Fully-Autonomous SoC Synthesis using Customizable Cell-Based Synthesizable Analog Circuits

Abstract

This paper will show developing a system-on-chip (SoC) synthesis tool which is able to automatically generate a set of analog blocks. Our approach leverages a differentiating technology to automatically synthesize correct-by-construction Verilog descriptions for both analog and digital circuits and enable a portable, single pass implementation flow. The SoC synthesis tool realizes analog circuits, including phase locked loops (PLL), power management, analog to digital converters (ADC), and sensor interfaces by recasting them as structures composed largely of digital components while maintaining analog performance. They are then expressed as synthesizable Verilog blocks composed of digital standard cells augmented with a few auxiliary cells generated with an automatic cell generation tool. By expanding the IPXACT format and the Socrates tool from ARM, we then enable composition of vast numbers of digital and analog components into a single correct-by-construction design.

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Document Details

Document Type
Technical Report
Publication Date
Mar 25, 2019
Accession Number
AD1075802

Entities

People

  • Benton H. Calhoun
  • David Blaauw
  • David D. Wentzloff
  • David Urquhart
  • Dennis Sylvester
  • Kyumin Kwon
  • Matteo Coltella
  • Morteza Fayazi
  • Ronald Dreslinski

Organizations

  • University of Michigan

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  • Energy and Power Technologies

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  • Computer science

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  • Artificial Intelligence
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