Europe Multimode Dark Fiber Market By Fiber Type (Step-index Multimode Fiber, Graded-index Multimode Fiber); By Network Type (Metro Network, Long-haul Network); By Material Type (Plastic, Glass); By End User (Telecom, Automobile, Industrial Automation & Control, Aerospace & Defense, Others) – Growth, Share, Opportunities & Competitive Analysis, 2024 – 2032
Price: $3699
Published: | Report ID: 89845 | Report Format : Excel, PDF
The Europe Multimode Dark Fiber Market is projected to grow from USD 778.74 million in 2024 to an estimated USD 1,240.91 million by 2032, with a compound annual growth rate (CAGR) of 6.00% from 2025 to 2032. This growth is driven by the escalating demand for high-bandwidth communication infrastructure, propelled by the proliferation of data-intensive applications and the expansion of data centers across the region.
Key drivers fueling this market include the rapid adoption of cloud computing, the rollout of 5G networks, and the increasing reliance on Internet of Things (IoT) devices. These technologies necessitate robust and high-speed data transmission capabilities, which multimode dark fiber networks can provide. Additionally, trends such as the integration of artificial intelligence (AI) in network management and the emphasis on energy-efficient infrastructure are shaping the market landscape, encouraging investments in advanced fiber optic solutions.
Geographically, Germany leads the Europe Multimode Dark Fiber Market, attributed to its strong industrial base and significant investments in digital infrastructure. The United Kingdom and France also exhibit substantial market shares, driven by urbanization and technological advancements. Prominent players in this market include Colt Technology Services, euNetworks Group Limited, and Prysmian Group, each offering extensive fiber networks and innovative solutions to meet the evolving demands of enterprises and service providers across Europe.
Access crucial information at unmatched prices!
Request your sample report today & start making informed decisions powered by Credence Research!
The Europe Multimode Dark Fiber Market is projected to grow from USD 778.74 million in 2024 to USD 1,240.91 million by 2032, with a CAGR of 6.00% from 2025 to 2032.
The global multimode dark fiber market is expected to grow from USD 3,652.64 million in 2024 to USD 6,242.00 million by 2032, with a CAGR of 6.93% from 2025 to 2032.
The growth is fueled by increasing demand for high-bandwidth infrastructure, adoption of 5G networks, and the expansion of cloud computing and IoT technologies across the region.
Multimode dark fiber is favored for short-distance, high-bandwidth applications in metro and campus networks, offering a cost-effective solution compared to single-mode fiber.
High initial capital investment for infrastructure deployment, particularly in urban areas, remains a significant barrier for smaller providers and emerging markets.
The integration of AI in network management and the growing emphasis on energy-efficient solutions are boosting the adoption of multimode dark fiber in Europe.
Germany leads the market, followed by the United Kingdom and France, due to their strong industrial bases, urbanization, and significant investments in digital infrastructure.
Public-private partnerships and carrier-neutral models are expected to drive further growth by facilitating flexible, scalable fiber infrastructure across diverse regions in Europe.
Market Drivers
Growing Demand from Industrial Automation and IoT Integration
The advancement of Industry 4.0 across Europe is fostering rapid growth in industrial automation and the adoption of Internet of Things (IoT) solutions. Manufacturing, logistics, and utility sectors are deploying a vast array of sensors, controllers, and smart equipment that demand uninterrupted and high-speed data exchange. Multimode dark fiber offers the bandwidth and scalability required to support such mission-critical operations in industrial environments. Its application in connecting factory floors, warehouses, and operational control centers ensures low-latency communication and improved operational efficiency. The widespread deployment of IoT devices in sectors like energy management, smart grid, and environmental monitoring further underscores the need for dependable fiber infrastructure. Multimode dark fiber enables secure and resilient connectivity for these decentralized IoT networks, particularly in settings where wireless signals may be unreliable or insufficient. Moreover, the trend toward predictive maintenance, remote monitoring, and AI-driven analytics in industrial applications necessitates the seamless transmission of large volumes of data—something multimode dark fiber networks are well equipped to handle.
Supportive Regulatory Framework and Public-Private Investments
European regulatory bodies and national governments have established favorable policies to boost fiber infrastructure development and digital connectivity. Initiatives such as the European Union’s “Gigabit Society 2025” and national broadband plans in Germany, France, and the UK aim to ensure universal access to high-speed internet, particularly through fiber-optic networks. These initiatives have resulted in increased public funding and incentives for deploying dark fiber infrastructure, including multimode variants suited for metro and campus applications. In parallel, the market has witnessed a growing number of public-private partnerships (PPPs), where telecom operators, infrastructure developers, and municipal authorities collaborate to deploy shared dark fiber assets. This model reduces capital expenditures for individual stakeholders while enhancing regional connectivity. In addition, the deregulation of last-mile fiber ownership in several countries has encouraged competition and infrastructure sharing, leading to broader availability of dark fiber. As demand for open-access and carrier-neutral infrastructure grows, multimode dark fiber networks will continue to benefit from these supportive regulatory and financial mechanisms.
