Wilmott Group officially joins Rehlko

The Wilmott Group, a UK provider of critical power projects and generator installations, has announced the successful completion of its acquisition by Rehlko (formerly Kohler Energy), a US-based manufacturer of power systems, marking the beginning of a new chapter in the company’s 40-year history. The acquisition sees The Wilmott Group, including WB Power Services (WBPS) and Wiltech Acoustics, become an official part of Rehlko’s EMEA operations. “This marks a hugely exciting and pivotal milestone for The Wilmott Group,” says Andy Wilmott, Co-CEO and Chairman. “Now that the acquisition is complete, we are officially part of a global leader in energy resilience. "Rehlko shares our values of long-term customer focus, operational excellence, and innovation - principles we’ve been proud to uphold since 1983. Together, we’re equipped to elevate our services to new heights.” Brian Melka, President and Chief Executive Officer of Rehlko, adds, “This is an exciting moment for Rehlko as we bring The Wilmott Group into our family. “We’re thrilled to provide our customers with even greater impact, especially as we deepen our collaboration in the data centre space throughout the UK and Europe. "Together, we’re positioned to transform the energy resilience and security industry through enhanced efficiency and cutting-edge solutions.” The Wilmott Group says it remains committed to its "power you can trust" mission. Backed by Rehlko’s global scale and investment, it believes it is now better positioned to meet the evolving demands of mission-critical industries.

Kioxia showcases flash storage at FMS 2025

Memory manufacturer Kioxia is showcasing its latest flash storage technologies at this year’s Flash Memory Summit (FMS 2025), highlighting how its memory and SSD developments are supporting the infrastructure demands of artificial intelligence (AI) applications in enterprise and data centre settings. Among the products on display is the Kioxia LC9 Series, introduced as the industry’s first 245.76 terabyte (TB) NVMe SSD. Other featured releases include the CM9 and CD9P Series SSDs, built using Kioxia’s eighth-generation BiCS FLASH 3D flash memory. These devices aim to deliver a balance of performance, power efficiency, and versatility. The company is also presenting its ninth-generation BiCS FLASH memory, which is based on 1 terabit (Tb) 3bit/cell technology. It uses the CBA (CMOS directly Bonded to Array) architecture initially developed for the previous generation and offers gains in data read speed and energy consumption. Additional benefits include improvements in PI-LLT and SCA characteristics. “Artificial intelligence is reforming data infrastructure, and Kioxia is advancing storage technology alongside it,” says Axel Störmann, Vice President and Chief Technology Officer for Memory and SSD products at Kioxia Europe. “Our BiCS FLASH technology features a 32-die stack QLC architecture and innovative CBA technology. Delivering an industry-first 8TB per chip package, this breakthrough redefines the performance, scalability, and efficiency needed to power next-generation AI workloads.” Conference participation Kioxia is also contributing to a range of talks and sessions throughout FMS 2025: Keynote presentation: “Optimise AI Infrastructure Investments with Flash Memory Technology and Storage Solutions”Tuesday, 5 August at 11am PDTPresented by Katsuki Matsudera, General Manager, Memory Technical Marketing Department, Kioxia Corporation; and Neville Ichhaporia, Senior Vice President and General Manager, SSD Business Unit, Kioxia America. Executive AI panel discussion: “Memory and Storage Scaling for AI Inferencing”Thursday, 7 August at 11am PDTRory Bolt, Senior Fellow and Principal Architect, SSD Business Unit, Kioxia America, will join a panel featuring experts from NVIDIA and other companies in the memory and storage sector. The discussion will explore how to avoid configuration challenges and optimise infrastructure for AI workloads. Kioxia will also participate in additional panel discussions and technical sessions during the event. For more from Kioxia, click here.

