by Ken Chiacchia | Aug 31, 2023 | Bridges-2, Science Highlights
One of the patterns the CMU team used to prove that 14 colors/numbers isn’t enough to solve the packing problem; note that, in the upper left, the “chessboard” pattern of 1s is interrupted. CMU Team Uses Bridges-2 to Solve a 21-Year-Old Coloring Problem in Mapping...
by Ken Chiacchia | Aug 17, 2023 | Bridges-2, Science Highlights
Left: Microscope image of the healthy neuromuscular junction (NMJ). Bright spots are where a fluorescent-label has stuck to muscle-cell-surface proteins that respond to neurotransmitters. Upper Right: MCell model of healthy mouse NMJ active zones (AZs). Six AZs are...
by Ken Chiacchia | Jul 14, 2023 | AI, Bridges-2, Science Highlights
Initial Work With PSC System Pilots AI That Went On to Predict Colorectal Cancer Genetic Status That Would Otherwise Require Lengthy Lab Testing Diagnosing cancer relies heavily on human expertise and lengthy genetic testing, which aren’t always available. A team from...
by Ken Chiacchia | Jun 21, 2023 | Bridges-2, Science Highlights
The dishes of the HERA radio telescope collect radio wave signals from the “21-centimeter line,” when hydrogen atoms in the early Universe absorbed energy from the first stars. PSC Supercomputer Helps Set Upper Limit to “Brightness Temperature” of Hydrogen Signal,...
by Ken Chiacchia | Jun 8, 2023 | Anton 2, Science Highlights
Snapshot of the β2AR–Gs system: NE(+)-bound β2AR coupled with Gs protein. Different subunits and loops are illustrated by different colors (Green – β2AR, Gray – intracellular loop 3 or ICL3, Pink – GsαAH domain, Red – GsαRas domain, Blue – Gβ, Yellow – Gγ). From Y....
by Ken Chiacchia | May 25, 2023 | AI, Bridges-2, Science Highlights
TrajAir dataset includes recorded ADS-B trajectories of aircraft interacting in a non-towered general aviation airport and the weather context from METAR strings. TrajAirNet predicts multi-future samples (cyan) of trajectories for all agents by conditioning each on...
