Practical parallelism
System enables large speedups — as much as 88-fold — on common parallel-computing algorithms.
System enables large speedups — as much as 88-fold — on common parallel-computing algorithms.
New technique helps elucidate the inner workings of neural networks trained on visual data.
Machine learning approach could aid the design of industrial processes for drug manufacturing.
CSAIL team’s system of quadcopters that fly and drive suggest another approach to developing flying cars.
New algorithm generates practical paper-folding patterns to produce any 3-D structure.
New center for development of high-tech fibers and fabrics opens headquarters, unveils two products ready for commercialization.
New AFFOA facility represents a significant MIT investment in advanced manufacturing innovation.
Prototype device enables photon-photon interactions at room temperature.
Technique that reduces video files to one-tenth their initial size enables speedy analysis of laparoscopic procedures.
Innovative MIT research focuses on developing systems to perceive and identify objects in their environment and understand social interactions in traffic.
New design could provide communication support in disaster zones.
GelSight technology lets robots gauge objects’ hardness and manipulate small tools.
Device provides information from a 3-D camera, via vibrating motors and a Braille interface.
Process for positioning quantum bits in diamond optical circuits could work at large scales.
Initially turned down by nearly every college he applied to, the computer scientist cleared his own path to MIT.