New CEO of R&M announced

A new era of leadership is beginning at R&M, a globally active Swiss developer and provider of infrastructure solutions for data and communications networks. The family-owned company has appointed Roger Baumann (58) as its new Chief Executive Officer (CEO). Michel Riva, CEO of R&M since 2012, has decided to scale back his professional activities and focus on consulting and advisory board mandates. The handover took place on 23 June 2025, following a short transitional phase. "Over the past 13 years, Michel Riva has developed our company in a foresighted, goal-orientated manner with great personal commitment. Under his aegis, R&M established itself on the ICT market as an internationally recognised provider of network infrastructures," says Martin Reichle on behalf of the owner family. Under the responsibility of Michel Riva, R&M’s sales increased by 60% in 2022 to CHF 298 million (£271.75 million). The number of employees has almost tripled. The Group’s largest markets are Switzerland, Germany, Eastern, Southern and Western Europe, the Middle East, and India. "Under the leadership of Michel Riva, R&M has further established itself as a global player in the ICT market. Stakeholders were impressed by his focus on internationalisation, segment, and growth strategy, as well as overall solutions," says Chairman of the Board of Directors Thomas A. Ernst. "Together with the management team, Michel Riva has developed R&M from a component manufacturer to a provider of integrated solutions for public networks, data centres, and local area networks." "Being CEO of R&M was the best job of my career," comments Michel Riva as he bids farewell. Roger Baumann has decades of international management, technology, and sales experience in the manufacturing industry. He began his career in 1998 at Siemens, where he worked, among other things, as Head of Global Business Segments and as Managing Director of the market organisation in Taiwan. From this position, he is familiar with the infrastructure solutions for building automation, such as those offered by R&M in the LAN division. Since 2009, Roger has been CEO and Managing Director of three medium-sized, globally active technology companies. Most recently, he led Büchi Labortechnik in Flawil. He studied electrical engineering at ETH Zurich and completed his doctorate in microtechnology at EPFL Lausanne. He also completed the Executive MBA program as well as the Board Program at the University of St Gallen. "I am impressed by the high level of expertise, the perceptible passion, and the global team spirit of the R&M team," says Roger, describing his impression after his first few weeks at the company. For more from R&M, click here.

Fused connectors increase system availability for data centres

IT systems are only ever noticed when they fail. The new Han Protect connector solution from HARTING, a German manufacturer of electrical and electronic connectors, cable assemblies, and industrial networking equipment, aims to help simplify troubleshooting in the event of failures. Large buildings like data centres require a Building Automation System (BAS) to control Heating, Ventilation and Air Conditioning (HVAC), lighting, power supply, core IT, and security systems. The control cabinets for those subsystems are built with fused terminal blocks or circuit breakers to protect the automation devices against short-circuits or overcurrent. In the event of a short circuit, fixing the fault and finding the broken fuse is a time-consuming task that must be performed by expensive skilled workers. The fault may not even be in the switch cabinet, it could also be in the device itself. Both possibilities must therefore be checked and sometimes several control cabinets need to be examined before the fault can be isolated. With Han Protect, HARTING have developed a new connector that seeks to simultaneously simplify protection and reduce installation space in the control cabinet. Inside the connector (designed in the Han 3A format), there is an insulation body that adapts an M12A-coded five-pole connector and integrates a 5x20 mm miniature fuse. In the event of a short circuit, the fuse ensures that the supply to the connected units is quickly interrupted. A red LED on the Han Protect clearly identifies the blown fuse and should enable quick, simple, and tool-less replacement without opening the cabinet. Due to the external mounting of the housings, up to 30% of installation space for connectors can be saved inside the cabinet. The main advantage of Han Protect is that extensive fuse terminal blocks are no longer required. The control units remain protected while the connected systems can be started up again quickly. Some benefits include:• Increased system availability due to reduced Mean Time To Repair (MTTR).• Increased efficiency in maintenance due to visual identification of blown fuses outside of the control cabinets.• Space savings of up to 30% for control cabinets by eliminating extensive fuse terminal blocks inside of the control cabinet. For more from HARTING, click here.

