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NFV and OpenStack
Marie-Paule Odini – Distinguished TechnologistHPE Corporate CT Office – CMS/CSB
November 2, 2015
What is NFV: Network Function Virtualization
– Leverage IT virtualization techniques for telecom functions
• Use standard servers and storage
• Applicable to telco network functions
• Initiative from Tier 1 Operators & Vendors launched as a new Industry Specification Group (ISG) in ETSI
– Key Benefits
• Reduced equipment costs
• Faster time to market
• Resource sharing
• Targeted service introduction
• More flexible, programmatic operations
virtualize network functions: from Home or Enterprise Gateway to Access/Core telecom network & Data centers
Service Providers are Driving NFV
© Copyright 2015 Hewlett-Packard Development Company, L.P. The information contained herein is subject to change without notice. HP Confidential - For training purposes only.
They are demanding new technology, rather than vendors pushing it
…who face market pressuresCSPs…
Telecom leaders are
defining requirements and
architecture for virtualization
of network functions
Exploding
demand
• In 2014:
Global mobile data traffic grew 69%
497M mobile devices added
Video services dominated the network at 55%
Shifting
landscape
• Expanded access channels (Wireless, Internet,
TV, satellite)
• Services business model changing (e.g. free
messaging)
• Internet of Things (IoT), especially wearables
Growing
CapEx and
OpEx
• Flat or declining user fees
• Increasing application usage and bandwidth
demands
• OpEx increasing ~3% annually
Latest Joint-Operator NFV White Paper
• Published October 14, 2014
• Detailed description of
second release of NFV ISG
documents
• Provides latest operator
perspectives on industry
progress on NFV
implementation
• Highlights the importance to
evolve network management
systems to accommodate
dynamic nature of NFV
• Encourages academic
research and evolution of
teaching courses
Paper available on ETSI NFV Portal:
http://portal.etsi.org/NFV/NFV_White_Paper3.pdf
Slide 4
30 operators
contributed
ETSI NFV Use Cases
Use
Case
Description
#1 Network Functions Virtualisation Infrastructure as a
Service
#2 Virtual Network Platform as a Service (VNPaaS)
#3 Virtual Network Function as a Service (VNFaaS)
#4 Virtualisation of Mobile Core Network and IMS
#5 Virtualisation of Mobile base station
#6 Virtualisation of the Home Environment
#7 Service Chains (VNF Forwarding Graphs)
#8 Virtualisation of CDNs (vCDN)
#9 Fixed Access Network Functions Virtualisation
• Large Telecom Networks
• Regulated
• Roaming Services
• Growing data/video traffic
• Unpredictible peaks
• Enterprise SLAs
• Government security
• Emergency services
• etc
ETSI NFV Reference Architectural Framework
The NFV Orchestrator
Can interface to:
• 1 or multiple VNF Manager
• 1 or multiple VIM
Note: metadata “service, VNF and infrastructure Description” are typically inputs to MANO
NFVI
MANO
VNF
VIM
ETSI NFV – E2E Network Service with NFV
End
Point
VNF-1VNF-
2C
VNF-3
Hardware
resources
NFVS
VNF-
2A
VNF-
2B
Virtualisation Layer
VNF-FG-2
End-to-end Network Service
Compute/storage
Infrastructure
network
Physical linkLogical link
Virtualisation
VNF-FG Corresponding to
Network Function
Forwarding Graph
=> Compose VNF and PNF to create Network Services
Or-Vnfm reference point – between NFVO & VNFM
The Or-Vnfm reference point is used for exchanges between NFV Orchestrator and VNF Manager, and supports the following interfaces:
– VNF Package Management (produced by NFVO, consumed by VNFM)
– VNF Lifecycle Operation Granting (produced by NFVO, consumed by VNFM)
– Virtualised Resources Management (produced by NFVO, consumed by VNFM)
– VNF Lifecycle Management (produced by VNFM, consumed by NFVO)
– VNF Lifecycle Change Notification (produced by VNFM, consumed by NFVO)
– VNF Performance Management (produced by VNFM, consumed by NFVO)
– VNF Fault Management (produced by VNFM, consumed by NFVO)
– Policy administration interface (produced by VNFM, consumed by NFVO)
IFA007
Or-Vi reference point – between NFVO & VIM
