Europe Data Center Structured Cabling Market Size, Share, and Trends Analysis Report – Industry Overview and Forecast to 2032

Data Center Structured Cabling Market Analysis

Europe data center structured cabling market has experienced significant growth due to the increasing demand for high-speed, reliable, and scalable network infrastructure across various industries. This market offers a wide range of products and solutions, including copper and fiber optic cables, patch cables, fiber pigtails, and connectivity systems, all designed to optimize data transfer, enhance performance, and reduce operational costs. Key applications span industries such as cloud computing, telecommunications, IT services, healthcare, and financial institutions. The continued adoption of digital transformation, data storage solutions, and the expansion of cloud services are propelling the demand for advanced structured cabling systems. Additionally, the growing need for energy-efficient and secure network infrastructure is driving innovations in data center technologies, ensuring the ongoing evolution of the market.

Data Center Structured Cabling Market Size

Europe data center structured cabling market size was valued at USD 3.56 billion in 2024 and is projected to reach USD 6.77 billion by 2032, with a CAGR of 8.5% during the forecast period of 2025 to 2032. In addition to the market insights such as market value, growth rate, market segments, geographical coverage, market players, and market scenario, the market report curated by the Data Bridge Market Research team includes in-depth expert analysis, import/export analysis, pricing analysis, production consumption analysis, and PESTLE analysis.

Data Center Structured Cabling Market Trends

"Increasing Adoption of High-Speed and High-Density Cabling Solutions"

The data center structured cabling market is experiencing a shift towards high-speed and high-density solutions, driven by the growing demand for faster data transmission and increased network performance. With the proliferation of technologies such as 5G, cloud computing, and artificial intelligence, data centers require more robust and efficient cabling systems that can handle large volumes of data with minimal latency. Fiber optic cabling, in particular, is gaining traction due to its ability to support higher bandwidth and longer transmission distances. Additionally, the push for energy-efficient infrastructure is influencing the design of structured cabling systems, with an increasing emphasis on solutions that reduce power consumption while maintaining optimal performance. These trends are shaping the future of the data center structured cabling market, as companies strive to meet the evolving demands of the digital age.

Report Scope and Data Center Structured Cabling Market Segmentation         

Data Center Structured Cabling Market Definition

Data center structured cabling refers to the system of cables, connectors, and related infrastructure used to support the connectivity needs within a data center. It involves the organization and installation of both copper and fiber optic cables to establish reliable communication networks, ensuring high-speed data transfer and efficient power distribution across servers, storage systems, and networking equipment. Structured cabling in data centers is designed to optimize performance, scalability, and flexibility, while minimizing downtime and maintenance costs. It plays a crucial role in supporting modern digital services, cloud computing, and big data operations, ensuring businesses can maintain uninterrupted and secure data flow in an increasingly connected world.

Data Center Structured Cabling Market Dynamics

Drivers

• Increasing Adoption of Fiber Optic Cabling for Enhanced Bandwidth And Performance

The increasing adoption of fiber optic cabling in the data center structured cabling market is driven by the growing demand for high-speed data transmission, low latency, and enhanced network reliability. With the rise of cloud computing, AI, IoT, and 5G technologies, data centers require infrastructure capable of handling massive data volumes efficiently. Fiber optic cables offer superior bandwidth and performance compared to traditional copper cabling, making them the preferred choice for hyperscale and colocation data centers. Additionally, advancements in fiber optics, such as single-mode and multi-mode fiber solutions, are further optimizing network efficiency and scalability.

For instance,

In June 2024, According to an article published by HFCL, the growing role of optical fiber in data centers is driven by the need for high-speed, low-latency, and energy-efficient connectivity. With the rise of AI, ML, cloud computing, and 5G, data centers are adopting fiber-rich infrastructure to handle increasing data volumes. The Indian data center market, witnessing rapid growth, is fueling demand for high-density fiber optic cabling to ensure scalability, security, and efficiency. This trend is a key driver for the Data Center Structured Cabling Market, as businesses prioritize enhanced bandwidth and performance to support emerging technologies, shaping the future of structured cabling infrastructure