LINX and ISOC Ghana announce partnership

The London Internet Exchange (LINX), an Internet Exchange Point (IXP) operator of digital infrastructure across the UK, Africa, and the United States, has stepped into a new community partnership with the Internet Society (ISOC) Ghana Chapter, marking a milestone in the development of Ghana’s digital infrastructure. This collaboration coincides with the launch of LINX Accra, a new interconnection hub designed to enhance internet performance, connectivity, and resilience across West Africa. The partnership aims to build on the existing internet community in Ghana through a series of joint initiatives, including community engagement events, technical training programs, and knowledge-sharing activities. These efforts are geared towards empowering local stakeholders to come together and advance the region’s internet ecosystem. LINX claims the new hub is expected to provide a platform for local and international networks to interconnect, improving latency, reducing costs, and boosting overall internet quality in the region. Nurani Nimpuno, Head of Global Engagement for LINX, comments, “We are excited to work alongside the Internet Society Ghana Chapter to support capacity building in Ghana. This partnership reflects our shared commitment to building a more robust and accessible internet for all.” ISOC Ghana is a chartered Chapter of the Internet Society, which is a non-profit organisation founded in 1992 to provide leadership in internet-related standards, education, and policy. It says it is dedicated to ensuring the open development, evolution, and use of the internet for the benefit of the people in Ghana and throughout the world. Maud Adjeley Ashont Elliot, President of the ISOC Ghana Chapter, states, “This partnership with LINX is a timely and welcome development as it brings renewed energy to our mission and opens up new avenues for collaboration, learning, and impact. We welcome the arrival of LINX into Ghana and look forward to a long-term partnership for the good of the local internet.” The Ghana Network Operators’ Group (GhNOG) Workshop, organised by the ISOC Ghana Chapter, is a technical training initiative aimed at strengthening the capacity of Ghana’s internet technical community. Designed to meet evolving industry demands, the workshop serves ISOC members and the wider internet ecosystem in Ghana. It seeks to provide a platform to attract new members, foster collaboration, and introduce courses and initiatives from the global Internet Society. For more from LINX, click here.

Kioxia broadens portfolio with data centre NVMe SSDs

Kioxia, a Japanese memory manufacturer, formerly the memory business of Toshiba, today announced the development and demonstration of a prototype of its new Kioxia CD9P Series PCIe 5.0 NVMe SSDs. These are the latest SSDs built with Kioxia’s 8th generation BiCS FLASH TLC-based 3D flash memory. BiCS FLASH features CBA (CMOS directly Bonded to Array) technology, an architecture that the company claims 'boosts power efficiency, performance, and storage density, while doubling the capacity available per SSD compared with the previous generation model.' As GPU-accelerated AI servers drive up the demands on storage infrastructure, maintaining high throughput, low latency, and consistent performance is critical - including keeping GPUs highly utilised. Kioxia claims its CD9P Series is purpose-built for these environments and that it delivers the speed and responsiveness required by AI, machine learning, and high-performance computing workloads. The CD9P Series leverages Kioxia’s 3D flash memory, featuring a CBA-based architecture that aims to reduce heat generation and enhance thermal management. The company says that the drives deliver 4-corner performance improvements of up to approximately 125% in random write, 30% in random read, 20% sequential read, and 25% in sequential write speeds compared to the previous generation. Furthermore, it claims that performance per watt of power consumption has improved by approximately 60% in sequential read, 45% in sequential write, 55% in random read, and 100% in random write - regarding the 15.36 terabyte model specifically. Whilst preliminary and subject to change, some features of the Kioxia CD9P Series SSD include:• PCIe 5.0, NVMe 2.0, NVMe-MI 1.2c compliant.• Open Compute Project Datacenter NVMe SSD specification v2.5 support. (Not all requirements.)• Form factors: 2.5-inch 15 mm thickness, EDSFF E3.S.• Read-intensive (1 DWPD) and mixed-use (3 DWPD) endurances.• Sequential performance (128 KiB/QD32) - 14.8 GB/s Read and 7 GB/s Write.• Random performance (4KiB) - 2,600 KIOPS (QD512) Read and 750 KIOPS (QD32) Write.• 2.5-inch capacities up to 61.44 TB and E3.S capacities up to 30.72 TB.• CNSA 2.0 algorithm support. "Achieving power efficiency, whilst addressing the increasing demand for all data processing challenges for AI, machine learning, or high-performance computing, is possibly the most pressing issue today and in the future," argues Axel Stoermann, Vice President and Chief Technology Officer for Embedded Memory and SSD, Kioxia. "At Kioxia, we are already addressing this need by offering the CD9P Series, a leading power efficiency, high-performance solution delivering speed and responsiveness for high workloads and optimum operation." Kioxia CD9P Series SSDs are now sampling to select customers and will be showcased at HPE Discover 2025, taking place 23-26 June in Las Vegas, USA. For more from Kioxia, click here.

