McCarthy tops out NV12 project at Vantage’s campus

General contractor McCarthy Building Companies recently completed the topping out milestone for hyperscale data centre provider Vantage Data Centers’ second of four planned data centres on its NV1 Campus, located outside of Reno in Storey County, Nevada, USA. With representatives from Storey County and Vantage leadership in attendance, the project marked major progress on the NV12 facility, the second 64-megawatt (MW) data centre on the campus. Phase I of the campus provides hyperscalers and large cloud providers with 128 MW of combined critical IT capacity across its NV11 and NV12 facilities. The campus has reportedly created more than 1,200 local construction jobs and generated local economic impact. McCarthy notes that, just recently, the campus reached more than 1.1 million labour hours on site since breaking ground in May 2024, with zero lost-time incidents through what it describes as a "campus-wide commitment to safe construction practices and innovative methods." Austin Osborne, Storey County Manager, explains, “Vantage Data Centers, our developer partners; McCarthy Building Companies, the general contractor on site; and the Storey County team - from Community Development and Planning to Business Development and the Fire Protection District - have worked closely to move this project forward. "It’s a strong example of effective collaboration, and we’re grateful for the long-term opportunities this project will continue to bring to our community.” The 260,000ft² (24,155m²), two-storey NV12 facility utilises liquid-to-liquid cooling, similar to NV11, that operates on a closed loop chilled water system to properly cool the systems while requiring only an initial fill. This more sustainable design is common across Vantage’s data centres, with the company noting it represents its "commitment to sustainable operations and long-term reliability." Continued construction during ongoing operation Jared Carlson, Senior Vice President at McCarthy Building Companies, comments, “This project has demonstrated an incredible commitment to sustainability, safe construction, and operations, and has created a strong sense of community within Storey County. "Vantage and our design-build partners have been instrumental in creating a campus that will provide significant economic impact to the region and will continue to sustain technological growth in the years to come.” Following turnover of NV11, NV12 will begin to turn over phased portions of the facility beginning in December 2027, allowing customers to begin operations prior to final completion in early 2029. As construction progress continues, McCarthy will be piloting the use of an HP Robot to map out the layout of NV12’s walls, blockouts, and backing. Following the robot’s success on some of McCarthy's healthcare projects, the team will use the robot to layout all elements on the concrete slab, based on the existing Building Information Model (BIM) layout. This method allows for greater efficiency and precision as the facility’s core components have already been digitally modelled to the site’s conditions.Both NV11 and NV12 are being constructed by McCarthy in a design-build effort with Corgan, serving as the campus architect. Key design-build trade partners include: Amfabsteel, Chavez-Grieves, Rosendin Electric, Apollo Mechanical Contractors, Salas O’Brien, Integrated Fire and Security Solutions, Cosco Fire Protection, and Wood Rogers. For more from Vantage, click here.

