среда, 17 января 2018 г.

The SDN, NFV & Network Virtualization Ecosystem: 2017 - 2030 - Opportunities, Challenges, Strategies & Forecasts (Report)

The SDN, NFV & Network Virtualization Ecosystem: 2017 – 2030 – Opportunities, Challenges, Strategies & Forecasts


Happy New Year
 
Let me offer you the latest SNS Research report to you and your team, "The SDN, NFV & Network Virtualization Ecosystem: 2017 – 2030 – Opportunities, Challenges, Strategies & Forecasts." Below is the report highlight and if you like I can send you sample pages for your details inside.
 
While the advantages of SDN (Software Defined Networking) and network virtualization are well known in the enterprise IT and data center world, both technologies also bring a host of benefits to the telecommunications service provider community. Service providers – both mobile and fixed-line – have already begun making significant investments in SDN and NFV across a number of use cases including but not limited to uCPE/vCPE, SD-WAN, vEPC, vIMS, Cloud RAN and vCDN. SNS Research estimates that service provider SDN and NFV investments will grow at a CAGR of approximately 45% between 2017 and 2020, eventually accounting for nearly $22 Billion in revenue by the end of 2020.
 
Our reports are compiled with primary and secondary informations to produce an overall industry outlook.
 
Report Information:

Release Date: Jan 2018
Number of Pages: 586
Number of Tables and Figures: 109

Key Questions Answered:
 
The report provides answers to the following key questions:
  • How big is the SDN, NFV and network virtualization opportunity?
  • What trends, challenges and barriers are influencing its growth?
  • How is the ecosystem evolving by segment and region?
  • What will the market size be in 2020 and at what rate will it grow?
  • Which regions, submarkets and countries will see the highest percentage of growth?
  • What is the status of SDN and NFV deployments across service provider, data center and enterprise networks?
  • How big is the opportunity for service provider and cloud managed SD-WAN services?
  • How are service provider-led initiatives driving SDN and NFV investments?
  • How does regulation impact the adoption of software-centric networks?
  • What level of CapEx savings can SDN and NFV facilitate for service providers?
  • Do SDN and NFV pose a threat to traditional network infrastructure vendors?
  • Who are the key market players and what are their strategies?
  • What strategies should enabling technology providers, network infrastructure vendors, SDN/NFV specialists,  service providers and other ecosystem players adopt to remain competitive?

Key Findings:

 
The report has the following key findings:
  • SNS Research estimates that service provider SDN and NFV investments will grow at a CAGR of approximately 45% between 2017 and 2020, eventually accounting for nearly $22 Billion in revenue by the end of 2020.
  • Spearheaded by internet giants, data center operators and large enterprises, the adoption of software-centric networking is also continuing to grow in the enterprise and data center segment. SNS Research estimates that SDN and network virtualization investments in this segment accounted for $12 Billion in 2017 alone.
  • New market players are beginning to emerge as service providers accelerate their transition to software-centric networks. For example, with their early wins in NFV-compliant mobile core and IMS platforms, companies such as Mavenir Systems and Affirmed Networks have emerged as direct competitors to established wireless network infrastructure giants.
  • With the emergence of initiatives such as the Linux Foundation's ONAP (Open Network Automation Platform), ETSI's OSM (Open-Source MANO) and SK Telecom's T-MANO, solutions are beginning to be commercialized that can perform integrated management and orchestration of VNFs from multiple vendors.

Topics Covered:
 
The report covers the following topics:
  • SDN, NFV and network virtualization ecosystem
  • Market drivers and barriers
  • Enabling technologies, protocols, architecture and key trends
  • SDN and NFV use cases across service provider, data center and enterprise networks
  • Commercial SDN and NFV deployments – including 10 comprehensive case studies
  • Review of key functional areas including uCPE/vCPE, SD-WAN, data center SDN, vEPC, vIMS, Cloud RAN and vCDN
  • Assessment of CapEx savings potential of service provider SDN and NFV investments
  • Management and orchestration platforms for software-centric networks
  • Standardization, regulatory and collaborative initiatives
  • Industry roadmap and value chain
  • Profiles and strategies of over 270 ecosystem players including SDN/NFV specialists
  • Strategic recommendations for enabling technology providers, network infrastructure vendors, IT giants, pure-play SDN/NFV specialists, enterprises, data center operators and service providers
  • Market analysis and forecasts from 2017 till 2030
Report Pricing:

Single User License: USD 2,500

Company Wide License: USD 3,500
 
Ordering Process:
 
Email the following information:
1.   Report Title -
2.   Report License - (Single User/Company Wide)
3.   Name -
4.   Email -
5.   Job Title -
6.   Company -
7.   Invoice Address -
 
Please contact me if you have any questions, or wish to purchase a copy. Table of contents and List of figures mentioned below for your better inside.
 
I look forward to hearing from you.
 
Kind Regards
Andy Silva
Marketing Executive
Signals and Systems Telecom
 

_____________________________________________________________________________________________________________________________________________________

 

Table of Content

1 Chapter 1: Introduction
1.1 Executive Summary
1.2 Topics Covered
1.3 Forecast Segmentation
1.4 Key Questions Answered
1.5 Key Findings
1.6 Methodology
1.7 Target Audience
1.8 Companies & Organizations Mentioned
 
