Exploring feasibilities of symmetry islands and monotonic current paths in slicing trees for analog placement

Po Hsun Wu; Po-Hung Lin; Tung Chieh Chen; Ching Feng Yeh; Tsung Yi Ho; Bin Da Liu

doi:10.1109/TCAD.2014.2305831

Exploring feasibilities of symmetry islands and monotonic current paths in slicing trees for analog placement

Po Hsun Wu, Po-Hung Lin, Tung Chieh Chen, Ching Feng Yeh, Tsung Yi Ho, Bin Da Liu

Institute of Intelligent Systems

Research output: Contribution to journal › Article › peer-review

24 Scopus citations

Abstract

Although modern analog placement algorithms aimed to minimize area and wirelength while satisfying symmetry, proximity, and other placement constraints, the generated layout does not reflect the circuit performance very well because of the routing-induced parasitics on the critical current/signal paths. To simultaneously consider symmetry, wirelength, area utilization, and current/signal paths during analog placement, this paper explores the feasibilities of symmetry islands and monotonic current paths in slicing trees for analog placement optimization. Experimental results show that the proposed formulation and algorithms can generate much more compact layouts resulting in similar or even better circuit performance compared with the previous work.

Original language	English
Article number	6816125
Pages (from-to)	879-892
Number of pages	14
Journal	IEEE Transactions on Computer-Aided Design of Integrated Circuits and Systems
Volume	33
Issue number	6
DOIs	https://doi.org/10.1109/TCAD.2014.2305831
State	Published - Jun 2014

Keywords

Analog layout
analog placement
current flow
current path
signal flow
slicing tree
symmetry

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10.1109/TCAD.2014.2305831

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abstract = "Although modern analog placement algorithms aimed to minimize area and wirelength while satisfying symmetry, proximity, and other placement constraints, the generated layout does not reflect the circuit performance very well because of the routing-induced parasitics on the critical current/signal paths. To simultaneously consider symmetry, wirelength, area utilization, and current/signal paths during analog placement, this paper explores the feasibilities of symmetry islands and monotonic current paths in slicing trees for analog placement optimization. Experimental results show that the proposed formulation and algorithms can generate much more compact layouts resulting in similar or even better circuit performance compared with the previous work.",

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AU - Yeh, Ching Feng

AU - Ho, Tsung Yi

AU - Liu, Bin Da

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AB - Although modern analog placement algorithms aimed to minimize area and wirelength while satisfying symmetry, proximity, and other placement constraints, the generated layout does not reflect the circuit performance very well because of the routing-induced parasitics on the critical current/signal paths. To simultaneously consider symmetry, wirelength, area utilization, and current/signal paths during analog placement, this paper explores the feasibilities of symmetry islands and monotonic current paths in slicing trees for analog placement optimization. Experimental results show that the proposed formulation and algorithms can generate much more compact layouts resulting in similar or even better circuit performance compared with the previous work.

KW - Analog layout

KW - analog placement

KW - current flow

KW - current path

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Exploring feasibilities of symmetry islands and monotonic current paths in slicing trees for analog placement

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