Overview The 2026 global rankings highlight universities excelling in AI, cybersecurity, and sustainable computing education, ...

When it comes to developing faster and smaller chips to power next-generation electronic devices, Silicon is seen as the leading option. This abundant, cheap semiconductor provides acceptable carrier ...

Researchers at the Institute for Quantum Computing at the University of Waterloo have developed a method to back up quantum ...

Quantum computers promise unprecedented computing speed and power that will advance both business and science. These same ...

IBM just announced that 2026 will mark the first time a quantum computer outperforms classical systems. Not in a lab ...

The deal, led by British climate technology financier Planet First Partners, values the startup at “multiple billions” of ...

These achievements, like many of the UB’s research endeavors, are poised to have a wide-ranging and long-lasting positive ...

What Will Define Cybersecurity in 2026? madhav Tue, 01/06/2026 - 08:44 If we think 2025 has been fast-paced, it’s going to ...

Discover the history of IIT Bombay, which was the first to provide engineering physics. Learn about the 2026 course offerings ...

From left) Yuetsu Komada, Mitsuhisa Sato and Tamiya Onodera. © 2026 RIKEN A pioneering project led by RIKEN is underway to ...

【知っているかな？】量子技術研究で日本は先駆けだった。そんな日本には量子コンピュータが何台ある？｜量子コンピュータが私たちの未来を変える日は実はすぐそこまで来ている。 そんな今だからこそ、量子コンピュータについて知ることには大きな意味がある。単なる専門技術ではなく、これからの世界を理解し、自らの立場でどう関わるかを考えるための「新しい教養」だ。

ディープラーニングにつながる原点には二人の日本人研究者の貢献も欠かせなかった。脳神経への数学的なアプローチの第一人者である甘利俊一は、複雑なニューラルネットワークを学習させるために必要な手法「誤差逆伝播法」を開発した。