Surge in Data Center Expansion and Cloud Adoption
The increasing demand for data storage and processing capabilities has led to a significant expansion of data centers across Europe. Enterprises and hyperscale providers are investing heavily in new facilities to support digital transformation initiatives and the exponential growth in data generation. Multimode dark fiber plays a critical role in interconnecting these data centers, especially in urban and metro areas where high-capacity, short-distance communication links are essential. Unlike single-mode fiber, multimode dark fiber offers a cost-effective solution for such intra-city and campus connectivity due to its lower equipment and deployment costs. Moreover, the rise of cloud computing is compelling businesses to migrate their operations to cloud-based platforms, further driving demand for scalable and secure network infrastructure. For instance, cloud service providers are expanding their regional data hubs in Europe to ensure low-latency service delivery. Multimode dark fiber networks provide the necessary bandwidth and reliability to facilitate seamless cloud connectivity. The integration of edge computing to bring data processing closer to the end user has also amplified the need for dense fiber networks, cementing multimode dark fiber as a fundamental asset in Europe’s digital ecosystem.
Acceleration of 5G Rollout and Smart City Projects
The implementation of 5G technology across Europe is a major driver of the multimode dark fiber market. As countries push for nationwide 5G coverage, telecom operators require a dense and high-capacity fiber backbone to support the high-speed, low-latency demands of 5G networks. Multimode dark fiber, with its ability to support multiple high-bandwidth connections over short distances, is increasingly deployed in base station backhauling and fronthauling applications. It allows network operators to scale their infrastructure quickly and cost-effectively while ensuring optimal network performance. For instance, smart city initiatives across European municipalities are enhancing the deployment of digital infrastructure, including multimode dark fiber networks. These projects involve the integration of technologies such as intelligent transportation systems, public Wi-Fi, surveillance, and environmental monitoring—all of which require robust and high-speed data transmission networks. Local governments are partnering with private fiber network providers to lay dark fiber that can be leased or lit as needed, enabling efficient rollout of smart city services. As urban centers become more connected and reliant on real-time data, the need for multimode dark fiber continues to rise.
Market Trends
Increased Demand for Carrier-Neutral and Open-Access Fiber Networks
The Europe Multimode Dark Fiber Market is witnessing a notable shift toward carrier-neutral and open-access infrastructure models. Traditional telecom monopolies are gradually giving way to competitive environments where multiple service providers share common physical infrastructure. This democratization of access is enabling faster rollout of services and fostering innovation, especially in underserved and high-demand urban areas. Carrier-neutral data centers, where customers can choose from multiple network service providers, are becoming the preferred model for enterprises and cloud operators. These facilities rely on dark fiber networks that are independent of any single telecom carrier. Multimode dark fiber is especially relevant here due to its suitability for intra-campus and inter-building connections within these data centers. As enterprises demand greater control over their networks and better pricing models, open-access fiber systems are enabling them to lease only the bandwidth they require, without being locked into long-term vendor contracts. This trend is supported by public-private partnerships that aim to boost digital infrastructure in Europe. Government bodies are encouraging open-access models through policy reforms and funding initiatives. For example, the EU’s Digital Decade strategy emphasizes universal access to gigabit connectivity by 2030, which will be facilitated through open dark fiber networks. Moreover, real estate developers of commercial properties are beginning to pre-install open-access multimode fiber infrastructure to attract technology-driven tenants. This modular approach allows flexible and scalable network provisioning, encouraging businesses to adopt future-ready infrastructure with minimal upfront cost.
Emphasis on Energy-Efficient and Sustainable Network Solutions
Sustainability has become a central theme in Europe’s digital infrastructure development, including in the deployment of multimode dark fiber networks. With data traffic and energy consumption growing exponentially, network operators and enterprises are under pressure to implement greener and more energy-efficient connectivity solutions. Multimode fiber aligns well with these objectives due to its lower power consumption in short-range communications compared to single-mode alternatives. Key to this trend is the adoption of low-energy transceivers that operate optimally with multimode fiber and require significantly less power than their long-haul counterparts. In enterprise settings, where thousands of short-range connections may be deployed, the cumulative energy savings are substantial. Furthermore, multimode fiber supports denser cabling architectures with smaller diameters, improving airflow and reducing cooling requirements in data centers and communication rooms. This contributes directly to reduced carbon footprints. European companies are aligning their network upgrades with environmental, social, and governance (ESG) goals, often selecting multimode dark fiber as part of green IT strategies. Regulations such as the European Green Deal and the Corporate Sustainability Reporting Directive (CSRD) are reinforcing the need for sustainable infrastructure investments. Fiber manufacturers are also innovating with recyclable materials and reduced-emission manufacturing processes, creating an ecosystem where multimode dark fiber plays a key role in responsible network design.
