Has artificial intelligence (AI) affected your day-to-day life yet? If it has, then you already know how prevalent this technology has become in a short time. If it hasn’t, well, you may just not realize it yet, as AI seems to have infiltrated nearly every aspect of technology.
AI apps, like ChatGPT and Grok, have become go-to resources for a wide variety of users, from students looking for help with homework to workers seeking assistance with basic job functions. Apps like these, though, are just the tip of the iceberg. AI “engines” are being used to power things behind the scenes in many different types of technology.
The rise of AI has resulted in a race for dominance. Every big tech company is in the race, but it’s unclear where the finish line is, what awaits the winner, or what it will take to get there. These uncertainties aren’t dampening the spirits—or investments—of these companies in AI, though.
In many cases, the race currently takes the form of a rush to build as many large AI data centers as possible. Locations throughout the United States have been targeted for new AI data centers, leading to pushback in many communities over the resources, including water and electricity, that these facilities require.
It’s true that AI data centers require an enormous amount of electricity and water to run their rooms full of supercomputers. In areas where electrical grids are already overtaxed, residents have valid concerns about the effect AI data centers will have on their already-strained resources. At least one project, however, may be taking a new approach to allay some of those concerns.
In an article in The Wall Street Journal, author Bradley Olson reports that a small portion of a sprawling ranch in West Texas will soon be home to a giant new AI data center being planned by AI startup Poolside in conjunction with cloud-infrastructure provider CoreWeave.
What’s different about this AI data center is that the partners chose the location because the complex will be “capable of generating its own power.” “[L]ocated in the heart of the fracking boom,” the site will “take advantage of natural gas produced in the Permian Basin, the epicenter of U.S. drilling activity.”
According to Olson, “Poolside and CoreWeave…are betting that the proximity to natural-gas resources could reduce costs and improve the long-term viability of the data center, as many planned facilities across the U.S. have been built without power generation capabilities.”
The companies plan “to use an on-site gas plant built years ago by Occidental Petroleum and other infrastructure including pipelines will make it possible for the data center to generate its own power.” This could be a game changer, since Olson notes that it’s “far from certain whether many data centers will have sufficient power and water to operate without becoming a significant strain on local resources.”
One thing Olson does not touch upon, but which is another scarce resource that AI data centers will put a strain upon is the supply of skilled workers to build and operate these facilities. In the case of the planned facility in West Texas, workers will be needed that have a wide variety of skills in both the oil and gas sector and electricity and power generation.
How do companies and schools in these areas train the next generation of professionals with the electrical and oil and gas skills they need to succeed in the age of massive AI data centers? Fortunately, there are already companies they can partner with to develop the training programs that will provide workers with the hands-on skills they need to succeed.
For example, DAC Worldwide provides a variety of hands-on training systems for both electrical and oil and gas training:
Be sure to check out DAC Worldwide’s training systems that feature the real-world components workers will encounter in the field!