The Or-Vi reference point is used for exchanges between NFV Orchestrator and VIM, and supports the following interfaces:
– VNF software image management
– Virtualised Resources Catalogue Management
– Virtualised Resources Capacity Management
– Virtualised Resources Management
– Virtualised Resources Change Notification
– Virtualised Resources Performance Management
– Virtualised Resources Fault Management
– Policy administration interface
– NFP management interface IFA005
Vi-Vnfm reference point – between VNFM & VIM
The Vi-Vnfm reference point is used for exchange of information elements between the Virtualized Infrastructure Manager (VIM) and VNF Manager (VNFM), and the following are the interfaces supported by this reference point:
• VNF software image management
• Virtualised resources catalogue management
• Virtualised resources management
• Virtualised resources change notification
• Virtualised resources performance management
• Virtualised resources fault management
IFA006
NFV ISG Phase#1 completed & Published, Jan. 2015
http://www.etsi.org/technologies-clusters/technologies/nfv
GS NFV 001Network Functions Virtualisation (NFV);
Use Cases
GS NFV 002Network Functions Virtualisation
(NFV); Architectural Framework
GS NFV 003
Network Functions Virtualisation
(NFV); Terminology for Main
Concepts in NFV
GS NFV 004Network Functions Virtualisation (NFV);
Virtualisation Requirements
GS NFV-SWA 001Network Functions Virtualisation (NFV);
Virtual Network Functions Architecture
GS NFV-INF 001Network Functions Virtualisation
(NFV); Infrastructure Overview
GS NFV-INF 004
Network Functions Virtualisation
(NFV); Infrastructure; Hypervisor
Domain
GS NFV-INF 003
Network Functions Virtualisation
(NFV); Infrastructure; Compute
Domain
GS NFV-INF 005
Network Functions Virtualisation
(NFV); Infrastructure; Network
Domain
GS NFV-INF 007
Network Functions Virtualisation
(NFV); Infrastructure; Methodology to
describe Interfaces and Abstractions
GS NFV-INF 010Network Functions Virtualisation
(NFV); Service Quality Metrics
GS NFV-MAN 001
Network Functions Virtualisation
(NFV); Management and
Orchestration
GS NFV-PER 001
Network Functions Virtualisation
(NFV); NFV Performance & Portability
Best Practises
GS NFV-PER 002Network Functions Virtualisation
(NFV); Proofs of Concept; Framework
GS NFV-REL 001Network Functions Virtualisation
(NFV); Resiliency Requirements
GS NFV-SEC 001
Network Functions Virtualisation
(NFV); NFV Security; Problem
Statement
GS NFV-SEC 003
Network Functions Virtualisation
(NFV); NFV Security; Security and
Trust Guidance
PUBLIC
New Drafts
PUBLIC too !!
ETSI NFV Phase 2 Work Items
•IFA001 – IFA004: Acceleration (4 parts)
•IFA005: Or-Vi Interface Requirements Specification. NORMATIVE.
•IFA006: Vi-Vnfm Interface Requirements Specification. NORMATIVE
•IFA007: Or-Vnfm Interface Requirements Specification. NORMATIVE
•IFA008: Ve-Vnfm Interface requirements Specification. NORMATIVE
•IFA009: Refinement of VNF Manager and NFVO functionality and
architecture options.
•IFA010: MANO Functional Requirements Specification. NORMATIVE
•IFA011: VNF Packaging Specification.
•IFA012: OSS - Orchestrator Requirements Specification. NORMATIVE.
•IFA013: Os-Ma-Nfvo Interface Requirements Specification. NORMATIVE.
•IFA014: Network Services Descriptor
•IFA015: NFV Information Model Report
•REL002: Study on the Management of NFV Reliability with Scalable
Architecture.
•REL003: Study of models and features for E2E reliability in the NFV
architecture.
•REL004: Active monitoring and failure detection in NFV environments.
•REL005: Quality Accountability Framework
EVE001: Infrastructure Hypervisor Domain Specification.
EVE002: Use cases for MEF Carrier Ethernet Services.
EVE003: NFVI Node Physical Architecture Guidelines for Multi-
Vendor Environment.
EVE004: Review of virtualisation technologies.
EVE005: Report on SDN usage in NFV architectural framework
EVE006: NFV Roadmap
TST001: Guidelines for Pre-deployment validation of NFV
environments and services.
TST002: Report on NFV interoperability test methodology
TST003: Opensource Components for NFV.