• Rising Data Traffic and Demand for High-Speed Connectivity

The Europe data center structured cabling market is experiencing significant growth due to the rising data traffic and the increasing demand for high-speed connectivity. As businesses and consumers generate more data than ever before, driven by cloud computing, big data analytics, IoT (Internet of Things), and streaming services, the pressure on data centers to handle and transmit this vast amount of information efficiently has never been greater. To accommodate the exponential rise in data traffic, data centers need high-performance cabling systems that support faster speeds, higher bandwidth, and lower latency. Structured cabling plays a critical role in ensuring that data centers can meet these demands by providing a reliable and scalable infrastructure capable of handling growing data loads while maintaining operational efficiency.

For instance,

In June 2023, NTT Data has launched its Chennai 2 hyperscale data center campus with a 34.8 MW IT load capacity and introduced the MIST subsea cable system, capable of handling 200 TBPS of data. This expansion positions Chennai as a key digital hub, enhancing Europe connectivity and supporting enterprise digital transformation. The development is expected to drive rising data traffic and demand for high-speed connectivity, boosting growth in the data center structured cabling market. As enterprises seek scalable, high-bandwidth, and low-latency infrastructure, the adoption of fiber-optic cabling over traditional copper systems will accelerate, ensuring efficient, high-performance network architectures for cloud computing, AI, and IoT applications

• Increasing Data Center Modernization and Infrastructure Upgrades

The Europe data center structured cabling market is witnessing significant growth due to the increasing focus on data center modernization and infrastructure upgrades. With the rising demand for high-speed data transmission, reduced latency, and enhanced scalability, organizations are transitioning from traditional legacy systems to modern, high-performance cabling solutions. Upgrading to fiber optic cabling, high-density connectivity solutions, and intelligent cable management systems is becoming essential to support emerging technologies like AI, IoT, and cloud computing. Additionally, modernized cabling infrastructure improves energy efficiency, reduces operational costs, and enhances overall data center reliability.

For instance,

In July 2024, Siemens has established a Center of Competence for Data Centers in Chennai, India, to support the growing APAC data center market. Bringing together over 200 experts, the facility will drive innovation in modular and scalable solutions, enhancing efficiency and sustainability. As data centers modernize to manage increasing workloads, Siemens’ focus on power distribution and automation will boost demand for structured cabling, with high-performance fiber optics and advanced cabling solutions playing a key role in accelerating infrastructure upgrades and fueling market growth

Opportunities

• Increasing Investments In Green and Energy-Efficient Data Centers

The growing focus on sustainability and energy efficiency is driving increased investments in green data centers, creating significant opportunities in the data center structured cabling market. Companies are prioritizing energy-efficient infrastructure to reduce carbon footprints and operational costs. Structured cabling plays a crucial role in these efforts by enabling optimized airflow, reducing power consumption, and supporting high-density, scalable networks. As organizations transition to greener operations, the demand for advanced cabling solutions that enhance energy efficiency and network performance continues to rise.

Furthermore, government regulations and corporate sustainability goals are accelerating the adoption of eco-friendly data centers, further boosting the structured cabling market. Innovations such as low-loss fiber optic cabling, high-efficiency cable management, and intelligent monitoring systems are becoming essential for modern facilities. Data center operators are also leveraging structured cabling to integrate renewable energy sources and smart cooling systems, ensuring long-term sustainability and cost-effectiveness. This trend presents a lucrative opportunity for cabling manufacturers and service providers to offer cutting-edge, environmentally responsible solutions tailored to the evolving needs of the data center industry.

For instance,

• In October 2024, According to the article published by McKinsey & Company, the increasing demand for data centers and rising investment in the sector are fueling opportunities in sustainable energy, advanced cooling technologies, and edge computing. As the industry shifts towards green and energy-efficient data centers, there is a growing need for structured cabling solutions that enhance energy efficiency, support high power demands, and improve cooling capabilities. This trend is driving investments across the data center value chain, particularly in technologies that align with sustainability goals and regulatory requirements while optimizing performance and reducing environmental impact.

