市場調査レポート
商品コード
1128600
SD-WAN市場:コンポーネント別・アプライアンス別・サービス別・展開方式別・セグメント別・業種別 (2022年~2027年)SD-WAN Market by Components, Appliances, Services, Deployment, Segments and Verticals 2022 - 2027 |
SD-WAN市場:コンポーネント別・アプライアンス別・サービス別・展開方式別・セグメント別・業種別 (2022年~2027年) |
出版日: 2022年09月26日
発行: Mind Commerce
ページ情報: 英文 178 Pages
納期: 即日から翌営業日
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世界のSD-WANの全体的な市場規模は、2027年までに78億米ドルに達する見通しです。また、SD-WANサポートサービスの世界市場は2027年に9億2,800万米ドルに達すると見込まれています。最近では、大手ベンダーではマルチクラウドやエッジ対応ネットワークに注力しています。一部の企業でマネージドSD-WANサービスの導入が進んでいますが、一方でコンサルティング・導入・トレーニングなどのプロフェッショナルサービスも重要です。機器の更新の動きが、MPLSからSD-WANへの移行の主な要因となっています。
当レポートでは、世界のSD-WAN市場について分析し、全体的な市場動向の見通し (2022年~2027年) や、コンポーネント別・アプライアンス別・サービス別・展開方式別・セグメント別 (CSP・企業・産業・政府)・企業別の詳細動向を調査すると共に、 技術の概略や効果、主な促進・抑制要因、主要ベンダー・マネージドサービスプロバイダーの概略、といった情報を取りまとめてお届けいたします。
This SD-WAN market report evaluates the players (vendors and service providers), strategies, technologies, and solutions. It includes analysis by Component, Appliance, Services, Deployment, Segment (Communication Service Providers, Enterprise, Industrial, and Government), and Enterprise Verticals with forecasts from 2022 to 2027.
SDN in support of Wide Area Networking (WAN), also known as SD-WAN is rapidly achieving mainstream adoption as both network operators and enterprises take a software-centric approach to more optimally manage WAN operations and provide efficient access to cloud applications. Part of the reason for its popularity is the technology enables solutions that provide a more open hardware architecture configuration. This facilitates greater flexibility overall as well as ease of migration from proprietary boxes and multiprotocol label switching services, which is a dominant industry trend as networks increasingly utilize virtualized infrastructure and non-proprietary equipment.
Many consider SD-WAN part of the evolution of SDN as applied to existing networking technologies such as Multiprotocol Label Switching (MPLS), which directs data from one node to the next based on short path labels rather than long network addresses. SD-WAN was often applied as an overlay to existing network technologies such as MPLS virtual private networks and the Internet as a whole. SD-WAN saw early favor with enterprise networks on a managed service basis but has also gained great support with communication service providers (CSP) as a means of unifying networks that are increasingly becoming software-controlled and virtualized.
While the initial industry driver for SD-WAN has been reducing bandwidth costs and overall operational expense reduction, there are other benefits as businesses increasingly rely upon the cloud-based services model. Enabling more efficient operations, SD-WAN also facilitates a more robust and survivable environment such as the ability to support alternate/redundant paths for routing broadband traffic, which is especially important for cloud-based service quality of service support. This is especially important in a multi-cloud environment in which there is a need for visibility and control for hybrid networks involving centralized cloud and edge computing equipment as well as a combination of public, private, and hybrid cloud infrastructure.
It is important to note that SD-WAN is not only for network operators as it has also become the go-to platform for deploying and managing new enterprise network services. In fact, leading communications service providers offer SD-WAN services to enterprises on a managed service basis. Carriers espouse this approach as less risky for the enterprise including the ability to ramp-up costs as their network needs dictate. The initial wave of enterprise SD-WAN spending was a result of direct purchase from SD-WAN networking vendors, which places an onus upon enterprises to manage their own networks to some degree.
Accordingly, the majority of enterprise organizations are considering SD-WAN with plans towards utilizing solutions in a managed service environment. However, there remains a large proportion of enterprises that still rely upon MPLS. Those remaining are considering strategies to wean their dependency including limiting MPLS only to areas with infrastructure limitations, throttling traffic to data centers that still use MPLS, and other tactics. Enterprise hold-outs acknowledge that MPLS provides its existing quality of service needs for their buildings, campus networks, and metro Ethernet services.
CSPs offering SD-WAN managed services to enterprise include Aryaka Networks, ASCO TLC, AT&T, BCM One, BCN Telecom, BT Global Services, BullsEye Telecom, CenturyLink, China Mobile, China Telecom Global, CMC Networks, Colt, Comcast Business, Consolidated Communications, Epsilon, Exponential-e, Frontier Communications, GeoLinks, Globe Telecom, GTT, Hutchison Global Communications, Internet Solutions, Kalaam Telecom, KDDI, Level 3, Macquarie Telecom, Masergy, MegaPath, MetTel, NetFortris, NetOne Systems, NTT Communications, Optus Business, Orange Business Services, PCCW Global, PLDT, Sify, SingTel, SK Broadband, Softbank, Telia Carrier, Spectrotel, Sprint, Tata Communications, Telefonica, TelePacific, Telstra, Telus, T-Systems, Vector Security Networks, Verizon, Viettel, Virgin Media, Vodafone, Vonage, Windstream, and Zayo.