2 Chapter 2: An Overview of SDN, NFV & Network Virtualization
2.1 What is Network Virtualization?
2.2 What is SDN (Software Defined Networking)?
2.3 SDN Protocols
2.3.1 OpenFlow
2.3.2 BGP-TE (Border Gateway Protocol – Traffic Engineering)
2.3.3 PCEP (Path Computation Element Protocol)
2.3.4 I2RS (Interface to the Routing System)
2.3.5 VxLAN (Virtual Extensible LAN)
2.3.6 ALTO (Application Layer Traffic Optimization)
2.3.7 IETF Software Driven Networks
2.4 SDN Implementation Approaches
2.4.1 Network Virtualization Approach
2.4.2 Evolutionary Approach
2.4.3 The "Central Control" Approach
2.5 What is NFV (Network Functions Virtualization)?
2.6 NFV Enabling Technologies
2.6.1 Cloud Computing and Network Virtualization
2.6.2 Open Management and Control Protocols
2.6.3 Industry Standard High-Volume Servers
2.7 NFV Implementation Architecture
2.7.1 NFVI (NFV Infrastructure)
2.7.1.1 Hardware Resources
2.7.1.2 Virtualized Resources
2.7.2 VNFs (Virtualized Network Functions)
2.7.3 NFV-MANO (NFV-Management and Orchestration)
2.7.3.1 VIM (Virtualized Infrastructure Manager)
2.7.3.2 NFVO (NFV Orchestrator)
2.7.3.3 VNF Manager
2.8 How SDN and NFV Differ from Each Other?
2.8.1 Similarities and Differences
2.8.2 Can Both Technologies Complement Each Other?
2.8.3 How Are Vendors Positioning their Solutions?
2.9 Market Drivers
2.9.1 Leveraging Generic Low-Cost Hardware
2.9.2 Multi-Tenancy on Same Hardware
2.9.3 Reduced Power Consumption
2.9.4 Faster TTM (Time-to-Market)
2.9.5 Improved Operational Efficiency & Performance
2.9.6 Centralized Provisioning and Network Control
2.9.7 Ability to Launch New Services & Virtual Networks Quickly
2.9.8 Dynamic Scaling of Services
2.9.9 Opening the Door to Multi-vendor Interoperability
2.9.10 CapEx and OpEx Reduction
2.9.11 Fast Troubleshooting and Improved Diagnostics
2.9.12 Vendor Support
2.10 Market Barriers
2.10.1 Lack of Standardization & Technology Maturity
2.10.2 Uncertain Cost-Benefits Tradeoffs
2.10.3 NFV May Slow/Delay Traffic
2.10.4 Will Multi-vendor Interoperability Really Work?
2.10.5 Co-Existence with Legacy Networks: Integration Challenges
 
3 Chapter 3: SDN & NFV Use Case Scenarios
3.1 Enterprise, Data Center & Generic Use Cases
3.1.1 Network Virtualization
3.1.2 Data Center Optimization
3.1.3 SD-WAN (Software Defined WAN)
3.1.4 Tap Aggregation
3.1.5 Dynamic WAN Re-Routing
3.1.6 Network Exchange: Interconnecting Physical Networks
3.1.7 Improved Traffic Engineering
3.1.8 Converged Storage
3.2 Service Provider Centric Use Cases
3.2.1 vRAN (Virtualized RAN) & Cloud RAN
3.2.2 Wireline Fixed Access Network Virtualization
3.2.3 vCPE/uCPE (Virtualized & Universal Customer Premises Equipment)
3.2.4 Mobile Backhaul Virtualization
3.2.5 Mobile Core & Gi-LAN Virtualization
3.2.6 IMS & VoLTE Virtualization
3.2.7 DPI Virtualization
3.2.8 Policy Control Virtualization
3.2.9 OSS/BSS Virtualization
3.2.10 Virtual Routers
3.2.11 Virtualization & Control of Security Functions
3.2.12 Virtualization of CDNs (Content Delivery Networks)
3.2.13 MEC (Multi-Access Edge Computing)
3.2.14 Network Slicing
3.2.15 Service Chaining
3.2.16 Bandwidth-on-Demand
3.2.17 Packet-Optical Integration
3.2.18 SDN/NFV Iaas (Infrastructure-as-a-Service)
3.2.19 VNFaas (VNF-as-a-Service)
3.2.20 VNPaaS (Virtual Network-Platform-as-a-Service)
 
4 Chapter 4: SDN & NFV Deployment Case Studies & Commitments
4.1 Case Studies
4.1.1 AT&T
4.1.1.1 Overview
4.1.1.2 Key Vendors
4.1.1.3 SDN/NFV Deployment Review
4.1.2 Baidu
4.1.2.1 Overview
4.1.2.2 Key Vendors
4.1.2.3 SDN/NFV Deployment Review
4.1.3 CenturyLink
4.1.3.1 Overview
4.1.3.2 Key Vendors
4.1.3.3 SDN/NFV Deployment Review
4.1.4 Equinix
4.1.4.1 Overview
4.1.4.2 Key Vendors
4.1.4.3 SDN/NFV Deployment Review
4.1.5 Google
4.1.5.1 Overview
4.1.5.2 Key Vendors
4.1.5.3 SDN/NFV Deployment Review
4.1.6 NTT Group
4.1.6.1 Overview
4.1.6.2 Key Vendors
4.1.6.3 SDN/NFV Deployment Review
4.1.7 SK Telecom
4.1.7.1 Overview
4.1.7.2 Key Vendors
4.1.7.3 SDN/NFV Deployment Review
4.1.8 Telefónica Group
4.1.8.1 Overview
4.1.8.2 Key Vendors
4.1.8.3 SDN/NFV Deployment Review
4.1.9 Verizon Communications
4.1.9.1 Overview
4.1.9.2 Key Vendors
4.1.9.3 SDN/NFV Deployment Review
4.1.10 Vodafone Group
4.1.10.1 Overview
4.1.10.2 Key Vendors
4.1.10.3 SDN/NFV Deployment Review
4.2 Review of Other SDN & NFV Commitments
4.2.1 Service Providers
4.2.1.1 A1 Telekom Austria Group
4.2.1.2 Altice Group
4.2.1.3 ASPIDER-NGI
4.2.1.4 Axiata Group
4.2.1.5 BCE (Bell Canada)
4.2.1.6 BT Group
4.2.1.7 China Mobile
4.2.1.8 China Telecom
4.2.1.9 China Unicom
4.2.1.10 Colt Technology Services Group
4.2.1.11 Comcast
4.2.1.12 Digicel
4.2.1.13 DT (Deutsche Telekom)
4.2.1.14 Etisalat
4.2.1.15 IIJ (Internet Initiative Japan)
4.2.1.16 KDDI Corporation
4.2.1.17 KPN
4.2.1.18 KT Corporation
4.2.1.19 LG Uplus
4.2.1.20 NAKA Mobile
4.2.1.21 Ngena
4.2.1.22 Ooredoo
4.2.1.23 Orange
4.2.1.24 PCCW Global
4.2.1.25 Singtel
4.2.1.26 SoftBank Group
4.2.1.27 Sprint Corporation
4.2.1.28 STC (Saudi Telecom Company)
4.2.1.29 Swisscom
4.2.1.30 Telecom Italia
4.2.1.31 Telenor Group
4.2.1.32 Telstra
4.2.1.33 Turk Telekom
4.2.1.34 Windstream Communications
4.2.2 Enterprises & Data Centers
4.2.2.1 Internet Giants
4.2.2.2 Data Center Operators
4.2.2.3 Large Enterprises
4.2.2.4 SMEs (Small and Medium-Sized Enterprises)
 