Rising Integration of Smart Cable Management Systems for Improved Efficiency

The rising integration of smart cable management systems is transforming the data center structured cabling market, enhancing efficiency, scalability, and operational reliability. As data centers expand to meet increasing digital demands, managing complex cabling networks becomes more challenging. Smart cable management solutions, equipped with real-time monitoring, automated tracking, and intelligent routing capabilities, enable data centers to reduce downtime, optimize airflow, and improve maintenance efficiency. These systems help identify cable faults, prevent overheating, and ensure proper organization, leading to enhanced performance and reduced operational costs.

Moreover, the adoption of AI-driven and IoT-enabled cable management solutions is further driving efficiency in data centers. These technologies provide predictive maintenance insights, remote troubleshooting, and automated cable adjustments, minimizing human intervention and enhancing sustainability. As businesses prioritize high-density cabling infrastructures and energy-efficient operations, the demand for advanced smart cable management solutions is expected to rise. This presents significant growth opportunities for structured cabling providers to develop innovative, automated, and scalable solutions tailored to modern data center needs.

For instance,

• In June 2022, According to the article published by Sunbird Software, Inc., proper data center cabling management is crucial for efficiency, with structured cabling offering significant advantages over unstructured cabling. The article highlights best practices, industry standards, and key considerations such as cable labeling, airflow management, and the use of patch panels and DCIM software. The growing adoption of smart cable management systems, including advanced DCIM software, automated labeling, and intelligent monitoring, is creating new opportunities in the structured cabling market by improving efficiency, reducing downtime, and optimizing capacity planning. As data centers expand, real-time tracking, predictive maintenance, and seamless scalability will drive further demand for structured cabling integrated with smart technologies

Growing Demand for High-Density Cabling Solutions in Hyperscale Data Centers

The growing demand for high-density cabling solutions in hyperscale data centers is a key opportunity driving the data center structured cabling market. As hyperscale data centers continue to expand to accommodate the increasing volume of data generated by industries like cloud computing, AI, and IoT, the need for more efficient, high-capacity cabling systems becomes critical. High-density cabling solutions allow data centers to maximize available space by packing more connections into a smaller area, enabling them to handle larger data loads without sacrificing performance or increasing operational costs. This is particularly important as hyperscale data centers aim to support increasingly complex and bandwidth-intensive applications while maintaining scalability for future growth.

Moreover, the push for higher data processing capabilities and faster network speeds in hyperscale data centers presents significant growth opportunities for structured cabling providers. High-density cabling solutions, including advanced fiber optic systems, are essential for meeting the bandwidth demands of these facilities. These solutions enable hyperscale operators to streamline their infrastructure, reduce cable congestion, and optimize power and cooling efficiency. As the trend toward larger, more powerful data centers continues, the demand for high-density cabling systems is expected to rise, driving innovation and opening up new avenues for companies offering scalable, high-performance cabling solutions.

For instance,

• In August 2024, according to the article published by Angel One, HFCL introduced its advanced IBR cables and a record-breaking Nano Thin microcable at ISE EXPO 2024, offering high-density, lightweight, and installer-friendly optical fibre solutions for faster deployment and enhanced network performance in North America. As hyperscale data centers face increasing bandwidth demands, HFCL’s compact, high-fibre-count designs optimize space, accelerate installation, and improve network efficiency, supporting seamless connectivity for cloud computing, AI workloads, and 5G expansion.

Restraints

• Risk of Network Interruptions due to Improper Cabling Design and Installation

The increasing complexity of data center networks, driven by AI, IoT, and edge computing, makes proper cabling design and installation crucial for ensuring seamless operations. However, improper cabling layouts, poor cable management, and substandard installation practices can lead to network congestion, signal loss, and latency issues. These inefficiencies not only affect data transmission speeds but also increase the risk of system failures, leading to costly downtime and disruptions in mission-critical applications.

