| Dear Reader, Editor's note: Whenever we come across impressive research, we pass it along. You’ll want to read this note on technology from one of our colleagues here at Mauldin Economics. Chris Wood also writes the flagship investment research letter for our friends at RiskHedge.
How to Profit Off the Biggest Lie in Tech By Chris Wood There's a big lie about disruption going around. Folks aren't spreading it intentionally... Many smart investors I talk with genuinely believe it to be the truth. As a Mauldin Economics reader, you're in the top 1% of people who understand disruptive technologies and the money-making opportunities they can create. But if you accept this widespread lie, you'll likely make the wrong decisions when investing in disruptive companies. In today's essay, I'll explain the truth and why it should matter to you. As you likely know, your smartphone is more powerful than an early '90s supercomputer... It's a phone, camera, camcorder, Walkman, watch, wallet, radio, global map, TV, VCR, and computer all in one. We have "Moore's law" to thank for this. Named after Intel founder Gordon Moore, it observes that computing power doubles roughly every two years. This has led to exponential growth in computing power. As you may know, exponential growth "snowballs" over time. It builds momentum and eventually leads to vertical gains, as you can see here: 
For the past few decades, computing power has more or less followed this path. The driving force behind Moore's law is this: It holds that the number of transistors that can fit on a computer chip doubles about every two years. Transistors allow computers to compute. The more transistors you cram onto a chip, the more computing power it has. Again, for the past 50 years, this has more or less held true. Back in 1965, only 64 transistors fit on the world's most complex computer chip. More than 10 billion transistors can fit on today's chips. Moore's law is responsible for many of the giant stock market gains of the past few decades. Leaps in computing power enabled big disruptors like Apple (AAPL), Microsoft (MSFT), and Amazon (AMZN) to achieve huge gains like 50,800%, 159,900%, and 111,560%, respectively. And along the way, the companies that make the computer chips have gotten rich, too. Taiwan Semiconductor Manufacturing (TSM), Micron Technology (MU), and Intel (INTC) achieved gains of 1,014%, 3,256%, and 35,050%, respectively. Conventional wisdom is that Moore's law will continue to snowball. As progress gets faster and faster, you can understand why many folks think we're headed for a tech utopia. It's a great story. But it's not quite true... Moore's law isn't really a law. Gravity is a law. Moore's law is an observation and a forecast. As I mentioned, since 1965, it has held true. But here's the key... Moore's law is breaking down as I type. You see, although today's transistors are microscopic, they still take up physical space. There's a limit to how small you can make anything that occupies physical space. We are now approaching that limit with transistors. In other words, Moore's law has reached its breaking point. Does that mean progress will stop? Not a chance. There are three new technologies that will pick up where Moore's law leaves off. Let's look at all three... 3D computing just hit the market... What does a city do when it runs short of land? It builds skyscrapers. By building "up," you can create real estate with the footprint of a one-story building, but one that holds 100 times more people. Something similar is just getting under way in computing. You see, the "guts" of computers have always been two-dimensional. Flat computer chips sit on a flat motherboard. Nothing moves in 3D. There's no "up" or "down" inside a computer chip. That's now changing. In June, Intel announced its first-ever processor that will be made using 3D chip technology. Tech reporters are touting it as “how Intel will beat Moore's law.” Chips stacked in 3D are far superior to those placed side by side. Not only can you fit multiples of transistors in the same footprint... you can better integrate all the chips' functions. This shortens the distance that information needs to travel. And it creates many more pathways for information to flow. The result will be much more speed and power packed into a small space. Eventually, 3D chips could be 1,000 times faster than existing ones. DNA computing is a bit further off... but its potential is mind-boggling. DNA, as you know, carries the instructions that enable life. As incredible as it sounds, DNA can be used for computing. In 1994, a computer scientist at the University of Southern California used DNA to solve a well-known mathematical problem. One pound of DNA has the capacity to store more information than all the computers ever built. A thumbnail-sized DNA computer could theoretically be more powerful than today's supercomputers. I won't get deep into the science here. DNA computing is still very early stage. But several companies, including Microsoft, are working to push the technology forward. And we know the technology works. Earlier this year, a DNA computer was able to successfully calculate the square root of numbers up to 900. Again, this is just the first step... but I can see DNA computers eventually replacing traditional computers. Quantum computing could be the ultimate disruption... The science behind quantum computing will bend your mind. To understand its potential, all you really need to know is this: The basic unit of conventional computation is the bit. The more bits a computer has, the more calculations it can perform at once, and the more powerful it is. With quantum computing, the basic unit of computation is called a quantum bit—or qubit. Bits behave linearly. With a 20-bit computer, you might add 2+2+2+2+2+2+2+2+2+2. Qubits are different. Every qubit doubles computing power. So, a ten-qubit computer could do 2x2x2x2x2x2x2x2x2x2 calculations at once, or 1,024. A 100-qubit quantum computer could perform over 1,000 billion billion billion simultaneous calculations. Those numbers are too big for humans to comprehend. In theory, a small quantum computer could exceed the power of a regular computer the size of the Milky Way galaxy. With enough computing firepower, a quantum computer could solve any problem. If we ever achieve far-out goals like controlling the weather, colonizing Mars, or reversing human aging, quantum computing will likely be the driving force. So... where do we go from here? Although these three technologies are exciting, they're all years off. We need a solution now. Moore's law is on life support. That's why I was so intrigued when I found out what one little microcap company has achieved. In short... it's created an entirely new way to make microchips. It fused silicon with another element... resulting in "superchips" that are up to 100% more powerful than today's "bleeding edge" chips. Best of all—its tech is not only patented... it's proven to work! The world doesn't know about this yet because this company is essentially a startup. It does just $500,000 in annual sales. Its tiny stock, which trades on the Nasdaq, is unknown to the vast majority of folks. But as my research shows, this company is about to have its "coming out moment"... and I believe it'll make a breakthrough announcement that could boost its business by 100 times in an instant. Go here to see how you can get into this American microcap for pocket change before its game-changing announcement. Regards, 
Chris Wood
December 29, 2020 Editor's note: Chris has found what he believes is the most important tech breakthrough of 2020. It's the key to unlocking 5G, self-driving cars, and true artificial intelligence. But because the patent was quietly granted while the world was fixated on COVID-19, it's flying under the radar. Now, the tiny company that invented it is about to announce it to the world. Get the full details—and be one of the first to invest—right here. | 