Rising Preference for Short-Distance High-Bandwidth Connectivity in Urban Deployments
Urban regions across Europe are experiencing a surge in the deployment of multimode dark fiber networks due to the increasing need for high-bandwidth connectivity over short distances. For instance, enterprises, data centers, and educational campuses in cities such as London, Paris, Frankfurt, and Amsterdam are actively adopting multimode fiber to enable rapid data transmission within their local networks. Multimode fiber’s cost-effectiveness and ability to support multiple input/output connections using VCSELs (Vertical Cavity Surface Emitting Lasers) make it an ideal choice for high-speed LAN and campus environments. This trend is further fueled by the growing demand for real-time services, such as video conferencing, cloud-based software applications, and data analytics, which require ultra-fast data exchanges with minimal latency. As smart buildings and digital campuses become standard, the demand for robust internal connectivity is intensifying, prompting the shift from copper cabling and single-mode long-haul connections to multimode fiber for local data flows. For instance, municipalities and local governments are capitalizing on this trend to enhance public services, improve digital inclusivity, and support smart city frameworks. By deploying multimode dark fiber networks in densely populated areas, they ensure future-proof infrastructure that can be leased by telecom and internet service providers. This not only improves service delivery but also drives healthy competition, making high-speed internet more accessible across urban Europe.
Integration of Dark Fiber in Edge Data Center Development
As edge computing gains momentum in Europe, there is a growing trend of integrating multimode dark fiber into the development of edge data centers. For instance, unlike traditional hyperscale data centers located in central regions, edge data centers are situated closer to the end users, enabling faster data processing and reduced latency. These facilities rely heavily on robust fiber optic infrastructure to communicate efficiently with central hubs and other network nodes, making multimode dark fiber a valuable asset. The need to process data locally—whether for autonomous vehicles, real-time surveillance, or IoT devices—is increasing across sectors. Edge data centers support this demand, but their success hinges on fast, secure, and high-capacity interconnections. For instance, multimode dark fiber, with its ability to handle terabit-scale bandwidth over short distances, is increasingly deployed to link multiple micro data centers within a localized area. This ensures seamless synchronization and high-speed data exchange critical for latency-sensitive applications. Telecom providers, colocation service providers, and IT infrastructure companies are heavily investing in edge capabilities across countries like Germany, France, the Netherlands, and the Nordics. As edge infrastructure expands, dark fiber is being laid proactively to future-proof network needs. In addition, smart manufacturing facilities and industrial campuses are adopting localized edge computing solutions, relying on multimode dark fiber to connect edge nodes with central servers for real-time processing. This distributed architecture ensures network redundancy, minimizes downtime, and enhances service delivery quality—making dark fiber an essential enabler of next-generation edge data ecosystems.
Market Challenges
High Initial Capital Expenditure and Infrastructure Deployment Barriers
The Europe Multimode Dark Fiber Market faces notable challenges, particularly the high upfront capital investment required for network deployment. For instance, laying fiber infrastructure in densely populated urban areas or historically protected regions involves substantial costs related to civil engineering, permits, equipment, and labor. While multimode dark fiber is cost-effective for short-distance performance, the overall infrastructure rollout remains capital-intensive, often deterring smaller providers and startups from entering the market. In many cases, the complexity of deploying new fiber lines is compounded by regulatory hurdles, right-of-way restrictions, and the need for coordination with multiple stakeholders, including municipal authorities and utility companies. For instance, the permitting process can be lengthy and fragmented across jurisdictions, leading to deployment delays and cost escalations. These logistical challenges are particularly pronounced in older European cities with congested underground utility networks or architectural heritage zones that limit excavation scope. Additionally, there is a disparity in funding and infrastructure development between Western and Eastern European countries. For instance, Western Europe benefits from mature markets and supportive government initiatives, while several Eastern European countries lack the financial and administrative frameworks to support widespread multimode dark fiber deployment. As a result, market players must navigate uneven regulatory landscapes and allocate resources strategically to maximize ROI, often prioritizing metropolitan hubs over rural or less economically developed areas.
Technological Limitations and Compatibility Issues in Long-Distance Applications
While multimode dark fiber is well-suited for short-range, high-bandwidth applications such as data center interconnects and enterprise LANs, it faces performance limitations in long-distance deployments, restricting its versatility across broader network architectures. Compared to single-mode fiber, multimode fiber suffers from higher modal dispersion and attenuation, which degrade signal quality over extended distances. This intrinsic limitation makes it unsuitable for applications that require long-haul connectivity or extensive backhaul infrastructure, limiting its adoption outside metro and campus networks. Enterprises and telecom operators that require a unified fiber infrastructure often favor single-mode dark fiber for its long-distance capabilities and compatibility with high-speed transmission technologies, such as coherent optics. The growing need for network scalability and interoperability across geographically dispersed locations poses a challenge for multimode systems, which are typically limited to a few hundred meters without signal regeneration or optical amplification. Upgrading these systems for broader compatibility often involves complex reengineering and higher maintenance costs, making them less attractive for future-proof network strategies. Furthermore, rapid advancements in high-speed transmission technologies may render some older multimode fiber standards obsolete. For instance, legacy OM1 and OM2 multimode fibers may not support the data rates required by emerging Ethernet standards, prompting costly upgrades to OM3, OM4, or OM5 variants. Such compatibility issues necessitate careful planning and investment, particularly for organizations that seek to integrate new infrastructure with existing networks. This challenge slows adoption and may result in hesitant investment decisions, especially from enterprises seeking long-term flexibility in network design.
