Ethernet Switch Market By Product Type (Managed, Unmanaged, Smart); By Application (Data Centers, Enterprises, Telecom Networks, Industrial Networks); By End User (Telecom Operators, Enterprises, Cloud Providers, SMBs); By Geography, Segment Revenue Estimation, Forecast, 2024–2030

Introduction And Strategic Context

The Global Ethernet Switch Market is poised for substantial growth from USD 18.5 billion in 2024 to USD 27.2 billion by 2030 , registering a CAGR of 6.8% over the forecast period, confirms Strategic Market Research. This growth reflects the increasing demand for high-speed networking solutions to support data-heavy applications, particularly within cloud computing, data centers , and enterprises embracing the Internet of Things (IoT).

 

The Ethernet switch is a key device in any network, responsible for directing traffic between devices connected to a local area network (LAN). As businesses and data centers expand, the need for efficient and high-performance switches is on the rise. Additionally, technological developments such as the move toward 5G, AI, and edge computing further amplify the demand for faster, more secure, and scalable networking solutions.

 

The market is heavily influenced by macro forces such as:

• Technological advancements in switch performance, integration with cloud services, and AI-based network management.

• Regulatory frameworks driving network security and standardization in both private and public sectors.

• Increasing data traffic due to video streaming, online gaming, IoT, and industrial applications, which require seamless, high-speed communication between devices.

Key stakeholders include Original Equipment Manufacturers (OEMs) producing Ethernet switches, network service providers, cloud infrastructure companies, telecom operators, and enterprises integrating Ethernet switches into their network architecture.

 

Market Segmentation And Forecast Scope

The Ethernet switch market is segmented across several dimensions, with each segment responding to specific technological needs and regional growth patterns. These segments include product type, application, end-user, and region.

By Product Type

• Managed Ethernet Switches : These switches offer advanced features such as network management, configuration, and monitoring capabilities. Managed switches are preferred for complex, high-traffic environments like data centers and large enterprises. They are projected to contribute 58% of the market share in 2024 and continue to grow due to their scalability and flexibility.

• Unmanaged Ethernet Switches : Generally used in smaller, less complex networks, unmanaged switches are simpler and cost-effective. They account for about 42% of the market share in 2024. While their growth is slower, they will continue to be a staple in smaller businesses and consumer applications.

• Smart Ethernet Switches : These are a hybrid between managed and unmanaged switches, offering some configuration options but without the full management capabilities. They are expected to see the fastest growth, particularly in industries that are transitioning from basic to more integrated networking solutions.

 

By Application

• Data Centers : The largest application segment, driven by the exponential growth in data storage, processing, and cloud computing. Data centers will account for 45% of the total market value in 2024 and continue to grow as businesses increase their reliance on cloud platforms.

• Enterprises and Small Businesses : As companies expand their networks to handle growing data traffic, Ethernet switches are essential. This segment will grow steadily and is expected to represent 25% of the market in 2024.

• Telecommunication Networks : As 5G networks roll out globally, the demand for high-performance Ethernet switches for telecom applications is expected to rise sharply. This sector is forecasted to contribute 18% of the market in 2024.

• Industrial Networks and IoT : The rise of IoT, particularly in manufacturing, smart cities, and logistics, will push Ethernet switch usage in industrial applications. This segment is expected to grow at a CAGR of 8.2% over the forecast period, driven by automation and machine-to-machine communication.

 

By End User

• Telecom Operators : With the increasing deployment of 5G and fiber -optic networks, telecom operators are significant consumers of high-performance Ethernet switches. This segment will account for 30% of the total market share in 2024.

• Enterprise and SMBs : Small and medium-sized businesses, as well as large enterprises, represent a large portion of the demand. Ethernet switches are essential for their growing networking needs. This segment is projected to capture 32% of the market share in 2024.

• Government and Public Sector : With growing demand for secure and reliable communications, the public sector is increasingly adopting Ethernet switches for their networks. This segment will contribute around 15% of the market value in 2024.

• Cloud Providers : The rising demand for cloud services will push Ethernet switch adoption in cloud data centers . This segment will represent 23% of the market in 2024, with strong growth expected as cloud infrastructure expands.

 

By Region

• North America : North America leads the Ethernet switch market due to its high concentration of data centers , telecom operators, and enterprises adopting advanced networking solutions. The region will hold 38% of the global market share in 2024.

