In this seventh installment of the RethinkX rethinking humanity series, Tony Seba and James Arbib describe the choices that lie ahead, as convergence across five foundational sectors drive a phase change: energy, transport, information, food, and materials. With this convergence, the old industrial system could collapse before the new production system emerges. One need only look at existing timing issues as the energy sector transitions. Supply of fossil fuel drops along with investment, while demand increases and clean sources of energy cannot meet demand. In a shift so profound, it may be impossible to imagine what it looks like. The power of this storytelling lies in its ability to illuminate possibilities and drive awareness – and with it, the hope for human action. Similar brilliant storytelling can be found in the new book AI 2041.Continue reading
In this sixth installment of the RethinkX rethinking humanity series, Tony Seba and James Arbib describe a brand new possibility space fueled by convergence across five foundational sectors: energy, transport, information, food, and materials. This convergence enables reimagination in areas like feeding and powering society. In this emerging age of creation, global design converges with local production and is unconstrained by industrial age limitations. As abundance satisfies our needs at near zero marginal cost, the world moves towards unheard of prosperity. But our subway map tells us that every constructive path is accompanied by a destructive one. In a shift so profound, it may be impossible to imagine what it looks like. The power of this storytelling lies in its ability to illuminate possibilities and drive awareness – and with it, the hope for human action. Similar brilliant storytelling can be found in the new book AI 2041.Continue reading
In a recent post on quantum computing, I referenced a new book (published in September 2021) that I recently added to my library. The book titled AI 2041: Ten Visions for Our Future was authored by Kai-Fu Lee and Chen Qiufan. The authors use highly effective approach that combined fiction with expert analysis to help the reader imagine possible futures. The storytelling was brilliant (my compliments Chen Qiufan), and Kai-Fu Lee provides analysis after each story, showcasing his grasp of AI and its possible applications.Continue reading
Recently, an audience question about the timing of quantum computing (QC) was answered by an expert in the following way: the timeline for the realization of QC is accelerating, with some milestones being realized as early as 2025. Much remains to be seen, but any acceleration of QC brings an acceleration of many world altering scenarios. In a recent article, Daphne Leprince-Ringuet identifies eight ways that quantum computing will change our world. Those eight are:
- Discovering new drugs
- Creating better batteries
- Predicting the weather
- Picking stocks
- Processing language
- Helping solve the traveling salesman problem
- Reducing congestion
- Protecting sensitive data
You can read about each in detail via the article. While that’s an impressive list, the true power of quantum computing lies in its problem solving potential. When realized, QC will likely help with climate change, chronic disease, and other long-standing problems that have been impossible to solve. As with every emerging innovation, it also has the potential for destruction. Quantum computing is explored in a fascinating new book titled AI 2041: Ten Visions for Our Future. Authors Kai-Fu Lee and Chen Qiufan take us on a fascinating journey to 2041. They use the power of story-telling to effectively help us understand where artificial intelligence (AI) is taking us. I will write a separate post on the book, but in the meantime, I have added it to my book library. The power of AI is amplified and accelerated with the realization of a new QC compute paradigm. However, after telling a story about quantum computing in 2041, Kai-Fu Lee states that he believes QC has an 80-percent chance of working by that date. He goes on to describe the challenges that quantum computing faces, and that considering those challenges, most experts believe it will take ten to thirty years to get a useful QC.
Bottom line: it’s still anyone’s guess regarding the timing of quantum computing. Current signals have some believing that the timeline to realization is accelerating, and Kai-Fu Lee indicates that some optimists see it happening in five to ten years – consistent with the views shared during that audience interaction I mentioned. Regardless of timeline, QC is just another example of a future innovation with massive implications.