Market Opportunities
Expanding Demand for Scalable In-Building and Campus Connectivity Solutions
The growing digitalization of enterprises, universities, hospitals, and government institutions across Europe presents a significant opportunity for the deployment of multimode dark fiber. These sectors require high-speed, secure, and scalable internal networks to support data-intensive operations, cloud computing, and real-time communications. Multimode dark fiber, with its cost-efficiency over short distances and capability to handle high data transfer rates, is ideally suited for in-building and campus environments. As digital infrastructure becomes a core component of modern facilities, the demand for flexible and high-capacity fiber networks within premises is expected to rise sharply. This creates lucrative opportunities for dark fiber providers offering customizable leasing models and turnkey solutions for short-range enterprise connectivity.
Growth of Edge Computing and IoT-Driven Infrastructure
The rising adoption of edge computing and IoT technologies across Europe is driving the need for decentralized data processing and local connectivity. As industries and municipalities deploy smart infrastructure—including smart grids, autonomous systems, and connected public services—they require reliable, low-latency fiber networks to ensure seamless operation. Multimode dark fiber, owing to its suitability for interconnecting edge data centers, control systems, and localized IoT nodes, stands to benefit significantly from this transformation. With the European Union actively supporting digital innovation and smart city development, providers that can offer robust multimode dark fiber solutions will be well-positioned to capitalize on this emerging wave of localized, high-performance connectivity requirements.
Market Segmentation Analysis
By Fiber Type
The market is categorized into step-index and graded-index multimode fiber. Step-index multimode fiber, with its simpler core structure, is primarily used in cost-sensitive applications requiring short-distance transmission. However, graded-index multimode fiber dominates the segment due to its superior bandwidth capabilities and reduced modal dispersion, making it ideal for high-speed, high-performance environments such as data centers and enterprise networks. The shift toward faster Ethernet standards and growing demand for scalable backbone infrastructure is propelling the growth of the graded-index fiber segment.
By Network Type
Metro networks account for a substantial share of the market. These networks leverage multimode dark fiber to interconnect data centers, campuses, and telecom exchange points across urban regions, providing low-latency and high-throughput communication. In contrast, the long-haul network segment sees limited application for multimode fiber due to its performance limitations over extended distances, with single-mode fiber typically preferred for such deployments.
Segments
Based on Fiber Type
Step-index Multimode Fiber
Graded-index Multimode Fiber
Based on Network Type
Metro Network
Long-haul Network
Based on Material Type
Plastic
Glass
Based on End User
Telecom
Automobile
Industrial Automation & Control
Aerospace & Defense
Others
Based on Region
Germany
UK
France
Regional Analysis
Germany (24%)
Germany leads the market, accounting for approximately 24% of the regional share. This dominance is attributed to its robust industrial base, stringent data privacy regulations, and substantial investments in high-speed connectivity to support Industry 4.0 initiatives. The country’s emphasis on secure and efficient communication networks has propelled the demand for multimode dark fiber, particularly in urban and industrial areas.
United Kingdom (21%)
The United Kingdom holds around 21% of the market share, driven by significant government investments in digital infrastructure and 5G innovation. Initiatives such as the 5G Testbeds and Trials Programme have bolstered the deployment of high-bandwidth fiber-optic networks to support advanced logistics, autonomous vehicles, and smart city applications. The UK’s commitment to enhancing digital connectivity continues to stimulate the multimode dark fiber market.
Key players
BT Group
Deutsche Telekom
Orange Business Services
Colt Technology Services
Equinix
Competitive Analysis
The Europe Multimode Dark Fiber Market is marked by the presence of established telecom operators and infrastructure providers that maintain extensive fiber networks and offer tailored connectivity solutions. BT Group and Deutsche Telekom hold strong positions due to their comprehensive service portfolios and large-scale infrastructure, enabling them to support both enterprise and government clients across the region. Orange Business Services leverages its global reach and expertise in digital transformation to offer integrated dark fiber solutions, particularly in metro areas. Colt Technology Services specializes in high-performance network services, serving financial and technology sectors with a strong presence in urban fiber infrastructure. Equinix, a major data center provider, strategically uses dark fiber to interconnect its facilities, supporting high-capacity and low-latency connectivity for cloud and enterprise customers. Together, these players compete on the basis of network reach, service customization, technological integration, and reliability, while also investing in smart infrastructure to sustain long-term market leadership.
