市場調查報告書
商品編碼
1453938
到 2030 年的可擴展軟體定義網路市場預測 - 各產品、解決方案、企業類型、最終用戶和地理位置的全球分析Scalable Software Defined Networking Market Forecasts to 2030 - Global Analysis By Product, Solution, Enterprise Type, End User and by Geography |
根據 Stratistics MRC 的數據,2023 年全球可擴展軟體定義網路市場規模為 281.9 億美元,預計到 2030 年將達到 1841.3 億美元,預測期內複合CAGR為 30.75%。 SDN(可擴展軟體定義網路)是一種革命性的網路管理方法,可提高大規模網路基礎架構的適應性、效率和靈活性。與傳統網路架構相比,SDN 將控制平面與底層硬體分離,使集中式可程式控制器能夠即時控制網路資源。此外,管理員可以自動化和協調工作,根據需要分配資源,並在整個網路中統一應用策略,這使得網路基礎設施更具回應性和可擴展性。
根據國際電腦科學與資訊科技協會(IACSIT) 的說法,在快速發展的電腦科學領域中,可擴展軟體定義網路(SDN) 的整合對於滿足網路可擴展性、效率和適應性日益成長的需求變得越來越關鍵和資訊科技。
資料平面和控制平面的分類
控制平面和資料平面的分離是網路架構的根本性變化,也是可擴展的軟體定義網路(SDN)背後的驅動力。這些平面與傳統網路中的網路設備緊密整合,降低了其適應性。 SDN 將它們分開,從而使集中控制成為可能,從而促進了可擴展性。 SDN 透過集中控制網路行為使高效擴展成為可能。此外,這消除了新增或刪除網路設備時繁瑣的手動配置的需要。
實施初期費用
儘管 SDN 具有明顯的長期效益,但其初始實施成本可能構成重大障礙。企業可能需要支付 SDN 控制器的安裝費用、購買適當的硬體費用以及新系統的員工培訓費用。此外,初始支出可能會很困難,特別是對於資源緊張的新創公司或小型企業而言,這可能會阻礙可擴展 SDN 的採用。
提高網路的敏捷性
可擴展的軟體定義網路 (SDN) 提供無與倫比的網路敏捷性,使企業能夠快速回應不斷變化的業務需求。 SDN使得透過可程式介面快速修改網路配置成為可能,更容易整合新的服務和應用。這種靈活性有助於企業適應不斷變化的市場條件,並在需求不斷變化的行業中保持競爭優勢。此外,SDN 的靈活性有助於採用創造性的網路策略,鼓勵網路架構的持續增強和麵向未來。
安全風險和漏洞
集中式控制平面帶來的更大的攻擊面和安全缺陷是可擴展軟體定義網路(SDN)的主要風險之一。潛在的危險包括未經授權闖入控制平面、對SDN控制器發動惡意攻擊以及利用可程式介面中的漏洞。安全漏洞可能會導致 SDN 中斷、資料外洩或未經授權的網路策略操縱。此外,為了確保網路基礎設施的可用性、完整性和機密性,隨著SDN採用的增加,必須解決這些安全問題。
COVID-19 大流行對許多不同行業造成了重大干擾,並對全球市場產生了重大影響。經濟的不確定性和收縮是由封鎖、供應鏈中斷和消費者行為的改變所造成的。某些經濟領域,如科技和電子商務,成長速度快於其他領域;這些行業包括旅遊、住宿和傳統零售。這場大流行使彈性和適應性變得更加重要,從而促使了對商業模式的重新評估並加速了眾多行業的數位轉型。
營運支援系統和業務支援系統(OSS/BSS)部分預計在預測期內將是最大的
在市場上,營運支援系統和業務支援系統(OSS/BSS)領域擁有最大的市場佔有率。在電信領域,OSS 和 BSS 是監督和促進網路營運和業務流程的基本要素。 OSS/BSS 中的 SDN 集中化和自動化透過處理網路配置、計費和服務保證等關鍵任務來提高電信網路的整體效能和靈活性。 OSS/BSS 中的 SDN 可實現更有效率的網路管理、動態資源分配和增強的客戶體驗。此外,透過將SDN技術整合到OSS/BSS中,電信業者可以最佳化營運、削減成本並更快地對不斷變化的市場需求做出反應。
預計雲端服務供應商區隔市場在預測期內的複合CAGR最高
可擴展軟體定義網路 (SDN) 市場CAGR最高的是雲端服務供應商領域。隨著雲端運算繼續統治現代 IT 場景,雲端服務供應商越來越依賴 SDN 來提高其基礎設施的靈活性、可擴展性和效率。借助 SDN,這些供應商可以最佳化網路效能、動態分配和管理資源,並快速適應不斷變化的用戶需求。此外,由於SDN技術的整合,雲端服務供應商現在可以提供更個人化和響應更快的服務,以滿足最終用戶和企業不斷變化的需求。
預計北美地區將在可擴展軟體定義網路(SDN)領域佔據最大的市場佔有率。該領域一直處於技術發展的最前沿,並且業界廣泛採用 SDN 解決方案。北美在該市場的主導地位可歸因於重要的技術公司、研究機構和成熟的 IT 基礎設施的存在。此外,該地區的企業對 SDN 基礎設施進行了大量投資,希望提高網路的效率、靈活性和安全性。
亞太地區 (APAC) 是可擴展軟體定義網路 (SDN) 市場中CAGR最高的地區。亞太地區經濟快速擴張、數位轉型以及各產業對尖端技術的使用不斷增加。為了滿足該地區不斷成長的網路需求,由於該地區人口眾多且 IT 基礎設施不斷成長,因此對可擴展的 SDN 解決方案的需求量很大。此外,包括中國和印度在內的亞太新興經濟體在網路基礎設施現代化方面的大量投資也推動了SDN技術的採用。
2023 年 11 月,惠普企業 (HPE) 宣布擴大與 Nvidia (NVDA) 的合作,以擴大其在產生人工智慧 (AI) 領域的影響力。該公司表示,該協議將有助於創建所謂的下一系列人工智慧原生和混合雲端產品。該公司表示,這些產品將結合慧與的混合雲端、超級運算和人工智慧/機器學習軟體,使組織能夠成為人工智慧驅動的企業。
2023 年 7 月,戴爾科技集團宣布簽署最終協議,收購 Moogsoft。Moogsoft 是一家人工智慧驅動的智慧監控解決方案供應商,支援 DevOps 和 ITOps。這項交易將進一步增強戴爾的 AIOps 能力,作為其將人工智慧功能嵌入其產品組合的長期方法的一部分,並作為其多雲設計策略的關鍵組成部分。
2023 年 6 月,IBM 宣布與 Vista Equity Partners 達成最終協議,以 46 億美元收購財務和營運 IT 管理與最佳化 (FinOps) 軟體領域的領導者 Apptio Inc.。收購 Apptio 將加速 IBM IT 自動化能力的進步,並使企業領導者能夠透過技術投資提供更高的業務價值。
