Towards a Globally Distributed Cloud

Towards a Globally Distributed Cloud András Császár, Ericsson Research Session on Demand for an open testbed platform Federated 5G/SDN/NFV/MEC Testbed - Workshop IEEE SDN Initiative & EIT Digital Wednesday, 2 November 2016 Berlin, Germany

Agenda 5G Exchange Orchestration for multi-provider distributed cloud [slides based on 5GEx year 1 review presentation material] Edge computing Distributed cloud deployment in 5G Dataplane and execution environment Towards a Distributed Cloud Public Ericsson AB 2016 2016-11-02 Page 2

Levels of Distribution Multiple data centres Edge computing Operator edge Customer edge Multiple operators Towards a Distributed Cloud Public Ericsson AB 2016 2016-11-02 Page 3

Vision: One Stop Shop for End-to-end XaaS for Multiple Industries From dedicated physical networks with dedicated control and dedicated services and resources for different applications A1 A2 An NW1 f1 NW2 f2 NWn fn Multi-provider, multi-domain to a network factory where resources and network functions are traded and provisioned: new infrastructures and services are manufactured by SW Media Health Application n Robotic communication MBB Basic Unified Orchestration and Management Plane Physical Resources (Access, Connectivity, Computing, Storage,..) 5GEx 1st Review: Overview Sept 20, 2016 4

End Users OTT / Verticals (SME) Consortium Active external advisory board members: Steven Wright, AT&T Daniel King, IRTF SDNRG chair Wholesale / Retail Users (Telcos) Integrated Solution Providers 2x Solution Providers (SME) Academy: applied research 5GEx 1st Review: Overview Sept 20, 2016 5

Industry Landscape Different efforts around multi-provider multi-domain orchestration ETSI IETF/IRTF NFV ISG: First consideration on NFVRG and SDNRG groups multi-domain orchestration (ETSI ITU-T IMT 2020 GS NFV-IFA 009 V1.1.1) 5G architecture for non-radio ONF networks Revisited SDN architecture 5G network softwarization includes inter-domain relationships (ONF TR-521) 5G management and orchestration Cross Stratum Optimization 3GPP (CSO) 5G architecture for radio & mobile Carrier Grade SDN networks 5GEx 1st Review: Overview Sept 20, 2016 6

5GEx mission Design and implement a 5G multi-provider orchestration framework Significantly improving agility and speeding up deployment of new services XaaS creation time from 90 days to 90 mins Creating opportunities for operators to buy, sell, and integrate XaaS in an automated and cost-effective manner Define and validate the 5G business actors and process, including economic and market mechanisms that promote efficiency of multi-domain services Impact operator s community by identifying new challenges or elaborating on known ones Build a pan European multi-site sandbox testbed To assess the feasibility and performance of the proposed architecture and business models, by deploying the working end-to-end system built by 5GEx Standardize through strong industry participation of all major stakeholders Provide Open Source solutions 5GEx 1st Review: Overview Sept 20, 2016 7

5GEx architecture at a Glance Business Mgmt/Orch Control (legacy) Data 5GEx focus Customer (Tenant) 1 B2C Wholesale buyer interface Management and orchestration plane Multi-provider Orchestrator Administration A B2B B2B Multi-provider Orchestrator Administration B 3 3 3 3 2 2 2 B2B Multi-provider Orchestrator Administration C 3 Domain Orchestrator Domain Orchestrator Domain Orchestrator Domain Orchestrator Domain Orchestrator VIM VIM VIM VIM VIM VIM VIM (Legacy) Control plane Network Controller Network Controller Network Controller Network Controller Network Controller Network Controller Network Controller Data plane SDN nets. Packet/ Opto Legacy nets. Datacenter Packet Datacenter Packet Operator A administration Operator B administration Operator C administration ENNI ENNI 5GEx 1st Review: Overview Sept 20, 2016 8

Example OTT Platform operated in Distributed Cloud OTT wants to offer platform (API) with global support for a fancy new application E.g. CRUD application modules near a given location Provides scalability for API provider Provides better QoE for API consumers Platform operated in distributed cloud (or edge) computing environment Platform implemented in VNFs Resource requirements of platform depend on location, time of day/week and local events Tier 1 Platform in VNF Local IPX Platform in VNF Local NFV orchestration NFV and Connectivity orchestration Platform in VNF Tier Local 3 Platform Tier 2 in VNF Local Tier 3 Tier 2 Platform in VNF Tier Local 3 Platform in VNF Tier 3 Local OTT Platform in VNF Local 5GEx Customers Towards a Distributed Cloud Public Ericsson AB 2016 2016-11-02 Page 9