Recent Developments
In June 2024, Telstra InfraCo’s intercity fiber network project completed approximately 1,800 kilometers of fiber construction, enhancing connectivity across Australia.
As of June 2023, TPG Group held a wholesale market share of around 22% of Australian National Broadband Network services.
As of June 2023, Optus had a wholesale market share of approximately 13% of Australian National Broadband Network residential broadband services.
In August 2024, Lumen Technologies entered a two-year agreement with Corning Incorporated, securing 10% of Corning’s global fiber capacity to interconnect AI-enabled data centers. This deal is Lumen’s largest cable purchase to date and will more than double its U.S. intercity fiber miles, enhancing capacity for cloud data centers and high-bandwidth applications driven by AI workloads.
In February 2025, Deutsche Telekom praised T-Systems for its improved performance in FY24, reflecting the company’s strategic focus on enhancing its dark fiber services for enterprise customers.
In December 2024, the GCC Sustainability Innovation Hub, which includes Etisalat, released a white paper outlining pathways for telecom operators to achieve net-zero emissions, drive renewable adoption, and foster regional collaboration.
In 2024, Claro Argentina reported an operating profit of 706 billion pesos, a 10.1% growth compared to 2023, indicating strong performance in its telecom operations, including dark fiber services.
Market Concentration and Characteristics
The Europe Multimode Dark Fiber Market exhibits a moderately concentrated structure, characterized by the dominance of a few major telecom operators and infrastructure providers with extensive metropolitan fiber networks. Companies such as BT Group, Deutsche Telekom, and Colt Technology Services command significant market share due to their established presence, strategic investments in digital infrastructure, and strong customer base across enterprise and public sectors. The market is also defined by its metro-centric deployment, favoring short-distance, high-bandwidth applications in urban areas such as data center interconnects and campus networks. While entry barriers remain high due to capital-intensive deployment and regulatory requirements, the market shows increasing openness to carrier-neutral models and public-private partnerships, fostering opportunities for smaller players and regional providers. Innovation in energy-efficient fiber solutions, smart city connectivity, and edge computing infrastructure continues to shape the market’s competitive landscape and technological evolution.
Shape Your Report to Specific Countries or Regions & Enjoy 30% Off!
The research report offers an in-depth analysis based on Fiber Type, Network Type, Material Type, End User and Region. It details leading market players, providing an overview of their business, product offerings, investments, revenue streams, and key applications. Additionally, the report includes insights into the competitive environment, SWOT analysis, current market trends, as well as the primary drivers and constraints. Furthermore, it discusses various factors that have driven market expansion in recent years. The report also explores market dynamics, regulatory scenarios, and technological advancements that are shaping the industry. It assesses the impact of external factors and global economic changes on market growth. Lastly, it provides strategic recommendations for new entrants and established companies to navigate the complexities of the market.
Future Outlook
The increasing demand for high-speed internet and cloud-based services will drive continued growth in multimode dark fiber adoption across Europe, especially in urban areas.
As 5G technology rolls out, the demand for robust fiber infrastructure, including multimode dark fiber for short-distance connectivity, will increase, particularly for base station backhauling.
Edge computing will require localized, high-speed fiber networks, boosting the need for multimode dark fiber to connect edge data centers and support real-time data processing.
Governments’ investments in smart city projects will create further opportunities for multimode dark fiber deployment, connecting sensors, IoT devices, and public infrastructure.
Multimode dark fiber’s energy-efficient transmission capabilities align with the growing demand for sustainable infrastructure, making it an attractive option for eco-conscious deployments.
The shift toward open-access and carrier-neutral dark fiber networks will increase, as businesses and telecom providers seek more flexible, scalable, and cost-effective connectivity solutions.
Consolidation in the telecom and fiber infrastructure sectors will continue as companies look to expand their network footprints and offer comprehensive service packages to clients.
Innovations in fiber optic technologies, including improvements in transceivers and signal processing, will enhance the efficiency and capacity of multimode dark fiber networks.
The growing reliance on data centers will create more demand for interconnecting facilities, driving the adoption of multimode dark fiber for high-speed, low-latency data transmission.
While Western Europe remains a market leader, Eastern Europe will see significant infrastructure expansion, providing new growth opportunities for multimode dark fiber providers in the region.
