The point in time when current trends may go wildly off the charts--known as the "Singularity"--is now getting serious attention. What it suggests is that technological change will soon become so rapid that we cannot possibly envision its results.
Technological change isn't just happening fast. It's happening at an exponential rate. Contrary to the commonsense, intuitive, linear view, we won't just experience 100 years of progress in the twenty-first century-it will be more like 20,000 years of progress.
The near-future results of exponential technological growth will be staggering: the merging of biological and nonbiological entities in bio-robotics, plants and animals engineered to grow pharmaceutical drugs, software-based "life," smart robots, and atom-sized machines that self-replicate like living matter. Some individuals are even warning that we could lose control of this expanding techno-cornucopia and cause the total extinction of life as we know it. Others are researching how this permanent technological overdrive will affect us. They're trying to understand what this new world of ours will look like and how accelerating technology already impacts us.
A number of scientists believe machine intelligence will surpass human intelligence within a few decades, leading to what's come to be called the Singularity. Author and inventor Ray Kurzweil defines this phenomenon as "technological change so rapid and profound it could create a rupture in the very fabric of human history."
Singularity is technically a mathematical term, perhaps best described as akin to what happens on world maps in a standard atlas. Everything appears correct until we look at regions very close to the poles. In the standard Mercator projection, the poles appear not as points but as a straight line. Each line is a singularity: Everywhere along the top line contains the exact point of the North Pole, and the bottom line is the entire South Pole.
The singularity on the edge of the map is nothing compared to the singularity at the center of a black hole. Here one finds the astrophysicist's singularity, a rift in the continuum of space and time where Einstein's rules no longer function. The approaching technological Singularity, like the singularities of black holes, marks a point of departure from reality. Explorers once wrote "Beyond here be dragons" on the edges of old maps of the known world, and the image of life as we approach these edges of change are proving to be just as mysterious, dangerous, and controversial.
There is no concise definition for the Singularity. Kurzweil and many transhumanists define it as "a future time when societal, scientific, and economic change is so fast we cannot even imagine what will happen from our present perspective." A range of dates is given for the advent of the Singularity. "I'd be surprised if it happened before 2004 or after 2030," writes author and computer science professor Vernor Vinge. A distinctive feature will be that machine intelligence will have exceeded and even merged with human intelligence. Another definition is used by extropians, who say it denotes "the singular time when technological development will be at its fastest." From an environmental perspective, the Singularity can be thought of as the point at which technology and nature become one. Whatever perspective one takes, at this juncture the world as we have known it will become extinct, and new definitions of life, nature, and human will take hold.
Many leading technology industries have been aware of the possibility of a Singularity for some time. There are concerns that, if the public understood its ramifications, they might panic over accepting new and untested technologies that bring us closer to Singularity. For now, the debate about the consequences of the Singularity has stayed within the halls of business and technology; the kinks are being worked out, avoiding "doomsday" hysteria. At this time, it appears to matter little if the Singularity ever truly comes to pass.
What Will Singularity Look Like?
Kurzweil explains that central to the workings of the Singularity are a number of "laws," one of which is Moore's law. Intel cofounder Gordon E. Moore noted that the number of transistors that could fit on a single computer chip had doubled every year for six years from the beginnings of integrated circuits in 1959. Moore predicted that the trend would continue, and it has-although the doubling rate was later adjusted to an 18-month cycle.
Today, the smallest transistors in chips span only thousands of atoms (hundreds of nanometers). Chipmakers build such components using a process in which they apply semiconducting, metallic, and insulating layers to a semiconductor wafer to create microscopic circuitry. They accomplish the procedure using light for imprinting patterns onto the wafer. In order to keep Moore's law moving right along, researchers today have built circuits out of transistors, wires, and other components as tiny as a few atoms across that can carry out simple computations.
Kurzweil and Sun Microsystems' chief scientist Bill Joy agree that, circa 2030, the technology of the 1999 film The Matrix (which visualized a three-dimensional interface between humans and computers, calling conventional reality into question) will be within our grasp and that humanity will be teetering on the edge of the Singularity. (See their essays in Taking the Red Pill: Science, Philosophy, and Religion in The Matrix, edited by Glenn Yeffeth, 2003.) Kurzweil explains that this will become possible because Moore's law will be replaced by another computing paradigm over the next few decades. "Moore's law was not the first but the fifth paradigm to provide exponential growth of computing power," Kurzweil says. The first paradigm of computer technology was the data processing machinery used in the 1890 American census. This electromechanical computing technology was followed by the paradigms of relay-based technology, vacuum tubes, transistors, and eventually integrated circuits. "Every time a paradigm ran out of steam," states Kurzweil, "another paradigm came along and picked up where that paradigm left off." The sixth paradigm, the one that will enable technology á la The Matrix, will be here in 20 to 30 years. "It's obvious what the sixth paradigm will be-computing in three dimensions," says Kurzweil. "We will effectively merge with our technology."
Stewart Brand in his book The Clock of the Long Now discusses the Singularity and another related law, Monsanto's law, which states that the ability to identify and use genetic information doubles every 12 to 24 months. This exponential growth in biological knowledge is transforming agriculture, nutrition, and health care in the emerging life-sciences industry.
A field of research building on the exponential growth rate of biotechnology is nanotechnology-the science of building machines out of atoms. A nanometer is atomic in scale, a distance that's 0.001% of the width of human hair. One goal of this science is to change the atomic fabric of matter-to engineer machine-like atomic structures that reproduce like living matter. In this respect, it is similar to biotechnology, except that nanotechnology needs to literally create something like an inorganic version of DNA to drive the building of its tiny machines. "We're working out the rules of biology in a realm where nature hasn't had the opportunity to work," states University of Texas biochemistry professor Angela Belcher. "What would take millions of years to evolve on its own takes about three weeks on the bench top."
Machine progress is knocking down the barriers between all the sciences. Chemists, biologists, engineers, and physicists are now finding themselves collaborating on more and more experimental research. This collaboration is best illustrated by the opening of Cornell University's Nanobiotechnology Center and other such facilities around the world. These scientists predict breakthroughs soon that will open the way to molecular-size computing and the quantum computer, creating new scientific paradigms where exponential technological progress will leap off the map. Those who have done the exponential math quickly realize the possibilities in numerous industries and scientific fields-and then they notice the anomaly of the Singularity happening within this century.