One Step Beyond: Feedthrough & Placement-Aware Rectilinear Floorplanner
Abstract
Floorplanning determines the shapes and locations of modules on a chip canvas and plays a critical role in optimizing the chip's Power, Performance, and Area (PPA) metrics. However, existing floorplanning approaches often fail to integrate with subsequent physical design stages, leading to suboptimal in-module component placement and excessive inter-module feedthrough. To tackle this challenge, we propose Flora, a three-stage feedthrough and placement aware rectilinear floorplanner. In the first stage, Flora employs wiremask and position mask techniques to achieve coarse-grained optimization of HPWL and feedthrough. In the second stage, under the constraint of a fixed outline, Flora achieves a zero-whitespace layout by locally resizing module shapes, thereby performing fine-grained optimization of feedthrough and improving component placement. In the third stage, Flora utilizes a fast tree search-based method to efficiently place components-including macros and standard cells-within each module, subsequently adjusting module boundaries based on the placement results to enable cross-stage optimization. Experimental results show that Flora outperforms recent state-of-the-art floorplanning approaches, achieving an average reduction of 6% in HPWL, 5.16% in FTpin, 29.15% in FTmod, and a 14% improvement in component placement performance.
Keywords
Cite
@article{arxiv.2507.14914,
title = {One Step Beyond: Feedthrough & Placement-Aware Rectilinear Floorplanner},
author = {Zhexuan Xu and Jie Wang and Siyuan Xu and Zijie Geng and Mingxuan Yuan and Feng Wu},
journal= {arXiv preprint arXiv:2507.14914},
year = {2025}
}