Floorplan and placement methodology for improved energy reduction in stacked power-domain design

Autor: Jiajia Li, Ajay Kapoor, Jose Pineda de Gyvez, Andrew B. Kahng, Hamed Fatemi, Kristof Blutman
Přispěvatelé: Electronic Systems
Jazyk: angličtina
Rok vydání: 2017
Předmět:
Zdroj: 2017 22nd Asia and South Pacific Design Automation Conference, ASP-DAC 2017, 444-449
STARTPAGE=444;ENDPAGE=449;TITLE=2017 22nd Asia and South Pacific Design Automation Conference, ASP-DAC 2017
ASP-DAC
DOI: 10.1109/aspdac.2017.7858363
Popis: Energy and battery lifetime constraints are critical challenges to IC designs. Stacked power-domain implementation, which stacks voltage domains in a design, can effectively improve the power delivery efficiency and thus improve battery lifetime. However, such an approach requires balanced current between different domains across multiple operating scenarios. Furthermore, level shifter insertion (together with shifters' delay impacts), along with placement constraints imposed by power domain regions, can incur power and area penalties. To our knowledge, no existing work performs sub-block-level partitioning optimization for stacked-domain designs. In this paper, we present an optimization framework for stacked-domain designs. Based on an initial placement solution, we apply a flow-based partitioning that is aware of multiple operating scenarios, cell placement, and timing-critical paths to partition cells into two power domains with balanced current and minimized number of inserted level shifters. We further propose heuristics to define regions for each power domain so as to minimize placement perturbation, as well as a dynamic programming-based method to minimize the area cost of power domain generation. In an updated floorplan, we perform matching-based optimization to insert level shifters with minimized wirelength penalty. Overall, our method achieves more than ∼10% and 3X battery lifetime improvements in function and sleep modes, respectively.
Databáze: OpenAIRE
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