• Europe : Europe is the second-largest market, with a strong focus on IoT, automation, and green energy. The region is expected to capture 28% of the market share in 2024, growing steadily as the adoption of 5G and cloud technologies increases.

• Asia-Pacific : Asia-Pacific is projected to exhibit the highest growth rate, driven by rapid industrialization, the expansion of cloud infrastructure, and the adoption of 5G technologies. The region will account for 25% of the market in 2024, with a CAGR of 7.6% over the forecast period.

• LAMEA (Latin America, Middle East, and Africa) : LAMEA remains a developing market, with opportunities emerging in industrial networking and telecom infrastructure. The region will capture 9% of the global market in 2024, with growth expected from government initiatives and industrial applications.

 

Market Trends And Innovation Landscape

The Ethernet switch market is witnessing significant technological advancements and innovations that are transforming how networks are built, operated, and maintained. These trends are driven by the increasing demand for faster data speeds, more reliable network performance, and efficient management across a range of applications.

Key Innovation Trends

• AI-Driven Network Management : As networks grow more complex, AI-powered Ethernet switches are emerging to streamline network management. These smart switches use machine learning algorithms to automatically detect issues, optimize traffic flow, and predict maintenance needs. This trend is particularly relevant in data centers and large enterprise environments, where the scale of operations requires constant monitoring for peak performance.

• High-Speed Ethernet Standards : The rise of 5G, the expansion of cloud services, and the explosion of IoT devices are pushing the demand for Ethernet switches capable of handling faster data speeds. Emerging standards like 400G Ethernet are expected to drive the market for high-speed switches. By 2026, 400G Ethernet switches will become a key component of high-performance data centers and telecom networks. This shift will likely lead to higher demand for more capable and expensive switches, particularly in the data center and telecom sectors.

• Edge Computing and IoT Integration : With the proliferation of IoT devices and edge computing solutions, Ethernet switches are evolving to handle smaller, localized data processing. These switches must manage vast numbers of devices and ensure low-latency communication. The shift towards edge computing is enhancing the market for switches that provide real-time data transmission and processing capabilities at the edge of networks. Ethernet switches designed for IoT and edge computing are anticipated to grow by over 9% annually through 2030.

• Energy-Efficient and Green Networking : The growing focus on sustainability in the technology sector is prompting Ethernet switch manufacturers to develop energy-efficient models that minimize power consumption while maintaining high performance. Energy-efficient Ethernet (EEE) switches reduce electricity usage by automatically entering power-saving modes when traffic is low. This is particularly critical in large data centers and telecom operations, where energy costs are substantial. These switches are projected to account for 20% of total sales by 2026 , driven by demand for greener, more sustainable network infrastructure.

• Software-Defined Networking (SDN) Integration : Ethernet switches are increasingly being integrated into Software-Defined Networking (SDN) architectures, allowing network administrators to manage traffic, security, and network performance dynamically through software. SDN integration simplifies complex network configurations, especially in data-heavy environments. This integration is poised to accelerate the adoption of Ethernet switches in enterprise and data center networks, as businesses strive for greater flexibility and efficiency in their IT infrastructures.

 

Industry Collaborations and Strategic Partnerships

To stay competitive, key players in the Ethernet switch market are forming strategic partnerships and collaborations. For example:

• Cisco Systems and Juniper Networks are focusing on partnerships with telecom operators to develop 5G-ready Ethernet switches that can handle the high throughput and low-latency demands of next-generation networks.

• Arista Networks has partnered with major cloud providers like Amazon Web Services (AWS) to co-develop Ethernet switches optimized for cloud data centers . This collaboration is expected to push innovations in both software and hardware, providing cloud providers with custom-tailored networking solutions.

These strategic partnerships signal a growing trend where innovation is fueled by industry collaborations, ensuring that Ethernet switches remain critical in supporting new and emerging technologies.

 

Future Impact of These Trends

The rise of AI-driven network management, high-speed Ethernet standards, and SDN integration is expected to revolutionize how Ethernet switches operate and are deployed in various industries. In the long term, businesses can expect networks to become more intelligent, efficient, and automated, with Ethernet switches playing a central role in these advancements. The increasing demand for energy-efficient solutions will also likely drive a new wave of product development, aligning with both corporate sustainability goals and regulatory requirements.

