New model helps identify mutations that drive cancer
The system rapidly scans the genome of cancer cells, could help researchers find targets for new drugs.
The system rapidly scans the genome of cancer cells, could help researchers find targets for new drugs.
A new technique in computer vision may enhance our three-dimensional understanding of two-dimensional images.
A new computational model could explain differences in recognizing facial emotions.
Research shows that in Hungary, debt drove voters to the right, as part of a consequential shift.
In a residency supported by the Department of Energy, the MIT PhD candidate will explore the high-field side of the DIII-D tokamak.
Pinpointing risks can also help businesses save money as they become more resilient.
Just 33 light-years from Earth, the system appears to host two rocky, Earth-sized planets.
The varied surface suggests a dynamic history, which could include metallic eruptions, asteroid-shaking impacts, and a lost rocky mantle.
Researchers demonstrate two security methods that efficiently protect analog-to-digital converters from powerful attacks that aim to steal user data.
Using this diagnostic, doctors could avoid prescribing antibiotics in cases where they won’t be effective.
The new design is stackable and reconfigurable, for swapping out and building on existing sensors and neural network processors.
A study shows that yeast, an abundant waste product from breweries, can filter out even trace amounts of lead.
CSAIL scientists’ novel hardware attack against the Apple M1 chip defeats the last line of security while leaving no trace.
Jonathan Weissman and collaborators used their single-cell sequencing tool Perturb-seq on every expressed gene in the human genome, linking each to its job in the cell.
Studying a powerful type of cyberattack, researchers identified a flaw in how it’s been analyzed before, then developed new techniques that stop it in its tracks.