For instance,

• In March 2024, according to an article published by MarTech Outlook, cabling network disruptions often stem from environmental factors such as overheating and water intrusion. These issues highlight the risk of network interruptions due to improper cabling design and installation in data centers. Neglecting to account for environmental conditions can lead to cable damage, resulting in network downtime and compromised performance. This underscores the importance of implementing robust cabling designs and adhering to stringent installation practices to ensure network reliability

Limited Availability of Skilled Workforce for Structured Cabling Installation

The limited availability of a skilled workforce for structured cabling installation poses a significant restraint on the data center structured cabling market. As data centers expand to support increasing digital transformation, the demand for certified professionals who can design, install, and maintain structured cabling systems has surged. However, the industry faces a shortage of trained technicians proficient in handling complex cabling infrastructures, including fiber optics and high-speed connectivity solutions. This shortage leads to installation delays, suboptimal network performance, and increased operational costs due to errors or rework.

Furthermore, the lack of specialized training programs and certification requirements in many regions exacerbates the workforce gap. As data centers adopt emerging technologies like AI, IoT, and edge computing, the need for skilled professionals with expertise in high-density cabling systems becomes even more critical. Without sufficient training and upskilling initiatives, data center operators may struggle to meet the growing demand for robust and scalable network infrastructure, limiting expansion and overall efficiency in an increasingly data-driven world..

For instance,

• In September 2024, according to the article published by Questex LLC, the shortage of skilled fiber splicers and networking professionals is reshaping data center construction, driving the adoption of plug-and-play fiber solutions and offsite assembly to mitigate labor constraints. Competition for fiber splicers between data centers and broadband expansion further strains workforce availability, posing a significant challenge for the structured cabling market. This labor shortage slows deployment, increases installation costs, and forces reliance on pre-assembled solutions, which may not always be ideal for complex network setups, making it harder for data center operators to secure the necessary talent for large-scale projects

Challenges

• Challenges in Integrating New Cabling Technologies with Legacy Systems

Integrating new cabling technologies with legacy systems in data centers presents significant challenges, primarily due to compatibility issues and infrastructure constraints. Traditional data centers often rely on older cabling standards that may not support the higher bandwidth, lower latency, and greater scalability required by modern high-density fiber solutions. Upgrading to advanced cabling, such as high-fiber-count microcables or intermittently bonded ribbon (IBR) cables, requires careful planning to ensure seamless interoperability with existing network infrastructure. Additionally, differences in connector types, transmission speeds, and cable management architectures can create bottlenecks, increasing both transition complexity and costs.

Moreover, data center operators must balance the need for future-ready cabling solutions with the financial and operational constraints of replacing or retrofitting legacy systems. Downtime during upgrades can disrupt critical workloads, making a phased implementation strategy essential. Proper training for IT and network teams is also crucial to managing hybrid cabling environments effectively. Without standardized approaches to integrating new cabling technologies, data centers may face inefficiencies, higher maintenance costs, and potential performance bottlenecks, ultimately impacting overall network reliability and scalability.

For instance,

• In April 2024, according to the article published by RIAM Enterprises, designing structured cabling systems in historical buildings and heritage sites requires a delicate balance between modern connectivity needs and architectural preservation. The article highlights best practices, methodologies, and case studies showcasing successful implementations. Integrating new cabling technologies with legacy infrastructure in these sites poses a significant challenge for the data center structured cabling market due to thick stone walls, intricate designs, and strict preservation regulations. Traditional cabling methods are often impractical, necessitating innovative, non-invasive techniques and specialized equipment to ensure high-speed connectivity while adhering to conservation guidelines, ultimately increasing complexity and costs.

This market report provides details of new recent developments, trade regulations, import-export analysis, production analysis, value chain optimization, market share, impact of domestic and localized market players, analyses opportunities in terms of emerging revenue pockets, changes in market regulations, strategic market growth analysis, market size, category market growths, application niches and dominance, product approvals, product launches, geographic expansions, technological innovations in the market. To gain more info on the market contact Data Bridge Market Research for an Analyst Brief, our team will help you take an informed market decision to achieve market growth.

Data Center Structured Cabling Market Scope

The market is segmented into five notable segments based on the component, network type, enterprise size, data rate, and end use. The growth amongst these segments will help you analyze meagre growth segments in the industries and provide the users with a valuable market overview and market insights to help them make strategic decisions for identifying core market applications.