5 Chapter 5: Industry Roadmap and Value Chain
5.1 Industry Roadmap
5.1.1 Pre-2020: Moving Towards Network-Wide Orchestration
5.1.2 2020 – 2025: Large-Scale Service Provider Rollouts
5.1.3 2025 – 2030: Continued Investments with 5G & Next Generation Network Rollouts
5.2 Value Chain
5.2.1 Enabling Technology Providers
5.2.2 Pure-Play SDN & NFV Specialists
5.2.3 Network Infrastructure Vendors
5.2.4 IT Industry Giants
5.2.5 Mobile Infrastructure Vendors
5.2.6 Policy, OSS, BSS & Other Software Vendors
5.2.7 Enterprises
5.2.8 Service Providers
5.2.9 Data Center Operators
 
6 Chapter 6: Standardization, Regulatory & Collaborative Initiatives
6.1 3GPP (3rd Generation Partnership Project)
6.1.1 End-to-End Management for Virtualized 3GPP Networks
6.2 5G PPP (5G Infrastructure Public Private Partnership)
6.2.1 SDN / NFV WG (Working Group)
6.2.2 Key Projects Focusing on the Use of SDN & NFV
6.3 ASF (Apache Software Foundation)
6.3.1 Mesos
6.3.2 ARIA TOSCA
6.3.3 CloudStack
6.4 ATIS (Alliance for Telecommunications Industry Solutions)
6.4.1 NFV-F (NFV Forum)
6.5 Broadband Forum
6.5.1 TR-317 & TR-328: vCPE Implementation
6.5.2 SDN and NFV Work Area
6.5.2.1 CloudCO (Cloud Central Office)
6.5.2.2 Migration to SDN-Enabled Management and Control
6.5.2.3 FANS (Fixed Access Network Sharing)
6.5.2.4 Support for SDN in Access Network Nodes
6.5.2.5 YANG Models for SDN in Access Nodes
6.5.3 Other Work
6.6 CableLabs
6.6.1 SNAPS (SDN/NFV Application development Platform and Stack)
6.7 CAICT (China Academy of Information and Communications Technology)
6.7.1 SDNFVIA (SDN/NFV Industry Alliance)
6.8 CloudNFV & ExperiaSphere
6.8.1 Open Platform for NFV
6.8.2 Service-Layer Based MANO
6.9 Django Software Foundation
6.9.1 Django Web Framework
6.10 ETSI (European Telecommunications Standards Institute)
6.10.1 NFV ISG (Industry Specification Group)
6.10.1.1 Release 1
6.10.1.2 Release 2
6.10.1.3 Release 3
6.10.2 OSM (Open Source MANO) Group
6.10.3 ZSM (Zero touch network and Service Management) ISG
6.11 FreeBSD Foundation
6.11.1 FreeBSD Operating System
6.12 IEEE (Institute of Electrical and Electronics Engineers)
6.12.1 IEEE SDN Initiative
6.12.2 IEEE 1903: NGSON (Next Generation Service Overlay Networks)
6.12.3 IEEE 1913: SDQC (Software-Defined Quantum Communication)
6.12.4 IEEE 1915.1, 1916.1 & 1917.1: Standards for SDN/NFV Security, Performance & Reliability
6.12.5 IEEE 1921.1: SDN Bootstrapping Procedures
6.12.6 IEEE 1930.1: SDN based Middleware for Control and Management
6.12.7 Other Standards & Recommended Practices
6.13 IETF (Internet Engineering Task Force) & IRTF (Internet Research Task Force)
6.13.1 SDN Protocols, Working Groups, & Research Programs
6.13.2 NFV Working Groups & Research Programs
6.14 ITU (International Telecommunications Union)
6.14.1 Standardization Activities for SDN & Network Virtualization
6.14.1.1 JCA-SDN (Joint Coordination Activity on Software-Defined Networking)
6.14.1.2 SG (Study Group) 13 on Future Networks
6.14.1.3 SG (Study Group) 11: Signaling Requirements, Protocols & Test Specifications
6.14.1.4 Other Study Groups: Transport, Multimedia & Security
6.15 Linux Foundation
6.15.1 ODL (OpenDayLight)
6.15.2 OpenContrail
6.15.3 OPNFV (Open Platform for NFV)
6.15.4 ONAP (Open Network Automation Platform)
6.15.5 CNCF (Cloud Native Computing Foundation)
6.15.5.1 Kubernetes
6.15.6 Cloud Foundry Foundation
6.15.6.1 CF (Cloud Foundry) Application Runtime
6.15.6.2 CF Container Runtime
6.15.6.3 CF BOSH & Other Projects
6.15.7 ONOS (Open Network Operating System)
6.15.8 OCI (Open Container Initiative)
6.15.9 CORD (Central Office Re-architected as a Datacenter)
6.15.10 Open Switch
6.15.11 Open vSwitch
6.15.12 DPDK (Data Plane Development Kit)
6.15.13 FD.io (Fast Data Project)
6.15.14 Xen Project