Digital Connexion announces first DGX-ready Chennai data centre

Data centre operator Digital Connexion today announced that its MAA10 facility in Ambattur, Chennai, has been certified as part of the NVIDIA DGX-Ready Data Center program. This certification reflects the facility’s capabilities to support accelerated computing workloads required for AI training and GPU-intensive computing. The company says the MAA10 data centre is purpose-built to offer a resilient, GPU-optimised environment capable of supporting compute-intensive AI training and inference workloads. In line with global operational standards, MAA10 is compliant with ASHRAE W2 thermal guidelines, which ensures stable and efficient cooling in environments with elevated heat loads. The facility supports both air and liquid cooling configurations, enabling flexible deployment of diverse infrastructure from conventional GPU servers to high-density systems requiring advanced thermal management. It also features a 'unique' N+2C power architecture, offering an added layer of redundancy that aims to enhance uptime and operational reliability. “The ability to process and manage data at scale is foundational to successful AI deployments," says CR Srinivasan, Chief Executive Officer, Digital Connexion. "As AI adoption accelerates across India’s key industries, so does the need for infrastructure that can overcome data gravity barriers and support increasingly intensive AI workloads. "Our certification as part of the NVIDIA DGX-Ready Data Center program strengthens MAA10’s position as a purpose-built, high-performance environment engineered to aggregate, process, and manage large volumes of AI data, empowering enterprises to innovate at scale.” As Indian enterprises embed AI more deeply into their operations, the amount of data to be managed - and thus the need for reliable data centres - continues to grow. As indicated by the Data Gravity Index Report 2.0, by the end of 2025, Delhi will have generated 12.3k exabytes of data, boosting the need for optimised data management. MAA10 is TIA-942 Rated 3, which highlights the facility’s capability to maintain critical operations even during maintenance activities. The data centre also holds an IGBC Platinum rating, reflecting its alignment with high benchmarks in sustainability, energy efficiency, and responsible resource management. Digital Connexion asserts that with "dedicated infrastructure engineered to handle dynamic GPU load patterns, MAA10 is positioned to support enterprises developing and deploying data-intensive AI applications in India."

Riverbed launches new network observability tools

Riverbed, a US-based provider of network performance monitoring, application management, and WAN optimisation software and hardware, has launched a new range of AI-powered network observability tools, aimed at helping enterprise IT teams manage increasingly complex environments. The latest updates include new hardware, enhanced software, and a more flexible licensing model, designed to support high-performance, AI-ready infrastructure. The new release features the Riverbed xx90 appliance family, reportedly delivering up to three times the performance of previous systems for AppResponse, NetProfiler, and Flow Gateway. The appliances are built for high-throughput packet and flow capture across distributed networks, supporting monitoring at over 50Gbps and offering scalable storage beyond 2.4PB. AppResponse 11.21 now enables real-time analysis of encrypted IPSec ESP tunnel traffic and cipher hygiene, while the new version of NetProfiler (10.29), according to the company, brings faster reporting, dynamic flow balancing, and support for Versa SD-WAN. The release also introduces the Riverbed Intelligent Network Observability Essentials bundle, combining key tools for hybrid environments: • Riverbed IQ – AI-powered diagnostics for issue detection and resolution • Workspaces – Role-based dashboards integrating packet, flow, and endpoint data • Grafana plug-in – Allows Riverbed data to be displayed in existing Grafana dashboards • Topology Viewer – Map-based visualisation of networks, applications, and user experience These features are available through the company's Riverbed Flex Subscription. The model, they claim, is intended to improve licensing flexibility, reduce total cost of ownership, and simplify long-term planning. “With today’s launch, we’re introducing next-generation observability systems that align with what our customers need: streamlined toolsets, automation, and cost-efficient performance,” says Dave Donatelli, CEO of Riverbed. “We’re delivering these capabilities with faster appliances, smarter software, and greater flexibility.” Riverbed reports 92% year-on-year growth in observability bookings for the first half of 2025. “As organisations prepare their infrastructure for AI and data-heavy applications, they need monitoring systems that are intelligent and built to scale,” adds Shamus McGillicuddy, Research Vice President at EMA.

Scolmore introduces IEC Lock C21 Locking Connector

Scolmore, a UK-based manufacturer of electrical wiring accessories, circuit protection products, and lighting equipment, has expanded its IEC Lock range with the addition of a new C21 locking connector, compatible with both C20 and C22 inlets.Featuring a side button release, the IEC Lock C21’s design aims to offer extra protection against accidental disconnection, making it an appropriate choice for applications where reliability is essential.Designed to handle the heat, the company says the C21 is a durable, lockable connector built to protect appliances that are sensitive to vibration against power loss. The product is particularly suited to data centres, servers, and other industrial equipment where maintaining the proper device temperature is critical to operational success.

