Houston data center upgrades facility with sustainability in mind

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DUG Technology announced it's increased the company’s high performance computing capabilities and also reinforced its commitment to sustainable innovative technology. Photo courtesy of DUG

An Australia-based company has launched a major upgrade of its Houston data center. With the changes, the facility had optimized sustainability.

DUG Technology announced it's increased the company’s high performance computing (HPC) capabilities and also reinforced its commitment to sustainable innovative technology. The company announced its latest investment in 1500 new AMD EPYCTM Genoa servers, which has 192 cores and 1.5 terabytes of DDR5 memory each. Quebec-based IT solution company Hypertec provided the immersion-born hardware.

“DUG’s decision highlights the unmatched technological advancements and superior performance of Hypertec immersion-born products, which are setting a new benchmark in the industry,” Hypertec’s Patrick Scateni, vice president of global sales says in a news release.

Recently, DUG deployed 600 new Intel Xeon CPU Max Series machines, which are equipped with 128 cores and one terabyte of RAM. All of their existing servers had a RAM upgrade to 384 gigabytes. The hardware upgrades more than “double the effective horsepower of DUG’s Houston data center,” according to the company.

DUG initially started construction on Bubba in 2018, and chose Skybox Datacenters as the facility to put Bubba in after a global search. The supercomputer landing in Houston represented the largest data center transaction in the Houston area's history with Dallas-Fort Worth, Austin, and San Antonio having previously overshadowed Houston as hotspots for data center activity in the state.

“Houston was a natural choice," DUG’s Managing Director Matthew Lamont previously told InnovationMap. “Given the low cost of power and the fact that Skybox had the available infrastructure ready to go."

DUG’s Houston facility was the DCD Awards winner of the 2019 Enterprise Data Centre Design Award. The upgrade of DUG’s Houston-based supercomputer Bubba was opened with a ribbon-cutting ceremony by the Hon Stephen Dawson MLA, Minister for Emergency Services; Innovation and the Digital Economy; Science; Medical Research, during his “Western Australia: USA Connect” mission to the United States.

Also present for the announcement was Christopher Skeete, Minister for the Economy in the National Assembly of Québec. DUG joined the Western Australia (WA) trade delegation to Texas, led by Minister Dawson. The trade delegation looks to establish strategic connections through investment and trade with WA with a focus on the energy transition and green technology.

"It is very exciting to see our HPC capabilities scale in response to the increasing demand for our technology,” Lamont says in the release. “The new hardware was purchased after extensive testing and our partners were chosen based on the unparalleled performance of their solutions. The Intel machines are already turbocharging our new MP-FWI Imaging technology, which is having a transformative impact on the way we process seismic data.

"Delivering unsurpassed imaging with rapid turnaround for our clients, it is a complete replacement for the conventional processing and imaging workflow," he continued. "The new Hypertec-supplied AMD machines are needed to accelerate delivery of both current and imminent projects, and to support the unprecedented demand we continue to see moving forward.”

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This article originally ran on InnovationMap.

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New report predicts major data center boom in Texas by 2028

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Data centers are proving to be a massive economic force in Texas.

For instance, a new report from clean energy company Bloom Energy predicts Texas will see a 142 percent increase in its market share for data centers from 2025 to 2028. That would be the highest increase of any state.

Bloom Energy expects Texas to exceed 40 gigawatts of data-center capacity by 2028, representing a nearly 30 percent share of the U.S. market. A typical AI data center consumes 1 to 2 gigawatts of energy.

“Data center and AI factory developers can’t afford delays,” Natalie Sunderland, Bloom Energy’s chief marketing officer, said in the report. “Our analysis and survey results show that they’re moving into power‑advantaged regions where capacity can be secured faster — and increasingly designing campuses to operate independently of the grid.”

“The surge in AI demand creates a clear opportunity for states that can adapt to support large-scale AI deployments at speed,” Sunderland adds.

Further evidence of the data center explosion in Texas comes from ConstructConnect, a provider of data and software for contractors and manufacturers. ConstructConnect reported that in the 12-month span through November 2025, data-center construction starts in Texas accounted for $11 billion in spending. At $12.5 billion, only Louisiana surpassed the Texas total.

Capital expenses for U.S. data centers were expected to surpass $425 billion last year, according to ratings agency S&P Global.

ConstructConnect also reports that Texas is among five states collectively grabbing 80 percent of potential data center construction starts. Currently, Texas hosts around 400 data centers, with close to 60 of them in the Houston market.

A large pool of data-center construction spending in Texas is flowing from Google, which announced in November that it would earmark $40 billion for new AI data centers in the state.

“Texas leads in AI and tech innovation,” Gov. Greg Abbott proclaimed when the Google investment was unveiled.