Warnings of drone‑enabled cyber threats to critical infrastructure

As drone technology becomes more sophisticated and accessible across the globe, researchers from Innovation Central Canberra (ICC) at the University of Canberra have teamed up with Australian tech company DroneShield to understand the risk profile of cyber attacks to critical infrastructure. With the rapid expansion of drone tech reshaping Australia’s security landscape, Defence, national security, and critical infrastructure are facing new challenges; meeting these requires capability that is not only technologically advanced, but also assessed and refined through rigorous, independent research environments. “We know how drones have changed traditional warfare, but are we oblivious of the role they play in cyber security?" questions Professor Frank den Hartog, Cisco Research Chair in Critical Infrastructure at the University of Canberra. "That's a worry, and an opportunity for our drone and cyber industry.” The project began with a team comprising Professor den Hartog and ICC students - namely Andrew Giumelli and Simone Chitsinde - undertaking targeted analysis and interviewing critical infrastructure operators to further understand the cyber threat environment through the use of drones. Increasing threats to critical infrastructure In the independent report, researchers found no recorded domestic cyber incidents using drones to date, but also noted that limited drone detection capabilities and awareness, minimal government guidance, and rising drone use are creating vulnerabilities. This highlights a gap in reporting on drone-enabled cyber threats in Australia. The findings warn that the combinations of steadily increasing drone capability, limited awareness across industries, and a lack of targeted government guidance is creating a widening gap. The report emphasises that drones are no longer emerging technology. Their capability, affordability, and accessibility have increased dramatically in recent years, and malicious actors are experimenting with drone-borne cyber techniques overseas. Within the next five years, as drone and cyber capabilities continue to evolve, operators may need to reassess the likelihood and relevance of drone-enabled cyber threats. Professor den Hartog continues, “This research highlights the need for greater education, more industry collaboration, improved knowledge sharing, and broader consideration of counter-drone capabilities across critical infrastructure sectors. “We need to encourage operators to periodically and critically review how drones are used within their operations, assess the cybersecurity implications of increased adoption, and explore strategies to integrate drone risk into existing security and resilience programs.” DroneShield’s engagement with ICC highlights the broader importance of research-industry collaboration in strengthening countries' sovereign capabilities. Acknowledging this, both organisations say they are exploring opportunities to continue the partnership.

Report: How Slough became Europe's largest DC cluster

Kao Data, a developer and operator of data centres engineered for AI and advanced computing, has published a new report examining how Slough has evolved into Europe’s largest data centre cluster - and the UK’s de facto AI Growth Zone (AIGZ) - hosting over 675 Megawatts (MW) of hyperscale data centre capacity, while contributing more than 14,000 jobs and over £30 million in annual business rates to the local economy. The new report, ‘The Quiet Revolution: How Data Centres Remade Slough and Secured the UK’s Digital Future’, was released just as the UK marks 12 months since the inception of the Government’s AI Opportunities Action Plan, which proposed the creation of AIGZs to accelerate infrastructure deployments in support of the country’s AI and economic ambitions. Kao Data’s new report, produced with support from Carbon3IT and Parisi, demonstrates that such a growth zone already exists in Slough, operating at around 1GW of capacity and providing a proven blueprint for regional, economic growth. Further, it highlights the positive contribution that data centres - often incorrectly maligned as an industry which creates minimal jobs and economic impact - can have on a local community. For example, the report reveals that data centres replaced declining manufacturing employment in the Slough region on a near one-to-one basis, and created approximately 8,000 construction jobs between 2010 and 2025, alongside hundreds of permanently skilled operational roles. Other key findings • Slough hosts more than 30 operational data centres with around 1GW of total capacity, including 675MW of hyperscale facilities serving UK availability zones. • The cluster supports approximately 14,000 jobs across direct, indirect, and induced employment. • Data centre operators contribute over £30 million per year in local business rates. • 95% of Slough’s data centre electricity demand is backed by 100% renewable procurement. • The Simplified Planning Zone (SPZ) framework generated £18 million in council revenues between 2014 and 2024. • Nearly 2.7 million people with engineering, construction, and telecommunications experience live within one hour of the Slough Trading Estate. Spencer Lamb, MD & Chief Commercial Officer at Kao Data, explains, “Slough shows, in very real terms, what happens when infrastructure is developed with planning certainty, energy availability, and a skilled workforce, and our new report demonstrates that data centres have delivered long-term job creation, significant tax revenues, and a resilient foundation for the UK’s AI and digital economies. “We firmly believe that data centres are a force for good in this country, providing well-paid, varied, and future-proof employment, economic regeneration to post-industrial areas, and, through operator-led energy procurement, are helping transition the UK to a green economy.” With Slough and West London’s grid constraints well documented, the economic case for developing additional regional hubs in the UK has never been more urgent. Moreover, with data centres now designated as Critical National Infrastructure (CNI), the report concludes that the UK must create additional clusters across the country to propel regional economic growth and provide security diversity. With Slough proving what's possible when the conditions and local governance are right, the task now is to build on that success deliberately, regionally, and at scale - starting with the UK’s AIGZs and existing city tech communities like Greater Manchester - so that Britain's AI and digital economies can be powerful and resilient. For more from Kao Data, click here.

