OPNFV Proof-of-Concepts: From Virtual to Real

1. Bin Hu AT&T From “Virtual” to “Real” – OPNFV Proof-of-Concepts

2. Content • Mission of OPNFV • Objectives of PoC Zone • OPNFV Proof-of-Concepts • Acknowledgement OPNFV Proof-of-Concepts

3. Mission of OPNFV OPNFV is a carrier-grade, integrated, open source platform to accelerate the introduction of new NFV products and services • Multivendor, interoperable NFV solutions • Consistency, performance and interoperability among NFVIs • Unlimited potential of new use cases, services and business OPNFV Proof-of-Concepts

4. Objective of PoC Zone • To highlight industry projects and end-user use cases featuring real-life applications of the platform • To promote open innovation on top of the platform through collective and collaborative efforts in open source environment • To demonstrate a vision of accelerated time-to-market for new services enabled by the platform • To showcase the feasibility of improved business agility resulting from the platform OPNFV Proof-of-Concepts

5. OPNFV Proof-of-Concepts • DOCOMO • Doctor: Failure Detection and Notification for NFV • ETSI • Orchestrated Assurance enabled by NFV • Orange • Global Software-Defined WAN based on NanoServicevCPE • AT&T • BGPVPN-based Service Chaining • Cable Labs • Virtualized Business CPE • Virtual Home Network Parental Control • CENGN • SDN Solutions Showcase • China Mobile • TIC: Telecom Integrated Cloud (OPEN O based) OPNFV Proof-of-Concepts

6. AT&T – BGPVPN-based Service Chaining • Goal is to demonstrate • End-to-end L3VPN (BGPVPN) connectivity between two data centersis set up by SDN Controller • KVM and NFVi running within each data center are hosted and managed using OpenStack • An OpenStack compliant orchestratoris used to orchestrate and configure SDN Controller components and VNFM • Intra-VM/container service chaining for multiple VNFs OPNFV Proof-of-Concepts

7. AT&T – BGPVPN-based Service Chaining Orchestrator SDN Controller B SDN Controller A VNF Container B VNF Container A Cloud SDN Switch (vSwitch) P-Router B Cloud SDN Switch (vSwitch) P-Router A KVM KVM End-to-End L3 VPN Data Center B Data Center A • Architectural Overview OPNFV Proof-of-Concepts

8. Cable Labs – Virtualized Business CPE • Goal – investigate and identify means to facilitate fulfillment of Ethernet/connectivity services using virtualized technologies • Demo – EPL Provisioning using ODL • PoC implements prototype APIs and ODL plug-ins • Simple web UI emulating a user portal initiates EPL service • APIs call ODL to configure instances of OVS to behave like UNIs • APIs call ODL to configure GRE tunnel between OVS to emulate EVC • When tunnel is created, traffic passes client laptops • Tunnel can be terminated from web UI OPNFV Proof-of-Concepts

9. Cable Labs – Virtual Home Network Parental Control • Parental Control using a Docker container on a Raspberry-Pi • At a portal, a subscriber visually applies the Parental Control policy to a child’s device. • A Rest call pulls a Docker Container from the Docker or Cable operator’s cloud to an R-Pi. • The container self-installs, routing is applied and now websites are filtered on the child’s device. • The subscriber can add to the blacklist using the portal to further customize that list. OPNFV Proof-of-Concepts

10. OPNFV Proof-of-Concepts

11. CENGN – SDN Solutions Showcase • SMB: • Member: • Partners: • Use-case: • Bandwidth on Demand for Inter-DC applications such as Workload migration with the use of SDN at optical and switching layers. • Project Summary: • Showcase the ability of a network under SDN to control (based on OpenDaylight (ODL)) elephant flows, based on an application trigger • Features a scenario that throttles low priority traffic to a minimum bandwidth in order to accommodate the transfer of a large flow of data between the two data centres • This will be demonstrated using live link in the CANARIE network between Ottawa and Montreal Inocybe Stack OOB / Internet Openflow Openflow DC1 DC2 TS Netconf/Yang TS Netconf/Yang Wavelength 7802 DP6410 7802 DP6410 CANARIE POP Ottawa CANARIE POP Montreal Multi-Site Multi-Domain Data Center Capacity Management OPNFV Proof-of-Concepts

12. CENGN – SDN Solutions Showcase Conference Compute Space • SMB: • Sponsor: • Support: • Use-cases: • A revolutionary method for rapidly deploying and managing an end to end LTE network.   • vEPC functions at the edge for Public Safety applications • Project Summary: • Demonstrate the following use-cases • Use of Web UI to spin up the environment and the vEPC functions at CENGN Data Centre, in a matter of seconds • Small cell/eNB at the show with dedicated UEs to demonstrate WebRTC call through the vEPC created • Demonstrate Public Safety use-case by running vEPC functions at the eNodeB NFV-based LTE core in Cloud OPNFV Proof-of-Concepts