 

Competitive Intelligence And Benchmarking

The Ethernet switch market is highly competitive, with several major players dominating the landscape. These companies are continually innovating to meet the growing demands for high-speed networking, network management, and energy efficiency. Below are some of the key companies and their strategies in the Ethernet switch market:

1. Cisco Systems

• Strategy : Cisco remains the market leader in the Ethernet switch segment, known for offering a comprehensive range of switches catering to enterprises, data centers , and telecom applications. Their focus on integrating AI-driven network management and Software-Defined Networking (SDN) into their switches has kept them ahead of the competition.

• Global Reach : Cisco has a strong presence in North America, Europe, and Asia-Pacific, particularly in enterprise and data center segments.

• Product Differentiation : Cisco’s differentiating factor lies in its Catalyst and Nexus series switches, which provide enhanced performance and scalability, especially for cloud and 5G applications.

 

2. Juniper Networks

• Strategy : Juniper Networks has shifted its focus toward high-performance, high-capacity switches , particularly for telecom operators and cloud data centers . They emphasize their ability to scale network infrastructure to meet the growing demands of 5G and cloud computing.

• Global Reach : Juniper is particularly strong in North America and Europe, with growing demand in the Asia-Pacific region.

• Product Differentiation : Juniper’s QFX and EX Series Ethernet switches are known for their automation capabilities and low-latency performance , making them ideal for high-demand environments like telecom and cloud computing.

 

3. Arista Networks

• Strategy : Arista Networks focuses on cloud networking solutions , offering high-capacity, low-latency Ethernet switches that cater specifically to large cloud service providers and data center operators. They have invested heavily in AI and machine learning to optimize network management and performance.

• Global Reach : Arista has a strong presence in the cloud computing market, particularly in North America, but is also expanding its footprint in Asia-Pacific and Europe.

• Product Differentiation : Arista’s EOS (Extensible Operating System) and 7050X series switches provide deep visibility and automation, which is crucial for large-scale data centers and cloud environments.

 

4. Huawei Technologies

• Strategy : Huawei has made significant strides in offering advanced Ethernet switches with integrated 5G readiness and energy-efficient features . Their strategy involves offering competitive pricing along with cutting-edge technology aimed at the telecom and enterprise sectors.

• Global Reach : While Huawei faces restrictions in certain regions like the United States and Europe, it continues to dominate in Asia-Pacific, Africa, and Latin America.

• Product Differentiation : Huawei’s CloudEngine series offers high-performance switches with energy-efficient capabilities, making them a popular choice for telecom providers and large enterprises.

 

5. Hewlett Packard Enterprise (HPE)

• Strategy : HPE has focused on providing integrated network solutions with an emphasis on simplifying operations through automation and cloud management . Their Ethernet switches are particularly attractive to enterprises looking for cost-effective solutions with strong network management capabilities.

• Global Reach : HPE has a solid presence in North America, Europe, and Asia-Pacific, with a growing emphasis on the small-to-medium business (SMB) sector.

• Product Differentiation : HPE’s Aruba Networks line of switches offers cloud-managed networking with a focus on simplicity and cost-effectiveness, which is highly attractive to SMBs and mid-market businesses.

 

6. Dell Technologies

• Strategy : Dell Technologies has been ramping up its Ethernet switch offerings with a focus on enterprise networking and data center applications . Their solutions are designed to integrate seamlessly into hyper-converged infrastructure and software-defined data centers .

• Global Reach : Dell has a global presence, particularly in North America and Europe, where it continues to gain market share in the enterprise sector.

• Product Differentiation : Dell’s S-Series Ethernet switches cater to enterprises looking for high-performance switches that can handle demanding workloads, with a focus on flexible, modular designs that can scale with business growth.

 

Competitive Dynamics

• The market is highly competitive, with companies like Cisco and Juniper leading in high-performance solutions for large enterprises and data centers .

• Arista Networks is positioned as a leader in cloud networking, particularly with its deep integration of AI and network automation .

• Huawei remains a significant player, especially in the Asia-Pacific region, with competitive pricing and high-performance switches tailored for 5G and telecom networks.

• Companies like Dell Technologies and Hewlett Packard Enterprise (HPE) are capitalizing on the growth of hyper-converged infrastructure and cloud-managed networks , targeting enterprise customers and SMBs.

The competitive landscape of the Ethernet switch market is largely shaped by product innovation, global reach, and the ability to meet emerging demands in sectors such as 5G , IoT , and cloud computing .

