
Abstract: This paper considers the problem of interconnect wire delay in digital integrated circuits...
As VLSI technology enters the nanoscale regime, interconnect delay has become the bottleneck of the ...
Designers of field-programmable gate arrays (FPGAs) are always striving to improve the performance o...
In this paper, we develop a set of delay estimation models with consideration of various interconnec...
Designers of field-programmable gate arrays (FPGAs) are always striving to improve the performance o...
This paper studies the difficulty of predicting interconnect delay in an industrial setting. Fifty i...
Buffer insertion has successfully been applied to reduce delay in global interconnect paths; however...
As the continuous trend of Very Large Scale Integration (VLSI) circuits technology scaling and frequ...
Avec la miniaturisation actuelle, les circuits démontrent de plus en plus l'importance des délais d'...
We propose a grid-graph algorithm for interconnect routing and buffer insertion in nanometer VLSI la...
The lithography used for 32 nanometers and smaller VLSI process technologies restricts the admissibl...
This paper presents an overview of recent advances on modeling and layout optimization of devices an...
Scaling technology enables even higher degree of integration for FPGAs, but also brings new challeng...
We consider the problem of minimizing the delay in transporting a signal across a distance in a VLSI...
As the continuous trend of Very Large Scale Integration (VLSI) circuits technol-ogy scaling and freq...
Abstract: This paper considers the problem of interconnect wire delay in digital integrated circuits...
As VLSI technology enters the nanoscale regime, interconnect delay has become the bottleneck of the ...
Designers of field-programmable gate arrays (FPGAs) are always striving to improve the performance o...
In this paper, we develop a set of delay estimation models with consideration of various interconnec...
Designers of field-programmable gate arrays (FPGAs) are always striving to improve the performance o...
This paper studies the difficulty of predicting interconnect delay in an industrial setting. Fifty i...
Buffer insertion has successfully been applied to reduce delay in global interconnect paths; however...
As the continuous trend of Very Large Scale Integration (VLSI) circuits technology scaling and frequ...
Avec la miniaturisation actuelle, les circuits démontrent de plus en plus l'importance des délais d'...
We propose a grid-graph algorithm for interconnect routing and buffer insertion in nanometer VLSI la...
The lithography used for 32 nanometers and smaller VLSI process technologies restricts the admissibl...
This paper presents an overview of recent advances on modeling and layout optimization of devices an...
Scaling technology enables even higher degree of integration for FPGAs, but also brings new challeng...