VNF Router Performance with DDoS Functionality: Difference between revisions

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Intel’s Comms. Infrastructure Solutions lab in Hillsboro, Oregon, USA
Intel’s Comms. Infrastructure Solutions lab in Hillsboro, Oregon, USA
==Abstract ==
This PoC aims to demonstrate various Layer 2-4 DDoS attacks, e.g. NTP reflection attack, being handled in real-time using a VNF router. This PoC also characterizes the performance impact of implementing Layer 2-4 DDoS attack detection/mitigation schemes in a VNF router.


== PoC Proposal ==
== PoC Proposal ==
[http://docbox.etsi.org/ISG/NFV/PER/05-CONTRIBUTIONS/2014/NFVPER(14)000024a3__NFV_ISG_PoC_proposal__VNF_Router_Performance_with_DDoS_func.docx NFVPER(14)000024a3__NFV_ISG_PoC_proposal__VNF_Router_Performance_with_DDoS_func.docx]
[http://docbox.etsi.org/ISG/NFV/PER/05-CONTRIBUTIONS/2014/NFVPER(14)000024a3__NFV_ISG_PoC_proposal__VNF_Router_Performance_with_DDoS_func.docx NFVPER(14)000024a3__NFV_ISG_PoC_proposal__VNF_Router_Performance_with_DDoS_func.docx]
[[media:NFVPER(14)000024a3__NFV_ISG_PoC_proposal__VNF_Router_Performance_with_DDoS_func.pdf|Download PDF version]]

Revision as of 06:40, 19 February 2014

PoC Team

AT&T

Telefonica

Brocade

Intel

Main Contact

Ram (Ramki) Krishnan, Brocade ramk@brocade.com

PoC Demo

Brocade Communications Systems, Inc. San Jose, California, USA

Intel’s Comms. Infrastructure Solutions lab in Hillsboro, Oregon, USA

Abstract

This PoC aims to demonstrate various Layer 2-4 DDoS attacks, e.g. NTP reflection attack, being handled in real-time using a VNF router. This PoC also characterizes the performance impact of implementing Layer 2-4 DDoS attack detection/mitigation schemes in a VNF router.

PoC Proposal

NFVPER(14)000024a3__NFV_ISG_PoC_proposal__VNF_Router_Performance_with_DDoS_func.docx

Download PDF version