Hash table in massively parallel systems

Proceedings Sixth International Parallel Processing Symposium Pub Date : 1992-03-01 DOI:10.1109/IPPS.1992.222988
I. Yen, F. Bastani
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引用次数: 9

Abstract

The authors look at the performance and new collision resolution strategies for hash tables in massively parallel systems. The results show that using a hash table with linear probing yields O(logN) time performance for handling M accesses by N processors when the load factor of the table is 50%, where N is the size of the hash table. This is better than the performance of using sorted arrays. Two phase hashing gives an average time complexity O(logN) for M simultaneous accesses to a hash table of size N even when the table has 100% load. Simulation results also show that hypercube hashing significantly outperforms linear probing and double hashing.<>
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大规模并行系统中的哈希表
作者研究了大规模并行系统中哈希表的性能和新的冲突解决策略。结果表明,当表的负载因子为50%时,使用具有线性探测的哈希表处理N个处理器的M次访问产生O(logN)时间性能,其中N是哈希表的大小。这比使用排序数组的性能要好。对于同时访问大小为N的哈希表的M次访问,即使表具有100%的负载,两阶段哈希的平均时间复杂度为O(logN)。仿真结果还表明,超立方体哈希算法明显优于线性探测和双哈希算法。
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Proceedings Sixth International Parallel Processing Symposium
Proceedings Sixth International Parallel Processing Symposium
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