Google presents RecurrentGemma.
Moving past transformers for efficient open language models.
We introduce RecurrentGemma, an open #language model which uses Google’s novel Griffin architecture.
Join the discussion on this paper page.
Peter Atkins discusses the ideas in his book ‘Conjuring the Universe’ with fellow science writer Jim Baggott. They discuss how fundamental the various constants of the universe truly are.
https://global.oup.com/academic/produ…
Professor Peter Atkins is a fellow of Lincoln College in the University of Oxford and the author of about seventy books for students and a general audience. His texts are market leaders around the globe. A frequent lecturer in the United States and throughout the world, he has held visiting professorships in France, Israel, Japan, China, and New Zealand. He was the founding chairman of the Committee on Chemistry Education of the International Union of Pure and Applied Chemistry and was a member of IUPAC’s Physical and Biophysical Chemistry Division. Peter was the 2016 recipient of the American Chemical Society’s Grady-Stack Award for science journalism.
Jim Baggott is a freelance science writer. He was a lecturer in chemistry at the University of Reading but left to work with Shell International Petroleum Company and then as an independent business consultant and trainer. His many books include Mass: The quest to understand matter from Greek atoms to quantum fields; Higgs: The Invention and Discovery of the ‘God Particle’; and The Quantum Story: A History in 40 Moments.
The laws of nature or physics are assumed to be everywhere the same, on the far side of the universe as sure as on the far side of your house. Otherwise science itself could not succeed. But are these laws equally constant across time? Might the deep laws of physics change over eons of time? The implications would be profound.
Free access to Closer to Truth’s library of 5,000 videos: http://bit.ly/376lkKN
Support the show with Closer To Truth merchandise: https://bit.ly/3P2ogje.
Watch more interviews on the laws of physics: https://bit.ly/3FQENnx.
If the deep laws of the universe had been ever so slightly different human beings wouldn’t, and couldn’t, exist. All explanations of this exquisite fine-tuning, obvious and not-so-obvious, have problems or complexities. Natural or supernatural, that is the question.
Free access to Closer to Truth’s library of 5,000 videos: http://bit.ly/376lkKN
Watch more interviews on fine tuning: https://bit.ly/3BvzW7Q
Lee Smolin is an American theoretical physicist, a researcher at the Perimeter Institute for Theoretical Physics, and an adjunct professor of physics at the University of Waterloo. He is best known for his work in loop quantum gravity.
Quantum computers, systems that process and store information leveraging quantum mechanical phenomena, could eventually outperform classical computers on numerous tasks. Among other things, these computers could allow researchers to tackle complex optimization problems, speed up drug discovery and better protect users against cyber-security threats.
Neil deGrasse Tyson and Matt O’Dowd discuss their favorite scientific discoveries in astrophysics and the universe, as well as their roles as science communicators and teachers Questions to inspire discussion What do Neil deGrasse Tyson and Matt O’Dowd discuss in the video? —They discuss their favorite scientific disco.
PRESS RELEASE — The full power of next-generation quantum computing could soon be harnessed by millions of individuals and companies, thanks to a breakthrough by scientists at Oxford University Physics guaranteeing security and privacy. This advance promises to unlock the transformative potential of cloud-based quantum computing and is detailed in a new study published in the influential U.S. scientific journal Physical Review Letters.
Quantum computing is developing rapidly, paving the way for new applications which could transform services in many areas like healthcare and financial services. It works in a fundamentally different way to conventional computing and is potentially far more powerful. However, it currently requires controlled conditions to remain stable and there are concerns around data authenticity and the effectiveness of current security and encryption systems.
Several leading providers of cloud-based services, like Google, Amazon, and IBM, already separately offer some elements of quantum computing. Safeguarding the privacy and security of customer data is a vital precursor to scaling up and expending its use, and for the development of new applications as the technology advances. The new study by researchers at Oxford University Physics addresses these challenges.