Aggreko bolsters industrial HVAC support with new appointment

British multinational temporary power generation and temperature control company Aggreko has strengthened its data centres sector industrial HVAC support with the appointment of Chris Smith as Head of Temperature Control for the UK and Ireland. With over 22 years of experience at Aggreko working across Europe, Chris is set to support data centre professionals with temporary and supplementary cooling, heating, and dehumidification requirements. The appointment comes as companies across the UK and Ireland continue to experience operational and process temperature challenges caused by changing weather patterns throughout the year. With high temperature spikes expected over the summer, there is increasing strain on HVAC systems across industries, resulting in further demand for reliable solutions while balancing vital maintenance and upgrade schedules. To support sites across the UK with this, Aggreko says it has invested in its capacity to support data centre professionals, both in increasing its fleet of industrial HVAC systems and developing the knowledge to correctly implement the equipment. Chris Smith, new Head of Temperature Control for Aggreko UK and Ireland, comments, “It’s great to lead our expert teams in supporting the data centre industry, alongside contractors, engineers, and energy managers working within them, [and] across the UK and Ireland with their industrial HVAC and process temperature needs. With unrivalled experience in the power sector, Aggreko is best placed to ensure that our solutions operate as efficiently and sustainably as possible to help our customers prevent any challenges that may present themselves throughout the year. “We are able to also achieve better optimisation and efficiency to deliver both cost and environmental savings through data collected through our control and monitoring solution, Aggreko Connect. I’m ready to hit the ground running and help our customers future-proof their industrial HVAC process temperature solutions so that they can combat any weather throughout the year.” Alan Dunne, Managing Director for Aggreko UK and Ireland, adds, “With his extensive expertise, it’s great to be bringing Chris into the UK and Ireland team to lead with our industrial HVAC process temperature offering at a crucial time where solutions are needed. “Helping provide the data centre industry with efficient and resilient solutions, Chris and our expert engineering teams will be able to support our customers through the entire process. Through this, we will be able to implement our leading solutions and strengthen our position as leaders to the industry.” For more from Aggreko, click here.

Equinix responds to new research by think-tank Ember

Think-tank Ember has published new research warning that poor electricity grid planning could cause a major shift in Europe’s data centre landscape, particularly as developers increasingly seek locations with faster and easier grid connections rather than traditional hubs like Frankfurt, London, Amsterdam, and Paris. Data centres are a key part of critical infrastructure. In 2024, techUK published a report highlighting the essential role they play in enabling digital transformation across all sectors of the economy. As well as contributing £4.7 billion in gross added value (GVA) to the UK economy and 43,500 jobs, they are the backbone of our digital world. Data centres play a role in everything from delivering our favourite TV shows to ensuring we have access to banking, education, and healthcare. The opportunity AI has unlocked demands further data centre capacity which, in turn, requires energy. Equinix, an American multinational data centre and colocation company operating interconnection and data centre facilities worldwide, says it is responding to this need by investing in and expanding its campuses. The energy grid is evidently an important consideration in that process, with some campuses located in areas where both land and energy infrastructure are readily available. Other sites are built in areas where temporary energy solutions are needed while grid access is extended. In markets like the UK, the Government is making significant investment in the grid through programs like the RIIO-T3 Business Plan, which commits £35 billion to up-level the UK’s energy transmission system over the next 5 years, doubling the amount of transferable power by 2029 - creating great optimism. Equinix claims it has made significant investments in its energy programs. Examples include renewable energy adoption and the global Equinix Heat Export program, which intends to contribute heat and energy to communities that surround its campus locations. By adopting cleaner energy alternatives and innovative technologies, the company says it limits its reliance on the grid in some countries as well as reducing emissions globally. Its power purchase agreements (PPAs) are long-term wind and solar agreements where it partners directly with producers, helping to fund the development of projects like new wind and solar farms, increasing the amount of renewable energy available to the grid while supporting the long-term goal of reaching net zero by 2040. Globally, the Equinix Heat Export program takes waste heat from its data centres and, in partnership with energy utilities, distributes this heat to surrounding communities. In Helsinki, this program provides heat for local homes and, in Paris, heat is delivered to the Plaine Saulneir urban development zone which, alongside local houses, is home to the Olympic swimming pool. The energy grid is critical for supporting data centre infrastructure, and it’s certainly exciting to see innovation coming from both energy utilities and data centre operators. A collaboration between the two is crucial for unlocking opportunities for businesses, enriching the services they can offer to consumers, and achieving climate goals. For more from Equinix, click here.