Other studies and reports lay out just how much data centers are influencing economic growth in the Lone Star State:

A study by Texas Royalty Brokers indicates Texas leads the U.S. with 17 clusters of AI data centers. The study measured the density of AI data centers by counting the number of graphics processing units (GPUs) installed in those clusters. GPUs are specialized chips built to run AI models and perform complex calculations.
Citing data from construction consulting company FMI, The Wall Street Journal reported that spending on construction of data centers is expected to rise 23 percent in 2026 compared with last year. Much of that construction spending will happen in Texas. In the 12 months through November 2025, the average data center cost $597 million, according to ConstructConnect.
Data published in 2025 by commercial real estate services company Cushman & Wakefield shows three Texas markets — Austin, Dallas and San Antonio — boast the lowest construction costs for data centers among the 19 U.S. markets that were analyzed. The mid-range of costs in that trio of markets is roughly $10.65 million per megawatt. Houston isn’t included in the data.

Although Houston isn’t cited in the Cushman & Wakefield data, it nonetheless is playing a major role in the data-center boom. Houston-area energy giants Chevron and ExxonMobil are chasing opportunities to supply natural gas as a power source for data centers, for example.

“As Houston rapidly evolves into a hub for AI, cloud computing, and data infrastructure, the city is experiencing a surge in data-center investments driven by its unique position at the intersection of energy, technology, and innovation,” says the Greater Houston Partnership.

Houston-based ENGIE to add new wind and solar projects to Texas grid

coming soon

Houston-based ENGIE North America Inc. has expanded its partnership with Los Angeles-based Ares Infrastructure Opportunities to add 730 megawatts of renewable energy projects to the ERCOT grid.

The new projects will include one wind and two solar projects in Texas.

“The continued growth of our relationship with Ares reflects the strength of ENGIE’s portfolio of assets and our track record of delivering, operating and financing growth in the U.S. despite challenging circumstances,” Dave Carroll, CEO and Chief Renewables Officer of ENGIE North America, said in a news release. “The addition of another 730 MW of generation to our existing relationship reflects the commitment both ENGIE and Ares have to meeting growing demand for power in the U.S. and our willingness to invest in meeting those needs.”

ENGIE has more than 11 gigawatts of renewable energy projects in operation or under construction in the U.S. and Canada, and 52.7 gigawatts worldwide. The company is targeting 95 gigawatts by 2030.

ENGIE launched three new community solar farms in Illinois since December, including the 2.5-megawatt Harmony community solar farm in Lena and the Knox 2A and Knox 2B projects in Galesburg.

The company's 600-megawatt Swenson Ranch Solar project near Abilene, Texas, is expected to go online in 2027 and will provide power for Meta, the parent company of social media platform Facebook. Late last year, ENGIE also signed a nine-year renewable energy supply agreement with AstraZeneca to support the pharmaceutical company’s manufacturing operations from its 114-megawatt Tyson Nick Solar Project in Lamar County, Texas.

Houston geothermal company raises $97M Series B

fresh funding

Houston-based geothermal energy startup Sage Geosystems has closed its Series B fundraising round and plans to use the money to launch its first commercial next-generation geothermal power generation facility.

Ormat Technologies and Carbon Direct Capital co-led the $97 million round, according to a press release from Sage. Existing investors Exa, Nabors, alfa8, Arch Meredith, Abilene Partners, Cubit Capital and Ignis H2 Energy also participated, as well as new investors SiteGround Capital and The UC Berkeley Foundation’s Climate Solutions Fund.

The new geothermal power generation facility will be located at one of Ormat Technologies' existing power plants. The Nevada-based company has geothermal power projects in the U.S. and numerous other countries around the world. The facility will use Sage’s proprietary pressure geothermal technology, which extracts geothermal heat energy from hot dry rock, an abundant geothermal resource.

“Pressure geothermal is designed to be commercial, scalable and deployable almost anywhere,” Cindy Taff, CEO of Sage Geosystems, said in the news release. “This Series B allows us to prove that at commercial scale, reflecting strong conviction from partners who understand both the urgency of energy demand and the criticality of firm power.”

Sage reports that partnering with the Ormat facility will allow it to market and scale up its pressure geothermal technology at a faster rate.

“This investment builds on the strong foundation we’ve established through our commercial agreement and reinforces Ormat’s commitment to accelerating geothermal development,” Doron Blachar, CEO of Ormat Technologies, added in the release. “Sage’s technical expertise and innovative approach are well aligned with Ormat’s strategy to move faster from concept to commercialization. We’re pleased to take this natural next step in a partnership we believe strongly in.”

In 2024, Sage agreed to deliver up to 150 megawatts of new geothermal baseload power to Meta, the parent company of Facebook. At the time, the companies reported that the project's first phase would aim to be operating in 2027.

The company also raised a $17 million Series A, led by Chesapeake Energy Corp., in 2024.

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