6.15.14.1 Xen Hypervisor
6.15.14.2 Xen Cloud Platform
6.15.14.3 XAPI
6.15.14.4 Mirage OS
6.15.14.5 Unikraft
6.15.14.6 Xen ARM
6.15.15 Node.js
6.15.16 Other Relevant Projects & Specifications
6.16 MEF (Metro Ethernet Forum)
6.16.1 Third Network Vision
6.16.1.1 Third Network Orchestration Services
6.16.1.2 LSO (Lifecycle Services Orchestration) Framework, APIs & SDKs
6.16.1.3 Inter-Provider LSO Sonata APIs & SDK
6.16.1.4 Intra-Provider LSO Presto APIs & SDK
6.16.1.5 Software-Driven Reference Implementations and MEFnet
6.17 NetBSD Foundation
6.17.1 NetBSD Operating System
6.18 OASIS (Organization for the Advancement of Structured Information Standards)
6.18.1 TOSCA (Topology and Orchestration Specification for Cloud Applications)
6.19 OCP (Open Compute Project) Foundation
6.19.1 Telco Project
6.19.2 Networking Project
6.20 OMG (Object Management Group)
6.20.1 SDN Working Group
6.21 ONF (Open Networking Foundation)
6.21.1 Software Defined Standards
6.21.1.1 OpenFlow
6.21.1.2 Other Recommendations & Publications
6.21.2 Platforms
6.21.2.1 CORD (Central Office Re-Architected as a Datacenter)
6.21.2.2 CORD-XOS
6.21.2.3 CORD-Trellis
6.21.2.4 ONOS (Open Network Operating System)
6.21.2.5 MININET
6.21.3 Solutions
6.21.3.1 R-CORD, M-CORD & E-CORD
6.21.3.2 ODTN (Open Disaggregated Transport Network)
6.21.4 Incubator Projects
6.21.4.1 Delta
6.21.4.2 Information Modeling
6.21.4.3 iSDX
6.21.4.4 Open Datapath
6.21.4.5 Open Transport Configuration & Control
6.22 ONUG (Open Networking User Group)
6.22.1 ONUG Working Groups
6.22.1.1 OSE (Open SD-WAN Exchange)
6.22.1.2 M&A (Monitoring & Analytics)
6.22.1.3 S-DSS (Software-Defined Security Services)
6.22.1.4 HMC (Hybrid Multi-Cloud)
6.22.1.5 Container
6.23 OpenStack Foundation
6.23.1 OpenStack Operating System
6.23.1.1 Compute
6.23.1.2 Storage, Backup & Recovery
6.23.1.3 Networking & Content Delivery
6.23.1.4 Data & Analytics
6.23.1.5 Security, Identity & Compliance
6.23.1.6 Management Tools
6.23.1.7 Deployment Tools
6.23.1.8 Application Services
6.23.1.9 Monitoring & Metering
6.24 P4 Language Consortium
6.24.1 P4 Programming Language for Network Switches
6.25 SDN/NFV Forum, South Korea
6.25.1 Committees & Working Groups
6.26 TIP (Telecom Infra Project)
6.26.1 Use of SDN & NFV in Access, Transport & Core Networks
6.27 TM Forum
6.27.1 ZOOM (Zero-touch Orchestration, Operations and Management) Project
6.27.2 Core Frameworx
6.27.3 Virtualization Proof-of-Concept Catalysts
6.28 TTA (Telecommunications Technology Association of Korea)
6.28.1 PG220 (Future Internet Project Group)
6.29 Vendor Led Initiatives & Ecosystem Programs
6.29.1 ADTRAN's Mosaic Open Network Alliance
6.29.2 ADVA's Ensemble Harmony Ecosystem
6.29.3 Amdocs' NFV Partner Program
6.29.4 Big Switch Networks' Open Source Projects
6.29.4.1 ONL (Open Network Linux)
6.29.4.2 Project Floodlight & Others
6.29.5 Canonical's Open Source Projects
6.29.5.1 Ubuntu
6.29.5.2 Juju
6.29.5.3 Linux Containers
6.29.6 Ciena Blue Orbit Ecosystem
6.29.7 Cloudify's Open-Source NFV Orchestration Platform
6.29.8 Docker's Partner Program & Moby Project
6.29.9 HPE's OpenNFV Partner Program & SDN Ecosystem Alliance
6.29.9.1 OpenNFV Partner Program
6.29.9.2 SDN Ecosystem Alliance
6.29.10 Intel's Network, Cloud, Fabric & Storage Builders Programs
6.29.11 Juniper's Data Center, Cloud, and NFV Partner Program
6.29.12 Midokura's MidoNet
6.29.13 NEC/NetCracker's Ecosystem 2.0 & SDN Partner Space
6.29.13.1 Ecosystem 2.0
6.29.13.2 SDN Partner Space
6.29.14 Nokia's CloudBand Ecosystem & VSP Integration Partner Program
6.29.14.1 CloudBand Ecosystem
6.29.14.2 VSP Integration Partner Program
6.29.15 Red Hat's NFV Ecosystem & Open-Source Projects
6.29.15.1 NFV Ecosystem
6.29.15.2 OpenShift
6.29.15.3 Fedora
6.29.16 Wind River's Titanium Cloud Ecosystem
 