 

Regional Landscape And Adoption Outlook

The adoption of Ethernet switches varies across regions, driven by technological advancements, economic conditions, and industry-specific demands. The key regions— North America, Europe, Asia-Pacific, and LAMEA —are witnessing different adoption rates and growth trajectories, each shaped by unique drivers.

North America

Adoption Trends : North America holds the largest share of the Ethernet switch market, driven by a concentration of large enterprises, data centers , and telecom operators. The region's demand is fueled by the increasing need for high-speed networks to support the growing adoption of cloud services, big data analytics, and IoT applications. With the rollout of 5G networks , North America is seeing significant investments in telecom infrastructure, which is directly boosting the demand for high-performance Ethernet switches.

Key Growth Drivers :

• Telecom investments in 5G and fiber -optic infrastructure.

• Enterprise adoption of cloud solutions and SDN.

• Regulatory pressures driving secure and efficient network management.

In 2024, North America is expected to account for 38% of the global Ethernet switch market. The U.S. is the primary contributor to this growth, with substantial market demand in sectors like data centers , telecommunications, and enterprises. The CAGR of this region is projected at 6.5% through 2030.

 

Europe

Adoption Trends : Europe is the second-largest region for Ethernet switches, with Germany , the UK , and France being key adopters due to their strong industrial and technology sectors. The region is focused on energy-efficient networking solutions, aligning with broader sustainability goals. European organizations are increasingly adopting SDN and IoT technologies, driving demand for advanced Ethernet switches in both enterprise and industrial sectors.

Key Growth Drivers :

• Sustainability initiatives , with a focus on green networking .

• Regulatory mandates for high security and network efficiency, particularly in financial and industrial sectors.

• Strong investment in cloud computing , IoT , and data centers .

Europe is expected to account for 28% of the market in 2024, with a CAGR of 6.2% . Growth is primarily driven by enterprise digital transformation and the expansion of telecom networks, especially in Northern and Western Europe.

 

Asia-Pacific

Adoption Trends : Asia-Pacific is projected to be the fastest-growing region for Ethernet switches, driven by the rapid digital transformation in countries like China , India , Japan , and South Korea . As these countries scale up their telecom infrastructure , particularly for 5G networks and cloud computing , demand for Ethernet switches is expected to surge. Additionally, industrial IoT and smart manufacturing initiatives are propelling Ethernet switch adoption in sectors like automotive, logistics, and energy.

Key Growth Drivers :

• Rapid 5G deployment and expansion of telecom networks.

• Growing demand for cloud services and big data applications.

• Increased government investments in smart city and industrial automation projects.

Asia-Pacific will capture 25% of the global market share in 2024, and it is expected to grow at the highest CAGR of 7.6% through 2030. The region is particularly ripe for growth in telecom, industrial IoT, and cloud data centers .

 

LAMEA (Latin America, Middle East, and Africa)

Adoption Trends : LAMEA is a more nascent market for Ethernet switches, but it holds significant potential for future growth. The Middle East and Latin America are driving the demand in this region. In Latin America , increasing investments in telecom infrastructure , particularly in countries like Brazil and Argentina , are driving demand. In the Middle East , smart city projects and telecommunications advancements are spurring Ethernet switch adoption.

Key Growth Drivers :

• Government initiatives for smart cities and telecom infrastructure development.

• Rising demand for cloud computing and IoT solutions.

• Increasing foreign investments in telecom networks and data centers .

LAMEA is expected to capture 9% of the global market in 2024, with a CAGR of 6.3% . This growth will be particularly noticeable in the Middle East and parts of Africa, where there is a push for modernization of telecom networks and smart infrastructure projects.

 

Regional Summary

• North America : Largest market, driven by data centers , telecom, and enterprise adoption.

• Europe : Second-largest, with strong demand for green, energy-efficient networking solutions.

• Asia-Pacific : Fastest-growing, fueled by telecom infrastructure, 5G, and cloud services.

• LAMEA : Developing region with growing investments in smart cities and telecom.

The global demand for Ethernet switches will continue to be shaped by advancements in 5G , cloud services , and IoT applications. As the telecom and cloud industries expand, regions like Asia-Pacific and LAMEA offer significant opportunities for future growth.