According to Stratistics MRC, the Global Scalable Software Defined Networking Market is accounted for $28.19 billion in 2023 and is expected to reach $184.13 billion by 2030 growing at a CAGR of 30.75% during the forecast period. SDN, or scalable software-defined networking, is a revolutionary method of network administration that improves large-scale network infrastructures adaptability, efficiency, and flexibility. SDN, in contrast to conventional network architectures, separates the control plane from the underlying hardware, enabling centralized programmable controllers to control network resources on-the-fly. Moreover, administrators can automate and coordinate work, assign resources as needed, and apply policies uniformly throughout the network thanks to this division, which makes the network infrastructure more responsive and scalable.
According to the International Association of Computer Science and Information Technology (IACSIT), the integration of Scalable Software Defined Networking (SDN) has become increasingly pivotal in addressing the growing demands for network scalability, efficiency, and adaptability in the rapidly evolving landscape of computer science and information technology.
Division of data and control planes
The separation of control and data planes, which is a fundamental change in network architecture, is the driving force behind scalable software-defined networking, or SDN. These planes are closely integrated into network devices in conventional networks, which reduce their adaptability. Scalability is encouraged by the centralized control made possible by SDN's separation of them. SDN makes efficient scaling possible by centrally controlling network behavior. Furthermore, this eliminates the need for laborious manual configurations when adding or removing network devices.
Initial expenses of implementation
The initial implementation costs of SDN can pose a significant obstacle, despite its apparent long-term benefits. Businesses might have to pay for the installation of SDN controllers, the purchase of appropriate hardware, and employee training for the new system. Additionally, the initial outlay may be difficult, especially for startups or smaller businesses with tighter resources, which could impede the uptake of scalable SDN.
Improved agility of the network
Scalable Software-Defined Networking (SDN) provides unparalleled network agility, enabling enterprises to react quickly to changing business requirements. SDN makes it possible to quickly modify network configurations through programmable interfaces, which makes it easier to integrate new services and applications. This flexibility helps businesses adapt to changing market conditions and stay ahead of the competition in sectors where demands are constantly changing. Moreover, the flexibility of SDN facilitates the adoption of creative networking tactics, encouraging ongoing enhancement and future-proofing of the network architecture.