'7% of organisations tackle vulnerabilities only when necessary'

A recent joint survey conducted by VDC Research, a technology market intelligence and consulting firm, and Kaspersky, a Russian multinational cybersecurity company, has highlighted an alarming trend: 7% of industrial organisations tackle vulnerabilities only when necessary. This leaves them exposed to unplanned downtime, production losses, and the reputational and financial damages that can result from possible cyber breaches. The study, entitled Securing OT with Purpose-built Solutions, illuminates the shifting landscape of cybersecurity within the industrial sector. Focusing on key industries such as energy, utilities, manufacturing, and transportation, their research surveyed over 250 decision-makers to uncover trends and challenges faced in fortifying industrial environments against cyber threats. A strong cybersecurity strategy begins with complete visibility into an organisation’s assets, allowing leaders to understand what assets need protection and to assess the highest risk areas. In environments where IT and OT systems converge, this demands more than just a comprehensive asset inventory. Organisations must implement a risk assessment methodology that is aligned with their operational realities. By establishing a clear asset baseline, organisations can engage in meaningful risk assessments that address both corporate risk criteria and the potential physical and cyber consequences of vulnerabilities. Recent survey findings reveal a concerning trend: a significant number of organisations are not engaging in regular penetration testing or vulnerability assessments. Only 27.1% of respondents perform these critical evaluations on a monthly basis, while 48.4% conduct assessments every few months. Alarmingly, 16.7% do so only once or twice a year, and 7.4% address vulnerabilities solely as needed. This inconsistent approach could leave organisations vulnerable as they navigate an increasingly complex threat landscape. Every software platform is inherently vulnerable to bugs, insecure code, and other weaknesses that malicious actors can exploit to compromise IT environments. For industrial companies, effective patch management is therefore crucial to mitigate these risks. That being said, studies reveal that many organisations encounter significant challenges in this area, often struggling to allocate the necessary time to pause operations for critical updates. Unnervingly, many organisations patch their OT systems only every few months or even longer, significantly heightening their risk exposure. Specifically, 31.4% apply patches monthly, while 46.9% do so every few months and 12.4% update only once or twice a year. These challenges in maintaining effective patch management are exacerbated in OT environments, where limited device visibility, inconsistent vendor patch availability, specialised expertise requirements, and regulatory compliance add layers of complexity to the cybersecurity landscape. As IT and OT systems increasingly converge, there is a pressing need to harmonise these traditionally disparate systems which have often relied on proprietary technologies rather than open standards. The challenge is further intensified by the rapid proliferation of Internet of Things (IoT) devices — ranging from cameras and smart sensors for asset tracking and health monitoring to advanced climate control systems. This explosion of connected devices broadens the attack surface for industrial organisations, underscoring the urgent need for robust cybersecurity measures.

Clean Energy Capital rebrands to Xela Energy

Clean Energy Capital (CEC) has rebranded as Xela Energy – marking an evolution from a start-up renewables developer to a fully-funded, institutional energy business delivering long-term infrastructure at scale. The company says its rebrand reflects its "maturity as a company," from a start-up, seed-stage renewable energy developer to an established enterprise energy business that builds, owns, and operates private wire infrastructure for global businesses, including data centres, industrial manufacturing, pharmaceutical, and blue-chip technology organisations. The company now provides its customers with access to renewable power, alongside the pre-requisite experience in building and owning renewable energy assets, including construction management, asset management, operations, H&S, regulatory and commercial compliance, contract management, billing, and customer service. Alexander Goodall, Founder & CEO at Xela Energy, comments, “Our rebrand to Xela Energy reflects the business we’ve become — and one we continue to build upon. It’s not just about a new name, it’s about delivering real infrastructure to solve our customers’ challenges proactively, not reactively. From a four-person start-up to a team of more than 25 dedicated industry experts, it’s our people who make that possible. Their belief, drive, and commitment have shaped Xela from the very start, and they continue to push us forwards every day. Xela Energy has grown from origins in development to delivering large-scale renewable energy solutions for some of the UK’s largest power users. “With capital secured and land in strategic locations, Xela Energy brings shovel-ready, strategically located projects to the table [...] and is positioned to power a more sustainable, industrial economy. As we enter this new phase, we’re creating an organisation that is forward-looking, technology-agnostic, and ready to scale. At the heart of this rebrand is a simple belief: if our energy is unsustainable, so is our existence.” The company claims that, due to a turbulent macroeconomic environment, UK commercial and industrial energy users can no longer rely on the grid to consistently deliver affordable or green energy, with Britain paying some of the highest prices of any country in the world for electricity, forcing businesses to seek off-grid solutions. Xela Energy says it responds to this demand by delivering renewable infrastructure located where power is needed, making renewable power an "undeniable part" of the answer to these industry-wide challenges. The company seeks to offer large-scale energy users access to clean, reliable, and cost-effective power, allowing them to reduce emissions, lower costs, and eliminate up-front capex. It continues by suggesting that central to this approach are Xela Energy’s Renewable Energy Service Agreements (RESAs): a private wire equivalent to a traditional power purchase agreement (PPA). RESAs, the company claims, enable Xela Energy customers to fix pricing, shielding them from future energy price spikes at scale and delivering industrial-scale green power directly to a site via private wire. These renewable energy projects are funded and built off-balance-sheet with the intention to help preserve customer capital for core growth activities directly into the customers infrastructure.