SEC004: Lawful Interception - problem statement and
consequences for NFV
SEC005: Certificate Management Guidance
SEC006: Security Aspects and Regulatory Concerns Guide
SEC007: Attestation Methods for Secure Virtual Network Function
Deployment
SEC008: Security Monitoring for NFV Deployments
SEC009: UCs for multi-layer host admin
SEC010: Retained Data Report
SEC011: LI Architecture Report
HP Multimedia Services Environment (MSE) Virtualization
HP MSE includes:• Service Creation (AS)
• Service Execution (AS)
• Media Resource Function (MRF)
• MRFP
• MRFC
Services that can be deployed:• Interactive Voice Response (IVR)
• Intelligent Networks specialized resource
function (IN SRF)
• IP Media Server
• USSD gateway
• VoLTE with voice continuity over IP
• HD Voice
• Interactive Video
• Audio/Video Conference
• WebRTC
• etc
Media Server Virtualization
The Multimedia Services Environment is decomposed into “VNF” & “VNFC” :
The IMS MRF VNF
The MRB VNF
The OCSEE VNF
The SIP Load Balancer VNF
The AS Storage VNFSIP Load Balancer
OCSEE
SIP ASWEB AS
AS
WEB Load Balancer
AS
Reporting &
Monitoring
AS Storage
Media Server VNF Descriptors (VNFD)
– The IMS MRF VNFD includes the description of the MRF cluster
- MRB network & application configuration
- MRF instances number
- MRF storage instances number
- Affinity rules
- Anti-affinity rules
- IP QoS network constraints for each vLAN (Bandwidth, Jitter, Delay, Packet Loss Tolerance)
- etc
Media Server – NFV Architecture & Lifecycle simplified3GPP IMS MSE/MRF
NFV Management and Orchestration
vMRF
vMRF EM
OSS/BSS NFV Orchestrator
Virtualized
Infrastructure
Manager(s)
vMRF VNF
Manager
Nfvo-Vi
Nfvo-Vnfm
Vnfm-Vi
Os-Nfvo
Nf-Vi
NFV
Service
Catalog
VNF
Catalog
NFV
Instances
NFVI
Resources
VeEn-Vnfm
VeNf-Vnfm
Vn-Nf
HP CMS
NFVI
Openstack
HWLeg
en
d
HW(Compute, Storage, Networking)
Virtualization (ex KVM)
VIM (ex Openstack)
NFV
Orchestrator
OSS
MSE/MRF
Descriptor
(XML file)
& SW
image
2- read
2- allocate
resources
3- deploy
vMRF software
1- deploy new MRF
MSE/MRF VNF
Manager
4-manage lifecycle (scaling etc)
Vendor Presence in 38 ETSI NFV POC – HP,IntelNber #1
10
HP
Intel
5
BT, NTT
ALU,
Redhat
Huawei
4
Vodafone
Cisco1,2,3
Others
8
Telefonica
7
AT&T
6
Brocade
ETSI NFV POC#6: Virtualized Mobile Network with Integrated DPI
Telefonica
Intel
Tieto
Qosmos
Wind River Systems
HP
vEPC and vDPI
Openstack
SDN
DPDK
=> Accelerated ETSI NFV in a
multi-vendor environment
* In
tel®
DP
DK
: In
tel®
Dat
a P
lan
e D
evel
op
men
t K
itN
IC :
Inte
l® 8
25
99
10
Gig
abit
Eth
ern
et C
on
tro
ller
Network Functions Virtualization (NFV) Infrastructure
Hardware Resources
Network Operation (OSS/BSS)
Virtualized Network Functions
vBS vGWvMME
EMS
10G/40G Intel® Ethernet Switch FM6764
HP ProLiant DL380p Gen8 Servers
Virtualization Layer
NFV Management and Orchestration
Virtualized Infrastructure Manager(s)
Orchestrator
Op
enSt
ack*
Glance
Keystone
Nova
Neutron
SDN Agent
Wind River* Linux + KVM
Intel DPDK Accelerated Open vSwitch*
vDSC
VNF Manager(s)
SDN
Ma
nag
er
vEPC
Man
ager
vBS
Ma
nag
er
vDSC
Ma
nag
er
Map UI Cloud Manager
Virtual Resources
NIC NIC
IntelDPDK
IntelDPDK*
IntelDPDK
IntelDPDK
vDPI
IntelDPDK
Intel Supplied Qosmos* Supplied Tieto* Supplied OpenStack Others
TIP TIP TIP TIP TIP
PhysicalNetwork Functions
