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Title: An OS-based alternative to full hardware coherence on tiled chip-multiprocessors
Author: Fensch, Christian
ISNI:       0000 0004 2727 3383
Awarding Body: University of Edinburgh
Current Institution: University of Edinburgh
Date of Award: 2008
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The interconnect mechanisms (shared bus or crossbar) used in current chip-multiprocessors (CMPs) are expected to become a bottleneck that prevents these architectures from scaling to a larger number of cores. Tiled CMPs offer better scalability by integrating relatively simple cores with a lightweight point-to-point interconnect. However, such interconnects make snooping impractical and, thus, require alternative solutions to cache coherence. This thesis proposes a novel, cost-effective hardware mechanism to support shared-memory parallel applications that forgoes hardware maintained cache coherence. The proposed mech- anism is based on the key ideas that mapping of lines to physical caches is done at the page level with OS support and that hardware supports remote cache accesses. It allows only some controlled migration and replication of data and provides a sufficient degree of flexibility in the mapping through an extra level of indirection between virtual pages and physical tiles. The proposed tiled CMP architecture is evaluated on the SPLASH-2 scientific benchmarks and ALPBench multimedia benchmarks against one with private caches and a distributed direc- tory cache coherence mechanism. Experimental results show that the performance degradation is as little as 0%, and 16% on average, compared to the cache coherent architecture across all benchmarks for 16 and 32 processors.
Supervisor: Cintra, Marcelo. Sponsor: Not available
Qualification Name: Thesis (Ph.D.) Qualification Level: Doctoral
EThOS ID:  DOI: Not available
Keywords: Informatics ; Computer Science ; Institute of Computing Systems Architecture