Author
Listed:
- Wei Li
- Kun Huang
- Dafang Zhang
- Zheng Qin
Abstract
Bloom filters are space-efficient randomized data structures for fast membership queries, allowing false positives. Counting Bloom Filters (CBFs) perform the same operations on dynamic sets that can be updated via insertions and deletions. CBFs have been extensively used in MapReduce to accelerate large-scale data processing on large clusters by reducing the volume of datasets. The false positive probability of CBF should be made as low as possible for filtering out more redundant datasets. In this paper, we propose a multilevel optimization approach to building an Accurate Counting Bloom Filter (ACBF) for reducing the false positive probability. ACBF is constructed by partitioning the counter vector into multiple levels. We propose an optimized ACBF by maximizing the first level size, in order to minimize the false positive probability while maintaining the same functionality as CBF. Simulation results show that the optimized ACBF reduces the false positive probability by up to 98.4% at the same memory consumption compared to CBF. We also implement ACBFs in MapReduce to speed up the reduce-side join. Experiments on realistic datasets show that ACBF reduces the false positive probability by 72.3% as well as the map outputs by 33.9% and improves the join execution times by 20% compared to CBF.
Suggested Citation
Wei Li & Kun Huang & Dafang Zhang & Zheng Qin, 2013.
"Accurate Counting Bloom Filters for Large-Scale Data Processing,"
Mathematical Problems in Engineering, Hindawi, vol. 2013, pages 1-11, July.
Handle:
RePEc:hin:jnlmpe:516298
DOI: 10.1155/2013/516298
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