论文信息 - Accelerating frequent item counting with FPGA

Accelerating frequent item counting with FPGA

Frequent item counting is one of the most important operations in time series data mining algorithms, and the space saving algorithm is a widely used approach to solving this problem. With the rapid rising of data input speeds, the most challenging problem in frequent item counting is to meet the requirement of wire-speed processing. In this paper, we propose a streaming oriented PE-ring framework on FPGA for counting frequent items. Compared with the best existing FPGA implementation, our basic PE-ring framework saves 50% lookup table resources cost and achieves the same throughput in a more scalable way. Furthermore, we adopt SIMD-like cascaded filter for further performance improvements, which outperforms the previous work by up to 3.24 times in some data distributions.

[1] Graham Cormode,et al. A near-optimal algorithm for computing the entropy of a stream , 2007, SODA '07.

[2] Paul Chow,et al. Proceedings of the ACM/SIGDA International Symposium on Field Programmable Gate Arrays, FPGA 2000, Monterey, CA, USA, February 10-11, 2000 , 2000, FPGA.

[3] Marcelo A. Montemurro,et al. Beyond the Zipf-Mandelbrot law in quantitative linguistics , 2001, ArXiv.

[4] Gustavo Alonso,et al. Frequent Item Computation on a Chip , 2011, IEEE Transactions on Knowledge and Data Engineering.

[5] Martin Ester,et al. Frequent term-based text clustering , 2002, KDD.

[6] X. Gabaix. Zipf's Law and the Growth of Cities , 1999 .

[7] Gustavo Alonso,et al. Efficient frequent item counting in multi-core hardware , 2012, KDD.

[8] Ke Wang,et al. Mining frequent item sets by opportunistic projection , 2002, KDD.

[9] Moses Charikar,et al. Finding frequent items in data streams , 2002, Theor. Comput. Sci..

[10] Divyakant Agrawal,et al. An integrated efficient solution for computing frequent and top-k elements in data streams , 2006, TODS.

[11] Yu Wang,et al. Accelerating subsequence similarity search based on dynamic time warping distance with FPGA , 2013, FPGA '13.