7 Chapter 7: Company Profiles
7.1 6WIND
7.2 A10 Networks
7.3 Accedian Networks
7.4 Accelleran
7.5 Accton Technology Corporation/Edgecore Networks
7.6 Actus Networks
7.7 ADARA Networks
7.8 Adax
7.9 ADLINK Technology
7.1 ADTRAN
7.11 ADVA Optical Networking
7.12 Advantech
7.13 Affirmed Networks
7.14 Airspan Networks
7.15 Akamai Technologies
7.16 ALAXALA Networks Corporation
7.17 Albis Technologies
7.18 Alepo
7.19 Alianza
7.2 Allied Telesis
7.21 Allot Communications
7.22 Alpha Networks
7.23 ALTEN Calsoft Labs
7.24 Altiostar Networks
7.25 Alvarion Technologies
7.26 AMD (Advanced Micro Devices)
7.27 Amdocs
7.28 ANEVIA
7.29 Argela
7.3 Aricent
7.31 Arista Networks
7.32 ARM Holdings
7.33 ARRIS International
7.34 Artesyn Embedded Technologies
7.35 ASOCS
7.36 Astellia
7.37 Athonet
7.38 AttoCore
7.39 AudioCodes
7.4 Avaya
7.41 Avi Networks
7.42 AWS (Amazon Web Services)
7.43 Baicells Technologies
7.44 Barefoot Networks
7.45 Barracuda Networks
7.46 Benu Networks
7.47 Big Switch Networks
7.48 Brain4Net
7.49 Broadcom
7.5 Broadpeak
7.51 CA Technologies
7.52 Canoga Perkins Corporation
7.53 Canonical
7.54 Casa Systems
7.55 CCN (Cirrus Core Networks)
7.56 Cedexis
7.57 Centec Networks
7.58 CENX
7.59 Ceragon Networks
7.6 Certes Networks
7.61 CertusNet
7.62 Check Point Software Technologies
7.63 Ciena Corporation
7.64 Cisco Systems
7.65 Citrix Systems
7.66 Clavister
7.67 ClearPath Networks
7.68 CloudGenix
7.69 Cloudify
7.7 CND (Core Network Dynamics)
7.71 Cobham Group
7.72 Cohesive Networks
7.73 Colt Technology Services Group
7.74 Comodo
7.75 Concurrent
7.76 Contela
7.77 Coriant
7.78 Corsa Technology
7.79 Cradlepoint
7.8 Creanord
7.81 Cumulus Networks
7.82 Cyxtera Technologies
7.83 DASAN Zhone Solutions
7.84 Datavision
7.85 Dell Technologies
7.86 Delta
7.87 Dialogic
7.88 Dimetis
7.89 Docker
7.9 Dorado Software
7.91 Druid Software
7.92 DXC Technology
7.93 ECI Telecom
7.94 Edgeware
7.95 Ekinops
7.96 ELUON Corporation
7.97 Enea
7.98 ENENSYS Technologies
7.99 EnterpriseWeb
7.1 Ericsson
7.101 Ethernity Networks
7.102 Exaware
7.103 EXFO
7.104 Expeto Wireless
7.105 Expway
7.106 Extreme Networks
7.107 F5 Networks
7.108 FibroLAN
7.109 Flash Networks
7.11 Flex
7.111 Fortinet
7.112 FRAFOS
7.113 Fraunhofer FOKUS
7.114 Fujitsu
7.115 Gigamon
7.116 Global Wavenet
7.117 Guangzhou Iplook Technologies
7.118 Harmonic
7.119 Hitachi
7.12 HPE (Hewlett Packard Enterprise)
7.121 Huawei
7.122 HUBER+SUHNER
7.123 HyTrust
7.124 IBM Corporation
7.125 Illumio
7.126 Imagine Communications Corporation
7.127 Infinera
7.128 Infoblox
7.129 Inocybe Technologies
7.13 Intel Corporation
7.131 Interface Masters Technologies
7.132 Intracom Telecom
7.133 IP Infusion
7.134 ip.access
7.135 IPgallery
7.136 iPhotonix
7.137 IPITEK
7.138 Italtel
7.139 iwNetworks
7.14 Juniper Networks
7.141 KEMP Technologies
7.142 Keysight Technologies
7.143 Kleos
7.144 Lanner Electronics
7.145 Lemko Corporation
7.146 Lenovo
7.147 Linker Networks
7.148 Lumeta Corporation
7.149 Lumina Networks
7.15 Luminate Wireless
7.151 Luxoft Holding
7.152 Maipu Communication Technology
7.153 Marvell Technology Group
7.154 MatrixStream Technologies
7.155 Mavenir Systems
7.156 MediaTek
7.157 Megaport
7.158 Mellanox Technologies
7.159 Mesosphere
7.16 Metaswitch Networks
7.161 Microsoft Corporation
7.162 Midokura
7.163 Mirantis
7.164 Mojatatu Networks
7.165 MRV Communications
7.166 Mushroom Networks
7.167 Napatech
7.168 NEC Corporation/Netcracker Technology
7.169 NETGEAR
7.17 Netronome
7.171 Netrounds
7.172 NETSCOUT Systems
7.173 Netsil
7.174 NetYCE
7.175 New H3C Group
7.176 NFVWare
7.177 Nokia Networks
7.178 Nominum
7.179 NoviFlow
7.18 NTT Communications
7.181 NXP Semiconductors
7.182 Omnitron Systems
7.183 One2many
7.184 Openet
7.185 Openwave Mobility
7.186 Opera Software
7.187 Optelian
7.188 Oracle Corporation
7.189 Orchestral Networks
7.19 OX (Open-Xchange)
7.191 Ozono Security
7.192 Packet Design
7.193 Packet Ship Technologies
7.194 Padtec
7.195 Palo Alto Networks
7.196 Panda Security
7.197 Pantheon Technologies
7.198 Parallel Wireless
7.199 PeerApp
7.2 Penguin
7.201 Phluido
7.202 Pica8
7.203 PicoCluster
7.204 Pivotal Software
7.205 Plexxi
7.206 Pluribus Networks
7.207 Polaris Networks
7.208 Pulse Secure
7.209 Qualcomm
7.21 Quanta Computer
7.211 Quortus
7.212 Rackspace
7.213 RAD Data Communications
7.214 RADCOM
7.215 Radisys Corporation
7.216 Radware
7.217 Rapid7
7.218 Realtek Semiconductor Corporation
7.219 Red Hat
7.22 Redknee
7.221 Ribbon Communications
7.222 RIFT.io
7.223 RightScale
7.224 Riverbed Technology
7.225 Ruckus Wireless
7.226 Saguna Networks
7.227 Saisei
7.228 Samsung Electronics
7.229 Sandvine
7.23 Sansay
7.231 Sedona Systems
7.232 Sencore
7.233 SevOne
7.234 Silver Peak
7.235 SiRRAN Communications
7.236 Sistelbanda
7.237 SITRONICS
7.238 Sooktha
7.239 Sophos
7.24 SpiderCloud Wireless
7.241 Spirent Communications
7.242 Stormshield
7.243 SunTec
7.244 Supermicro (Super Micro Computer)
7.245 Symantec Corporation
7.246 SysMaster
7.247 Tango Telecom
7.248 Tecore Networks
7.249 Tejas Networks
7.25 Telchemy
7.251 Telco Systems
7.252 Telcoware
7.253 Telrad Networks
7.254 TI (Texas Instruments)
7.255 Tieto Corporation
7.256 TitanHQ
7.257 Trend Micro
7.258 Trópico
7.259 UBIqube
7.26 Ultra Electronics
7.261 UTStarcom
7.262 vArmour
7.263 Vasona Networks
7.264 Versa Networks
7.265 Veryx Technologies
7.266 Viavi Solutions
7.267 VMware
7.268 VNC (Virtual Network Communications)
7.269 WatchGuard Technologies
7.27 Wedge Networks
7.271 Wipro
7.272 Wowza Media Systems
7.273 Xilinx
7.274 XOR Media
7.275 Xtera Communications
7.276 Zoho Corporation/WebNMS
7.277 ZTE
 
