SDN Enabled Virtual EPC Gateway: Difference between revisions
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Vodafone | Vodafone | ||
Hewlett Packard Enterprise | |||
ImVision Tech | ImVision Tech | ||
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Redhat | Redhat | ||
Altiostar | |||
== Main Contact == | == Main Contact == | ||
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== PoC Demo == | == PoC Demo == | ||
Stage 1: | Stage 1: | ||
Stage 2: | * NFV World Congress San Jose, May 5-7, 2015 | ||
* ONS Summit, June 14-18, 2015 | |||
* ETSI NFV PoC ZONE @SDN & OpenFlow World Congress, Swissôtel Düsseldorf, Germany, Oct 13-16, 2015 | |||
Stage 2: | |||
* Telenor premises, Oslo, 6-10 June 2016 | |||
== Abstract == | |||
This PoC demonstrates the capabilities of an SDN enabled virtual EPC gateway that splits the control and user plane of the Serving and Packet Gateway elements. The user plane implementation is based on a programmable SDN fabric that interfaces with EPC Gateway VNFs through an API. By splitting the gateway in this manner it is possible to scale these components of the EPC independently and it also enables a range of deployment options. The SDN fabric that is used in the PoC can be deployed in a distributed fashion and supports a very high number of rules that can be manipulated at a considerably high OpenFlow transaction rate without loss of throughput. By extending this switch fabric and OpenFlow to support GTP and deploying it at both edge and central locations it is possible to implement a next gen 3GPP standards compliant EPC gateway that can selectively break out traffic as needed. The PoC shows that traffic flows associated with an endpoint that can be serviced from a CDN node can be identified and delivered closer to the edge while all the other traffic for the same endpoint is served from a centralized Gi facility. The flows are anchored independently and can be handled without loss of fundamental mobile network capabilities like handover. | |||
== PoC Proposal == | == PoC Proposal == | ||
[http://docbox.etsi.org/ISG/NFV/TST/05-CONTRIBUTIONS/2015/NFVTST(15)000006_NFV_ISG_PoC_Proposal_SDN_Enabled_EPC_Gwy_r2_was_PER114.docx NFVTST(15)000006_NFV_ISG_PoC_Proposal_SDN_Enabled_EPC_Gwy_r2_was_PER114.docx ] | [http://docbox.etsi.org/ISG/NFV/TST/05-CONTRIBUTIONS/2015/NFVTST(15)000006_NFV_ISG_PoC_Proposal_SDN_Enabled_EPC_Gwy_r2_was_PER114.docx NFVTST(15)000006_NFV_ISG_PoC_Proposal_SDN_Enabled_EPC_Gwy_r2_was_PER114.docx ] | ||
Updated proposal (29/04/2015): [https://docbox.etsi.org/ISG/NFV/TST/05-CONTRIBUTIONS/2015//NFVTST(15)000006r2_NFV_ISG_PoC_Proposal_SDN_Enabled_EPC_Gwy_r2_was_PER114.docx NFVTST(15)000006r2_NFV_ISG_PoC_Proposal_SDN_Enabled_EPC_Gwy_r2_was_PER114.docx] | |||
Updated proposal (9/12/2015): [https://docbox.etsi.org/ISG/NFV/TST/05-CONTRIBUTIONS/2015/NFVTST(15)000006r3_NFV_ISG_PoC_Proposal_SDN_Enabled_EPC_Gwy_was_PER114.docx NFVTST(15)000006r3_NFV_ISG_PoC_Proposal_SDN_Enabled_EPC_Gwy_was_PER114.docx] | |||
Updated proposal (2/03/2016): [https://docbox.etsi.org/ISG/NFV/TST/05-CONTRIBUTIONS/2016/NFVTST(15)000006r4_NFV_ISG_PoC_Proposal_SDN_Enabled_EPC_Gwy_r2_was_PER114.docx NFVTST(15)000006r4_NFV_ISG_PoC_Proposal_SDN_Enabled_EPC_Gwy_r2_was_PER114.docx] | |||
[[media:NFVTST(15)000006_NFV_ISG_PoC_Proposal_SDN_Enabled_EPC_Gwy_r2_was_PER114.pdf|Download PDF version]] | |||
== Hot Topics == | |||
This PoC is <span style="color:red;">'''WORKING on Hot Topic: [[Hot Topics|HT#1 (EVE) Use of SDN in NFV architecture]] ''' </span> | |||
== PoC Report == | |||
PoC Report (17 August 2017): [https://docbox.etsi.org/ISG/NFV/TST/05-CONTRIBUTIONS/2017/NFVTST(17)000148_PoC34_SDN_Enabled_Virtual_EPC_Gateway_Final_report.DOCX Download Word version] | |||
[[media:PoC_34_report_FINAL.PDF|Dowload PDF version]] |
Latest revision as of 13:38, 18 September 2017
PoC Team
Telenor
Vodafone
Hewlett Packard Enterprise
ImVision Tech
Mavenir
Redhat
Altiostar
Main Contact
Ajay Sahai, CONTEXTREAM Ajay.Sahai@CONTEXTREAM.COM
PoC Demo
Stage 1:
- NFV World Congress San Jose, May 5-7, 2015
- ONS Summit, June 14-18, 2015
- ETSI NFV PoC ZONE @SDN & OpenFlow World Congress, Swissôtel Düsseldorf, Germany, Oct 13-16, 2015
Stage 2:
- Telenor premises, Oslo, 6-10 June 2016
Abstract
This PoC demonstrates the capabilities of an SDN enabled virtual EPC gateway that splits the control and user plane of the Serving and Packet Gateway elements. The user plane implementation is based on a programmable SDN fabric that interfaces with EPC Gateway VNFs through an API. By splitting the gateway in this manner it is possible to scale these components of the EPC independently and it also enables a range of deployment options. The SDN fabric that is used in the PoC can be deployed in a distributed fashion and supports a very high number of rules that can be manipulated at a considerably high OpenFlow transaction rate without loss of throughput. By extending this switch fabric and OpenFlow to support GTP and deploying it at both edge and central locations it is possible to implement a next gen 3GPP standards compliant EPC gateway that can selectively break out traffic as needed. The PoC shows that traffic flows associated with an endpoint that can be serviced from a CDN node can be identified and delivered closer to the edge while all the other traffic for the same endpoint is served from a centralized Gi facility. The flows are anchored independently and can be handled without loss of fundamental mobile network capabilities like handover.
PoC Proposal
NFVTST(15)000006_NFV_ISG_PoC_Proposal_SDN_Enabled_EPC_Gwy_r2_was_PER114.docx
Updated proposal (29/04/2015): NFVTST(15)000006r2_NFV_ISG_PoC_Proposal_SDN_Enabled_EPC_Gwy_r2_was_PER114.docx
Updated proposal (9/12/2015): NFVTST(15)000006r3_NFV_ISG_PoC_Proposal_SDN_Enabled_EPC_Gwy_was_PER114.docx
Updated proposal (2/03/2016): NFVTST(15)000006r4_NFV_ISG_PoC_Proposal_SDN_Enabled_EPC_Gwy_r2_was_PER114.docx
Hot Topics
This PoC is WORKING on Hot Topic: HT#1 (EVE) Use of SDN in NFV architecture
PoC Report
PoC Report (17 August 2017): Download Word version