Tu-Hsiung Tsai scite author profile

Tu-Hsiung Tsai

4Publications

1Citation Statement Received

43Citation Statements Given

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National Yang Ming Chiao Tung University

Publications

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Cost-effective decap selection for beyond die power integrity

Chen¹,

Tsai²,

Chen³

et al. 2014

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1 Abstract-In designing reliable power distribution networks (PDN) for power integrity (PI), it is essential to stabilize voltage supply to devices on chip. We usually employ decoupling capacitor (decap) to suppress the noise generated by the switching of devices. There have been numerous prior works on how to select/insert decaps in chip, package, or board to maintain PI, however optimal decap selection is usually not applicable due to design budget and manufacturability. Moreover, design cost is seldom touched or mentioned. In this research, we propose an efficient methodology "PDC-PSO" to automatically optimizing the selection of available decaps. This algorithm not only takes advantage of particle swarm optimization (PSO) to stochastically search the design space, but takes the most effective range of decaps into consideration to outperform the basic PSO. We apply this to three real package designs and the results show that, compared to the original decap selection by rules of thumb, our approach could shorten the design period and we have better combination of decaps at the same or lower cost. In addition, our methodology can also consider package-board co-design in optimizing different operation frequencies.

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Routability-driven bump assignment for chip-package co-design

Chen

Tsai

Chen

et al. 2014

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In current chip and package designs, it is a bottleneck to simultaneously optimize both pin assignment and pin routing for different design domains (chip, package, and board). Usually the whole process costs a huge manual effort and multiple iterations thus reducing profit margin. Therefore, we propose a fast heuristic chip-package co-design algorithm in order to automatically obtain a bump assignment which introduces high routability both in RDL routing and substrate routing (100% in our real case). Experimental results show that the proposed method (inspired by board escape routing algorithms) automatically finishes bump assignment, RDL routing and substrate routing in a short time, while the traditional co-design flow requires weeks even months.

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Path-based cell flipping optimization for wirelength reduction and routability

Shih

Tsai

Chen

2010

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Cost-effective decap selection for beyond die power integrity

Chen¹,

Tsai²,

Chen³

et al. 2014

View full text Add to dashboard Cite

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Tu-Hsiung Tsai

Cost-effective decap selection for beyond die power integrity

Routability-driven bump assignment for chip-package co-design

Path-based cell flipping optimization for wirelength reduction and routability

Cost-effective decap selection for beyond die power integrity

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