Title :
An Implementation of Performance-Driven Block and I/O Placement for Chip-Package Codesign
Author :
Lai, Ming-Fang ; Chen, Hung-Ming
Author_Institution :
Winbond Incorporation, Hsinchu
Abstract :
As silicon technology scales, we can integrate more and more circuits on a single chip, which means more I/Os are needed in modern designs. The flip-chip technology which was developed by IBM is better suited for I/O increase than the typical peripheral wire-bond design. One of the most important characteristics of flip-chip designs is that the I/O buffers could be placed anywhere inside a chip, just like core cells. Motivated by [14] in proposing various I/O planning constraints, we develop a block and I/O buffer placement method in wirelength and signal skew optimization (especially for differential pair signals), and power integrity awareness for chip-package codesign. The results have shown that our approach takes care of power integrity and outperforms [12] in weighted performance metrics optimization.
Keywords :
buffer circuits; electronics packaging; integrated circuit design; chip-package codesign; input/ouput buffer placement; input/output placement; performance-driven block; signal skew optimization; wirelength; Application specific integrated circuits; Constraint optimization; Design optimization; Measurement; Noise reduction; Packaging; Signal design; Silicon; Timing; Wire; Chip-Package Codesign; I/O Placement; Power Integrity;
Conference_Titel :
Quality Electronic Design, 2008. ISQED 2008. 9th International Symposium on
Conference_Location :
San Jose, CA
Print_ISBN :
978-0-7695-3117-5
DOI :
10.1109/ISQED.2008.4479806