EMS
Wind River* Supplied Hewlett Packard* Supplied
Demo
MWC’14
Openstack
ETSI NFV POC#15: Subscriber Aware Sgi/Gi-LAN Virtualization
Telenor
ConteXtream
SkyFire Networks
Guavus
Redhat
HP
SDN based service chaining
Across multi-Openstack
domains
Cache
Filter
VideoOptVideoOpt
TCPOp mizer
TCPOp mizer
P-GW
SGiWebandOTTVideoServices
SDN–Controller
OpenFlow
SubscriberA
SubscriberB
SubscriberC
AAA
TCPOp mizer
VideoOpt
Analy cs
So wareSwitch
Firewall
OFSwitch
SDNN/W
SimulatedforPoC
OpenStack
SelfServicePortal
PoC-Scope
Demo
SDN world
Congress
Oct’14
Openstack
ETSI NFV POC #23 - E2E Orchestration of Virtualized LTE Core-Network Functions & SDN-based Dynamic Service Chaining of VNFs using VNF-FG
SKT
HP
Samsung
Telcoware
Multi-vendor Fully orchestrated &
automated vEPC – vIMS on
Openstack & SDN based
infrastructure
Demo
SKT R&D Lab
SDN World
Congress
Openstack
POC#38: Full ISO 7-layer stack fulfilment, activation and orchestration of VNFs in carrier networks
Telstra
Hewlett-
Packard
Alcatel Lucent
F5 Networks
Demo
SDN world
Congress
Oct’15
NFV and Openstackexample of requirements Nf-Vi, Vi-Vnfm, Nfvo-Vi
26
• Multi-hypervisor support
• Different virtualization model (ie docker, Linux)
• Support legacy, bare metal
• Support DPDK CPU, SRIOV NIC
• Expose NW load balancer and other functions
• Support HA , 5 9s
• Support Secure Boot , certification
• Support resource reservation (prior to instantiation)
• Map pCPU with vCPU (dedicated CPU – pinning)
• Support NUMA placement (memory access perf)
• Expose localization of resources
• Expose resource catalog
• Expose resource metrics
• Release backward compatible
• Rollback
• etc
NFV & OpenStack ?? Ex SecuritySecuri
ty-s
pecif
ic?
27
Over 1.7M lines of code
~ 6
mete
rs~ 6
mete
rs o
r 20
feet ? How can I ensure there is no security breach in 1.7M lines ?
? How does Openstack prevent back doors ?
? How does Openstack support secure boot, certified VM?
? How can I define security rules for an SDN application to change a flow table on an SDN switch that is provided by a IaaS Provider that may change along the life of the service ?
? How can I ensure that the memory I am sharing will not be accessed by somebody else ?
? Can I present the system admin to access my personal data
etc
Many blocks interact with Keystone
Keystone is not the only entity that deals with security
Keystone deals with security & policies, but NFV will need end to end security & policies across end to end network, at ?NFVO level : how to synchronize?
etc
ETSI NFV and Openstack
28
ETSI NFV
Telecom Large WW community
Specs ETSI NFV
Scope: Telco Cloud (ie Openstack) +
VNF + VNF & NS Orchestration
POCs
Gap Analysis with SDO and Opensource
“Liaison” Cloud Large WW community
Opensource Code
Scope: Enterprise Cloud
=> Many “Liaison”
3GPP
BBF
TMF
ETSI NFV Private Wiki http://nfvprivatewiki.etsi.org/
– IMPORTANT : User , Password is your ETSI account User / Password
29
Work in Progress …
Comparing ETSI NFV VIM I/F
(IFA005) with Openstack API
ETSI VIM (IFA005) vs OpenStack API - #1 Compute
30
ETSI VIM – IFA005 OpenStack API
Software Image Management API Image Service API v2.0 and up (Glance)
Virtualised Compute Resources Management API Compute Service API v2.1 (Nova),
Reservation API (experimental; abandoned(?))
