Open AccessReduction of crosstalk noise by optimizing 3-D configuration of the routing grid
Author(s) -
Atsushi Sakai,
Takashi Yamada,
Yoshifumi Matsushita,
Hiroto Yasuura
Publication year - 2003
Publication title -
qir (kyushu university institutional repository) (kyushu university)
Language(s) - English
Resource type - Conference proceedings
ISBN - 0-7803-7660-9
DOI - 10.1145/1119772.1119782
Subject(s) - crosstalk , noise reduction , computer science , grid , reduction (mathematics) , routing (electronic design automation) , noise (video) , electronic engineering , computer network , engineering , mathematics , artificial intelligence , geometry , image (mathematics)
In this paper, we propose novel physical design techniques for a sub-quarter micron system-on-a-chip (SoC). By appropriately optimizing the routing grid space or the cell utilization ratio, the coupling effects are almost eliminated. By employing our proposed techniques on a 0.13μm six-layer physical design, the longest path delay is significantly decreased by 15% maximum without the need for process improvement. This significant delay reduction, which corresponds to a half generation of process progress, greatly accelerates the performance of SoCs.
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