Distributed computing unites autonomous processors over a network to solve tasks that exceed the capacity of any single machine. Systems software in this domain spans operating systems, middleware, ...

Distributed systems underpin modern computing environments—from cloud platforms and edge networks to multi-agent grids and software-defined infrastructures. They comprise collections of autonomous ...

One of the most difficult problems with quantum computing relates to increasing the size of the quantum computer. Researchers globally are seeking to solve this "challenge of scale." To bring quantum ...

Unlock the full InfoQ experience by logging in! Stay updated with your favorite authors and topics, engage with content, and download exclusive resources. Birgitta Böckeler, Distinguished Engineer at ...

This core research area addresses the fundamental study of computing systems across the whole stack, from devices to microelectronics to computer architecture. Embedding of novel computing paradigms, ...

Atom Computing and Nu Quantum have announced a strategic partnership to develop networking technologies designed to scale ...

A distributed system is comprised of multiple computing devices interconnected with one another via a loosely-connected network. Almost all computing systems and applications today are distributed in ...

Unlock the full InfoQ experience by logging in! Stay updated with your favorite authors and topics, engage with content, and download exclusive resources. Birgitta Böckeler, Distinguished Engineer at ...

The collaboration brings together Atom Computing's leading neutral-atom quantum computers and Nu Quantum's state-of-the-art quantum networking stack. By combining complementary expertise, the ...

How event-driven design can overcome the challenges of coordinating multiple AI agents to create scalable and efficient reasoning systems. While large language models are useful for chatbots, Q&A ...