Scott Stevens

AI vs. energy. Quantum for everyone. Biofabrication of human organs on a mass scale. Slowing advancements from Moore’s law.In the midst of a market dip, optimism reigned as keynote and AI Design Forum speakers addressed both looming challenges and explosive market opportunities during July 9-10 presentations at SEMICON West 2019 in San Francisco. SEMICON West again proved to be a magnet for visionaries who laid out the path to electronics innovation over the coming years.“The current business environment demands that the industry looks ahead toward issues that need attention sooner, not later – especially since we are approaching a once-in-a-generation inflection point that has the potential to be a $10 trillion opportunity,” observed SEMI Americas president Dave Anderson.Market forecasts punctuate the point: The microelectronics supply chain is on the verge of what has the potential to be the longest-lived electronics era.“Inflection points like this are rare, but not unprecedented,” Anderson added, citing 2007 as the inflection of the growth curve from new technologies that led to last year’s historic high semiconductor sales.SEMICON West squarely focused on the future, with a number of industry leaders noting that chip, tool and materials makers need to look beyond their immediate suppliers and customers in developing strategic partnerships. Dr. Cliff Young, data scientist with the Google Brain Team, for one, invited semiconductor and equipment firms to explore chip codesigning opportunities with his Google.The recently formed Quantum Economic Development Consortium – and its 50 members including Boeing, Google and IBM – debuted roadmapping activities devoted to the pursuit of U.S. leadership in the rapidly emerging global quantum computing industry. IBM’s Jeff Welser showcased the IBM Q Computer model built upon decades of semiconductor industry advances. Markets that could see staggering leaps from a quantum computational capacity include automotive, medical, financial and energy. Today, anyone can dabble with the future quantum computing capabilities by connecting online with IBM’s 16-qubit quantum computer. Dr. Aart de Geus, chairman and co-CEO of Synopsys, suggested that software and other programming tends to develop more quickly if it is open sourced. He recommends an open source model that allows semiconductor and equipment companies to work together in the cloud to speed chip development.Nate Baxter, TEL development and production group general manager, advocated sharing big data with competitors in pre-competitive spaces to ensure data quality, improve measurement and solve problems faster. The key is security. “Yes, we can share data while protecting it,” he said. “We’re quickly seeing opportunities that we didn’t know existed.”Gary Dickerson, Applied Materials president and CEO, said that embedding artificial intelligence (AI) in chips will drive significant long-term industry growth by processing far more big data computations much faster than humans can.That is, if there is enough electricity. Almost invisibly, AI-enabled machines already are crunching massive amounts of data while gulping power in the process. As AI use rapidly expands, current power grids will be stressed as never before. Dickerson added that speed of innovation, societal acceptance, security and safety will guide how well and quickly AI is adopted. A potential hurdle, however, is sustainability. He warned power constraints could be “very high” and a “barrier to AI adoption if we don’t drive innovation” in substantially reducing the power draw of power-hungry AI chips.Of the five members of a venture capitalist panel, four agreed that Moore’s Law as we knew it is dead. The promising news is that the average age of a first-time mobile phone user is 10, more than 40 percent of the world population is now under 25 and about to wield considerable market influence, and 5G is on the cusp of helping connect trillions of devices. AMD CEO Lisa Su noted “there’s a tremendous amount of innovation yet to come” from microarchitectural advances, chiplets and die stacking, and heterogenous platforms.And there’s nothing more innovative – or intriguing – than regenerating human organs in mass volume. Legendary inventor Dean Kamen laid out his well-funded plans to biofabricate the viscera of human existence but warned of two crucial missing pieces – scale and talent. “I’m here at SEMICON West to beg for high-tech’s help in getting artificial human organs out of labs and ramped up for volume manufacturing and widespread distribution,” Kamen said during his keynote. “The basic science already exists, but researchers can’t bring it to scale like Silicon Valley can.”The talent Kamen needs to fulfill his dream will come from the pool of skilled workers the microelectronics industry is feverishly working to recruit to make good on its own ambitions. As if on cue, SEMI endorsed Kamen’s FIRST Global program, establishing a united effort to encourage young people worldwide to pursue engineering careers. “Together, we can better help provide a path to success for generations to come,” SEMI’s Anderson said.Scott Stevens, SEMI