(Blazar, ex. Climate),
OPNFV RM Extensions (work in progress)
(Promise)
Virtualised Compute Resources Change
Notifications API
Compute Service API v2.1 (Nova),
Telemtry API v2 (Ceilometer)
Virtualised Compute Resources Information
Management API
Compute Service API v2.1 (Nova)
Virtualised Resources Capacity Management API Compute Service API v2.1 (Nova)
ETSI VIM (IFA005) vs OpenStack API - #2 -Network
31
ETSI VIM – IFA005 OpenStack API
Virtualised Network Resources Management API Network Service API v2.0 (Neutron),
Network Service API extensions v2.0 (Neutron),
Reservation API (experimental; abandoned(?)) (Blazar,
ex. Climate),
OPNFV RM Extensions (work in progress) (Promise)
Virtualised Resources Change Notification API Network Service API v2.0 (Neutron),
Network Service API extensions v2.0 (Neutron)
Virtualised Network Resources Information
Management API
Network Service API v2.0 (Neutron),
Network Service API extensions v2.0 (Neutron)
Virtualised Resources Capacity Management API Network Service API v2.0 (Neutron),
Network Service API extensions v2.0 (Neutron)
NFP Management API Network Service API v2.0 (Neutron),
Network Service API extensions v2.0 (Neutron)
ETSI VIM (IFA005) vs OpenStack API - #3 Storage
32
ETSI VIM – IFA005 OpenStack API
Virtualised Storage Resources
Management API
Block Storage API v2 (Cinder),
Reservation API (experimental;
abandoned(?)) (Blazar, ex. Climate),
OPNFV RM Extensions (work in
progress) (Promise)
Virtualised Resources Change
Notification API
Block Storage API v2 (Cinder)
Virtualised Storage Resources
Information Management API
Block Storage API v2 (Cinder)
Virtualised Resources Capacity
Management API
Block Storage API v2 (Cinder)
ETSI VIM (IFA005) vs OpenStack API - #4 Fault Mgt
33
ETSI VIM – IFA005 OpenStack API
Fault Management API Telemetry API v2 (Ceilometer),
OPNFV FM Extensions (work in
progress) (Doctor)
Performance Management API Telemetry API v2 Ceilometer Web API
v2
Openstack Telco Working Group
https://wiki.openstack.org/wiki/TelcoWorkingGroup
The working group aims to define the use cases and identify and prioritise the
requirements which are needed to deploy, manage, and run telecommunication
services on top of OpenStack.
Mission Statement
Implemented (Juno)
Support two interfaces from one VM attached to the same network (Nova)
SR-IOV Networking Support (Nova)
Virt driver guest vCPU topology configuration (Nova)
Evacuate instance to scheduled host (Nova)
Heat multi region support (Heat)
Openstack Telco WG
Active Blueprint (extract – non exhaustive list)
Virt driver guest NUMA node placement & topology (nova)
Virt driver large page allocation for guest RAM * (nova)
Virt driver pinning guest vCPUs to host pCPUs (nova)
I/O (PCIe) Based NUMA Scheduling (nova)
Soft affinity support for server groups (nova) => abandonned
Open vSwitch-based Security Groups: Open vSwitch Implementation of
FirewallDriver (neutron)
Framework for Advanced Services in Virtual Machines (neutron)
Neutron Services Insertion, Chaining, and Steering (neutron)
OVF Meta-Data Import via Glance (glance)
Opensource NFV: OPNFV
Open Platform For NFV –www.opnfv.org
Launched Sept 30th, 2014
Work with upstream SDO (ETSI NFV) and Opensource (Openstack, OpenDaylight, KVM, Xen ect)
Chairman: Prodip Sen, HP
Network Virtualization Control
Storage Virtualization Control
OPNFV Arno Overview
Continuous
Build and
Integration
Continuous
Deployment
and Testing
New
Requirements
and Features
Octopus /
Continuous
Integration
Bootstrap /
GetStarted
FuncTest
Infrastructure
Compute Virtualization Control
Compute Storage Network
OpenStack
OpenDaylight
Pharos Project Compliant Community Labs
KVM
OVSUpstream
Project
Collaboration
OPNFV Bare Metal Lab
Orchestration and Management
Virtual Network Functions
Documentation
Ceph
• OPNFV Release 1 "Arno" was released on 4th of June, 2015:
https://wiki.opnfv.org/releases
• OPNFV Release 1.1 "Arno SR1" was released on 1st of October, 2015: Arno SR1
• OPNFV Release 2 "Brahmaputra" is currently ongoing. target date is December 2015.
What is Arno
38
https://wiki.opnfv.org/documentation/arno
•OpenStack Juno
•OpenDayLight (ODL) Helium (Neutron ML2-OVSDB proxy)
•Ceph orchestrated by Cinder
•OpenVSwitch (OVS)
•Linux CentOS
– Necessary scripts for deployment etc. included.
