General Floorplanning Methodology for 3D ICs with An Arbitrary Bonding Style
Jai-Ming Lina and Chien-Yu Huangb
National Cheng Kung University, Tainan, Taiwan
ajmlin@ee.ncku.edu.tw
bjoy7160076@gmail.com
ABSTRACT
This paper proposes a general floor planning methodology which can be applied to 3D ICs with an arbitrary bonding style. Some researches have shown that a 3D IC with the hybrid bonding style, which includes face‐to‐back and face to face, may obtain better results than that simply using the face‐to‐back bonding style. We respectively present an approach to assign modules to tiers for each kind of bonding style. Further, a new utilization function, called cosine‐shaped function, is proposed to estimate utilizations of bins required by the analytical‐based approach. Our experimental results show the cosine‐shaped function can obtain a little better result than the bell‐shaped function on IBM benchmarks for 2D floor planning. We also show that the proposed 3D floor planning methodology consumes less TSVs and induces shorter wire length compared to previous work in the hybrid bonding style.