CHAPTER NO. 1 : INTRODUCTION 18
1.1.1. Report Description 18 Purpose of the Report 18 USP & Key Offerings 18
1.1.2. Key Benefits for Stakeholders 18
1.1.3. Target Audience 19
1.1.4. Report Scope 19 CHAPTER NO. 2 : EXECUTIVE SUMMARY 20
2.1. Europe Multimode Dark Fiber Market Snapshot 20
2.1.1. Europe Multimode Dark Fiber Market, 2018 – 2032 (USD Million) 21 CHAPTER NO. 3 : MULTIMODE DARK FIBER MARKET – INDUSTRY ANALYSIS 22
3.1. Introduction 22
3.2. Market Drivers 23
3.2.1. 5G Network Rollout 23
3.2.2. Private Networks for Enterprises 24
3.3. Market Restraints 25
3.3.1. Competition from Wireless Networks 25
3.4. Market Opportunities 26
3.4.1. Market Opportunity Analysis 26
3.5. Porter’s Five Forces Analysis 27 CHAPTER NO. 4 : ANALYSIS COMPETITIVE LANDSCAPE 28
4.1. Company Market Share Analysis – 2024 28
4.1.1. Europe Multimode Dark Fiber Market: Company Market Share, by Volume, 2024 28
4.1.2. Europe Multimode Dark Fiber Market: Company Market Share, by Revenue, 2024 29
4.1.3. Europe Multimode Dark Fiber Market: Top 6 Company Market Share, by Revenue, 2024 29
4.1.4. Europe Multimode Dark Fiber Market: Top 3 Company Market Share, by Revenue, 2024 30
4.2. Europe Multimode Dark Fiber Market Company Revenue Market Share, 2024 31
4.3. Company Assessment Metrics, 2024 32
4.3.1. Stars 32
4.3.2. Emerging Leaders 32
4.3.3. Pervasive Players 32
4.3.4. Participants 32
4.4. Start-ups /SMEs Assessment Metrics, 2024 32
4.4.1. Progressive Companies 32
4.4.2. Responsive Companies 32
4.4.3. Dynamic Companies 32
4.4.4. Starting Blocks 32
4.5. Strategic Developments 33
4.5.1. Acquisitions & Mergers 33 New Product Launch 33 Europe Expansion 33
4.6. Key Players Product Matrix 34 CHAPTER NO. 5 : PESTEL & ADJACENT MARKET ANALYSIS 35
5.1. PESTEL 35
5.1.1. Political Factors 35
5.1.2. Economic Factors 35
5.1.3. Social Factors 35
5.1.4. Technological Factors 35
5.1.5. Environmental Factors 35
5.1.6. Legal Factors 35
5.2. Adjacent Market Analysis 35 CHAPTER NO. 6 : EUROPE MULTIMODE DARK FIBER MARKET – BY FIBER TYPE SEGMENT ANALYSIS 36
6.1. Europe Multimode Dark Fiber Market Overview, by Fiber Type Segment 36
6.1.1. Europe Multimode Dark Fiber Market Revenue Share, By Fiber Type, 2023 & 2032 37
6.1.2. Europe Multimode Dark Fiber Market Attractiveness Analysis, By Fiber Type 38
6.1.3. Incremental Revenue Growth Opportunity, by Fiber Type, 2024 – 2032 38
6.1.4. Europe Multimode Dark Fiber Market Revenue, By Fiber Type, 2018, 2023, 2027 & 2032 39
6.2. Step-index Multimode Fiber 40
6.3. Graded-index Multimode Fiber 41 CHAPTER NO. 7 : EUROPE MULTIMODE DARK FIBER MARKET – BY NETWORK TYPE SEGMENT ANALYSIS 42
7.1. Europe Multimode Dark Fiber Market Overview, by Network Type Segment 42
7.1.1. Europe Multimode Dark Fiber Market Revenue Share, By Network Type, 2023 & 2032 43
7.1.2. Europe Multimode Dark Fiber Market Attractiveness Analysis, By Network Type 44
7.1.3. Incremental Revenue Growth Opportunity, by Network Type, 2024 – 2032 44
7.1.4. Europe Multimode Dark Fiber Market Revenue, By Network Type, 2018, 2023, 2027 & 2032 45
7.2. Metro Network 46
7.3. Long-haul Network 47 CHAPTER NO. 8 : EUROPE MULTIMODE DARK FIBER MARKET – BY MATERIAL SEGMENT ANALYSIS 48
8.1. Europe Multimode Dark Fiber Market Overview, by Material Segment 48
8.1.1. Europe Multimode Dark Fiber Market Revenue Share, By Material, 2023 & 2032 49
8.1.2. Europe Multimode Dark Fiber Market Attractiveness Analysis, By Material 50
8.1.3. Incremental Revenue Growth Opportunity, by Material, 2024 – 2032 50
8.1.4. Europe Multimode Dark Fiber Market Revenue, By Material, 2018, 2023, 2027 & 2032 51
8.2. Plastic 52
8.3. Glass 53 CHAPTER NO. 9 : EUROPE MULTIMODE DARK FIBER MARKET – BY END USER INDUSTRY SEGMENT ANALYSIS 54
9.1. Europe Multimode Dark Fiber Market Overview, by End User Industry Segment 54
9.1.1. Europe Multimode Dark Fiber Market Revenue Share, By End User Industry, 2023 & 2032 55
9.1.2. Europe Multimode Dark Fiber Market Attractiveness Analysis, By End User Industry 56
9.1.3. Incremental Revenue Growth Opportunity, by End User Industry, 2024 – 2032 56
