OpenAI’s GPT-3 model is illustrative. The energy needed to train GPT-3 could power an average American’s home for more than 120 years, according to a report from Stanford University. Meantime, a Bay Area chipmaker notes that energy requirements for training models that include transformers—a form of deep-learning architecture—have increased by 275 times every two years.
The Many Sources of Energy Consumption
AI’s energy consumption will come from many corners. In addition to training and running large models, the proliferation of AI-assisted products, including AI search and chatbots, will gobble up terawatts.
Increasingly complex models will, in turn, require the use of more specialized hardware, such as graphic processing units (GPUs). The good news is that GPUs deliver much more performance-per-watt than traditional central processing units (CPUs), which could offset the overall power requirements to train and run AI models.
Ultimately, these drivers of energy consumption will accelerate the construction of power-hungry data centers, which already account for nearly 1% of global energy use, according to the International Energy Agency. Even before AI began to take off, studies predicted a sharp increase in data center construction, driven by the energy needs of new technologies.
There’s also the issue of emissions to consider. In particular, investors are pushing companies to measure Scope 3 emissions—upstream and downstream emissions that can be difficult to quantify. As AI use increases, the Scope 3 emissions of all data users—including firms that traditionally have low carbon footprints—are likely to grow correspondingly.
How Are Companies Addressing the AI Energy Conundrum?
Fortunately, companies are beginning to address the enormous AI energy challenge. These include firms that are central to AI and those only nibbling at the periphery. We think investors should pay attention to three key areas:
Hardware and Software: Reducing AI-related energy use will require new processor architectures. US semiconductor makers are focused on delivering more energy-efficient performance. In fact, a major chipmaker has set a goal of increasing the energy efficiency of its processors and accelerators used in AI training and high-performance computing by 30 times over a five-year period. According to another chipmaker, its GPU-based servers in some applications, such as large-language model training, use 25 times less energy than CPU-based alternatives. As GPUs from these chipmakers and others take share from CPUs in data centers, energy efficiency should increase even further.
Conserving energy will also require advanced transistor-packaging techniques. Technologies such as dynamic voltage frequency scaling and thermal management will be required to produce more efficient machine learning. We believe companies involved in semiconductor chip production and inspection will have a significant role to play in bringing these new innovations to market.
Investors will also be hearing more about power semiconductors, which help improve the power management of AI servers and data centers. Power semiconductors regulate current and can lower overall energy use by integrating more functionality in smaller footprints.
Improvements in Data Center Design: As AI adoption fuels the expansion of data center capacity, firms that supply data center components could reap benefits. Key components include power supplies, optical networking, memory systems and cabling. Tech companies that use the data centers themselves also have a strong incentive to continue improving data center design and energy consumption.
Renewable Energy: Renewables made up 21.5% of US electricity generation in 2022, according to the Energy Information Administration. With 80% of the US power grid nonrenewable, near-term power could come from traditional fossil fuels.
But over time, AI demand could open the door for more renewable energy use. That’s especially true given that AI data centers will be operated by tech giants, whose net zero policies are among the industry’s best. As a result, we expect that accelerated adoption of AI could improve the investment prospects of the entire renewable-power ecosystem.
Investing in Energy Solutions
In all these areas, we believe that investors should search for quality companies with a technological advantage, persistent pricing power, healthy free-cash-flow generation and resilient business models. Companies with strong fundamentals that are poised to participate in and benefit from increased demand for energy-efficient AI capabilities could provide attractive opportunities for equity investors with a sustainable focus and those with an absolute-return mandate.
As AI adoption accelerates and search engines are replaced by chatbots, the energy impact of this revolutionary form of machine learning should not be overlooked. Initiatives aimed at creating a more energy-efficient AI ecosystem might not be in the spotlight now, but they could eventually unlock attractive return potential for investors who can spot the potential solutions early.
Claire Walter, Research Analyst—Sustainable Thematic Equities, contributed to this analysis.
