Title :
Performance Degradation by Deactivated Cores in 2-D Mesh NoCs
Author :
Fujiwara, I. ; Koibuchi, Michihiro ; Matsutani, Hiroshi
Author_Institution :
Nat. Inst. of Inf., Tokyo, Japan
Abstract :
Chip MultiProcessors (CMPs) will have dark silicon or frequently deactivated areas in a chip, as technology continues to scale down, due to power dissipation. In this work we estimate the influences of deactivated cores on performance of network-on-chips (NoCs). Even when a chip has a two-dimensional mesh topology, a deactivated core that includes an on-chip router makes topology irregular. We thus assume that a topology-agnostic deadlock-free routing is used with a moderate number of virtual channels in such CMPs. Thorough cycle-accurate network simulations of a 2-D mesh NoC, we found that (1) indeed a deactivated core degrades the performance to some extent in terms of throughput, but (2) latency is not increased or even reduced when a deactivated core is located in the corner of a mesh. Hence, we recommend choosing a corner core for deactivation to maintain the performance of NoCs.
Keywords :
mesh generation; microprocessor chips; multiprocessing systems; network routing; network topology; network-on-chip; performance evaluation; power aware computing; 2D mesh NoC; CMP; chip multiprocessors; cycle-accurate network simulations; deactivated cores; network-on-chips; on-chip router; performance degradation; power dissipation; topology-agnostic deadlock-free routing; virtual channels; Network topology; Routing; Switches; System recovery; System-on-chip; Throughput; Topology; Network-on-Chip; darksilicon; systems on chip;
Conference_Titel :
Embedded Multicore Socs (MCSoC), 2013 IEEE 7th International Symposium on
Conference_Location :
Tokyo
DOI :
10.1109/MCSoC.2013.13
