Title :
A design environment for high-throughput low-power dedicated signal processing systems
Author :
W.R. Davis;N. Zhang;K. Camera;D. Markovic;T. Smilkstein;M.J. Ammer;E. Yeo;S. Augsburger;B. Nikolic;R.W. Brodersen
Author_Institution :
Berkeley Wireless Res. Center, CA, USA
Abstract :
A hierarchical automated design flow for low-energy direct-mapped signal processing integrated circuits is presented. A modular framework based on a combined dataflow graph and floorplan description drives automatic layout generation with commercial CAD tools. Automatic characterization of layout improves system-level estimates. Simplified physical design methodologies for low supply voltages are discussed. The flow is demonstrated on a 300-k transistor test-chip, a time-division multiple-access baseband receiver, and a soft-output Viterbi decoder. An example of architectural comparison of energy efficiency is presented.
Keywords :
"Signal design","Signal processing","Design automation","Design methodology","Low voltage","Circuit testing","Baseband","Viterbi algorithm","Decoding","Energy efficiency"
Journal_Title :
IEEE Journal of Solid-State Circuits
