Artificial intelligence could help data centers run far more efficiently
MIT system “learns” how to optimally allocate workloads across thousands of servers to cut costs, save energy.
MIT system “learns” how to optimally allocate workloads across thousands of servers to cut costs, save energy.
Submerged system uses the vibration of “piezoelectric” materials to generate power and send and receive data.
With help from next-generation particle accelerators, the approach may nail down the rate of oxygen production in the universe.
MIT researchers have developed a new technique to reveal the uncharted dynamics of electrons in materials.
Study reports on search for an atmosphere around a planet somewhat similar to ours.
Magnetic particles allow drugs to be released at precise times and in specific areas.
Prototype machine-learning technology co-developed by MIT scientists speeds processing by up to 175 times over traditional methods.
“Risk-aware” traffic engineering could help service providers such as Microsoft, Amazon, and Google better utilize network infrastructure.
Tracy Slatyer hunts through astrophysical data for clues to the invisible universe.
MIT research finds health savings from cleaner air exceed policy costs.
A powerful method has allowed McGovern researchers to discover how the brain represents the complex world in simple shapes.
Novel class of “ionic liquids” may store more energy than conventional electrolytes — with less risk of catching fire.
Study finds that Alzheimer’s damage allows toxins to enter the brain, further harming neurons.
Shining light through household bleach creates fluorescent quantum defects in carbon nanotubes for quantum computing and biomedical imaging.
Whitehead Institute scientists find chemical modification contributes to trafficking between non-membrane-bound compartments that control gene expression.