 

End-User Dynamics And Use Case

The demand for Ethernet switches is heavily influenced by the varying needs of different end-users. These include telecom operators, large enterprises, data centers , small businesses, and industrial sectors, each leveraging Ethernet switches to meet specific networking requirements. The adoption of Ethernet switches is also shaped by the growing reliance on cloud computing , IoT , 5G networks , and automation in various industries.

End-User Breakdown

• Telecom Operators Telecom operators are among the largest consumers of high-performance Ethernet switches. As 5G networks are rolled out globally, telecom operators need robust, scalable, and low-latency switches to handle the massive increase in data traffic. Ethernet switches support essential functions, such as connecting base stations to core networks and enabling smooth communication between devices. The adoption of 5G and fiber -optic networks is expected to drive the demand for Ethernet switches in this sector.

Use Case Example : A telecom operator in the U.S. is upgrading its infrastructure to support 5G services. By integrating advanced 400G Ethernet switches , the operator is able to enhance the speed, reliability, and capacity of its network, significantly reducing latency for end-users and improving overall network performance.

 

• Data Centers Data centers are among the largest consumers of Ethernet switches due to their requirement for high-capacity, high-speed, and energy-efficient networking solutions. Ethernet switches in data centers facilitate interconnecting servers, routers, storage systems, and external network access. The demand for these switches is further driven by the rising adoption of cloud computing and big data analytics .

Use Case Example : A major cloud service provider in Europe is expanding its data center network to accommodate increasing data traffic from customers using cloud-based storage and computing services. The company adopts Arista Networks’ 100G Ethernet switches , enabling faster data throughput and greater scalability for cloud customers.

 

• Enterprises and Small Businesses Small and medium-sized enterprises (SMBs) and large enterprises also contribute significantly to Ethernet switch adoption. Enterprises rely on Ethernet switches to connect employees, devices, and resources within their local area networks (LAN). As businesses scale, the need for more robust and scalable switches becomes critical. SDN and managed Ethernet switches are particularly attractive to large enterprises seeking better control and monitoring of their network traffic.

Use Case Example : A financial institution in Asia-Pacific adopts managed Ethernet switches to support secure communication between its regional offices and data centers . The company’s IT team benefits from enhanced network monitoring and traffic prioritization, helping to ensure regulatory compliance and improve network security.

 

• Industrial Networks and IoT As IoT devices proliferate across industries like manufacturing, logistics, and energy, Ethernet switches are increasingly being used to handle the high volume of data generated by these connected devices. Industrial Ethernet switches are built to withstand harsh environments and manage communications between devices in smart factories, supply chains, and automation systems. As industries continue to digitize their operations, the demand for Ethernet switches in industrial settings will grow.

Use Case Example : A smart factory in Germany installs industrial Ethernet switches to connect its network of IoT-enabled machines, robots, and sensors. These switches help manage real-time data exchange between machines, allowing for automated processes and reducing downtime.

 

Key Drivers of Adoption

• Cloud Computing : Enterprises, telecom operators, and data centers increasingly rely on Ethernet switches to support cloud infrastructure, driving the adoption of higher-capacity, high-performance switches.

• 5G and Telecom Networks : As telecom operators upgrade to 5G , the need for Ethernet switches that can handle high data throughput and low latency will continue to rise.

• Industrial IoT : Ethernet switches are critical in supporting IoT applications, particularly in industrial automation and smart infrastructure, where reliable data communication is essential for operational efficiency.

• Network Management and SDN : The growing demand for Software-Defined Networking (SDN) solutions drives the adoption of managed and smart Ethernet switches, as they enable network flexibility, central control, and improved security.

The value proposition of Ethernet switches across industries is primarily driven by their ability to support high-speed data transmission , secure communications , scalability , and energy-efficient operations . These attributes are essential for industries seeking to expand their network infrastructure to support next-generation technologies, such as 5G , IoT , and cloud services .

 

Recent Developments + Opportunities & Restraints

Recent Developments (Last 2 Years)

• Cisco Systems – In 2024, Cisco launched an advanced series of 100G Ethernet switches optimized for 5G infrastructure . These switches are designed to offer low latency and high throughput, essential for telecom operators building 5G-ready networks. Cisco also introduced software updates for enhanced AI-driven network management , making their Ethernet switches more adaptive and intelligent.

