5.7 Novel Computing and Simulation Approaches
Date:
Wed, 2009-04-22Time:
08:30 - 10:00Location / Room:
Gallieni AB, Level 3 Moderators:
T Austin, U of Michigan, US
C Kozyrakis, Stanford U, US
This session focuses on novel computation techniques and simulation approaches. The first paper introduces a new approach to NUCA cache design that improves memory system performance. The second paper demonstrates that FPGAs can be used to effectively speed complex simulation models. The third paper highlights a powerful computational model utilising heterogeneous course-grained functional units. Finally, the fourth paper in the session introduces a NUCA cache design that reduces power demands through active migration.
| 0830 | LIGHT NUCA: A PROPOSAL FOR BRIDGING THE INTER-CACHE LATENCY GAP D Suarez, T Monreal and V Vinals, Zaragoza U, ES F Vallejo and R Beivide, Cantabria U, ES |
| 0900 | RESIM, A TRACE-DRIVEN, RECONFIGURABLE ILP PROCESSOR SIMULATOR S Fytraki and D Pnevmatikatos, TU Crete, GR |
| 0930 (S) | HETEROGENEOUS COARSE-GRAINED PROCESSING ELEMENTS: A TEMPLATE ARCHITECTURE FOR EMBEDDED PROCESSING ACCELERATION G Ansaloni, P Bonzini and L Pozzi, Lugano U, IT |
| 0945 (S) | AUTOMATICALLY CLUSTERED INSTRUCTIONS C Galuzzi, D Theodoropoulos, R Meeuws and K Bertels, TU Delft, NL |
