Proceedings ArticleDOI
Low depth cache-oblivious algorithms
Guy E. Blelloch,Phillip B. Gibbons,Harsha Vardhan Simhadri +2 more
- pp 189-199
TLDR
This paper describes several cache-oblivious algorithms with optimal work, polylogarithmic depth, and sequential cache complexities that match the best sequential algorithms, including the first such algorithms for sorting and for sparse-matrix vector multiply on matrices with good vertex separators.Abstract:
In this paper we explore a simple and general approach for developing parallel algorithms that lead to good cache complexity on parallel machines with private or shared caches. The approach is to design nested-parallel algorithms that have low depth (span, critical path length) and for which the natural sequential evaluation order has low cache complexity in the cache-oblivious model. We describe several cache-oblivious algorithms with optimal work, polylogarithmic depth, and sequential cache complexities that match the best sequential algorithms, including the first such algorithms for sorting and for sparse-matrix vector multiply on matrices with good vertex separators.Using known mappings, our results lead to low cache complexities on shared-memory multiprocessors with a single level of private caches or a single shared cache. We generalize these mappings to multi-level cache hierarchies of private or shared caches, implying that our algorithms also have low cache complexities on such hierarchies. The key factor in obtaining these low parallel cache complexities is the low depth of the algorithms we propose.read more
Citations
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Journal ArticleDOI
Improving Cache Utilization of Nested Parallel Programs by Almost Deterministic Work Stealing
TL;DR: In this paper , the authors propose an almost deterministic work stealing (ADWS) scheduler, which efficiently exploits data locality by deterministically planning a cache-hierarchy-aware schedule, while allowing a little scheduling variety to facilitate dynamic load balancing.
Proceedings ArticleDOI
Increment - and - Freeze: Every Cache, Everywhere, All of the Time
TL;DR: The Increment-and-Freeze algorithm as discussed by the authors achieves RAM-model complexity O(n log n), external-memory complexity O (n over B log n) and parallelism Θ(log n).
Book ChapterDOI
Exploring Strategies to Improve Locality Across Many-Core Affinities
Peter M. Kogge,Neil A. Butcher +1 more
Journal ArticleDOI
Cache-Oblivious Parallel Convex Hull in the Binary Forking Model
TL;DR: In this article , the authors present two cache-oblivious sorting-based convex hull algorithms in the Binary Forking Model, one achieves O(n)$ work, O(log n)$ span, and O (n/B)$ serial cache complexity, where B is the cache line size.
Posted Content
Using Symmetry to Schedule Classical Matrix Multiplication
TL;DR: It is shown that equivariant maps correspond to time- and communication-efficient schedules for many topologies, and suggests that the design of a schedule for a new class of machines can be motivated by solutions to algebraic equations.
References
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Proceedings ArticleDOI
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David E. Culler,Richard M. Karp,David A. Patterson,Abhijit Sahay,Klaus Erik Schauser,Eunice E. Santos,Ramesh Subramonian,Thorsten von Eicken +7 more
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