Fluke Networks launches CertiFiber Max fibre tester

Fluke Networks, a manufacturer of network certification and troubleshooting tools, has launched CertiFiber Max, a third-generation optical loss test set designed for high-density data centre fibre testing. The tester is built on the Versiv platform and integrates with LinkWare software. Fluke Networks states that CertiFiber Max can certify up to 24 fibres in under one second, addressing growing testing demands as fibre density increases in AI- and cloud-driven environments. As data centre architectures evolve, contractors are under pressure to certify more fibres within tighter performance margins. Fluke Networks notes that many existing tools either limit fibre counts or rely on fan-out cables and adapters, increasing testing time and complexity. Designed for high-density fibre certification CertiFiber Max supports 12-, 16-, and 24-fibre MPO connectors, as well as 16- and 24-fibre MMC connectors, using field-replaceable UniPort adapters. These adapters are designed to connect directly to multiple connector types and can be replaced or upgraded on site, extending the working life of the tester. The company says this approach allows technicians to adapt to changing connector standards without replacing test equipment, while also protecting tester ports during use in demanding environments. Vineet Thuvara, Chief Product Officer at Fluke Corporation, comments, “CertiFiber Max reflects our belief that trust in data centre operations starts at the physical layer. Built on the proven Versiv platform, it delivers native 24-fibre support for high-density networks.” As fibre counts continue to rise, the company positions its CertiFiber Max as a tool designed to support both current installations and future requirements, including emerging connector formats such as MMC. Charlie Stroup, Applications Engineering Manager at US Conec, notes, “As MMC deployments continue to expand rapidly, Fluke’s CertiFiber Max plays a critical role in supporting reliable testing for next-generation AI networks.” The system measures optical loss, length, and polarity across multiple fibres in under a second and uses the one-jumper reference method recommended by industry standards and manufacturers. For more from Fluke Networks, click here.

Motivair introduces scalable CDU for AI data centres

Motivair, a provider of liquid cooling systems for data centres, owned by Schneider Electric, has announced a new coolant distribution unit designed to support high-density data centre cooling requirements, including large-scale AI and high-performance computing deployments. The new CDU, MCDU-70, has a nominal capacity of 2.5 MW and is intended for use in liquid-cooled environments where compute density continues to increase. Motivair says the system can be deployed as part of a centralised cooling architecture and scaled beyond 10 MW through multiple units operating together. According to the company, the CDU is designed to support current and future GPU-based workloads, where heat output is significantly higher than traditional CPU-based infrastructure. It notes that rack power densities in AI environments are expected to approach one megawatt and above, increasing the need for liquid cooling approaches. Designed for scalable, high-density cooling Motivair states that the new CDU integrates with Schneider Electric’s EcoStruxure platform, allowing multiple units to operate as part of a coordinated system. The design is intended to support phased expansion as cooling demand grows, without requiring major redesign of the wider plant. Rich Whitmore, CEO of Motivair by Schneider Electric, comments, “Our solutions are designed to keep pace with chip and silicon evolution. Data centre success now depends on delivering scalable, reliable infrastructure that aligns with next-generation AI factory deployments.” The CDU forms part of Schneider Electric’s wider liquid cooling portfolio, which includes systems ranging from lower-capacity deployments through to multi-megawatt installations. Motivair says the units are designed as modular building blocks, enabling operators to select and combine systems based on specific performance and redundancy requirements. The system is manufactured through Schneider Electric's facilities in North America, Europe, and Asia, and is intended to provide high flow rates and pressure within a compact footprint. The company adds that the design supports parallel filtration, real-time monitoring, and integration with other cooling components to support efficient operation across the data centre. The MCDU-70 is now available to order globally. For more from Schneider Electric, click here.