Standing-room only keynote speeches. A future awash in data amassed by transformative technologies and applications, with semiconductors at their core. Smart everything: Cars, medicine, manufacturing, workforce, you name it. The sheer numbers impressed as a record lineup of SEMICON West keynote speakers offered a glowing portrait of the future: The semiconductor industry stands on the cusp of a breakout expansion. Standing and seated shoulder-to-shoulder in the packed-to-gills opening keynote, the audience learned, indeed, that the best was yet to come: “This is the best SEMICON West, ever,” observed SEMI CEO Ajit Manocha. Here’s a glimpse of the keynotes by the numbers, starting with the luckiest of all. 7 – The number of keynotes – among the brightest lights in technology – sharing their visions of the future through the lens of breakthrough technologies that are nearly ready to make their indelible mark. Dozens of expert panelists also weighed in at SEMICON West, the annual U.S. flagship microelectronics gathering in San Francisco. 90 – The percentage of all data ever generated has been created in just the past two years as the cloud mushrooms with tweets, texts, emails, Facebook posts, YouTube videos, medical records and all manner of business information, noted Bill Bottoms, president and CEO of Third Millennium Test Solutions. In the years ahead, an almost unimaginable wealth of data will require analysis by artificial intelligence (AI) embedded in semiconductors to enable applications that go well beyond smart. 12-18 – That’s how many months it will take for data volume to double, predicted John Kelly III, IBM’s Senior VP, Cognitive Solutions. And it will double again and again, every 12-18 months. Kelly foresees a scale of growth “that will dwarf previous eras of computing … the number of opportunities is enormous.” Kelly’s four decades in computing gave considerable weight to his point that “in the industry, there has never been a more exciting point in time than today.” First – Technology is being re-born. Using baseball lingo, several speakers noted that we are just in “the first inning,” “the top half of the first inning” or “the beginning of the first inning” to make clear in the most emphatic terms the duration of prosperity that lies ahead for the industry. AI embedded in chips and demand for real-time analysis of AI data will be its fuel. As SEMI Americas president Dave Anderson observed with a smile, “We all know how long baseball games can go.” Third – That’s the current wave of machine learning the world is now experiencing, according to Sandia National Laboratories’ Principal Member Conrad James. Computers are now capable of solving many increasingly complex problems on their own, with no human intervention necessarily required, he said. 1000x – As spectacularly fast as computing power already is today, the industry will need to double that the rate of performance in the years ahead, predicted Applied Materials president and CEO Gary Dickerson. Demand for this herculean processing capacity will spur a “tremendous focus on innovation” among SEMI members, their customers and their customers’ customers. 5 to 15 – The remarkable amount of silicon that power today’s mobile devices will be overshadowed by the chips – equivalent in computing capacity to 5 to 15 cell phones – that will be the engine of self-driving and other features in future automobiles, predicted Pierre Ferragu, New Street Research Managing Partner, during the SEMI Bulls and Bears session. Automobiles with this souped-up computing capacity will sell in the millions worldwide in the years ahead, generating never-before-seen opportunities for the chip industry, he noted. 10,000 – It’s not just cars. Ten thousand is the number of sensors that will be built just into the wings of new Airbus A380-1000 aircraft, AMD CTO Mark Papermaster explained during his keynote. 10 terabits – The staggering amount of Facebook data uploaded daily in to the cloud, Papermaster noted. 1 Trillion – SEMI’s 2020 forecast that the industry will reach $500 billion in revenues by 2020 was eclipsed by one analyst, speaking at the SEMI Market Symposium on the first day of the event, predicted that the industry would top $1 trillion in the foreseeable future. SEMI’s Manocha later added that $1 trillion in industry revenue is possible by 2030, “maybe sooner.” 1 (sexy) coda – Coders are hip and software applications are the apple of the world’s eye. Even the most casual mobile device user knows that software apps makes it whirl. But “hardware is becoming sexy again,” said Applied Materials’ Dickerson, adding that equipment and other semiconductor hardware developed by SEMI members will enable the next great wave of global economic growth. Scott Stevens, SEMI