TY - JOUR
T1 - Scalable packet classification for enabling internet differentiated services
AU - Wang, Pi Chung
AU - Chan, Chia Tai
AU - Lee, Chun Liang
AU - Chang, Hung Yi
PY - 2006/12
Y1 - 2006/12
N2 - Nowadays, IP networks are rapidly evolving toward a QoS-enabled infrastructure. The need for packet classification is increasing in accordance with emerging differentiated services. While the new differentiated services could significantly increase the number of rules, it has been demonstrated that performing packet classification on a potentially large number of rules is difficult and has poor worst-case performance. In this work, we present an enhanced tuple pruning search algorithm called "Tuple Pruning Plus" (TPP) for packet classification, which outperforms the existing schemes on the scalability. Our main idea is to simplify the lookup procedure and to avoid unnecessary tuple probing by maintaining the least-cost property of rule through precomputation and the proposed Information Marker. With extra rules added for Information Marker, only one tuple access is required in each packet classification. In our experiments, 70 MB DRAM is used to achieve 50 million packets per second (MPPS) for a 1 M-rule set, showing a performance improvement by a factor of 50. We also present a heuristic to further reduce the required storage to about 20 MB. These results demonstrate the effectiveness of the TPP scheme to achieve high speed packet classification.
AB - Nowadays, IP networks are rapidly evolving toward a QoS-enabled infrastructure. The need for packet classification is increasing in accordance with emerging differentiated services. While the new differentiated services could significantly increase the number of rules, it has been demonstrated that performing packet classification on a potentially large number of rules is difficult and has poor worst-case performance. In this work, we present an enhanced tuple pruning search algorithm called "Tuple Pruning Plus" (TPP) for packet classification, which outperforms the existing schemes on the scalability. Our main idea is to simplify the lookup procedure and to avoid unnecessary tuple probing by maintaining the least-cost property of rule through precomputation and the proposed Information Marker. With extra rules added for Information Marker, only one tuple access is required in each packet classification. In our experiments, 70 MB DRAM is used to achieve 50 million packets per second (MPPS) for a 1 M-rule set, showing a performance improvement by a factor of 50. We also present a heuristic to further reduce the required storage to about 20 MB. These results demonstrate the effectiveness of the TPP scheme to achieve high speed packet classification.
KW - Best matching prefix
KW - Multicast
KW - Multidimensional range lookup
KW - Packet classification
UR - http://www.scopus.com/inward/record.url?scp=33845682102&partnerID=8YFLogxK
U2 - 10.1109/TMM.2006.884610
DO - 10.1109/TMM.2006.884610
M3 - 文章
AN - SCOPUS:33845682102
SN - 1520-9210
VL - 8
SP - 1239
EP - 1249
JO - IEEE Transactions on Multimedia
JF - IEEE Transactions on Multimedia
IS - 6
ER -