• Arista Networks – In 2023, Arista Networks expanded its EOS (Extensible Operating System) with new features focused on cloud integration and AI-powered network monitoring . The company also unveiled new 400G Ethernet switches to meet the growing demands of data centers and cloud service providers. These switches promise to enhance the performance and scalability of high-density data center environments.

• Huawei Technologies – In 2024, Huawei introduced an energy-efficient Ethernet switch under its CloudEngine series, focusing on sustainability . The new switches are designed to optimize energy usage in data centers , aligning with growing regulatory demands for energy-efficient networking equipment.

• Juniper Networks – In 2023, Juniper released a next-generation QFX series Ethernet switch, which integrates 5G-ready architecture and supports higher bandwidths. These switches are tailored for both enterprise and telecom networks, offering superior performance for high-capacity, low-latency requirements.

• Hewlett Packard Enterprise (HPE) – HPE launched a series of cloud-managed Ethernet switches in 2023 that enable enterprises to seamlessly integrate their networks with cloud computing environments. These switches offer enhanced security features and simplified network management, catering specifically to small and medium-sized businesses (SMBs).

 

Opportunities

• Emerging 5G Networks : As telecom operators continue to deploy 5G networks , the demand for high-capacity Ethernet switches is set to skyrocket. These switches will be crucial in supporting 5G backhaul networks , ensuring fast and reliable data communication. Ethernet switches that can handle 400G speeds will become essential for the smooth operation of 5G infrastructure.

• Cloud Computing Expansion : The rapid adoption of cloud-based services across industries provides a significant opportunity for Ethernet switch manufacturers. With cloud infrastructure needing scalable, high-performance network solutions, demand for advanced data center switches will rise. Additionally, the integration of Ethernet switches with SDN and cloud management platforms opens new avenues for offering highly adaptable networking solutions.

• Industrial IoT ( IIoT ) Applications : The industrial sector's ongoing push toward automation , smart manufacturing , and connected devices presents substantial growth opportunities for Ethernet switch vendors. Industrial Ethernet switches, designed for robust environments and high-reliability applications, will see a surge in demand as industries invest in IoT infrastructure and smart factory systems .

• Energy-Efficiency Trends : With growing pressure on companies to adopt green technologies , Ethernet switch manufacturers are innovating by creating energy-efficient switches . These solutions will cater to data centers , telecom operators, and enterprises seeking to reduce their carbon footprint and operational costs.

• Expanding Small and Medium Business (SMB) Market : As SMBs digitize their operations and scale their IT infrastructure, there is an emerging market for affordable, high-performance Ethernet switches that support cloud computing and network security without high capital expenditure.

 

Restraints

• High Initial Costs : Advanced Ethernet switches, particularly 100G and 400G models, are expensive. This high upfront cost can be a barrier for small and medium enterprises (SMBs) and developing regions. Despite the clear long-term benefits, these costs could delay adoption, especially in price-sensitive markets.

• Complex Network Integration : As networks become more complex with the introduction of 5G , cloud computing , and IoT , businesses may face challenges integrating new Ethernet switches into existing network infrastructures. The complexity of setting up and managing these advanced switches may deter smaller companies or regions with limited technical expertise from upgrading.

• Shortage of Skilled Workforce : The increasing sophistication of Ethernet switches, especially those used in 5G and cloud environments , requires specialized skills for proper installation, maintenance, and troubleshooting. The global shortage of skilled network engineers could hinder the deployment of advanced Ethernet switching solutions, particularly in emerging markets.

 

7.1. Report Coverage Table

Report Attribute	Details
Forecast Period	2024 – 2030
Market Size Value in 2024	USD 18.5 Billion
Revenue Forecast in 2030	USD 27.2 Billion
Overall Growth Rate	CAGR of 6.8% (2024 – 2030)
Base Year for Estimation	2024
Historical Data	2019 – 2023
Unit	USD Million, CAGR (2024 – 2030)
Segmentation	By Product Type, By Application, By End User, By Geography
By Product Type	Managed, Unmanaged, Smart
By Application	Data Centers, Enterprises, Telecom Networks, Industrial Networks
By End User	Telecom Operators, Enterprises, Cloud Providers, SMBs
By Region	North America, Europe, Asia-Pacific, LAMEA
Country Scope	U.S., UK, Germany, China, India, Japan, Brazil, etc.
Market Drivers	Demand for 5G networks, Cloud adoption, Industrial IoT
Customization Option	Available upon request