8 Chapter 8: Market Analysis & Forecasts
8.1 Global Outlook for SDN, NFV & Network Virtualization Revenue: 2017 – 2030
8.2 User Base Segmentation
8.2.1 Enterprises & Data Centers
8.2.2 Service Providers
8.3 Submarket Segmentation
8.3.1 SDN/SD-WAN Hardware & Software
8.3.2 NFV Hardware & Software
8.3.3 Other Network Virtualization Software
8.3.4 Service Provider Submarket Segmentation
8.4 SDN & SD-WAN User Base Revenue: 2017 – 2030
8.4.1 Service Provider SDN/SD-WAN
8.4.2 Enterprise & Data Center SDN/SD-WAN
8.5 SDN & SD-WAN Submarket Revenue: 2017 – 2030
8.5.1 SDN-Enabled Switches, Routers & Other Appliances
8.5.2 SDN Controller Software
8.5.3 SDN Orchestration Software
8.5.4 SDN Network Applications
8.5.5 SD-WAN Appliances
8.5.6 SD-WAN Control & Overlay Software
8.6 NFV Submarket Revenue: 2017 – 2030
8.6.1 NFVI (NFV Infrastructure)
8.6.2 NFV MANO (Management & Orchestration) Software
8.6.3 VNF (Virtualized Network Function) Software
8.7 Functional Area Segmentation for Service Provider SDN & NFV Revenue: 2017 – 2030
8.7.1 CDN
8.7.2 CPE
8.7.3 Data Center
8.7.4 Fixed Access Network
8.7.5 IMS & VoLTE
8.7.6 Mobile Core
8.7.7 Policy Control
8.7.8 RAN
8.7.9 Transport Network
8.7.10 Others
8.8 Regional Outlook
8.9 Asia Pacific SDN, NFV & Network Virtualization Revenue: 2017 – 2030
8.9.1 Australia
8.9.2 China
8.9.3 India
8.9.4 Japan
8.9.5 South Korea
8.9.6 Pakistan
8.9.7 Thailand
8.9.8 Indonesia
8.9.9 Malaysia
8.9.10 Taiwan
8.9.11 Philippines
8.9.12 Singapore
8.9.13 Rest of Asia Pacific
8.10 Eastern Europe SDN, NFV & Network Virtualization Revenue: 2017 – 2030
8.10.1 Czech Republic
8.10.2 Poland
8.10.3 Russia
8.10.4 Rest of Eastern Europe
8.11 Latin & Central America SDN, NFV & Network Virtualization Revenue: 2017 – 2030
8.11.1 Argentina
8.11.2 Brazil
8.11.3 Mexico
8.11.4 Rest of Latin & Central America
8.12 Middle East & Africa SDN, NFV & Network Virtualization Revenue: 2017 – 2030
8.12.1 South Africa

8.12.3 Qatar
8.12.4 Saudi Arabia
8.12.5 Israel
8.12.6 Rest of the Middle East & Africa
8.13 North America SDN, NFV & Network Virtualization Revenue: 2017 – 2030
8.13.1 USA
8.13.2 Canada
8.14 Western Europe SDN, NFV & Network Virtualization Revenue: 2017 – 2030
8.14.1 Denmark
8.14.2 Finland
8.14.3 France
8.14.4 Germany
8.14.5 Italy
8.14.6 Spain
8.14.7 Sweden
8.14.8 Norway
8.14.9 UK
8.14.10 Rest of Western Europe
 
9 Chapter 9: Conclusion & Strategic Recommendations
9.1 Why is the Market Poised to Grow?
9.2 Will SDN & NFV Disrupt the Network Infrastructure Value Chain?
9.3 Is There a Ring Leader in the SDN & NFV Ecosystem?
9.4 Facilitating Fixed-Mobile Network Convergence
9.5 Buyers Will Maintain Focus on Business Agility & CapEx Reduction
9.6 Will Proprietary Hardware Platforms Continue to Exist?
9.7 Functional Area Adoption Trends
9.7.1 vCPEs & uCPEs
9.7.2 SD-WAN
9.7.3 Data Center SDN
9.7.4 vIMS
9.7.5 vEPC
9.7.6 vCDN
9.7.7 Cloud RAN
9.7.8 Other Use Cases
9.8 How Much CapEx Can Service Providers Save with SDN & NFV Investments?
9.9 The Importance of Interoperable MANO Platforms
9.10 Strategic Recommendations
9.10.1 Recommendations for Enabling Technology Providers
9.10.2 Recommendations for Network Infrastructure Vendors & IT Giants
9.10.3 Recommendations for Pure-Play SDN & NFV Specialists
9.10.4 Recommendations for Enterprises & Data Center Operators
9.10.5 Recommendations for Service Providers

