Innovative Chip Solves Radiation and Data Challenges in Upgraded LHC
By
rbanffy
A five-star bake. Worth schmearing, sharing, saving.
Summary
The article discusses the challenges of handling the increased particle collision rate in the upgraded High Luminosity-Large Hadron Collider (LHC) and introduces an innovative chip designed to manage the intense radiation and data analysis demands. The chip, developed by a team of scientists, ensures accurate data capture and analysis amidst the staggering number of collisions, which will rise to ~1.5 billion per second.
Key quotes
· 4 pulledDeep in the belly of the Large Hadron Collider (LHC), about 400 million particle collisions are happening in a single second.
Capturing all these events via detectors and analyzing the staggering amount of data created from each experiment is no easy feat.
Fortunately, a team of scientists have been working for years to create a chip design that makes it possible.
How do scientists ensure accurate data in the intense radiation of the LHC? Discover the innovative chip design that makes it possible.
You might also wanna read
Study Overturns Long-Held Aeronautical Principle: Smoother Surfaces Don't Always Reduce Drag
A new discovery challenges the long-held aeronautical principle that smoother surfaces always reduce aerodynamic drag. The article explains
wrd.cm·15h ago
Parker Solar Probe flies through Sun's corona at 430,000 mph with revolutionary heat shield technology
NASA's Parker Solar Probe is successfully flying through the Sun's outer atmosphere (corona) at 430,000 mph, protected by a 4.5-inch carbon
spacedaily.com·1d ago
Examining the EmDrive: The Controversial Propellantless Propulsion System
The article discusses the EmDrive, a propulsion concept introduced by British engineer Roger Shawyer in 2001 that claims to produce thrust w
popularmechanics.com·1d ago
Artemis II astronauts face toilet malfunction during 10-day lunar mission
NASA's Artemis II mission, launched April 1, 2026, successfully completed a 10-day lunar flyby with four astronauts testing Orion spacecraft
sciencefriday.com·1d ago
New Research Overturns Long-Held Belief That Smoother Surfaces Always Reduce Aerodynamic Drag
A long-held principle of aeronautical engineering — that smoother surfaces always reduce aerodynamic drag — has been overturned by new resea
wired.com·7d ago
How NASA built Artemis II's fault-tolerant computer system with eight redundant CPUs
NASA's Artemis II spacecraft uses a highly redundant fault-tolerant computer system with eight CPUs running flight software in parallel. The
alearningaday.blog·1mo ago