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- Title
Operating Systems Techniques for Parallel Computation in Intellegent Memory.
- Authors
Oskin, Mark; Keen, Diana; Hensley, Justin; Lita, Lucian-Vlad; Chong, Frederic T.; Gerasoulis, A.
- Abstract
Advances in DRAM density have led to several proposals to perform computation in memory. Active Pages is a page-based model of intelligent memory that can exploit large amounts of parallel computation in dataintensive applications. With a simple VLIW processor embedded near each page on DRAM, Active Page memory systems achieve up to 1000X speedups over conventional memory systems. Active Pages are specifically designed to support virtualized hardware resources. In this study, we examine operating system techniques that allow Active Page memories to share, or multiplex, embedded VLIW processors across multiple, physical Active Pages. We explore the trade-off between individual page-processor performance and page-level multiplexing. We find that hardware costs of computational logic can be reduced from 31% of DRAM chip area to 12%, through multiplexing, without significant loss in performance. Furthermore, manufacturing defects that disable up to 50% of the page processors can be tolerated through efficient resource allocation and associative multiplexing.
- Subjects
COMPUTER operating systems; PARALLEL computers
- Publication
Parallel Processing Letters, 2002, Vol 12, Issue 3/4, p311
- ISSN
0129-6264
- Publication type
Article
- DOI
10.1142/S0129626402001014