Component

• Hardware
  • Fiber Optics Cables
    • Single-Mode Fiber (SMF)
    • Multi-Mode Fiber (MMF)
      • Om4 Multi-Mode Fiber
      • Om5 Multi-Mode Fiber
      • Duplex Fiber Solution
    • Mpo/Mtp Connectivity Solution
    • Duplex Fiber Solution
  • Copper Cabling (For Legacy System)
    • Cat6a
    • Cat6
    • Cat7
    • Cat5e
  • Patch Cords & Cable Assembles
  • Patch Panels & Cross Connectors
  • Racks & Cabinets
• Software
  • Data Center Infrastructure Management (Dcim)
  • Cable Management Software
• Services
  • Professional Services
    • Installation & Consultation
    • Maintenance & Support
  • Managed Services

Network Type

• Local Area Network
• Wide Area Network

Enterprise Size

• Large Enterprises
• Small And Medium Enterprises (SMEs)

Data Rate

• 1-10 Gbps
• Above 10 Gbps
• Below 1 Gbps

End Use

• Hyperscalers
  • Hardware
    • Fiber Optics Cables
    • Copper Cabling (For Legacy System)
    • Patch Cords & Cable Assembles
    • Patch Panels & Cross Connectors
    • Racks & Cabinets
  • Software
    • Data Center Infrastructure Management (Dcim)
    • Cable Management Software
  • Services
    • Professional Services
    • Managed Services
• Cloud Service Providers
  • Hardware
    • Fiber Optics Cables
    • Copper Cabling (For Legacy System)
    • Patch Cords & Cable Assembles
    • Patch Panels & Cross Connectors
    • Racks & Cabinets
  • Software
    • Data Center Infrastructure Management (Dcim)
    • Cable Management Software
  • Services
    • Professional Services
    • Managed Services
• It & Telecommunication
  • Hardware
    • Fiber Optics Cables
    • Copper Cabling (For Legacy System)
    • Patch Cords & Cable Assembles
    • Patch Panels & Cross Connectors
    • Racks & Cabinets
  • Software
    • Data Center Infrastructure Management (Dcim)
    • Cable Management Software
  • Services
    • Professional Services
    • Managed Services
• Residental & Commercial
  • Hardware
    • Fiber Optics Cables
    • Copper Cabling (For Legacy System)
    • Patch Cords & Cable Assembles
    • Patch Panels & Cross Connectors
    • Racks & Cabinets
  • Software
    • Data Center Infrastructure Management (Dcim)
    • Cable Management Software
  • Services
    • Professional Services
    • Managed Services
• Transportation
  • Hardware
    • Fiber Optics Cables
    • Copper Cabling (For Legacy System)
    • Patch Cords & Cable Assembles
    • Patch Panels & Cross Connectors
    • Racks & Cabinets
  • Software
    • Data Center Infrastructure Management (Dcim)
    • Cable Management Software
  • Services
    • Professional Services
    • Managed Services
• Government & Education
  • Hardware
    • Fiber Optics Cables
    • Copper Cabling (For Legacy System)
    • Patch Cords & Cable Assembles
    • Patch Panels & Cross Connectors
    • Racks & Cabinets
  • Software
    • Data Center Infrastructure Management (Dcim)
    • Cable Management Software
  • Services
    • Professional Services
    • Managed Services
• Industrial
  • Hardware
    • Fiber Optics Cables
    • Copper Cabling (For Legacy System)
    • Patch Cords & Cable Assembles
    • Patch Panels & Cross Connectors
    • Racks & Cabinets
  • Software
    • Data Center Infrastructure Management (Dcim)
    • Cable Management Software
  • Services
    • Professional Services
    • Managed Services
• Others

Data Center Structured Cabling Market Regional Analysis

The market is segmented into five notable segments on the basis of country, component, network type, enterprise size, data rate, and end use as referenced above.

The countries covered in the market are Germany, U.K., France, Italy, Spain, Russia, Turkey, Netherlands, Norway, Finland, Denmark, Sweden, Poland, Switzerland, Belgium, and rest of Europe.

Germany is expected to dominate the European data center structured cabling market by leveraging its advanced tech infrastructure, heavy investments in modern data centers, and supportive energy efficiency regulations. It adopted cutting-edge technologies like 5G, AI, and IoT that drove high demand for robust cabling solutions. Meanwhile, Poland emerged as the fastest growing market due to rapid digital transformation, lower operational costs, and significant investments in expanding data center capacity.

