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SP&R: SMT-Based Simultaneous Place-and-Route for Standard Cell Synthesis of Advanced Nodes

Daeyeal Lee, Dongwon Park, Chia-Tung Ho, Ilgweon Kang, Hayoung Kim, Sicun Gao, Bill Lin, Chung‐Kuan Cheng

2020IEEE Transactions on Computer-Aided Design of Integrated Circuits and Systems44 citationsDOI

Abstract

In this article, we propose an automated standard cell synthesis framework, SP&R, which simultaneously solves P&R without deploying any sequential/separate operations, by a novel dynamic pin allocation scheme. The proposed SP&R utilizes the multiobjective optimization feature of satisfiability modulo theories (SMT) to obtain optimal cell layouts. To achieve practical scalability of the framework, we develop various search-space reduction techniques, including breaking symmetry, conditional assignment/localization, and cell/objective function partitioning. Compared to the previous work, SP&R achieves 20.8× to 131.7× runtime improvements on average across the design-rule sets. As a result, SP&R successfully produces cell layouts up to 36 field-effect transistors (FETs) and 27 nets within 1.75 h by orchestrating all innovative tactics together, resulting in the generation of a whole 7-nm standard cell library. Compared to the known layouts, our work improves cell size and # M2 tracks by 0.1 contacted poly pitch and 0.3 tracks, respectively.

Topics & Concepts

Standard cellSatisfiability modulo theoriesScalabilityModuloComputer scienceReduction (mathematics)Function (biology)Scheme (mathematics)SatisfiabilityAlgorithmParallel computingTheoretical computer scienceMathematicsIntegrated circuitDiscrete mathematicsMathematical analysisDatabaseBiologyGeometryEvolutionary biologyOperating systemVLSI and FPGA Design TechniquesAdvancements in Semiconductor Devices and Circuit DesignVLSI and Analog Circuit Testing
SP&R: SMT-Based Simultaneous Place-and-Route for Standard Cell Synthesis of Advanced Nodes | Litcius