Clock Mesh Network Design with Through‐Silicon Vias in 3D Integrated Circuits |
| |
| Authors: | Kyungin Cho Cheoljon Jang Jong‐wha Chong |
| |
| Affiliation: | 1. Kyungin Cho (ruddls1116@gmail.com) and Jong‐wha Chong (corresponding author, jchong@hanyang.ac.kr) are with the Department of Electronics Computer Engineering, Hanyang University, Seoul, Rep. of Korea.;2. Cheoljon Jang (jangcj@hanyang.ac.kr) is with the Department of Nanoscale Semiconductor Engineering, Hanyang University, Seoul, Rep. of Korea. |
| |
| Abstract: | Many methodologies for clock mesh networks have been introduced for two‐dimensional integrated circuit clock distribution networks, such as methods to reduce the total wirelength for power consumption and to reduce the clock skew variation through consideration of buffer placement and sizing. In this paper, we present a methodology for clock mesh to reduce both the clock skew and the total wirelength in three‐dimensional integrated circuits. To reduce the total wirelength, we construct a smaller mesh size on a die where the clock source is not directly connected. We also insert through‐silicon vias (TSVs) to distribute the clock signal using an effective clock TSV insertion algorithm, which can reduce the total wirelength on each die. The results of our proposed methods show that the total wirelength was reduced by 12.2%, the clock skew by 16.11%, and the clock skew variation by 11.74%, on average. These advantages are possible through increasing the buffer area by 2.49% on the benchmark circuits. |
| |
| Keywords: | 3D clock mesh distribution network 3D IC design clock TSV insertion through‐silicon via TSV |
|
|