9.1.4. Europe Multimode Dark Fiber Market Revenue, By End User Industry, 2018, 2023, 2027 & 2032 57
9.2. Telecom 58
9.3. Automobile 59
9.4. Industrial Automation & Control 60
9.5. Aerospace & Defense 61
9.6. Others 62 CHAPTER NO. 10 : MULTIMODE DARK FIBER MARKET – EUROPE 63
10.1. Europe 63
10.1.1. Key Highlights 63
10.1.2. Europe Multimode Dark Fiber Market Revenue, By Country, 2018 – 2023 (USD Million) 64
10.1.3. Europe Multimode Dark Fiber Market Revenue, By Fiber Type, 2018 – 2023 (USD Million) 65
10.1.4. Europe Multimode Dark Fiber Market Revenue, By Network Type, 2018 – 2023 (USD Million) 66
10.1.5. Europe Multimode Dark Fiber Market Revenue, By Material, 2018 – 2023 (USD Million) 67
10.1.6. Europe Multimode Dark Fiber Market Revenue, By End User Industry, 2018 – 2023 (USD Million) 68
10.2. UK 69
10.3. France 69
10.4. Germany 69
10.5. Italy 69
10.6. Spain 69
10.7. Russia 69
10.8. Belgium 69
10.9. Netherland 69
10.10. Austria 69
10.11. Sweden 69
10.12. Poland 69
10.13. Denmark 69
10.14. Switzerland 69
10.15. Rest of Europe 69 CHAPTER NO. 11 : COMPANY PROFILES 70
11.1. BT Group 70
11.1.1. Company Overview 70
11.1.2. Product Portfolio 70
11.1.3. Swot Analysis 70
11.1.4. Business Strategy 71
11.1.5. Financial Overview 71
11.2. Deutsche Telekom 72
11.3. Orange Business Services 72
11.4. Colt Technology Services 72
11.5. Equinix 72
11.6. Company 6 72
11.7. Company 7 72
11.8. Company 8 72
11.9. Company 9 72
11.10. Company 10 72
11.11. Company 11 72
11.12. Company 12 72
11.13. Company 13 72
11.14. Company 14 72
List of Figures
FIG NO. 1. Europe Multimode Dark Fiber Market Revenue, 2018 – 2032 (USD Million) 21
FIG NO. 2. Porter’s Five Forces Analysis for Europe Multimode Dark Fiber Market 27
FIG NO. 3. Company Share Analysis, 2024 28
FIG NO. 4. Company Share Analysis, 2024 29
FIG NO. 5. Company Share Analysis, 2024 29
FIG NO. 6. Company Share Analysis, 2024 30
FIG NO. 7. Multimode Dark Fiber Market – Company Revenue Market Share, 2024 31
FIG NO. 8. Europe Multimode Dark Fiber Market Revenue Share, By Fiber Type, 2023 & 2032 37
FIG NO. 9. Market Attractiveness Analysis, By Fiber Type 38
FIG NO. 10. Incremental Revenue Growth Opportunity by Fiber Type, 2024 – 2032 38
FIG NO. 11. Europe Multimode Dark Fiber Market Revenue, By Fiber Type, 2018, 2023, 2027 & 2032 39
FIG NO. 12. Europe Multimode Dark Fiber Market for Step-index Multimode Fiber, Revenue (USD Million) 2018 – 2032 40
FIG NO. 13. Europe Multimode Dark Fiber Market for Graded-index Multimode Fiber, Revenue (USD Million) 2018 – 2032 41
FIG NO. 14. Europe Multimode Dark Fiber Market Revenue Share, By Network Type, 2023 & 2032 43
FIG NO. 15. Market Attractiveness Analysis, By Network Type 44
FIG NO. 16. Incremental Revenue Growth Opportunity by Network Type, 2024 – 2032 44
FIG NO. 17. Europe Multimode Dark Fiber Market Revenue, By Network Type, 2018, 2023, 2027 & 2032 45
FIG NO. 18. Europe Multimode Dark Fiber Market for Metro Network, Revenue (USD Million) 2018 – 2032 46
FIG NO. 19. Europe Multimode Dark Fiber Market for Long-haul Network, Revenue (USD Million) 2018 – 2032 47
FIG NO. 20. Europe Multimode Dark Fiber Market Revenue Share, By Material, 2023 & 2032 49
FIG NO. 21. Market Attractiveness Analysis, By Material 50
FIG NO. 22. Incremental Revenue Growth Opportunity by Material, 2024 – 2032 50
FIG NO. 23. Europe Multimode Dark Fiber Market Revenue, By Material, 2018, 2023, 2027 & 2032 51
FIG NO. 24. Europe Multimode Dark Fiber Market for Plastic, Revenue (USD Million) 2018 – 2032 52
FIG NO. 25. Europe Multimode Dark Fiber Market for Glass, Revenue (USD Million) 2018 – 2032 53
FIG NO. 26. Europe Multimode Dark Fiber Market Revenue Share, By End User Industry, 2023 & 2032 55
FIG NO. 27. Market Attractiveness Analysis, By End User Industry 56
FIG NO. 28. Incremental Revenue Growth Opportunity by End User Industry, 2024 – 2032 56
FIG NO. 29. Europe Multimode Dark Fiber Market Revenue, By End User Industry, 2018, 2023, 2027 & 2032 57
FIG NO. 30. Europe Multimode Dark Fiber Market for Telecom, Revenue (USD Million) 2018 – 2032 58