Some CSPs rely upon existing enterprise relationships (e.g. already provide enterprise networking services such as MPLS), while others position themselves with a more unique value proposition. For example, Aryaka announced its "HybridWAN" solution to provide enterprise customers with the flexibility to run whatever applications over any architecture. This is part of the dominant trend of enterprise organization migration from leased-lines and legacy technologies to a hybrid infrastructure that involves both MPLS and SD-WAN. The company positions this solution approach as ideal for reducing complexity in hybrid networks that must simultaneously deal with application optimization, connectivity, security issues, and multi-cloud access. While many CSPs provide SD-WAN managed services based on infrastructure from market leaders such as Cisco/Viptela, Silver Peak, Versa Networks, and VMware/VeloCloud, some utilize their own internally developed technologies.
One of the core drivers for growth in SD-WAN for enterprise is simple equipment upgrades. For example, SD-WAN is anticipated to continue to benefit from enterprise router replacement. Other drivers include the need to support an increasingly mobile and remote workforce as well as general network operations rationalization. In the case of remote workers, small offices, and SMBs, compact appliances are the targeted low-cost offering by leading vendors, although many customers are still vying for traditional-sized SD-WAN equipment.
In terms of the future direction of SD-WAN, we anticipate that it will become the go-to means for managing networking and security for a wide range of applications, services, and solutions including LTE, 5G, and Internet of Things (IoT) networks. For an enterprise, SD-WAN may be used to provide greater reliability through a variety of strategies such as provisioning LTE and/or 5G as a back-up in a fail-over scenario. With some companies making plans to launch a large number of LEO satellites for communications, satellite broad represents yet another point of integration for the SD-WAN market.
In the case of IoT, there are many device end-points, ranging from communication modules to consumer gear such as smartphones, wearables, and laptops. SD-WAN will ultimately become the primary means for managing connectivity and security for this many-to-many IoT device environment of the future. As enterprise and industrial segments add massive numbers of IoT-enabled "things", there will be an increasing number of devices for businesses to integrate and manage. Accordingly, simultaneously optimizing network and device resources will be very important in future IoT networks.
Unified Communications (UC) including UC as a Service (UCaaS) and Communications Platform as a Service (CPaaS) represent two additional growth areas for the SD-WAN market. UCaaS represents a platform and/or services upon which an enterprise can manage communication services in a seamless fashion. CPaaS is part of a broader ICT landscape, which includes telecom APIs, CPaaS enabled services, UCaaS, call center as a service, instant authentication and trust ratings, conversational CRM and automated agents, WebRTC, and more. By way of example, Adaptiv provides SD-WAN to SkySwitch UCaaS customers in a manner in which the company is working with managed service providers on a white-label basis. This represents another example of how the SD-WAN managed services approach is viewed as superior to directly to the enterprise.
Almost every form of network infrastructure or service must consider cybersecurity from the ground up and SD-WAN is not an exception. Not surprisingly, leading equipment providers and managed services companies are partnering with firewalls and security vendors to integrate cybersecurity into SD-WAN offerings. By way of example, Fortinet offers SD-WAN ASIC to secure the edge of WAN. The FortiGate 100F Next-Generation Firewall powered by the new SoC4 SD-WAN ASIC combines SD-WAN functionalities with advanced security into one single offering.
It is important to note that ensuring security in an SD-WAN environment is not a technology-led development but rather a market-driven need as enterprise leaders place improved security at the top of their list for SD-WAN deployment drivers followed by network management optimization and operational cost reduction respectively. One of the most important triggers for enterprise upgrade to SD-WAN is simply router upgrades. Upgrading to new router infrastructure provides the impetus for moving at least a portion of network operations to SD-WAN, which in turn will also allow for a comparative measure of benefits, justifying additional future upgrades.
In terms of SD-WAN standardization, MEF published the industry's first global SD-WAN standard, SD-WAN Service Attributes and Services (MEF 70), to help accelerate market growth. It describes requirements for an application-aware, over-the-top WAN connectivity service that uses policies to determine how application flows are directed over multiple underlay networks. Among other areas, MEF 70 describes SD-WAN as a service instead of detailing the underlying protocol level, places SD-WAN into context with its LSO Reference Architecture view of the world, and provides an LSO API for SD-WAN. Many vendors do not fully comply with MEF's recently published SD-WAN specifications.
As vendors struggle for market share, there does not appear to be great interest in standardizing certain functions as suppliers instead focus upon their respective company positioning in terms of solution performance and feature richness such as multiple VPN and/or VRF and zero-touch provisioning. In this regard, leaders such as Cisco/Viptela, Nuage Networks, VMware/VeloCloud, and Silver Peak fight to preserve their market position versus challengers such as Aruba Networks, Huawei, Fortinet, and Versa. As the SD-WAN market is fast-growing, it is also attractive to competition from smaller players. By way of example, Bigleaf Networks has recently raised a $21 million Series B round of funding led by Updata Partners. This company positions itself to focus more on the underserved SMB SD-WAN market.
MEF also offers an SD-WAN Certified Professional (MEF-SDCP) program. This SD-WAN professional certification is the industry's only exam verifying knowledge, skills, and abilities in the domains of SD-WAN based on the MEF SD-WAN Service Attributes and Services (MEF 70) standard as well as other fundamentals of SD-WAN solutions. This exam is designed for technically-oriented SD-WAN professionals ranging from pre-sales to network/service engineering and operational personnel in the service provider, technology vendor, and enterprise communities. MEF and Spirent have already begun working with an initial group of 7 service providers and technology vendors selected to participate in the MEF 3.0 SD-WAN Certification Pilot Program.
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