The sheer scale of the AI dataย centreย boomย representsย a once-in-a-generation opportunity for dataย centreย builders. Worldwide, aroundย ยฃ2.2 trillion will be spent on AI data centresย between now and 2029. However, the unprecedented scale of demand and the speed at which AI infrastructure must come online to meet the moment presents a huge challenge. AI is not only changing the size of the facilities being built, but also how and whereย theyโreย delivered. Increasingly, off-site manufacturing of vertically integrated modular electrical rooms isย emergingย as an essential tool in helping OEMs meet the scale of demand at speed.ย ย
The AI Boom is Here, andย Itโsย Bigger Than Anyone Could Have Imaginedย ย
In 2025, the global market capacity of data centers was approximately 59 GW, with Goldman Sachs Research estimating that there will be aroundย 122 GW of data center capacity online by the end of 2030.ย
While AI is the primary driver of this explosion in demand, the other technologies that drove dataย centreย growth prior to the boomย arenโtย slowing down either. Internet of Things (IoT) technology is pushing edge adoption, the ongoing 5G rollout, and an overall adoption of digital services continues to drive both hyperscale and regional cloud buildouts.ย ย
Nevertheless, AIโs impact on dataย centreย pipelines goes beyond the number of dataย centresย being built. Facilities designed to support AI training and inference workloads are also pushing rack densities into the stratosphere.ย ย
Building the infrastructure to support the age of AI is as much a power challenge as it is one of securing GPUs or taming environmental impact. Power requirements per rack have already doubled, tripled, quadrupled, and could easily go 10ร in the next few years. Pre-AI Boom, rack densities hovered around 10โ15 kW; nowย theyโreย hitting 40โ80 kW in the same physical footprint and growing. Theย powertrainย has toย keep up.ย ย
Manufacturing, Supply Chain, and Site Selection: New Challenges and Old Methodsย
The physical build-out of dataย centresย has become another thorny problem. Developers areย encounteringย mounting execution hurdles, with projects mired by lengthy equipment lead timesย ranging from eight toย 24 months.ย ย
Speed is of the essence in the current dataย centreย landscape. More conventional manufacturing processes simplyย canโtย keep up. These problems are further compounded by ongoing supply chain disruption and rising costs as Brexit and Trumpโs Tariffs make moving goods across borders an ever more expensive, cumbersome process.ย ย
Demand is also intensifying the pressure on an already undersized talent pool. While overall constructionย labourย costs are rising, the most critical constraint is access to the highlyย specialisedย electrical engineers and skilled techniciansย required forย complex, high-density power commissioning on-site. Securing this essentialย expertiseย is a major bottleneck, often commanding premium rates that cut directly into a builder’s P&L and delay project completion.ย
Even accessing talent (at any price) is a problem. In Europeโs biggest dataย centreย markets (the FLAP-D), capacity saturation is already pushing dataย centreย companies outย into secondary markets. Frustrated by long lead times and regulatory hurdles, builders are flocking to Tier 2 markets like Lisbon, Madrid, and Milan. While approvals may be faster and land may be cheaper, new markets mean fewer local manufacturing capabilities and smaller talent pools.ย ย
The upshot is that demand for AIย workloadsย outstrips the pace at which dataย centreย builders can deliver their projects. Businessesย canโtย afford to wait years for dataย centreย construction to be completed, and every day lost impacts revenues. Traditional on-site construction methods are notoriously slow and cumbersome, which is where modular construction off-site offers a potential lifeline forย the industry.ย ย
Modular construction allows for speed and scale of deliveryย
Once very much a niche application suited to small projects in unconventional locations, modular off-site construction isย emergingย as a vital source of speed at scale in what would be considered traditional dataย centreย builds.ย ย
Off-site manufacturing supports faster and more efficient delivery by prefabricating all elements of the power infrastructure at dedicated campuses within skid-mounted,ย containerisedย units. Each podย containsย a complete suite of power equipment, including high-voltage input, step-down transformers, low-voltage distribution, UPS systems, battery backup, and generator transfer capability. Controlled factory settings then mean they can be commissioned and tested before ever leaving the manufacturing facility. Thisย representsย a degree of vertical integration to which traditional dataย centreย projectsย havenโtย hadย access.ย ย
Historically, power components arrived at the site from multiple different suppliers requiring lengthy, involved onsite integration and testing. The modular approach shifts thisย labour, time, and skill-intensive work, which is often vulnerable to local weather and logistical disruption, into a controlled factory environment. The result is improved quality, tighter tolerances, and the completion of rigorous testing, including Factory Acceptance Testing (FAT), to at least Level 1 before any units are shipped. This critical step removes significant specialist electrical engineering and commissioning requirements from the construction site, dramatically reducing project risk and accelerating final handover.โย โThis model also allows manufacturers toย engineer forย specific climates. Pods built for Nordic locations are designed toย operateย at minus thirty degrees Celsius, while units destined for southern Europe are prepared for temperatures of forty degrees or higher. As the climate crisis worsens, on-site manufacturing is going to face worse and more frequent disruption due to extreme weather and natural disasters like flooding or heatwaves.ย ย
Completingย the majority ofย manufacturing and testing off-site also shortens lead times by allowing power infrastructure to be assembled in parallel with other construction on-site. Modular power pods can be completed while the data hall is still under construction, allowing projects to progress at the same time, rather than one after another.ย
For dataย centreย builders looking to build bigger and faster in new markets amid aย labourย shortage,ย itโsย easy to understand the appeal.ย ย
The approach also supports more efficient use of valuableย floorspace. Land in proximity to power generation sources and population hubs where data can travel with minimal latency is rising sharply in price. Operators paying a premium for square footage look toย maximiseย revenue by devoting as much area as possible to servers, rather than housing non-revenue-generating electrical infrastructure. Shifting the powertrain into external pods mounted on skids frees up space for more racks and therefore more income.ย ย
There is also an element of flexibility here;ย standardisedย pod designs can be deployed wherever demand arises, enabling customers to redirect modules to different sites as requirements evolve. Off-site manufacturing can run in parallel with civil works, accelerating delivery even further.ย
In an age of skyrocketing costs, modular powertrains also reduce up-front capital expenditure. Instead of building the full electrical backbone of a facility before clients commit, operators can deploy pods when needed and tailor them to each customerโs specifications. Because pods can be lifted out and replaced, the modular approach also better supports phased expansion and helps dataย centresย balanceย cap-exย and op-ex across the facilityโsย lifecycle. Dataย centresย can begin withย an initialย deployment and easily scale acrossย subsequentย phases using the same modular architecture.ย ย
โโโFor builders seeking efficient European access and a guarantee of high-specification manufacturing and precision engineering, this proven modular method provides a reliable and expedited solution for scaling AI capacity.ย
Modular in the Mainstreamย
Modular construction is stepping out of itsย previousย role as an enabler ofย somewhat nicheย applications like remote sites, disaster recovery facilities, and edge deployments. Modular is moving into the mainstream.ย ย
Itโsย a strategy driven by the need for flexibility and speed atย scale. The combination of high-capacity manufacturing, controlled conditions, and repeatable modular design enables producers to support dozens of concurrent builds and deliver outcomes that traditional construction approachesย canโt.ย ย