List of Figures:

Figure 1: The NFV Concept
Figure 2: A Comparison of SDN and NFV
Figure 3: vRAN Architecture
Figure 4: Cloud RAN Concept
Figure 5: Virtualized and Non-Virtualized Mobile Core Networks
Figure 6: Conceptual Architecture for End-to-End Network Slicing in Mobile Networks
Figure 7: Key Functional Elements of AT&T's FlexWare uCPE
Figure 8: Baidu's SDN-Capable IDC (Internet Data Center) Transport Network
Figure 9: Key Components of CenturyLink's PSB (Programmable Services Backbone) Architecture
Figure 10: CenturyLink's SD-WAN Service
Figure 11: ECX Fabric (Equinix Cloud Exchange Fabric) Framework
Figure 12: Key Pillar's of Google's SDN Strategy
Figure 13: Google's Espresso Peering Edge Architecture
Figure 14: NTT Communications' Hybrid Cloud Service
Figure 15: NTT Communications' SD-Exchange (Software Defined-Exchange)
Figure 16: Evolution of SK Telecom's Infrastructure: COSMOS and ATSCALE
Figure 17: SK Telecom's SDRAN (Software Defined RAN) Architecture
Figure 18: Telefónica's UNICA Infrastructure Platform
Figure 19: Telefónica's NFV Development Roadmap
Figure 20: Verizon's SDN-NFV High Level Architecture
Figure 21: Conceptual Layers of Vodafone's  SDN & NFV Architecture
Figure 22: SDN, NFV & Network Virtualization Industry Roadmap: 2017 – 2030
Figure 23: SDN, NFV & Network Virtualization Value Chain
Figure 24: CloudNFV Architecture
Figure 25: ETSI NFV Architecture
Figure 26: Global SDN, NFV & Network Virtualization Revenue: 2017 – 2030 ($ Million)
Figure 27: Global SDN, NFV & Network Virtualization Revenue by User Base: 2017 – 2030 ($ Million)
Figure 28: Global Enterprise & Data Center SDN & Network Virtualization Revenue: 2017 – 2030 ($ Million)
Figure 29: Global Service Provider SDN & NFV Revenue: 2017 – 2030 ($ Million)
Figure 30: Global SDN, NFV & Network Virtualization Revenue by Submarket: 2017 – 2030 ($ Million)
Figure 31: Global SDN/SD-WAN Hardware & Software Revenue: 2017 – 2030 ($ Million)
Figure 32: Global NFV Hardware & Software Revenue: 2017 – 2030 ($ Million)
Figure 33: Global Other Network Virtualization Software Revenue: 2017 – 2030 ($ Million)
Figure 34: Global Service Provider SDN & NFV Revenue by Submarket: 2017 – 2030 ($ Million)
Figure 35: Global SDN & SD-WAN Revenue by User Base: 2017 – 2030 ($ Million)
Figure 36: Global Service Provider SDN/SD-WAN Hardware & Software Revenue: 2017 – 2030 ($ Million)
Figure 37: Global Enterprise & Data Center SDN/SD-WAN Revenue: 2017 – 2030 ($ Million)
Figure 38: Global SDN & SD-WAN Revenue by Submarket: 2017 – 2030 ($ Million)
Figure 39: Global SDN-Enabled Switch, Router & Other Appliance Revenue: 2017 – 2030 ($ Million)
Figure 40: Global SDN Controller Software Revenue: 2017 – 2030 ($ Million)
Figure 41: Global SDN Orchestration Software Revenue: 2017 – 2030 ($ Million)
Figure 42: Global SDN Network Applications Revenue: 2017 – 2030 ($ Million)
Figure 43: Global SD-WAN Appliance Revenue: 2017 – 2030 ($ Million)
Figure 44: Global SD-WAN Control & Overlay Software Revenue: 2017 – 2030 ($ Million)
Figure 45: Global NFV Revenue by Submarket: 2017 – 2030 ($ Million)
Figure 46: Global NFVI (NFV Infrastructure) Revenue: 2017 – 2030 ($ Million)
Figure 47: Global NFV MANO (Management & Orchestration) Software Revenue: 2017 – 2030 ($ Million)
Figure 48: Global VNF (Virtualized Network Function) Software Revenue: 2017 – 2030 ($ Million)
Figure 49: Global Service Provider SDN & NFV Revenue by Functional Area: 2017 – 2030 ($ Million)
Figure 50: Global Service Provider SDN & NFV Revenue in the CDN Functional Area: 2017 – 2030 ($ Million)
Figure 51: Global Service Provider SDN & NFV Revenue in the CPE  Functional Area: 2017 – 2030 ($ Million)
Figure 52: Global Service Provider SDN & NFV Revenue in the Data Center Functional Area: 2017 – 2030 ($ Million)
Figure 53: Global Service Provider SDN & NFV Revenue in the Fixed Access Network Functional Area: 2017 – 2030 ($ Million)
Figure 54: Global Service Provider SDN & NFV Revenue in the IMS & VoLTE Functional Area: 2017 – 2030 ($ Million)
Figure 55: Global Service Provider SDN & NFV Revenue in the Mobile Core Functional Area: 2017 – 2030 ($ Million)
Figure 56: Global Service Provider SDN & NFV Revenue in the Policy Control Functional Area: 2017 – 2030 ($ Million)
Figure 57: Global Service Provider SDN & NFV Revenue in the RAN Functional Area: 2017 – 2030 ($ Million)
Figure 58: Global Service Provider SDN & NFV Revenue in the Transport Network Functional Area: 2017 – 2030 ($ Million)
Figure 59: Global Service Provider SDN & NFV Revenue in the Other Areas: 2017 – 2030 ($ Million)
Figure 60: SDN, NFV & Network Virtualization Revenue by Region: 2017 – 2030 ($ Million)
