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VLSID
2005
IEEE

Placement and Routing for 3D-FPGAs Using Reinforcement Learning and Support Vector Machines

14 years 5 months ago
Placement and Routing for 3D-FPGAs Using Reinforcement Learning and Support Vector Machines
The primary advantage of using 3D-FPGA over 2D-FPGA is that the vertical stacking of active layers reduce the Manhattan distance between the components in 3D-FPGA than when placed on 2D-FPGA. This results in a considerable reduction in total interconnect length. Reduced wire length eventually leads to reduction in delay and hence improved performance and speed. Design of an efficient placement and routing algorithm for 3D-FPGA that fully exploits the above mentioned advantage is a problem of deep research and commercial interest. In this paper, an efficient placement and routing algorithm is proposed for 3D-FPGAs which yields better results in terms of total interconnect length and channel-width. The proposed algorithm employs two important techniques, namely, Reinforcement Learning (RL) and Support Vector Machines (SVMs), to perform the placement. The proposed algorithm is implemented and tested on standard benchmark circuits and the results obtained are encouraging. This is one of...
R. Manimegalai, E. Siva Soumya, V. Muralidharan, B
Added 25 Jun 2010
Updated 25 Jun 2010
Type Conference
Year 2005
Where VLSID
Authors R. Manimegalai, E. Siva Soumya, V. Muralidharan, Balaraman Ravindran, V. Kamakoti, D. Bhatia
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