Sheng Di, a computational scientist in the Mathematics and Computer Science division at the U.S. Department of Energy’s (DOE) ...

As computing demands for HPC, AI/ML, and cloud infrastructure grow, modular architectures are replacing traditional monolithic System-on-Chip (SoC) designs. These legacy designs are increasingly ...

A new year, a new quantum computing breakthrough: D-Wave, one of the quantum industry’s rising stars, announced “an industry-first breakthrough” on Tuesday as it works to make quantum computing ...

Advancing scalable solid-state quantum computing from materials to quantum processors and simulators—this is the ambitious project goal of the joint European project SPINUS. During their annual ...

In the gen AI era, raw horsepower isn’t enough. Energy-efficient, holistic stacks are the key to scaling AI sustainably and affordably. AI is reshaping digital business at breakneck speed, but its ...

Traditional computers rely on electrons to perform computational tasks, but electrons can never match the speed and processing power offered by photons, tiny packets of light that travel at an ...

Raju Dandigam is an Engineering Manager at Navan with 14+ years of experience in full-stack development and AI-driven solutions. Businesses need to provide smooth, high-performance applications in ...

As part of DARPA’s Quantum Benchmarking Initiative, the two companies are now in negotiations under the validation and co-design phase of the quantum computing program. The Defense Advanced Research ...

Ising machines demonstrate significant potential to tackle computationally complex challenges, including combinatorial optimization problems related to logistics, manufacturing, finance, and AI. The ...