Current and future on-chip networks will feature an enhanced degree of reconfigurability. Power management and virtualization strategies as well as the need to survive to the progressive onset of wear-out faults are root causes for that. In all these cases, a non-intrusive and efficient reconfiguration method is needed to allow the network to function uninterruptedly over the course of the reconfiguration process while remaining deadlock-free. This paper is inspired by the overlapped static reconfiguration (OSR) protocol developed for off-chip networks. However, in its native form its implementation in NoCs is out-of-reach. Therefore, we provide a careful engineering of the NoC switch architecture and of the system-level infrastructure to support a cost-effective, complete and transparent reconfiguration process. Performance during the reconfiguration process is not affected and implementation costs (critical path and area overhead) are proved to be fully affordable for a constrained system. Less than 250 cycles are needed for the reconfiguration process of an 8×8 2D mesh with marginal impact on system performance. © 2012 IEEE.

OSR-Lite: Fast and deadlock-free NoC reconfiguration framework

STRANO, Alessandro;BERTOZZI, Davide;
2012

Abstract

Current and future on-chip networks will feature an enhanced degree of reconfigurability. Power management and virtualization strategies as well as the need to survive to the progressive onset of wear-out faults are root causes for that. In all these cases, a non-intrusive and efficient reconfiguration method is needed to allow the network to function uninterruptedly over the course of the reconfiguration process while remaining deadlock-free. This paper is inspired by the overlapped static reconfiguration (OSR) protocol developed for off-chip networks. However, in its native form its implementation in NoCs is out-of-reach. Therefore, we provide a careful engineering of the NoC switch architecture and of the system-level infrastructure to support a cost-effective, complete and transparent reconfiguration process. Performance during the reconfiguration process is not affected and implementation costs (critical path and area overhead) are proved to be fully affordable for a constrained system. Less than 250 cycles are needed for the reconfiguration process of an 8×8 2D mesh with marginal impact on system performance. © 2012 IEEE.
2012
9781467322973
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11392/1736360
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