標題: 考慮嵌入不同大小之緩衝器的時鐘樹合成
Clock Tree Synthesis with Buffer Insertion/Sizing
作者: 朱浩賢
Chu, Hao-Hsien
李毅郎
Li, Yih-Lang
資訊科學與工程研究所
關鍵字: 超大積體電路;時鐘樹合成;嵌入緩衝器;VLSI;clock tree synthesis;buffer insertion/sizing
公開日期: 2013
摘要: 為了要成功設計高效能的積體電路晶片,時鐘樹合成扮演了非常重要的角色。時鐘樹的時脈偏移會直接影響晶片的效能。在這篇論文當中,我們提出了一個新的繞線電阻模型,而這個繞線電阻模型是根據商業用軟體(Encounter)抽取出實際的繞線電組所建立的。導通孔電阻是繞線電阻的一部分,而且不可輕易忽略。我們發現導通孔電阻和該條繞線的外接點的數量有關聯。我們採用傳統的訊號轉換模型,來決定每種緩衝器可以接受的最大電容負載。我們根據方才決定的最大電容負載,來選擇放入緩衝器的位置以及大小。在完成建立時鐘樹之後,我們會將我們的結果和Encounter 建出來的時鐘樹作比較。雖然我們的結果稍微比Encounter 的結果差,但是我們的執行時間卻比Encounter快上許多。
Clock tree synthesis plays a vital role to achieve a successful high performance chip design. Clock skew influences the chip performance directly. In this work, we propose a new wire resistance model based on the actual wire resistance extracted by a commercial tool, Encounter. Via resistance is a part of wire resistance and cannot be negligible. We find that via resistance of a net is related to its fan-out number. We adopt a traditional slew model to decide the maximum output capacitances of buffers that are used as the criteria of buffer insertion/sizing. After clock tree construction, we compare our result with the clock tree generated by Encounter. Although our result is worse than Encounter, our run time is much faster than Encounter.
URI: http://140.113.39.130/cdrfb3/record/nctu/#GT070056015
http://hdl.handle.net/11536/73495
Appears in Collections:Thesis