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DESCRIPTION:Abstract. After providing a brief introductory survey of recent
  and current efforts at the Center for Wireless Information Systems and Co
 mputational Architectures (WISCA)\, and observations on the future of RF s
 ystems\, we introduce our efforts on the next generation of coarse-scale h
 eterogenous processor development. On our project – entitled Domain-Focu
 sed Advanced Software-Reconfigurable Heterogeneous (DASH)-System-on-Chip (
 SoC) that operates under the DARPA Domain-Specific System-on-Chip (DSSoC) 
 program – we are constructing both a development framework and an exampl
 e SoC. Our SoC and framework will provide efficiency that approaches that 
 of full-custom integrated circuits while enabling ease of programming that
  is similar to that of traditional scalar processors. To achieve this goal
 \, we pursue significant progress in application ontological analysis\, pr
 ogram and debugging software tools\, intelligent on-chip resource manageme
 nt\, flexible high-performance on-chip networking\, and advanced task-spec
 ific accelerators. Additionally\, to assure usefulness to DoD RF applicati
 ons\, we work with multiple traditional defense contractors on transitioni
 ng the DASH-SoC to example systems. We lead a broad team from academia\, c
 ommercial industry\, and traditional defense contractors.\n\nBiography. Pr
 of. Daniel W. Bliss (bliss.asu.edu) is a Professor in the School of Electr
 ical\, Computer\, and Energy Engineering at Arizona State University and a
  Fellow of the IEEE. He is also the Director of ASU’s Center for Wireles
 s Information Systems and Computational Architectures (wisca.asu.edu). Dan
  received his Ph.D. and M.S. in Physics from the University of California 
 at San Diego (1997 and 1995)\, and his B.S. in Electrical Engineering from
  ASU (1989). His current research focuses on advanced systems in the areas
  of communications\, radar\, precision positioning\, advanced computationa
 l systems\, and medical monitoring. Dan has been the principal investigato
 r on numerous projects including sponsored programs with DARPA\, ONR\, Goo
 gle\, Airbus\, and many others. He is responsible for foundational work in
  electronic protection\, adaptive multiple-input multiple-output (MIMO) co
 mmunications\, MIMO radar\, distributed-coherent systems\, and RF converge
 nce.\n\nVirtual: https://events.vtools.ieee.org/m/266556
LOCATION:Virtual: https://events.vtools.ieee.org/m/266556
ORGANIZER:matthew.jackson@gtri.gatech.edu
SEQUENCE:3
SUMMARY:IEEE SPS Virtual Lecture- Enabling the Next Generation of Advanced 
 Software-Defined RF Systems
URL;VALUE=URI:https://events.vtools.ieee.org/m/266556
X-ALT-DESC:Description: <br /><p><strong>Abstract</strong>. After providing
  a brief introductory survey of recent and current efforts at the Center f
 or Wireless Information Systems and Computational Architectures (WISCA)\, 
 and observations on the future of RF systems\, we introduce our efforts on
  the next generation of coarse-scale heterogenous processor development.&n
 bsp\; On our project &ndash\; entitled Domain-Focused Advanced Software-Re
 configurable Heterogeneous (DASH)-System-on-Chip (SoC) that operates under
  the DARPA Domain-Specific System-on-Chip (DSSoC) program &ndash\; we are 
 constructing both a development framework and an example SoC.&nbsp\; Our S
 oC and framework will provide efficiency that approaches that of full-cust
 om integrated circuits while enabling ease of programming that is similar 
 to that of traditional scalar processors.&nbsp\; To achieve this goal\, we
  pursue significant progress in application ontological analysis\, program
  and debugging software tools\, intelligent on-chip resource management\, 
 flexible high-performance on-chip networking\, and advanced task-specific 
 accelerators.&nbsp\; Additionally\, to assure usefulness to DoD RF applica
 tions\, we work with multiple traditional defense contractors on transitio
 ning the DASH-SoC to example systems.&nbsp\; We lead a broad team from aca
 demia\, commercial industry\, and traditional defense contractors.</p>\n<p
 ><strong>Biography.</strong> Prof. Daniel W. Bliss (bliss.asu.edu) is a Pr
 ofessor in the School of Electrical\, Computer\, and Energy Engineering at
  Arizona State University and a Fellow of the IEEE.&nbsp\; He is also the 
 Director of ASU&rsquo\;s Center for Wireless Information Systems and Compu
 tational Architectures (wisca.asu.edu).&nbsp\; Dan received his Ph.D. and 
 M.S. in Physics from the University of California at San Diego (1997 and 1
 995)\, and his B.S. in Electrical Engineering from ASU (1989).&nbsp\; His 
 current research focuses on advanced systems in the areas of communication
 s\, radar\, precision positioning\, advanced computational systems\, and m
 edical monitoring.&nbsp\; Dan has been the principal investigator on numer
 ous projects including sponsored programs with DARPA\, ONR\, Google\, Airb
 us\, and many others.&nbsp\; He is responsible for foundational work in el
 ectronic protection\, adaptive multiple-input multiple-output (MIMO) commu
 nications\, MIMO radar\, distributed-coherent systems\, and RF convergence
 .</p>
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