FIG NO. 31. Europe Multimode Dark Fiber Market for Automobile, Revenue (USD Million) 2018 – 2032 59
FIG NO. 32. Europe Multimode Dark Fiber Market for Industrial Automation & Control, Revenue (USD Million) 2018 – 2032 60
FIG NO. 33. Europe Multimode Dark Fiber Market for Aerospace & Defense, Revenue (USD Million) 2018 – 2032 61
FIG NO. 34. Europe Multimode Dark Fiber Market for Others, Revenue (USD Million) 2018 – 2032 62
FIG NO. 35. Europe Multimode Dark Fiber Market Revenue, 2018 – 2032 (USD Million) 63
List of Tables
TABLE NO. 1. : Europe Multimode Dark Fiber Market: Snapshot 20
TABLE NO. 2. : Drivers for the Multimode Dark Fiber Market: Impact Analysis 23
TABLE NO. 3. : Restraints for the Multimode Dark Fiber Market: Impact Analysis 25
TABLE NO. 4. : Europe Multimode Dark Fiber Market Revenue, By Country, 2018 – 2023 (USD Million) 64
TABLE NO. 5. : Europe Multimode Dark Fiber Market Revenue, By Country, 2024 – 2032 (USD Million) 64
TABLE NO. 6. : Europe Multimode Dark Fiber Market Revenue, By Fiber Type, 2018 – 2023 (USD Million) 65
TABLE NO. 7. : Europe Multimode Dark Fiber Market Revenue, By Fiber Type, 2024 – 2032 (USD Million) 65
TABLE NO. 8. : Europe Multimode Dark Fiber Market Revenue, By Network Type, 2018 – 2023 (USD Million) 66
TABLE NO. 9. : Europe Multimode Dark Fiber Market Revenue, By Network Type, 2024 – 2032 (USD Million) 66
TABLE NO. 10. : Europe Multimode Dark Fiber Market Revenue, By Material, 2018 – 2023 (USD Million) 67
TABLE NO. 11. : Europe Multimode Dark Fiber Market Revenue, By Material, 2024 – 2032 (USD Million) 67
TABLE NO. 12. : Europe Multimode Dark Fiber Market Revenue, By End User Industry, 2018 – 2023 (USD Million) 68
TABLE NO. 13. : Europe Multimode Dark Fiber Market Revenue, By End User Industry, 2024 – 2032 (USD Million) 68
Frequently Asked Questions:
What is the market size of the Europe Multimode Dark Fiber Market in 2023 and 2032?
The Europe Multimode Dark Fiber Market was valued at USD 778.74 million in 2024 and is projected to reach USD 1,240.91 million by 2032, growing at a CAGR of 6.00% from 2025 to 2032.
What factors are driving the growth of the Europe Multimode Dark Fiber Market?
Key drivers include the increasing demand for high-bandwidth communication infrastructure, adoption of 5G networks, cloud computing, and the rise of IoT devices across Europe.
Which countries are leading the Europe Multimode Dark Fiber Market?
Germany, the United Kingdom, and France lead the market due to significant investments in digital infrastructure, urbanization, and technological advancements.
What role does multimode dark fiber play in supporting 5G networks?
Multimode dark fiber supports the high-speed, low-latency needs of 5G networks by providing cost-effective, scalable connectivity for metro areas and base station backhaul.
Who are the key players in the Europe Multimode Dark Fiber Market?
Prominent players in the market include Colt Technology Services, euNetworks Group Limited, and Prysmian Group, offering extensive fiber networks and innovative solutions across Europe.
The report comes as a view-only PDF document, optimized for individual clients. This version is recommended for personal digital use and does not allow printing.
$3699
To meet the needs of modern corporate teams, our report comes in two formats: a printable PDF and a data-rich Excel sheet. This package is optimized for internal analysis and multi-location access, making it an excellent choice for organizations with distributed workforce.
$4699
The report will be delivered in printable PDF format along with the report’s data Excel sheet. This license offers 100 Free Analyst hours where the client can utilize Credence Research Inc.’s research team. It is highly recommended for organizations seeking to execute short, customized research projects related to the scope of the purchased report.
I am very impressed with the information in this report. The author clearly did their research when they came up with this product and it has already given me a lot of ideas.