5GEX Sandbox Testbed Need to Isolate from, yet replicate, production networks Control plane access KTH NETPHONY ORANGE_1 ORANGE_2 IP/MPLS PACKET TRANSPORT ORANGE_3 HWDU UCL LATTICE VLSP OpenVIM /// HARMONIZER NETPHONY CONTROLLER TEI_1 TID_1 DEVELOPMENT ENVIRONMENT GMPLS OPTICAL TRANSPORT IP/MPLS PACKET TRANSPORT TID_2 TIM SSSA_1 DEVELOPMENT ENVIRONMENT GMPLS/SDN CONTROLLER SSSA_2 JOLNet SEGM. ROUTING PACKET TRANSPORT FLEXI-GRID OPTICAL TRANSPORT SSSA_3 DT BISDN BME UC3M REDZINC VELOX 13 Administrative domains Heterogeneous Environment BGP+H-PCE domain / SDN domain OpenStack/Vmware OpenDaylight/Onos Emulate Interconnection using (GRE/IPSEC) Evolving towards production like hierarchal bgp environment

(Expected) Locations Dublin London Berlin Lannion Dusseldorf Budapest Turin Pisa Madrid B M E 1782

5GEx TestBed: Plans and Discussion Industrial Workshop focused on Carrier Network solutions (Spring/Summer 2017) 5GEx multi-provider proof of concept solution 5GEx Pan-European Sandbox up and running Extensions to 5G Innovation Platform (users) Carrier interconnection (operators) Ongoing activities Draft Collaboration Agreement for 3 rd parties to connect to the Sandbox Making project contributions open-source: aim to provide reference PoC implementation for multi-provider network service orchestration Towards a Distributed Cloud Public Ericsson AB 2016 2016-11-02 Page 12

Distributed Cloud in 5G: Reasons for change Virtualized RAN New functional split allows some RAN functions to run on run in a virtualized environment Flexible scalability and elasticity to minimize permanent peak rate dimensioning New deployment models Gives control to operator to support various deployment models, e.g. centralized or distributed Support co-location of RAN and Core function Potential to provide added value services for third party applications Modular design Current DUs capacity underutilized for many deployments Modular design allows investing where it makes sense Use of merchant silicon Reprogrammable hardware allows repurposing of earlier investments instead of throwing them out LEAP Overview Ericsson Confidential 2016-04-04 Page 13

Vision: Distributed Cloud Deployment for 5G Orchestration Small Sites Medium Sites Large Sites EPC PNF Access Aggregation Metro Aggregation IP Core HW platform requirements Internet Modular building practice with flexibility in defining optimal deployments Telecom rack depth (<400mm) Environmentally hardened Centralized DC Multi-purpose DC Large Sites LEAP Overview Ericsson Confidential 2016-04-04 Page 14

Execution Environment for Edge Computing Requirements Shall support a plethora of VNF implementation types VM Container In-line code Switch internal HW accelerator Shall have context and handover support in the API Shall not compromise on performance Local optimizations e.g. zero-copy interfaces, direct interfaces, etc. Optimized deployment via local orchestrator Automatic scaling Towards a Distributed Cloud Public Ericsson AB 2016 2016-11-02 Page 15

BACKUP SLIDES Towards a Distributed Cloud Public Ericsson AB 2016 2016-11-02 Page 17

5GEx in 5G Key Characteristics High diversity types of communication services; Separation of concerns data / control/ management / service Embedded native softwarization in all planes Transition form network of entities to network of (virtual) functions / capabilities ; On demand composition of network functions and network capabilities; Automation in all network segments, network components, network elements, network and resource slices. 5GEx 1st Review: Overview Sept 20, 2016 18

Innovation in 5GEx A technical and business solution for multi-domain service orchestration and provisioning, inclusive of service discovery, bilateral negotiation and service assurance. The solution leverages the NFV architectural model and a new composite (computing and connectivity) crossdomain resource slicing Towards a Distributed Cloud Public Ericsson AB 2016 2016-11-02 Page 19 A set of APIs enabling service catalogue publishing/sharing, rapid provisioning and large scale invocation of composite services across multiple autonomous systems. The APIs map to reference points in the NFV MANO stack, and extend NFV services into multi-actor wholesale service offerings A live sandbox interconnecting five leading European operators, enabling automated end-to-end orchestration of multiparty 5G services to undergo accelerated prototyping and piloting prior to market launch. The 5GEx sandbox will be evolved and become a living in-operation lab after the project end