1
Amidst the anxiety and disdain for data center growth, startups see an opportunity by designing mini data centers to install in homes that have less of a financial burden on residents, as well as a potentially lower ecological footprint than warehouse data centers.
Recommended Video
California-based Span, in partnership with Nvidia, has deployed prototype data center “nodes” in Northern California. The cabinet-sized units, dubbed XFRA, are installed on the sides of homes and small businesses. Requiring no fans, the technology is quiet, mitigating the problem of noise pollution that has drawn the ire of residents of areas with nearby warehouse data centers.
Ryan Harris, chief revenue officer of Span, said the company estimates XFRA will be able to generate about one to two megawatts worth of compute later this year, scaling across the country to an annual capacity of more than 1 gigawatt beginning next year. PulteGroup, among the largest homebuilders in the U.S., is testing the system. Nvidia will provide the liquid-cooled RTX PRO 6000 Blackwell Server Edition GPUs for the system.
“We do see a path to being able to contribute on an annual basis hundreds of megawatts, if not gigawatts, of scale compute capacity, while doing so in a deflationary-to-energy-price way,” Harris told Fortune.
All the while, tensions between hyperscalers and residents have been mounting over AI’s rising costs and environmental impacts. With data centers the size of dozens of football fields combined sprouting up around the country, residents have protested the construction of AI infrastructure, which McKinsey projected to touch $7 trillion in capital expenditures by 2030. The warehouses erected to store and process massive amounts of data have strained the U.S.’s already beleaguered grid system, potentially driving up electric bills by 6% over the next year, according to Goldman Sachs research.
That’s on top of concerns that data centers are guzzling water as part of their cooling systems. Two data center developments, one in Arizona and one in Georgia, took public water without authorization, and a recent study by the Houston Advanced Research Center projected the centers would drain as much as 399 billion gallons of water in Texas alone by 2030.
“We know what a big project this is, and what a nuisance it’s going to be, and what environmental impact it’s going to have on this area,” Kathryn Haushalter, a 42-year-old former U.S. Marine living in Saline Township, Michigan, across a future data center site, recently told Fortune. “I’m just so nervous for everybody else that doesn’t realize.”
Data centers in your home
Span’s XTRA models are part of a wider distributed network of AI infrastructure, using a home’s underused electrical capacity to create something similar to a cloud of compute that can be given to service providers. Span can install nodes at six-times the speed of centralized 100-megawatt data centers and at about one-fifth of the cost of construction.
The company charges a flat monthly fee of about $150. In return, it essentially pays a host’s electricity and internet bills. The computing power generated from the nodes are distributed to customers like hyperscalers and AI companies. XFRA is not designed to replace commercial data centers, according to the company, but rather to reduce strain on the grid.
Heata, a UK-based startup, also installs servers that act as a “virtual data center,” processing cloud computing workloads. But it adds a twist by using thermal conductors to carry heat from computer processors to cylinders filled with water for home heating needs.
The startup has installed units in about 100 homes and claims to have saved about 1 gigawatt-hour of energy. About 70% of the saved energy comes from less need to use domestic gas or electric heating systems in homes, while the remaining 30% comes from less of a need to cool data center processors.
A Heata spokesperson told Fortune the company has generated 8 million liters of hot water, saving homes about $55,000 on energy bills.
A model of a Span XFRA unit installed outside of a home.Courtesy of Span
Questions around the true benefit of home data centers
While these startups may promise to save both waste heat and money, Utah State University physics professor Robert Davies warned that efforts to modestly reduce the ecological harms of data center power usage and grid strain could actually exacerbate the problem.
In a preliminary analysis, Davis calculated only 30%-40% of homes may be suitable for mini data centers or servers due to integration constraints, the need for stable internet, and participants being willing to have the technology installed in their homes.
Separately, only 2%-3% of homes could realistically be heated through alternative energy-harnessing technologies because of constraints to how much waste heat can be collected. Additionally, there’s a lot of heating energy that could go to waste because in many geographies, it’s