AssetHUB, ITS to speed up fibre rollouts in UK cities

Organisations looking to deliver high-speed connectivity in major cities across the UK have been given a boost following a new partnership between asset reuse specialist AssetHUB and full fibre networks provider ITS. The collaboration will allow Altnets and other interested parties, such as enterprise businesses, government units, local council and carriers, to purchase ITS’s dark fibre assets through AssetHUB’s secure marketplace for buying and selling existing infrastructure. The companies say the addition reflects a "shared commitment to enabling faster, more efficient fibre deployments through smarter infrastructure planning and reuse." “Fibre rollouts in big cities often mean weeks of roadworks, noise, and many other disruptions, which frustrate residents and obstruct already busy streets,” says AssetHUB CEO Rob Leenderts. “Through collaboration and sharing of assets in big cities, Altnets and other fibre builders can avoid unnecessary dig costs and overbuild, as well as speed up deployments to businesses and other amenities that require urgent connectivity upgrades. "Having a centralised platform that clearly maps infrastructure or product availability in dense locations and streamlines asset enquiries can also help network builders decrease the time to market of their services.” Kevin McNulty, Strategy Director at ITS, adds, “Our strategic partnership with AssetHUB is an important step in our ambition to scale through collaboration. "By making our infrastructure discoverable to other parties at the point of planning, we’re supporting faster rollouts, reduced disruption, and greater visibility of critical fibre routes in some of the UK’s most in-demand urban areas.” The partnership also enables ITS to utilise AssetHUB’s marketplace as a buyer, sourcing infrastructure assets to support its own build and expansion plans.

Infoblox unveils 2025 DNS Threat Landscape Report

Infoblox, a provider of cloud networking and security services, today released its 2025 DNS Threat Landscape Report, revealing a dramatic surge in DNS-based cyberthreats and the growing sophistication of adversaries leveraging AI-enabled deepfakes, malicious adtech, and evasive domain tactics. Based on pre-attack telemetry and real-time analysis of DNS queries from thousands of customer environments - with over 70 billion DNS queries per day - the report offers a view into how threat actors exploit DNS to deceive users, evade detection, and hijack trust. "This year's findings highlight the many ways in which threat actors are taking advantage of DNS to operate their campaigns, both in terms of registering large volumes of domain names and also leveraging DNS misconfigurations to hijack existing domains and impersonate major brands," says Renée Burton, Head of Infoblox Threat Intel. "The report exposes the widespread use of traffic distribution systems (TDS) to help disguise these crimes, among other trends security teams must look out for to stay ahead of attackers." Research background Since its inception, Infoblox Threat Intel has identified a total of over 660 unique threat actors and more than 204,000 suspicious domain clusters, meaning a group of domains believed to be registered by the same actor. Over the past 12 months, Infoblox researchers have published research covering 10 new actors. They have uncovered the breadth and depth of malicious adtech, which disguises threats from users through TDS. The report brings together findings from the past 12 months to illuminate attack trends. Particularly, the report sheds light on adtech's role in these attacks. Top findings • 100.8 million newly observed domains in the past year, with 25.1% classified as malicious or suspicious• 95% of threat-related domains observed in only one customer environment• 82% of customer environments queried domains associated with malicious adtech, which rotate a massive number of domains to evade security tools and serve malicious content• Nearly 500k traffic distribution system (TDS) domains were seen in the last 12 months within Infoblox networks• Daily detection of DNS Tunneling, exfiltration, and command and control, including Cobalt Strike, Sliver, and custom tools, which require ML algorithms to detect Uptick in newly observed domains Over the year, threat actors continuously registered, activated, and deployed new domains, often in very large sets through automated registration processes. By increasing their number of domains, threat actors can bypass traditional forensic-based defences, which are built on a "patient zero" approach to security. This reactive approach relies on detecting and analysing threats after they have already been used somewhere else in the world. As attackers leverage increasing levels of new infrastructure, this approach becomes ineffective, leaving organisations vulnerable. Actors are using these domains for an array of malicious purposes, from creating phishing pages and deploying malware through drive-by downloads to engaging in fraudulent activities and scams, such as fake cryptocurrency investment sites. The need for preemptive security These findings underscore a pressing need for organisations to be proactive in the face of AI-equipped attackers. Investing in preemptive security can be the deciding factor in successfully thwarting threat actors. Proactive protection, paired with consistent radar on emerging threats, tips the scales in favour of security teams — allowing them to pull ahead of attackers and interrupt their unlimited supply of domains.

