Defeated by A.I., a legend in the board game go warns: Get ready for what’s next
Lee Saedol was one of the world’s top Go players, and his shocking loss to an A.I. opponent was a harbinger of a new, unsettling era. “It may not be a happy ending,” he says.
By D Wakabayashi, JY Young
NEW YORK: Lee Saedol was the finest Go player of his generation when he suffered a decisive loss, defeated not by a human opponent but by artificial intelligence. Lee was beaten by AlphaGo, an A.I. computer program developed by Google’s DeepMind unit. The stunning upset, in 2016, made headlines around the world and looked like a clear sign that artificial intelligence was entering a new, profoundly unsettling era.
By besting Lee, an 18-time world champion revered for his intuitive and creative style of play, AlphaGo had solved one of computer science’s greatest challenges: teaching itself the abstract strategy needed to win at Go, widely considered the world’s most complex board game. “I am very surprised because I have never thought I would lose,” Lee said at the time in a post-match news conference. “I didn’t know that AlphaGo would play such a perfect Go.”
But the implications of his loss went far beyond the game itself, in which two players compete for territory by placing black and white stones on a gridded board made up of 19 lines by 19 lines. AlphaGo’s victory demonstrated the unbridled potential of A.I. to achieve superhuman mastery of skills once considered too complicated for machines. Lee, now 41, retired three years later, convinced that humans could no longer compete with computers at Go. Artificial intelligence, he said, had changed the very nature of a game that originated in China more than 2,500 years ago.
“Losing to A.I., in a sense, meant my entire world was collapsing,” he said in a recent interview with The New York Times. As society wrestles with what A.I. holds for humanity’s future, Lee is now urging others to avoid being caught unprepared, as he was, and to become familiar with the technology now. He delivers lectures about A.I., trying to give others the advance notice he wishes he had received before his match. “I faced the issues of A.I. early, but it will happen for others,” Lee said recently at a community education fair in Seoul to a crowd of students and parents. “It may not be a happy ending.” Since his loss, Lee has become an A.I. obsessive of sorts, following with rapt if uneasy attention as artificial intelligence delivers one breakthrough after another.
A.I. has helped chatbots carry on conversations almost indistinguishable from human interaction. It has solved problems that have confounded scientists for decades like predicting protein shapes. And it has blurred the lines of creativity: writing music, producing art and generating videos. Lee is not a doomsayer. In his view, A.I. may replace some jobs, but it may create some, too. When considering A.I.’s grasp of Go, he said it was important to remember that humans both created the game and designed the A.I. system that mastered it. What he worries about is that A.I. may change what humans value.
“People used to be in awe of creativity, originality and innovation,” he said. “But since A.I. came, a lot of that has disappeared.” Lee started playing Go at the age of 5 under the guidance of his father, a schoolteacher and enthusiast of the game. His family lived on Bigeumdo, an island off the southwest coast of the Korean Peninsula inhabited by around 3,600 people. His immense talent was apparent from the start. He quickly became the best player of his age not only locally but across all of South Korea, Japan and China. He turned pro at 12.
By the time he was 20, Lee had reached 9-dan, the highest level of mastery in Go. Soon, he was among the best players in the world, described by some as the Roger Federer of the game. “He was an idol, he was a star,” said Lee Hajin, a former professional Go player. “Everyone looked up to him,” Ms. Lee added As Lee’s standing was growing, Go started garnering interest from a new audience: computer scientists. Go posed a tantalizing challenge for A.I. researchers. The game is exponentially more complicated than chess, with it often being said that there are more possible positions on a Go board (10 with more than 100 zeros after it, by many mathematical estimates) than there are atoms in the universe.
The breakthrough came from DeepMind, which built AlphaGo using so-called neural networks: mathematical systems that can learn skills by analyzing enormous amounts of data. It started by feeding the network 30 million moves from high-level players. Then the program played game after game against itself until it learned which moves were successful and developed new strategies.
By late 2015, AlphaGo had defeated a three-time European Go champion five straight times in a closed-door match. Then, Lee was approached by Ms. Lee, the former professional who was working at the International Go Federation, with a proposal for a public match, with a $1 million prize for beating AlphaGo. Lee said he accepted the offer without much thought, figuring it would be “fun.” “But fun with the presumption that I was going to win,” he said. “The possibility of losing didn’t occur to me.”
The best-of-five match, played in Seoul, was a spectacle. In South Korea, where millions of people play Go and Lee is a celebrity, the showdown led nightly television broadcasts. More than 200 million people watched, with huge audiences in China and Japan.
During the matches, a DeepMind engineer sat across from Lee and placed the stones as relayed to him by AlphaGo. Lee said not having a true human opponent was disconcerting. AlphaGo played a style he had never seen, and it felt odd to not try to decipher what his opponent was thinking and feeling. The world watched in awe as AlphaGo pushed Lee into corners and made moves unthinkable to a human player. “I couldn’t get used to it,” he said. “I thought that A.I. would beat humans someday. I just didn’t think it was here yet.”