MIT Schwarzman College of Computing

3 rows show how a cat’s tail is animated in 3 ways. The rows are labeled, from top to bottom: Dirichlet, Weighted TV, and ARAP. The rows show very similar versions of the cat’s tail enclosed in polygonal mesh marking animation points.

A flexible solution to help artists improve animation

This new method draws on 200-year-old geometric foundations to give artists control over the appearance of animated characters.

December 20, 2023

Diogo da Silva Branco Magalhães poses with plants in the background

“MIT can give you ‘superpowers’”

MITx MicroMasters credential leads learner to accelerated graduate program in data science.

December 15, 2023

3 by 6 grid of photos. Rows depict tennis rackets, measuring tape/rulers, and hammers. Along the bottom are time measurements from 17 milliseconds to 10 seconds, and the objects are increasingly harder to recognize from left to right.

Image recognition accuracy: An unseen challenge confounding today’s AI

“Minimum viewing time” benchmark gauges image recognition complexity for AI systems by measuring the time needed for accurate human identification.

December 15, 2023

A circular optical wafer is hit with a pink laser. In the background is a subtle neural network.

Closing the design-to-manufacturing gap for optical devices

A new method enables optical devices that more closely match their design specifications, boosting accuracy and efficiency.

December 13, 2023

Justin Solomon stands in front of a wall and is lit with dramatic pink and blue light, with grid-like shadows on the wall.

A computer scientist pushes the boundaries of geometry

Justin Solomon applies modern geometric techniques to solve problems in computer vision, machine learning, statistics, and beyond.

December 12, 2023

Abstract illustration with a laptop computer connected to question marks on its right and its left

Boosting faith in the authenticity of open source software

Speranza system brings hope to users that the package they download is functional software, not malware.

December 11, 2023

Audience watches panel of five seated individuals on stage in front of screen that reads "brainstorming"

MIT Generative AI Week fosters dialogue across disciplines

During the last week of November, MIT hosted symposia and events aimed at examining the implications and possibilities of generative AI.

December 11, 2023

People cross Mass Ave, with the columns and steps off Lobby 7 in background.

MIT group releases white papers on governance of AI

The series aims to help policymakers create better oversight of AI in society.

December 11, 2023

On left is a tiny rectangular device that is about 20-30 mm. On right is a heatmap of the device that shows the device is hotter in the middle.

Scientists 3D print self-heating microfluidic devices

The one-step fabrication process rapidly produces miniature chemical reactors that could be used to detect diseases or analyze substances.

December 11, 2023

Miranda McClellan ’18, MEng ’19 awarded 2025 Schwarzman Scholarship

The computer scientist will study global affairs at Tsinghua University in China as part of the 2024-25 class of Schwarzman Scholars.

December 8, 2023

Layers of 2D materials are represented by yellow and green grids made of balls. They are on top of a yellow and pink rectangular structure, and bursts of blue light emanate.

Researchers safely integrate fragile 2D materials into devices

The advance opens a path to next-generation devices with unique optical and electronic properties.

December 8, 2023

Medical technician looking at an X-ray with the help of an AI assistant

Automated system teaches users when to collaborate with an AI assistant

MIT researchers develop a customized onboarding process that helps a human learn when a model’s advice is trustworthy.

December 8, 2023

Professor Judy Hoyt is shown smiling gently in her MIT office.

Remembering Professor Judy Hoyt, a pioneer in semiconductor research

Her demonstration of incorporating lattice strain as a means to enhance performance in scaled silicon devices has informed virtually every high-performance chip manufactured today.

December 7, 2023

A stylized Earth has undulating, glowing teal pathways leading everywhere.

AI accelerates problem-solving in complex scenarios

A new, data-driven approach could lead to better solutions for tricky optimization problems like global package routing or power grid operation.

December 5, 2023

15 photos in a sequential 3x5 grid show two robotic arms working together to pick up an item.

A new optimization framework for robot motion planning

MIT CSAIL researchers established new connections between combinatorial and continuous optimization, which can find global solutions for complex motion-planning puzzles.

November 30, 2023

MIT News | Massachusetts Institute of Technology

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A flexible solution to help artists improve animation

“MIT can give you ‘superpowers’”

Image recognition accuracy: An unseen challenge confounding today’s AI

Closing the design-to-manufacturing gap for optical devices

A computer scientist pushes the boundaries of geometry

Boosting faith in the authenticity of open source software

MIT Generative AI Week fosters dialogue across disciplines

MIT group releases white papers on governance of AI

Scientists 3D print self-heating microfluidic devices

Miranda McClellan ’18, MEng ’19 awarded 2025 Schwarzman Scholarship

Researchers safely integrate fragile 2D materials into devices

Automated system teaches users when to collaborate with an AI assistant

Remembering Professor Judy Hoyt, a pioneer in semiconductor research

AI accelerates problem-solving in complex scenarios

A new optimization framework for robot motion planning

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MIT Schwarzman College of Computing