BSDI announces 5,000-acre campus in Montana

Big Sky Digital Infrastructure (BSDI), a Quantica Infrastructure (Quantica) company, has just announced a major project: a 5,000-acre energy and digital infrastructure campus outside Billings, Montana, USA. The initial projected capacity is 500 MW of renewable power and battery energy storage, expandable to 1 GW. The company plans construction of the Big Sky Campus beginning in 2026. “Montana has always been a state that builds its future on the strength of its people and natural resources,” says Damon Obie, a Montana native and co-founder of Big Sky Digital Infrastructure. “The Big Sky Campus represents a unique opportunity to build on the industries that powered our history with the digital economy that will define our future. "This project is about creating opportunities for Montanans, so our communities can thrive in the digital age while staying true to our values and heritage.” John Chesser, co-founder of Big Sky Digital Infrastructure, adds, “A well-planned digital economy can support communities through employment opportunities and infrastructure investments. “This project uses the rising demand for hyperscale, AI, and cloud computing to deliver land, renewable energy, and high-speed fibre in one integrated solution.” “Having worked in the Montana power industry for over twenty years,” comments Charlie Baker, BSDI’s Chief Financial Officer, “I look forward to bringing BSDI’s approach of combining traditional grid power with planned renewable and battery energy storage to help customers meet sustainability and reliability goals. "Improvements to in-state telecommunications that come with this will benefit the whole community including schools, healthcare, and community services.” The site is expected to be connected to hundreds of miles of new fibre-ready underground conduit, enabling diverse routes to major metropolitan areas and aiming to ensure fast, resilient connectivity. The site will also include large-scale renewable energy and battery energy storage to support the campus. Through this project, the BSDI team expects to create construction jobs and permanent positions, boosting local economic development and workforce training.

Siemens earns Platinum in EcoVadis Sustainability Rating

German multinational technology company Siemens has been awarded the Platinum medal in the 2025 EcoVadis Sustainability Rating. This achievement places Siemens among the top 1% of around 130,000 companies assessed worldwide by EcoVadis, a provider of business sustainability ratings. The Platinum medal, according to the company, "underscores Siemens' commitment to sustainability and reflects achievements across all of EcoVadis’ assessment areas: Environment, Ethics, Labour & Human Rights, and Sustainable Procurement." EcoVadis assessed Siemens with a score of 85 points. In addition, Siemens Mobility was assessed separately, achieving a score of 84 points. More than 90% of Siemens’ business enables customers to achieve a positive sustainability impact across three key areas: decarbonisation and energy efficiency, resource efficiency and circularity, and people centricity & society. “Achieving the highest-ever score and being among the top 1% of all rated companies reinforces our position as a sustainability leader and recognises the dedication of our people,” claims Eva Riesenhuber, Global Head of Sustainability at Siemens. “Sustainability is at the core of our business, and we are continuing to scale our impact in the areas of industry, infrastructure, and mobility, while empowering our customers to become more competitive, more resilient, and more sustainable.” Andreas Mehlhorn, Head of Sustainability at Siemens Mobility, adds, “Being awarded the EcoVadis Platinum medal once again is a strong testament to our leading position in the rail industry. "It reflects our commitment to integrating sustainable solutions for our customers by maintaining rigorous sustainability standards across our operations and supply chain.” The EcoVadis business sustainability rating is based on international sustainability standards, including the Ten Principles of the UN Global Compact, the International Labour Organization (ILO) conventions, the Global Reporting Initiative (GRI) standards, and ISO 26000. For more from Siemens, click here.

