The quantum computing revolution draws ever nearer, but the need for a computer that makes correctable errors continues to hold it back.

More than a year ago, computational scientists at the Department of Energy's Oak Ridge National Laboratory published a study in the Journal of Chemical Theory and Computation that raised a serious ...

The University of Washington's Allen School is rethinking how to train the next generation of software engineers in an ...

More than a year ago, computational scientists at the Department of Energy's Oak Ridge National Laboratory published a study ...

Discover how n8n’s AI-powered Model Context Protocol (MCP) simplifies workflow automation, reduces errors, and unlocks new ...

Generative AI is making its presence felt across academia, but its impact is most pronounced in computer science. The ...

In the 1840s, Ada Lovelace wrote the world’s first machine algorithm for an early computer that existed only on paper.

This device measures brain activity using near-infrared light. The goal is to see if astronauts can use their brain signals ...

Quantum computers still face a major hurdle on their pathway to practical use cases: their limited ability to correct the ...

IBM's next-generation quantum computer, now online in Japan, is also connected to the supercomputer Fugaku to accelerate quantum computational power and accuracy ...

Systematic errors resulted from failing to separate this shadow work from the actual “protocol work” that they explicitly modeled in their simulations. For the first time, Sivak and his colleagues ...

Study finds direct link between correlated errors in multiple qubits and the activity of subatomic particles and gamma rays.