<P>Reconfigurable computing technologies offer the promise of substantial performance gains over traditional architectures via customizing, even at runtime, the topology of the underlying architecture to match the specific needs of a given application. Contemporary configurable architectures allow for the definition of architectures with functional and storage units that match in function, bit–width and control structures the specific needs of a given computation. The flexibility enabled by reconfiguration is also seen as a basic technique for overcoming transient failures in emerging device structures. <BR><BR>The International Workshop of Applied Reconfigurable Computing (ARC) aims to bring together researchers and practitioners of reconfigurable computing with an emphasis on practical applications of this promising technology. This year′s workshop will have a series of international invited speakers who will express their views on the future of reconfigurable technology. </P> <P><B>Keywords:</B> <BR> <TABLE width=586> <TBODY> <TR> <TD width=289> <H3>RC Design Methods and Tools </H3> <UL> <LI>High–Level Compilers <LI>Simulation <LI>Estimation <LI>Design Space Exploration <LI>Languages to program reconfigurable systems, etc <LI>Systems Software Support <LI>Compilation and Synthesis <LI>Other </LI></UL> <H3>RC Applications </H3> <UL> <LI>High–Performance Systems <LI>Embedded Computing <LI>Estimation <LI>Robotics <LI>Digital Signal Processing <LI>Other </LI></UL></TD> <TD width=281> <H3>RC Architectures </H3> <UL> <LI>Fine–grained <LI>Mixed–grained <LI>Multi–processor–based reconfigurable platforms <LI>Microprocessors with tightly–coupled reconfigurable hardware <LI>Reconfigurable Fabric Architectures <LI>System Architectures and Integration <LI>Other </LI></UL> <H3>Critical Issues in RC </H3> <UL> <LI>Teaching Reconfigurable Computing <LI>Surveys and Future Trends <LI>Benchmarks </LI></UL></TD></TR></TBODY></TABLE></P>
Abbrevation
ARC
City
Bangkok
Country
Thailand
Deadline Paper
Start Date
End Date
Abstract