As big data, machine learning, and artificial intelligence continue to gain prominence in information technology, experts are raising concerns about the environmental costs of computation — primarily data and AI’s carbon footprint and greenhouse gas emissions.
The problem is showing no signs of slowing down. As a result of the COVID-19 pandemic, data and AI deployment increased exponentially as the demand for digital transformation increased.
MIT reported that the cloud now has a larger carbon footprint than the entire airline industry, and a single data center might consume an amount of electricity equivalent to 50,000 homes.
Meanwhile, the datasets used to train AI are increasingly large and take enormous energy to run. The MIT Technology Review reported that training just one AI model can emit more than 626,00 pounds of carbon dioxide equivalent – which is nearly five times the lifetime emissions of an average American car.
Let's look at why enterprises need to address how data storage and AI contribute to greenhouse gas emissions and how we can mitigate the impacts of this ongoing problem.
Why We Must Address This Problem
Sanjay Podder, managing director and global lead of technology, sustainability, innovation at Accenture, says that the exponential growth in data and its increased energy demand could counteract and impede our global progress on climate change.
Right now, the AI community has adopted a “bigger is better” attitude regarding data and artificial intelligence – but that approach threatens to inflict major environmental damage in the future.
Tech experts will need to expend greater and greater amounts of energy to build increasingly larger models, with decreasing improvements in performance.
For example, the AI that underlies autonomous vehicles must be trained to learn to drive. Once the initial training is complete, the autonomous vehicle's AI model performs continuous inference to navigate its environment. This process happens daily as long as we use the vehicle. That's a lot of energy requirements just for one car.
We need bold, thoughtful initiatives to set the field of AI on a more sustainable trajectory.
Suggestions for Tackling AI’s Sustainability Impact
What can enterprise companies do to mitigate the environmental impacts of AI and big data while driving forward with innovation? Here are a few data sustainability suggestions:
Consider how the environmental impact is measured. We need to improve carbon accounting by delivering faster, more accurate data on carbon footprints and sustainability impacts. Tools like Salesforce’s Net Zero Cloud, SustainLife, and Microsoft Cloud for Sustainability can help companies visualize and understand their missteps to spot improvement opportunities.
Estimate carbon footprints of AI models. The Machine Learning Emissions Calculator can help practitioners run estimations based on factors like a cloud provider, geographic region, and hardware.
Examine how and where data is stored. Some of the biggest machine learning jobs might be moved to more carbon-friendly regions. For example, Montreal, Canada, has several data centers that run on hydroelectricity.
Increase transparency and measurement. As AI researchers publish their results for new models, they should include measurements of how much energy was emitted in their model alongside their performance and accuracy metrics.
Follow Google’s “4M” best practices. Google has identified four best practices, known as the “4Ms,” that can significantly reduce energy and carbon emissions for anyone using Google Cloud services. These include selecting efficient machine learning model architectures, using processors and systems optimized for ML training, computing in the cloud rather than on-premise, and map optimization to choose locations with the cleanest energy. By following these practices, Google claims, energy can be reduced by 100x and emissions by 1000x.
How to Work Toward New AI Paradigms
As we continue to see the accelerated adoption of AI and machine learning technologies into our society, we must consider what these tools and systems are doing to our environment. Unless we are willing to reform today’s AI research agenda and increase transparency around this issue, the world of AI could hold us back in the fight to slow down climate change.
To stay on top of the latest on new and emerging business and tech trends, make sure to subscribe to my newsletter, follow me on Twitter, LinkedIn, and YouTube, and check out my book ‘Future Skills: The 20 Skills And Competencies Everyone Needs To Succeed In A Digital World’ and ‘Business Trends in Practice, which won the 2022 Business Book of the Year award.
John Ravenporton is a writer for many popular online publications. John is now our chief editor at DailyTechFeed. John specializes in Crypto, Software, Computer and Tech related articles.