An introduction to the mind-bending world of quantum computing. Learn how Microsoft is blending quantum physics with computer science with Quantum Computing 101.
Microsoft has brought together some of the world’s top physicists, computer scientists and engineers to build a scalable, fault-tolerant, universal quantum computer.
Read more about Microsoft's quest for a quantum future.
Microsoft is on the path to building the first topological qubit, a type of quantum bit that will serve as the basis for a scalable, general purpose quantum computer, marking a profound breakthrough in quantum physics.
Fielding AI solutions in the open world requires systems to grapple with incompleteness and uncertainty. Eric Horvitz addresses several promising areas of research in open world AI, including enhancing robustness via leveraging algorithmic portfolios, learning from experiences in rich simulation environments, harnessing approaches to transfer learning, and learning and personalization from small training sets. In addition, Eric will cover mechanisms for engaging people to identify and address uncertainties, failures, and blind spots in AI systems.
Watch a demo a prototype application of assistive AI for cancer treatment. AI has the capability of identifying the tumor and nearby anatomical structures in 3D, performing a labor-intensive task called segment contouring with 90 percent accuracy, and doing so dozens of times faster than a human.
Microsoft researchers in artificial intelligence are harnessing the explosion of digital data and computational power with advanced algorithms, enabling collaborative and natural interactions between people and machines that extend the human ability to sense, learn and understand.
Christopher Bishop has a fireside chat with Harry Shum, executive vice president of Microsoft’s Artificial Intelligence (AI) and Research group.
A cloud-based tool, formerly known as Project Springfield, that developers can use to look for bugs and other security vulnerabilities in the software they are preparing to release or use, saving companies the heartache of having to patch a bug, deal with crashes or respond to an attack after it has been released.
Microsoft security, privacy, and cryptography efforts are guided by the responsibility to build and maintain trust in the computing ecosystem with state-of-the-art systems, controls, and services.
Microsoft Research aims to provide customers of cloud computing complete control over their data—no one should be able to access the data without the customer’s permission.
At any point in time on any day of the week, Microsoft’s cloud computing operations are under attack: The company detects a whopping 1.5 million attempts a day to compromise its systems. But Microsoft isn’t just fending off those attacks. It’s also learning from them.
The ability to differentiate things like trees, curbs, and glass doors come easily to humans, but it's still difficult for AI-based systems. Microsoft researchers are aiming to change that by working on a new set of tools, now available on GitHub, that other researchers and developers can use to train and test robots, drones and other gadgets for operating autonomously and safely in the real world.
How can doctors keep up with the explosion of medical research? The Azure for Research program provided an Azure grant to University College London to quickly develop and deploy AI solutions in the cloud.
Researchers in AI are pursuing computing advances to create intelligent machines that complement human reasoning to augment and enrich our experience and competencies.
Learn more about Project Malmo, a platform that uses the world of Minecraft as a testing ground for advanced artificial intelligence research and innovation.