13. China Mobile – TIC (Telecom Integrated Cloud) • Carrier Grade TIC • High availability • Fault management • VNF and NFVI performance • Cloudy VNF implementation • Network management • Automation OPNFV Proof-of-Concepts

14. China Mobile – OPEN O • Orchestrator and VNFM (Decoupling) • ETSI MANO specification compliance • OPNFV interfaces alignment • Openstack interface used • SFC with ODL • Buildup open source community OPNFV Proof-of-Concepts

15. DOCOMO – Doctor: Failure Detection and Notification Consistent Resource State Awareness Immediate Notification Extensible Monitoring Fault Correlation • Scope – Identify requirement, Gap Analysis, Implementation Study • Goal • Builds fault management and maintenance framework on OpenStack for high availability of Network Services on top of virtualized infrastructure • High value framework for other industries as well • Key requirements OPNFV Proof-of-Concepts

16. DOCOMO – Doctor: Failure Detection and Notification BLUEPRINT Without Doctor (few minutes) Application 0. Set Alarm Manager With Doctor (1 second) 5. Notify Error 6. Action 4. Notify all Virtualized Infrastructure (Resource Pool) Controller Controller Notifier Alarm Conf. Controller Resource Map 4. (alt) Notify 3. Update State 2. Find Affected Functional Blocks and Use Case  Doctor achieves fault recovery action within 1 second Monitor Monitor Inspector Failure Policy Monitor 1. Raw Failure

17. ETSI – PoC #36: Orchestrated Assurance enabled by NFV Main Addressed Pain: OPNFV Proof-of-Concepts

18. ETSI – PoC #36: Orchestrated Assurance enabled by NFV Goal: Achieve orchestrator-driven fulfilment and assurance Orchestrated Fulfilment Orchestrated Assurance Model-driven Orchestrator 1 Deploy Service Config Instantiate & configure measurement and monitoring KPIs 2 State + End-to-end Service Configuration True end-user service experience 3 Key requirement: Include active and direct tests/monitoring of end-user services OPNFV Proof-of-Concepts

19. ETSI – PoC #36: Orchestrated Assurance enabled by NFV 1 2 Model-driven Orchestration Virtual Test Agents • Active traffic generation using VNF-based virtual test agents (vTA) • Deployed on the wire, as part of the end-to-end service provisioning • Easy to deploy/undeploy Combined view of both the network configuration state and true end-user service experience active traffic OPNFV Proof-of-Concepts

20. ETSI – PoC #36: Orchestrated Assurance enabled by NFV Proposed extensions in ETSI NFV REL work group NFVO provides the OSS with performance measurement results regarding Network Service instances over interface “Or-Ma-nfvo” OPNFV Proof-of-Concepts

21. Orange-sponsored PoCGlobal Software-Defined WAN based on NanoService vCPE • Participants • Orange • ClearPath Networks • Intel • PoC Objective • Achieve significant CAPEX & OPEX cost reduction for global managed secure networking solutions • CSP Challenges • De-risk launch of new products & propositions • Avoid time & cost of on-site installation engineers • Enable continuous product refresh & extension without high upfront investment costs • Utilize both premise-based VNFs with cloud-based VNFs • PoC Approach • Save CAPEX & OPEX by running MANO & VNFs in OPNFV-compliant cloud • Save CAPEX with VNFs in nano-sized (<10 MB) virtual containers in a VM or a COTS x86 • Save OPEX by dynamically refreshing/extending proposition via broad VNF catalogue OPNFV Proof-of-Concepts

22. Orange-sponsored PoCGlobal Software-Defined WAN based on NanoService vCPE OpenStack tenant Paris ClearPath VNFM Internet OpenStack tenant Physical COTS ClearPath NanoContainer ClearPath NanoContainer VPN VNF VPN VNF Service Agent VPN Tunnel Service Agent Firewall VNF Firewall VNF San Francisco End User Management Paris End User VPN Tunnel OPNFV Proof-of-Concepts

23. Acknowledgement – Presentation Contributors • Ashiq Khan (DOCOMO) • Bhavani Krishnan (CENGN) • Gerald Kunzmann (DOCOMO) • Hui Deng (China Mobile) • Kevin Luehrs (Cable Labs) • ManojMourya (Orange) • Marcus Friman (ETSI / Netrounds) • Michael Kloberdans (Cable Labs) • Note: ordered alphabetically according to first name OPNFV Proof-of-Concepts