Abstract
Bloom filters (BFs) are widely utilised to speed up string matching in crucial network applications such as real-time intrusion detection and spam filters. This study introduces a new approach to improve the efficiency of BFs for string matching functions. The approach splits each target string into two substrings and considers the second substring for programming the BF. The objective is to minimise the false positive rate by maximising the common hash signatures from the second substring. Results show that compared to the traditional means of using BFs, the proposed approach reduces the false positive rate by averages of 76 and 88% for 32 and 64 Kb BFs, respectively. Moreover, a complete string matching architecture has been developed in hardware based on the proposed approach. Results demonstrate the advantages of this new architecture compared to similar previous works.
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