– Scope
– Integrated NFVI + VIM solution Defined fixed hardware configuration (6 servers) provides resources
– Ability to run example simple VNFs on top of the deployed platform
HP OpenNFV PR in Feb’14 : a new BU, new Products and
OpenNFV Labs
MANO Layer
• HP NFV Director : ETSI Based NFV Orchestrator for full life-cycle management
• HP Helion OpenStack provides
necessary OpenStack API support
for NFV, and a carrier grade cloud
management functionality
• HP SDN Controller
• Converged Infrastructure Management using a single tool – OneView
NFVI Layer
• Broader Hardware Support for high performance packet processing
• Hardware/Software features integrated for high speed packet processing (SR-IOV support in OneView/CS8)
• Native SDN Support with all HP Networking portfolio
• Common Networking Environment for Networking using Comware7 stack
OSS Layer
• Full OSS Suite from basic fault to service level management based on IMC &
SiteScope
VNF Layer
• HP vHSS, vMRF, vSR and other
key Network related Services
Software available for virtualized
environment deployment
• An ecosystem of partners
NF
V M
an
ag
em
ent a
nd
Orc
he
stra
tion
HPE CMS NFV Director
– Model Driven vs Script Driven
– A common point to ensure consistent management and behavior of VNFs and NSs
– Automatically manages the end-to-end service across VNF, VNF-FGs, and NSs
– Supports multiple VNF across multiple sites
– Handles provisioning and monitoring functions
– Designed to meet the evolving ETSI specifications
– Full NFV orchestrator functionality, interfaces, and interaction models
– Includes VNF manager functionality and works with external (VNF-supplied) VNF managers
– Supporting the journey to NFV
– Handles virtual and physical network functions and hybrid services
– Supports networks consisting of traditional and SDN domains
– Open and multivendor
– Supports integration with any VNF, VIM, and OSS using open APIs
– Modular and extensible
– Start small and grow
– Flexible integration with OSS, EMS, VNF, and infrastructure
ETSI NFV Orchestrator with embedded VNF Manager
NFV Director
Policy management
Service
fulfillment
Service
monitoring
Global resource
fulfillment
Global resource
monitoring
Virtualized Infrastructure Manager
Catalog
Global
resource
inventory
Instance
inventory
VNF
fulfillmentVNF
monitoring
External VNF ManagersEmbedded VNF Manager
VNF
fulfillmentVNF
monitoring
HP & Wind River Join Forces to deliver carrier grade solutions
#1 Contributor to OpenStack™ Project, #1 Provider of carrier grade Linux
• Reliability • Carrier-Grade Linux
• Carrier Grade KVM Hypervisor
• Advance Self-Healing
• High Availability & Reliability Add-Ons for OpenStack Control Plane for 5x9’s Service Availability
• Performance• Performance Networking with DPDK enabled
vSwitch (OVS)
• Advance NFV Workload placement
• Manageability• Scheduling and Orchestration of workloads
• Security to meet Carrier Needs
• Open eco-system, standards based APIs
…… single point of accountability for CSPs
building their next generation Open NFV
solution.
The OpenStack™ Word Mark and OpenStack Logo are either registered trademarks/service marks
or trademarks/service marks of the OpenStack Foundation, in the United States and other countries
and are used with the OpenStack Foundation's permission. We are not affiliated with, endorsed or
sponsored by the OpenStack Foundation, or the OpenStack community
Nov 3rd Press Release
HP contributions to OpenStack®
Some other
Examples …
HP number #1 contributor in OpenStack Liberty release
Number #1 in Kilo
HPE vision of NFV/SDN-approach for service providers
2013-2015
Single-purposeelement
Controlplane
Applicationplane
Dataplane
2014-2016
Control plane
Applications plane
Infrastructure plane
SaaS Services
2015-2020
NFV-SDN Projects NFV-SDN Cloud
SaaS Services SP#5
SP#4(SDN IaaS)
Infrastructure plane Control plane
Applications planeSDN APISP#3(SDN ASP)
SP#2(mobile)
SP#1(fixed)
Virtual Service Providers
POCS Deployments
NOW In parallel Starting with new business model
Based on NFV & SDN
Summary
Network Function Virtualization (NFV) is driving CSP requirements towards
Openstack
Via ETSI NFV specifications and OPNFV open source project
HPE is heavily involved and leading governance and contributions in ETSI NFV
and other SDO, as well as Opensource community incl Openstack, OpenDaylight
and OPNFV
HPE is committed to NFV and Openstack, with HPE OpenNFV and HPE Helion
Openstack for private, hybrid and NFV cloud