Publication Date:
2018-10-18
Description:
Nowadays, many new low power ASICs applications have emerged. This new market trend made the designer’s task of meeting the timing and routability requirements within the power budget more challenging. One of the major sources of power consumption in modern integrated circuits (ICs) is the Interconnect. In this paper, we present a novel Power and Timing-Driven global Placement (PTDP) algorithm. Its principle is to wrap a commercial timing-driven placer with a nets weighting mechanism to calculate the nets weights based on their timing and power consumption. The new calculated weight is used to drive the placement engine to place the cells connected by the critical power or timing nets close to each other and hence reduce the parasitic capacitances of the interconnects and, by consequence, improve the timing and power consumption of the design. This approach not only improves the design power consumption but facilitates also the routability with only a minor impact on the timing closure of a few designs. The experiments carried on 40 industrial designs of different nodes, sizes, and complexities and demonstrate that the proposed algorithm is able to achieve significant improvements on Quality of Results (QoR) compared with a commercial timing driven placement flow. We effectively reduce the interconnect power by an average of 11.5% that leads to a total power improvement of 5.4%, a timing improvement of 9.4%, 13.7%, and of 3.2% in Worst Negative Slack (WNS), Total Negative Slack (TNS), and total wirelength reduction, respectively.
Print ISSN:
1065-514X
Electronic ISSN:
1563-5171
Topics:
Electrical Engineering, Measurement and Control Technology
