Microsoft have announced a quantum breakthrough – the Majorana 1 chip. But what is it and what does it really mean for the future of quantum computing?
Nature paper.
https://www.nature.com/articles/s4158… announcement: https://news.microsoft.com/source/fea… Check out @domainofscience ‘s awesome video: • Microsoft’s Topological Quantum Compu… 0:00 Microsoft Announces World’s First Topological Qubit 1:19 The Problem with Normal Quantum Computers 6:47 How Do You Build a Quantum Computer? 14:54 What Do You Actually Do with a Quantum Computer? 18:33 Addressing the Majorana 1 Concerns 🚀 🚀 I help scientists and investors tackle the World’s biggest challenges: EMPIRICAL VENTURES: https://empiricalventures.vc 🤘👨🔬 ROCKSTAR SCIENTIST Merch: https://www.rockstarscientist.org/ 📸 INSTAGRAM
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Microsoft announcement:
https://news.microsoft.com/source/fea…
Check out @domainofscience‘s awesome video:
In our creative writing tests—designed to measure how well these models craft engaging stories that actually make sense—Claude 3.7 delivered narratives with more human-like language and better overall structure than its competitors.
Think of these tests as measuring how useful these models might be for scriptwriters or novelists working through writer’s block.
While the gap between Grok-3, Claude 3.5, and Claude 3.7 isn’t massive, the difference proved enough to give Anthropic’s new model a subjective edge.
Preclinical trial reveals how beta-glucan, a compound found in all fungi, can ‘reprogram’ immune cells to combat lung inflammation.
A recent study suggests that a common fungal component may help protect against flu-related lung damage.
Led by Professor Maziar Divangahi from McGill’s Faculty of Medicine and Health Sciences and the Research Institute of the McGill University Health Centre, the research team found that beta-glucan, when given to mice before influenza exposure, reduced lung damage, improved lung function, and lowered the risk of severe illness and death.
Researchers from three of Virginia’s premier universities, including the University of Virginia’s Homa Alemzadeh, aim to take the risk out of self-driving vehicles by overcoming inevitable computer failures with sound engineering.
Cutting-edge research from three top Virginia universities, led by the University of Virginia’s Homa Alemzadeh, is on a mission to revolutionize the safety of self-driving vehicles. With a substantial $926,737 grant from the National Science Foundation, this powerhouse team is dedicated to pinpointing and neutralizing potential computer failures in autonomous vehicle systems.
By harnessing this insight, they aim to fortify the resilience of the entire system and proactively eliminate safety risks. Alemzadeh, a trailblazing associate professor of electrical and computer engineering at UVA’s School of Engineering and Applied Science, is joined by the esteemed William & Mary professor of computer science, Evgenia Smirni, and the visionary lead investigator and George Mason University assistant professor of computer science, Lishan Yang.