Finding the true potential of algorithms
Using mathematical theory, Virginia Williams coaxes algorithms to run faster or proves they’ve hit their maximum speed.
Using mathematical theory, Virginia Williams coaxes algorithms to run faster or proves they’ve hit their maximum speed.
Mechanical engineers are developing technologies that could prevent heat from entering or escaping windows, potentially preventing a massive loss of energy.
A key part of J-Clinic, the MIT-Takeda Program will create educational opportunities and support cutting-edge research to positively impact human health.
Machine-learning system should enable developers to improve computing efficiency in a range of applications.
Longtime MIT professor was a world leader in inelastic deformation and fracture of engineering materials.
Most popular stories of the year include science breakthroughs, engineering feats, and confirmation of 16th century architectural genius.
With help from spaghetti and color-changing fibers, a new mathematical model predicts a knot’s stability.
Materials engineering and energy expert to succeed Chris Schuh.
A record $38 million has been raised for undergraduate financial aid in FY19.
MIT graduate student Seth Cazzell shows controlling pH enables reversible hydrogel formation in wider range of metal concentrations.
Three innovative research projects in literature, plant epigenetics, and chemical engineering will be supported by Professor Amar G. Bose Research Grants.
As natural language processing techniques improve, suggestions are getting speedier and more relevant.
With its centerpiece exhibit for the forthcoming Universal Hip Hop Museum, an MIT team uses artificial intelligence to explore the rich history of hip hop music.
Technique may help remotely image and assess health of infants, burn victims, and accident survivors in hard-to-reach places.
Using limited data, this automated system predicts a company’s quarterly sales.