Vertiv expands perimeter cooling range in EMEA

Vertiv, a global provider of critical digital infrastructure, has expanded its CoolPhase Perimeter PAM air-cooled perimeter cooling range with additional capacity options and the introduction of the CoolPhase Condenser, now available across Europe, the Middle East, and Africa (EMEA). The update is aimed at small, medium, and edge data centre environments, with Vertiv stating that the expanded range is intended to improve energy efficiency and operational resilience while reducing overall operating costs and extending equipment life. The CoolPhase Perimeter PAM has been developed for modern data centre requirements and now incorporates the EconoPhase Pumped Refrigerant Economizer, integrated within the CoolPhase Condenser system. Vertiv says the approach is designed to increase free-cooling operation by using a pumped refrigerant circuit that consumes less power than conventional compressor-based systems and reduces space requirements. The range uses R-513A refrigerant, which has a lower global warming potential than R-410A and is non-flammable with low toxicity. The company notes that this aligns the system with EU F-Gas Regulation 2024/573 and supports operators seeking to reduce emissions while maintaining cooling capacity. Designed for efficiency and regulatory compliance Sam Bainborough, VP Thermal Management, EMEA at Vertiv, explains, “With this latest addition to the Vertiv CoolPhase Perimeter PAM range, we're making our direct expansion offering more flexible while addressing two critical challenges faced by data centre operators today: environmental compliance and operational efficiency. “The new air-cooled models boost free-cooling capabilities to lower PUE, demonstrating our commitment to providing energy-efficient and environmentally responsible options.” The CoolPhase Perimeter PAM includes variable-speed compressors, staged coils, and patented filtration technology, and integrates with CoolPhase Condenser units using the Liebert iCOM control platform. The range forms part of Vertiv’s wider thermal portfolio and is supported by the company’s service organisation, covering design, commissioning, and ongoing operational support. For more from Vertiv, click here.

Molex turns infrastructure into advantage

Today’s data centres and enterprises face pressure to move faster, scale seamlessly, and maintain uptime. The network infrastructure beneath it all can’t just keep up; it must lead the way. For over 40 years, Molex has helped organisations rethink structured cabling as a strategic asset. Its 'Enterprise Cabling Infrastructure' delivers scalable copper and fibre systems for buildings across sectors. Its 'Data Center Solutions' extend that reliability to high-density optical fibre environments, enabling faster deployment and effortless growth. With proven global expertise and end-to-end support, Molex turns infrastructure into advantage, backed by a 25-year System Performance and Application Assurance Warranty. What sets Molex apart • Design for what’s next - infrastructure built to handle tomorrow’s requirements • One ecosystem - copper, fibre, and accessories engineered to work seamlessly together • Global reach - technical experts and installers in more than 50 countries • Assured performance - every installation guaranteed for reliability and longevity • Tailored collaboration - custom solutions engineered around you For more from Molex, click here.

Datacloud Middle East comes to Dubai

Taking place in Dubai, UAE on 10–12 February 2026, Datacloud Middle East will highlight the region’s rapid emergence as a global data centre hub, driven by hyperscaler investment, sovereign AI strategies, and large-scale digital transformation. Over three days, the event will examine how the Middle East will build future-ready infrastructure to support AI at scale while advancing sustainability and innovation. More than 50 industry experts will share insights on preparing for AI-driven workloads, with focused discussions on energy strategy, high-density design, and major developments such as Stargate UAE. Driving data centre acceleration in the Middle East The agenda will also address financing and delivery challenges, including capital deployment, modular construction, and international expansion. Sessions will explore operational excellence and sustainability, showcasing advanced cooling technologies, sovereign AI initiatives, and interconnection strategies that will enable resilient, high-performance connectivity across the region. With over 500 attendees, Datacloud Middle East will offer a comprehensive view of how gigawatt-scale campuses, cutting-edge cooling, and strategic partnerships will shape the Middle East’s AI infrastructure leadership. Click here to secure your place now.