The hidden cost of overuse and misuse of data storage

Most organisations are storing far more data than they use and, while keeping it “just in case” might feel like the safe option, it’s a habit that can quietly chip away at budgets, performance, and even sustainability goals. At first glance, storing everything might not seem like a huge problem. But when you factor in rising energy prices and ballooning data volumes, the cracks in that strategy start to show. Over time, outdated storage practices, from legacy systems to underused cloud buckets, can become a surprisingly expensive problem. Mike Hoy, Chief Technology Officer at UK edge infrastructure provider Pulsant, explores this growing challenge for UK businesses: More data, more problems Cloud computing originally promised a simple solution: elastic storage, pay-as-you-go, and endless scalability. But in practice, this flexibility has led many organisations to amass sprawling, unmanaged environments. Files are duplicated, forgotten, or simply left idle – all while costs accumulate. Many businesses also remain tied to on-premises legacy systems, either from necessity or inertia. These older infrastructures typically consume more energy, require regular maintenance, and provide limited visibility into data usage. Put unmanaged cloud plus outdated on-prem systems together and you’ve got a recipe for inefficiency. The financial sting of bad habits Most leaders in IT understand storing and securing data costs money. But what often gets overlooked are the hidden costs: the backup of low-value data, the power consumption of idle systems, or the surprise charges that come from cloud services which are not being monitored properly. Then there’s the operational cost. Disorganised or poorly labelled data makes access slower and compliance tougher. It also increases security risks, especially if sensitive information is spread across uncontrolled environments. The longer these issues go unchecked, the more danger there is of a snowball effect. Smarter storage starts with visibility The first step towards resolving these issues isn’t deleting data indiscriminately, it’s understanding what’s there. Carrying out an infrastructure or storage audit can shed light on what’s being stored, who’s using it, and whether it still serves a purpose. Once that visibility is at your fingertips, you can start making smarter decisions about what stays, what goes, and what gets moved somewhere more cost-effective. This is where a hybrid approach of combining cloud, on-premises, and edge infrastructure comes into play. It lets businesses tailor their storage to the job at hand, reducing waste while improving performance. Why edge computing is part of the solution Edge computing isn’t just a tech buzzword; it’s an increasingly practical way to harness data where it’s generated. By processing information at the edge, organisations can act on insights faster, reduce the volume of data stored centrally, and ease the load on core networks and systems. Edge computing technologies make this approach practical. By using regional edge data centres or local processing units, businesses can filter and process data closer to its source, sending only essential information to the cloud or core infrastructure. This reduces storage and transmission costs and helps prevent the build-up of redundant or low-value data that can silently increase expenses over time. This approach is particularly valuable in data-heavy industries such as healthcare, logistics, and manufacturing, where large volumes of real-time information are produced daily. Processing data locally enables businesses to store less, move less, and act faster. The wider payoff Cutting storage costs is an obvious benefit but it’s far from the only one. A smarter, edge-driven strategy helps businesses build a more efficient, resilient, and sustainable digital infrastructure: • Lower energy usage — By processing and filtering data locally, organisations reduce the energy demands of transmitting and storing large volumes centrally, supporting both carbon reduction targets and lower utility costs. As sustainability reporting becomes more critical, this can also help meet Scope 2 emissions goals. • Faster access to critical data — When the most important data is processed closer to its source, teams can respond in real time, meaning improved decision-making, customer experience, and operational agility. • Greater resilience and reliability — Local processing means organisations are less dependent on central networks. If there’s an outage or disruption, edge infrastructure can provide continuity, keeping key services running when they’re needed most. • Improved compliance and governance — By keeping sensitive data within regional boundaries and only transmitting what’s necessary, businesses can simplify compliance with regulations such as GDPR, while reducing the risk of data sprawl and shadow IT. Ultimately, it’s about creating a storage and data environment that’s fit for modern demands. It needs to be fast, flexible, efficient and aligned with wider business priorities. Don’t let storage be an afterthought Data is valuable - but only when it's well managed. When storage becomes a case of “out of sight, out of mind,” businesses end up paying more for less. And what do they have to show for it? Ageing infrastructure and bloated cloud bills. A little housekeeping goes a long way. By adopting modern infrastructure strategies, including edge computing and hybrid storage models, businesses can transform data storage from a hidden cost centre into a source of operational efficiency and competitive advantage. For more from Pulsant, click here.