Security risks and vulnerabilities
The greater attack surface and security flaws brought about by the centralized control plane are among the main risks to scalable Software Defined Networking (SDN). Potential dangers include breaking into the control plane without authorization, launching malicious assaults on SDN controllers, and taking advantage of holes in the programmable interfaces. SDN disruptions, data leaks, or unauthorized network policy manipulation could result from security breaches. Furthermore, in order to guarantee the availability, integrity, and confidentiality of the network infrastructure, it is imperative that these security issues are addressed as SDN adoption increases.
The COVID-19 pandemic has caused significant disruptions in a number of different sectors and has had a significant impact on global markets. Uncertainties and contractions in the economy have resulted from lockdowns, disruptions in the supply chain, and changes in consumer behaviour. Certain sectors of the economy, like technology and e-commerce, grew more quickly than others; these sectors included travel, lodging, and traditional retail. The pandemic made resilience and adaptability even more crucial, which led to a reassessment of business models and an acceleration of the digital transformation across numerous industries.
The Operation Support System and Business Support System (OSS/BSS) segment is expected to be the largest during the forecast period
In the market, the Operation Support System and Business Support System (OSS/BSS) segment has the largest market share. In the telecommunications sector, OSS and BSS are essential elements that oversee and facilitate network operations and business procedures. SDN centralization and automation in OSS/BSS improve the overall performance and nimbleness of telecom networks by handling critical tasks like network provisioning, billing, and service assurance. SDN in OSS/BSS enables more efficient network management, dynamic resource allocation, and an enhanced customer experience. Moreover, telecom operators can optimize their operations, cut costs, and react faster to shifting market demands by integrating SDN technologies into OSS/BSS.
The Cloud Service Providers segment is expected to have the highest CAGR during the forecast period
The Scalable Software Defined Networking (SDN) market's highest CAGR is seen in the Cloud Service Providers segment. Cloud service providers are depending more and more on SDN to improve the flexibility, scalability, and efficiency of their infrastructure as cloud computing continues to rule the modern IT scene. These providers can optimize network performance, allocate and manage resources dynamically, and quickly adjust to changing user demands thanks to SDN. Additionally, cloud service providers can now provide more personalized and responsive services to meet the changing needs of end users and businesses, thanks to the integration of SDN technologies.
The North American region is anticipated to hold the largest market share in the Scalable Software Defined Networking (SDN) sector. This area has been at the forefront of technological development and has seen a large industry adoption of SDN solutions. The dominance of North America in this market can be attributed to the existence of significant technology companies, research institutions, and an established IT infrastructure. Furthermore, the region has seen significant investments in SDN infrastructure from businesses looking to improve the efficiency, flexibility, and security of their networks.
The Asia-Pacific (APAC) region has the highest CAGR in the market for scalable software-defined networking, or SDN. Rapid economic expansion, digital transformation, and a rise in the use of cutting-edge technologies across a range of industries have all been observed in APAC. In order to meet the region's increasing networking needs, scalable SDN solutions are in high demand due to the region's large population and growing IT infrastructure. Moreover, the adoption of SDN technologies has been fueled by significant investments made by emerging economies in Asia-Pacific, including China and India, in modernizing their network infrastructure.
Key players in the market
Some of the key players in Scalable Software Defined Networking market include Dell Technologies Inc., Hewlett Packard Enterprise Company, IBM Corporation, Juniper Networks, Inc., NEC Corporation, Arista Networks Inc., Intel Corporation, Pluribus Networks Inc., Cisco Systems, Inc., Huawei Technologies Co., Ltd., Nokia Corporation and Cumulus Networks, Inc.
In November 2023, Hewlett Packard Enterprise (HPE) announced it's extending collaboration with Nvidia (NVDA) to boost its reach into generative artificial intelligence (AI). The company said the agreement will help create what it called the next series of AI-native and hybrid cloud offerings. The products will combine HPE's hybrid cloud, supercomputing, and AI/machine learning software to enable organizations to become AI-powered businesses, the company said.
In July 2023, Dell Technologies announced that it has signed a definitive agreement to acquire Moogsoft, an AI-driven provider of intelligent monitoring solutions that support DevOps and ITOps. This transaction will further enhance Dell's AIOps capabilities, as part of its longstanding approach of embedding AI functionality within its product portfolio and as a critical component of its multicloud by design strategy.
In June 2023, IBM announced that it has entered into a definitive agreement with Vista Equity Partners to purchase Apptio Inc., a leader in financial and operational IT management and optimization (FinOps) software, for $4.6 billion. The acquisition of Apptio will accelerate the advancement of IBM's IT automation capabilities and enable enterprise leaders to deliver enhanced business value across technology investments.
Note: Tables for North America, Europe, APAC, South America, and Middle East & Africa Regions are also represented in the same manner as above.