Figure 61: Asia Pacific SDN, NFV & Network Virtualization Revenue: 2017 – 2030 ($ Million)
Figure 62: Australia SDN, NFV & Network Virtualization Revenue: 2017 – 2030 ($ Million)
Figure 63: China SDN, NFV & Network Virtualization Revenue: 2017 – 2030 ($ Million)
Figure 64: India SDN, NFV & Network Virtualization Revenue: 2017 – 2030 ($ Million)
Figure 65: Japan SDN, NFV & Network Virtualization Revenue: 2017 – 2030 ($ Million)
Figure 66: South Korea SDN, NFV & Network Virtualization Revenue: 2017 – 2030 ($ Million)
Figure 67: Pakistan SDN, NFV & Network Virtualization Revenue: 2017 – 2030 ($ Million)
Figure 68: Thailand SDN, NFV & Network Virtualization Revenue: 2017 – 2030 ($ Million)
Figure 69: Indonesia SDN, NFV & Network Virtualization Revenue: 2017 – 2030 ($ Million)
Figure 70: Malaysia SDN, NFV & Network Virtualization Revenue: 2017 – 2030 ($ Million)
Figure 71: Taiwan SDN, NFV & Network Virtualization Revenue: 2017 – 2030 ($ Million)
Figure 72: Philippines SDN, NFV & Network Virtualization Revenue: 2017 – 2030 ($ Million)
Figure 73: Singapore SDN, NFV & Network Virtualization Revenue: 2017 – 2030 ($ Million)
Figure 74: SDN, NFV & Network Virtualization Revenue in the Rest of Asia Pacific: 2017 – 2030 ($ Million)
Figure 75: Eastern Europe SDN, NFV & Network Virtualization Revenue: 2017 – 2030 ($ Million)
Figure 76: Czech Republic SDN, NFV & Network Virtualization Revenue: 2017 – 2030 ($ Million)
Figure 77: Poland SDN, NFV & Network Virtualization Revenue: 2017 – 2030 ($ Million)
Figure 78: Russia SDN, NFV & Network Virtualization Revenue: 2017 – 2030 ($ Million)
Figure 79: SDN, NFV & Network Virtualization Revenue in the Rest of Eastern Europe: 2017 – 2030 ($ Million)
Figure 80: Latin & Central America SDN, NFV & Network Virtualization Revenue: 2017 – 2030 ($ Million)
Figure 81: Argentina SDN, NFV & Network Virtualization Revenue: 2017 – 2030 ($ Million)
Figure 82: Brazil SDN, NFV & Network Virtualization Revenue: 2017 – 2030 ($ Million)
Figure 83: Mexico SDN, NFV & Network Virtualization Revenue: 2017 – 2030 ($ Million)
Figure 84: SDN, NFV & Network Virtualization Revenue in the Rest of Latin & Central America: 2017 – 2030 ($ Million)
Figure 85: Middle East & Africa SDN, NFV & Network Virtualization Revenue: 2017 – 2030 ($ Million)
Figure 86: South Africa SDN, NFV & Network Virtualization Revenue: 2017 – 2030 ($ Million)
Figure 87: UAE SDN, NFV & Network Virtualization Revenue: 2017 – 2030 ($ Million)
Figure 88: Qatar SDN, NFV & Network Virtualization Revenue: 2017 – 2030 ($ Million)
Figure 89: Saudi Arabia SDN, NFV & Network Virtualization Revenue: 2017 – 2030 ($ Million)
Figure 90: Israel SDN, NFV & Network Virtualization Revenue: 2017 – 2030 ($ Million)
Figure 91: SDN, NFV & Network Virtualization Revenue in the Rest of the Middle East & Africa: 2017 – 2030 ($ Million)
Figure 92: North America SDN, NFV & Network Virtualization Revenue: 2017 – 2030 ($ Million)
Figure 93: USA SDN, NFV & Network Virtualization Revenue: 2017 – 2030 ($ Million)
Figure 94: Canada SDN, NFV & Network Virtualization Revenue: 2017 – 2030 ($ Million)
Figure 95: Western Europe SDN, NFV & Network Virtualization Revenue: 2017 – 2030 ($ Million)
Figure 96: Denmark SDN, NFV & Network Virtualization Revenue: 2017 – 2030 ($ Million)
Figure 97: Finland SDN, NFV & Network Virtualization Revenue: 2017 – 2030 ($ Million)
Figure 98: France SDN, NFV & Network Virtualization Revenue: 2017 – 2030 ($ Million)
Figure 99: Germany SDN, NFV & Network Virtualization Revenue: 2017 – 2030 ($ Million)
Figure 100: Italy SDN, NFV & Network Virtualization Revenue: 2017 – 2030 ($ Million)
Figure 101: Spain SDN, NFV & Network Virtualization Revenue: 2017 – 2030 ($ Million)
Figure 102: Sweden SDN, NFV & Network Virtualization Revenue: 2017 – 2030 ($ Million)
Figure 103: Norway SDN, NFV & Network Virtualization Revenue: 2017 – 2030 ($ Million)
Figure 104: UK SDN, NFV & Network Virtualization Revenue: 2017 – 2030 ($ Million)
Figure 105: SDN, NFV & Network Virtualization Revenue in the Rest of Western Europe: 2017 – 2030 ($ Million)
Figure 106: Global SD-WAN Service Revenue by Submarket: 2017 – 2030 ($ Million)
Figure 107: Global Virtualized Mobile Core Investments by Technology: 2017 – 2030 ($ Million)
Figure 108: Global Cloud RAN Investments by Submarket: 2017 – 2030 ($ Million)
Figure 109: Global SDN & NFV Induced Service Provider CapEx Savings Potential: 2017 – 2030 ($ Million)

Thank you once again and looking forward to hearing from you.

 

Kind Regards

 

Andy Silva
Marketing Executive
Signals and Systems Telecom

 

 

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