LAUSR

As Moore’s law with traditional process node scaling is slowing down, other techniques are required for the advancement of process nodes. In this work, we focus on one such alternative: 3-D physical design of integrated circuits (ICs). While many recent studies have shown the benefits of 3-D IC design on timing and power consumption of circuits, routing in 3-D is solely done with the automatic commercial routers and has not been well studied. In this article, we discuss the various routing scenarios that arise from cell partitioning and the metal layer stack in 3-D. Unlike a 2-D IC, the metal layer configuration in 3-D depends on the orientation in which the dies are bonded together. Due to this, depending on the configuration, cells in one tier tend to use routing layers from the other tier. This is referred to as metal layer (or) routing sharing. This depends on the metal layer stack and the cell partitioning in 3-D, as well as the via pitch used for 3-D connections. By analyzing metal layer sharing in detail, we see that it can help reduce metal layer costs in 3-D as well as improve the power consumption and, in some cases, the maximum achievable performance of the circuits. Overall, the 3-D metal layer cost can decrease by 9% along with an improved power delay product of up to 7.5% just from the routing sharing in monolithic 3-D ICs.