Zayo Europe partners with Reintel for network in Iberia

Network infrastructure provider Zayo Europe has announced a partnership with Reintel, a dark fibre operator in Spain, to expand its service offering across Iberia. The deal marks a milestone as Zayo Europe brings its 400GE enabled wavelength network to the Iberian Peninsula as well as expanding its Tier-1 IP offering to Portugal and to more Spanish cities. Carriers and enterprises in the region can now connect to Zayo Europe’s network, which links over 600 data centres across Europe. The collaboration will aim to deliver low-latency, high-capacity connectivity across Iberia, connecting key business hubs including Madrid, Lisbon, Barcelona, Bilbao, and Sines. This new route will seek to enhance network diversity, reduce deployment times, and strengthen connectivity options for businesses and carriers operating in the region. Spanning over 3,500km of fibre across Iberia, Zayo Europe's network will enable DC-to-DC connectivity, faster cloud adoption, and high-performance handling of data-intensive workloads. The move also strengthens Zayo Europe’s global reach, linking Iberia to international networks across the Mediterranean and Atlantic and supporting the digital transformation of businesses across multiple continents. Emerging data centre hubs Colman Deegan, CEO at Zayo Europe, comments, “This partnership marks another important step in Zayo Europe’s journey to connect the continent’s most dynamic markets. "Spain and Portugal are quickly emerging as major data centre hubs, with a strong supply of renewable energy driving new investments to power AI and other cutting-edge technologies. “We’re delighted to partner with Reintel, who operate the highest quality mission-critical fibre infrastructure in the region. By extending our network through their low-latency, high-availability fibre routes, we’re enabling enterprises, data centres, and carriers across Iberia to access our extensive high-performance connectivity that underpins Europe’s innovation economy. "Following our recent expansion in the German market, Iberia becomes the next strategic link in furthering the reach of our pan-European network. With the significant DC rollout planned in 2026, Zayo Europe is poised to set connectivity trends for the decade ahead.” Francisco J. Blanca Patón, CEO at Reintel, adds, “Zayo Europe’s expansion into Iberia aligns perfectly with our mission to accelerate Spain’s digital transformation. "Combining our extensive dark fibre footprint with Zayo Europe’s international network and unparalleled service excellence creates powerful opportunities for customers across the region. “This partnership will empower data centres and businesses across Spain and Portugal to keep pace with rising data demands and, ultimately, strengthen Europe’s digital backbone. We look forward to what can be achieved together through 2026 and beyond.” For more from Zayo Europe, click here.

Sabey Data Centers partners with OptiCool Technologies

Sabey Data Centers, a data centre developer, owner, and operator, has announced a partnership with OptiCool Technologies, a US manufacturer of refrigerant-based cooling systems for data centres, to support higher-density computing requirements across its US facilities. The collaboration sits within Sabey’s integrated cooling programme, which aims to ease adoption of liquid cooling approaches as processing demand increases, particularly for AI applications. Sabey says the partnership will broaden the range of cooling technologies available to customers across its portfolio, providing a practical route to denser deployments. OptiCool supplies two-phase refrigerant pumped systems designed for data centre use. The non-conductive refrigerant absorbs heat at the rack through phase change, removing heat without chilled water, large mechanical infrastructure, or significant data hall changes. Sabey states that the method can support increased density while reducing energy use and simplifying plant design. Supporting higher-density and liquid cooling uptake John Sasser, Chief Technical Officer at Sabey Data Centers, comments, “Partnering with OptiCool allows us to offer a cooling pathway that is both efficient and flexible. "Together, we’re making it easier for customers to deploy advanced liquid cooling while maintaining the operational clarity and reliability they expect.” Lawrence Lee, Chief Channel Officer at OptiCool, adds, “By working with Sabey, we’re able to bring our two-phase refrigerant systems into facilities designed to support the next generation of compute. "This partnership helps customers move forward with confidence as they transition to more advanced cooling architectures.” For more from Sabey Data Centers, click here.