How Artificial Intelligence, Tech, and Productivity Impact Portfolios
How Artificial Intelligence, Tech, and Productivity Impact Portfolios
June 13, 2023
Audrey Keel | Marketing Manager
The world has been abuzz over artificial intelligence and the possible benefits and threats. These range from the practical such as better tools for knowledge workers and ways for students to avoid writing papers, to the philosophical including what it means to be sentient and the impact on human civilization. In between, there are more mundane questions around the economy and markets, especially for technology-related sectors. Given the promises and hyperbole around AI, what can long-term investors do to maintain perspective and stay properly invested?
The two decades since the internet bubble have witnessed numerous hype cycles over new technologies. In just the past few years, these have included the metaverse, virtual reality, blockchain technology, self-driving cars, space exploration, and many more. Each of these has been accompanied by narratives on how they will transform society. The computer scientist Roy Amara famously said that people tend to overestimate the impact of technology in the short run and underestimate the effect in the long run. Although many new technologies do eventually play an important role in business and everyday life, investors can often get ahead of themselves in the meantime.
Tech stocks have benefited from falling interest rates and enthusiasm for AI
When it comes to AI, this is partly because the term naturally ignites the imagination. However, even if the promises are vast, today's generative AI and large language models are the culmination of statistical and computer science techniques that can be accurately described with the more sober-sounding term "applied statistics," without understating their importance. Just as with any other new development, investors should strive to maintain levelheaded views on how new technologies can benefit companies and individuals.
For example, while products such as OpenAI's ChatGPT, Google's Bard, and others have only recently burst onto the scene, the methods underlying these tools have been decades in the making. The latest cutting-edge AI models, known as transformers, were described by Google researchers in 2017. Previous state-of-the-art techniques, which have names such as RNNs and LSTMs, were invented in the 1980s and 1990s. The exponential growth in computing power, especially the wide availability of graphics processing units (GPUs), and perhaps more importantly an abundance of natural language data (i.e., the internet), is what have allowed the field to leap from academic research to practical application.
From an economic perspective, the promise of any new technology is a boost to productivity. Whether it's new machines, software, or just a better way of doing things, technology is what allows us to accomplish more with less. After all, the simplest way to think about the economy is that growth occurs when there are more workers (labor), more machines (capital), or improved technology (e.g., better trained workers and/or better machines). Productivity, or the ability for the same number of workers to produce more, is what improves quality of life generation after generation.
Productivity is the key to sustainable economic growth
New technologies often lead to societal questions around "creative destruction," a term coined by the economist Joseph Schumpeter. This is especially true when they disrupt established methods, ideas, and businesses, creating a source of resistance as jobs are lost and existing skills become outdated. At the same time, technological progress has created countless new industries, benefiting workers with the proper skills and training, as well as the consumers of these new products and services. Whether this progress is positive or negative is a classic debate that is revived each time a seemingly transformational technology disrupts the status quo.
Regardless of one's views on AI and technology, it's undeniable that productivity growth has slowed in recent decades. The average year-over-year productivity growth rate since 1948 is 2.1%, but only 1.5% over the last few years. Prior to the pandemic, one of the biggest macroeconomic concerns cited by many economists was known as "secular stagnation," or the idea that the economy would grow at a tepid pace due to poor demographic trends, aging infrastructure, and slowing productivity. This isn't just a concern in the U.S. - many parts of the world, including Japan and throughout Europe, have aging populations and poor productivity.
While the differences in growth rates may seem small, they have big implications when compounded over years and decades. If the economy grows at a steady 3% annual rate, it can double in size every 23 years. In contrast, a growth rate of 2% requires 35 years while 1% growth takes nearly 70 years. Clearly, small differences in growth can have huge differences on economic outcomes. So, regardless of whether the hype around AI pans out, technologies that can boost long run productivity are important for maintaining the quality-of-life improvements that we have grown to expect over the past century.
Market returns have been concentrated in tech-related sectors this year