As VLSI technology enters the nanoscale regime, interconnect delay has become the bottleneck of the circuit timing. As one of the most powerful techniques for interconnect optimization, buffer insertion is indispensable in the physical synthesis flow. Buffering is known to be NP-complete and existing works either explore dynamic programming to compute optimal solution in the worst-case exponential time or design efficient heuristics without performance guarantee. Even if buffer insertion is one of the most studied problems in physical design, whether there is an efficient algorithm with provably good performance still remains unknown. This work settles this open problem. In the paper, the first fully polynomial time approximation scheme for...
As VLSI technology enters the nanoscale regime, interconnect delay becomes the bottleneck of circuit...
As VLSI technology moves to the 65nm node and beyond, interconnect delay greatly limits the circuit ...
As VLSI technology enters the nanoscale regime, the interconnect delay becomes the bottleneck of cir...
Abstract- As gate delays decrease faster than wire delays for each technology generation, buffer ins...
Buffer insertion is a popular technique to reduce the interconnect delay. The classic buffer inserti...
We propose a grid-graph algorithm for interconnect routing and buffer insertion in nanometer VLSI la...
are requiring buffers to be inserted on interconnects of even moderate length for both critical path...
Buffer insertion is a popular technique to reduce the in-terconnect delay. The classic buffer insert...
As the continuous trend of Very Large Scale Integration (VLSI) circuits technol-ogy scaling and freq...
As VLSI technology enters the nanoscale regime, a great amount of efforts have been made to reduce ...
Abstract—The classic buffer insertion algorithm of van Gin-neken has time and space complexity ( 2),...
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 technology scaling and frequ...
As VLSI technology moves to the nanoscale regime, ultra-fast slew buffering techniques considering b...
This thesis proposes a graph-based maze routing and buffer insertion algorithm for nanometer Very La...
As VLSI technology enters the nanoscale regime, interconnect delay becomes the bottleneck of circuit...
As VLSI technology moves to the 65nm node and beyond, interconnect delay greatly limits the circuit ...
As VLSI technology enters the nanoscale regime, the interconnect delay becomes the bottleneck of cir...
Abstract- As gate delays decrease faster than wire delays for each technology generation, buffer ins...
Buffer insertion is a popular technique to reduce the interconnect delay. The classic buffer inserti...
We propose a grid-graph algorithm for interconnect routing and buffer insertion in nanometer VLSI la...
are requiring buffers to be inserted on interconnects of even moderate length for both critical path...
Buffer insertion is a popular technique to reduce the in-terconnect delay. The classic buffer insert...
As the continuous trend of Very Large Scale Integration (VLSI) circuits technol-ogy scaling and freq...
As VLSI technology enters the nanoscale regime, a great amount of efforts have been made to reduce ...
Abstract—The classic buffer insertion algorithm of van Gin-neken has time and space complexity ( 2),...
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 technology scaling and frequ...
As VLSI technology moves to the nanoscale regime, ultra-fast slew buffering techniques considering b...
This thesis proposes a graph-based maze routing and buffer insertion algorithm for nanometer Very La...
As VLSI technology enters the nanoscale regime, interconnect delay becomes the bottleneck of circuit...
As VLSI technology moves to the 65nm node and beyond, interconnect delay greatly limits the circuit ...
As VLSI technology enters the nanoscale regime, the interconnect delay becomes the bottleneck of cir...