'More than a third of UK businesses unprepared for AI risks'

Despite recognising artificial intelligence (AI) as a major threat, with nearly a third (30%) of UK organisations surveyed naming it among their top three risks, many remain significantly unprepared to manage AI risk. Recent research from CyXcel, a global cyber security consultancy, highlights a concerning gap: nearly a third (29%) of UK businesses surveyed have only just implemented their first AI risk strategy - and 31% don’t have any AI governance policy in place. This critical gap exposes organisations to substantial risks including data breaches, regulatory fines, reputational harm, and critical operational disruptions, especially as AI threats continue to grow and rapidly evolve. CyXcel’s research shows that nearly a fifth (18%) of UK and US companies surveyed are still not prepared for AI data poisoning, a type of cyberattack that targets the training datasets of AI and machine learning (ML) models, or for a deepfake or cloning security incident (16%). Responding to these mounting threats and geopolitical challenges, CyXcel has launched its Digital Risk Management (DRM) platform, which aims to provide businesses with insight into evolving AI risks across major sectors, regardless of business size or jurisdiction. The DRM seeks to help organisations identify risk and implement the right policies and governance to mitigate them. Megha Kumar, Chief Product Officer and Head of Geopolitical Risk at CyXcel, comments, “Organisations want to use AI but are worried about risks – especially as many do not have a policy and governance process in place. The CyXcel DRM provides clients across all sectors, especially those that have limited technological resources in house, with a robust tool to proactively manage digital risk and harness AI confidently and safely.” Edward Lewis, CEO of CyXcel, adds, “The cybersecurity regulatory landscape is rapidly evolving and becoming more complex, especially for multinational organisations. Governments worldwide are enhancing protections for critical infrastructure and sensitive data through legislation like the EU’s Cyber Resilience Act, which mandates security measures such as automatic updates and incident reporting. Similarly, new laws are likely to arrive in the UK next year which introduce mandatory ransomware reporting and stronger regulatory powers. With new standards and controls continually emerging, staying current is essential.”

New energy agreement for nLighten’s UK data centres

nLighten, a provider of sustainable edge data centre services operating across the UK, Germany, France, and the Netherlands, has entered into a new renewable energy supply agreement with UK-based provider Conrad Energy, covering all of nLighten’s edge data centre locations across the UK. Unlike traditional supply contracts, the agreement enables nLighten to monitor its renewable energy consumption with granularity – down to the asset level and on an hourly basis. The partnership, which initially started in April 2024 with the delivery of renewable power, was enhanced in January 2025 with the introduction of detailed tracking and reporting capabilities. Previously, nLighten’s UK energy procurement was based on market-driven purchases supplemented by annual Guarantees of Origin. Conrad Energy has progressively onboarded all nLighten UK meters, consolidating what was previously a fragmented energy procurement approach. Each month, nLighten receives a breakdown of its renewable energy supply from Conrad Energy. This includes asset-level insights into the share of wind, solar, and biomass sources contributing to the energy mix. The data allows nLighten to track its renewable coverage over time and calculate avoided CO₂ emissions based on the actual generation profile. “This collaboration goes beyond what most energy suppliers currently offer in the UK,” claims Francesco Marasco, VP of Energy Operations & Sustainability at nLighten. “Not only can we align our procurement with real-time pricing, but we now also have full transparency over how – and where – our renewable energy is being generated. It’s another step towards building the most sustainable edge data centre platform in Europe.” This model builds on learnings from a similar agreement nLighten established in Spain with Shell. However, the Conrad Energy agreement takes transparency a step further by providing visibility down to individual generation assets, not just the source. “We’re proud to support nLighten’s efforts to lead the way in data centre sustainability,” says Tim Foster, Director of Energy for Business at Conrad Energy. “By combining flexible supply structures with granular data visibility, we’re helping digital infrastructure operators align more closely with today’s energy realities and decarbonisation goals.” For more from nLighten, click here.