With the relentless scaling of technology nodes, the track number reduction of conventional (Conv.) cell is starting to reach its limitations due to limited routing resources, lateral p-n separations, and performance requirements. As a result, to exploit the benefits of 3-D architectures, complementary-FET (CFET) technology, which stacks P-FET on N-FET or vice versa, is proposed to release the restriction of p-n separation and reduce in-cell routing congestion by enabling p-n direct connections. However, CFET standard cell (SDC) synthesis demands a holistic reconsideration of multirow (MR) structure to maximize the cell and block-level area benefits due to limited in-cell routing tracks and routability that comes from the stacked structure ...