![]() ![]() ![]() Mikkelsen, L.M., Thomsen, S.R., Pedersen, M.S., et al.: NetMap - creating a map of application layer QoS metrics of mobile networks using crowd sourcing. In: Eleventh 2015 ACM/IEEE Symposium on Architectures for Networking and Communications Systems: Eleventh 2015 ACM/IEEE Symposium on Architectures for Networking and Communications Systems (ANCS 2013), Oakland, CA, USA, 7–, pp. Garzarella, S., Lettieri, G., Rizzo, L.: Virtual device passthrough for high speed VM networking. Redzovic, H., Vesovic, M., Smiljanic, A., et al.: Energy-efficient network processing based on netmap framework. In: The Thirteenth International Conference on Networks: ICN 2014, Nice, France, 23–27 February 2014, pp. Zabala, L., Pineda, A., Ferro, A., et al.: Comparing network traffic probes based on commodity hardware. In: 2012 Fourth International Conference on Multimedia Information Networking and Security, pp. 34(6), 1834–1848 (2016)ĭu, J., Liu, P.: Design and implementation of efficient one-way isolation system based on PF_RING. Stoev, S.A., Michailidis, G., Bhattacharya, S., et al.: AMON: an open source architecture for online monitoring, statistical analysis, and forensics of multi-gigabit streams. Gallenmuller, S., Emmerich, P., Wohlfart, F., et al.: Comparison of frameworks for high-performance packet IO. In: 2015 IEEE 13th International New Circuits and Systems Conference: 2015 IEEE 13th International New Circuits and Systems Conference (NEWCAS), Grenoble, France, 7–10 June 2015, pp. 15(11), 199–207 (2018)Īlizadeh, R., Belanger, N., Savaria, Y., et al.: DPDK and MKL enabling technologies for near deterministic cloud-based signal processing. Li, G., Zhang, D., Li, Y., et al.: Toward energy-efficiency optimization of Pktgen-DPDK for green network testbeds. Moharir, M., Johar, D., Bhardwaj, D.: An experimental review on Intel DPDK L2 forwarding. Halfhill, T.R.: Broadwell accelerates the DPDK. īegin, T., Baynat, B., Gallardo, G.A., et al.: An accurate and efficient modeling framework for the performance evaluation of DPDK-based virtual switches. Pak, J.: A high-performance implementation of an IoT system using DPDK. This article introduces three common DPDK, PF_RING, Netmap high-performance network packet processing framework compares their advantages and disadvantages, and prospects for future development. There are many excellent high-performance network data processing frameworks on the market that integrate above technical solutions, such as 6wind, windriver, DPDK, PF_RING, Netmap, etc. Network construction has become controllable and low cost, able to support the performance requirements of large-scale users or applications and massive data processing. The rise of “cloud” industry and continuous innovation of network technology, more and more basic network architecture equipment is gradually integrated into the architecture based on the general processor platform, from traditional physical network management to virtual network management, gradually from flat the network structure model evolved into a layered network structure based on SDN. ![]()
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