The country section of the report also provides individual market impacting factors and changes in regulation in the market domestically that impacts the current and future trends of the market. Data points like down-stream and upstream value chain analysis, technical trends and porter's five forces analysis, case studies are some of the pointers used to forecast the market scenario for individual countries. Also, the presence and availability of Europe brands and their challenges faced due to large or scarce competition from local and domestic brands, impact of domestic tariffs and trade routes are considered while providing forecast analysis of the country data.

Data Center Structured Cabling Market Share

The market competitive landscape provides details by competitor. Details included are company overview, company financials, revenue generated, market potential, investment in research and development, new market initiatives, Europe presence, production sites and facilities, production capacities, company strengths and weaknesses, product launch, product width and breadth, application dominance. The above data points provided are only related to the companies' focus related to market.

Data Center Structured Cabling Market Leaders Operating in the Market Are:

• ABB (Switzerland)
• Corning Incorporated (US)
• Schneider Electric (France)
• Broadcom (US)
• Rosenberger-OSI GmbH & Co. OHG (Germany)
• Nexans (France)
• TE Connectivity (Ireland)
• Furukawa Electric Co., Ltd (Japan)
• Molex, LLC (US)
• Belden, Inc (US)
• Panduit Corp (US),
• Leviton Manufacturing Co, Inc (US)
• CommScope (US), Inc
• FS.com, Inc, (US) Siemon (US)
• Sunbird Inc(US)
• CXtec (France), Inc (US)
• Teknon (US)
• Legrand (France)
• DataSpan (US)
• VERSITRON (US)
• 3C3 (India)
• GCabling (Getek Cooperation) (China)
• Hitachi Systems Network Technologies Pte. Ltd (Singapore)

Latest Developments in Data Center Structured Cabling Market

• In December 2024, ABB has acquired Solutions Industry & Building (SIB), a French manufacturer of building products and premium cable glands. This expands ABB’s presence in Europe, the Middle East, and North America while strengthening its cable protection solutions. The acquisition enhances ABB’s data center structured cabling offerings, ensuring greater safety and efficiency in critical infrastructure
• In January 2025, Corning Incorporated released a guide in collaboration with NVIDIA to help data center operators optimize AI data centers using structured cabling strategies. The guide focused on managing the complex cabling needs of AI networks, which require over 10 times more fiber than traditional data centers. Corning highlighted the benefits of structured cabling, such as faster installation, reduced human error, and better scalability for future upgrades like 800G networks. This initiative positioned Corning as a key player in supporting AI infrastructure growth, offering high-density, future-proofed solutions like the EDGE8 products
• In November 2024, Schneider Electric has expanded its Barcelona prefabricated data center factory from 7,000m² to 12,000m² to meet rising demand for AI-driven and modular data center solutions. This growth enhances its production and integration capabilities, strengthening its position in the structured cabling market by enabling faster deployments, improved scalability, and greater reliability for high-performance infrastructure
• In November 2024, Broadcom and Telia expanded their partnership through a multi-year agreement to modernize Telia’s telco and cloud infrastructure using VMware solutions. Telia adopted VMware Telco Cloud Platform and VMware Cloud Foundation to enhance automation, streamline resource management, and improve operational efficiency. As a Broadcom Pinnacle Partner, Telia strengthened its ability to deliver secure and scalable 5G and cloud services in the Nordics and Baltics. This collaboration reinforced Broadcom’s position in the telecommunications and cloud markets, driving innovation and customer growth
• In January 2024, Rosenberger OSI, a leading manufacturer of fibre optic cabling infrastructures in Europe, introduced 8° APC angled polish multimode connectors to its successful PreCONNECT® OCTO and DUODECIM MTP® systems. This new feature significantly enhances the return loss performance, ensuring it remains stable and high during operation. According to Harald Jungbäck, the product manager for data centre cabling systems at Rosenberger OSI, the addition of the 8° APC connectors offers a more reliable and efficient solution, improving the overall performance and stability of fibre optic connectivity in data centres

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