Industrial PCs
High-performance computing research for clean energy
The DOE announced up to $3 million to connect industry partners with U.S. National Laboratory high-performance computing (HPC) resources for clean energy technology.
Quantum computing, AI prompts a smarter power grid
Cornell University researchers are using quantum computing and artificial intelligence (AI) to make a smarter power grid to reduce blackouts and other issues.
Correlated electrons ‘tango’ in a perovskite oxide at the extreme quantum limit
A rare quantum material has been found by the Department of Energy's Oak Ridge National Laboratory, which could help accelerate quantum computing research and development.
The IPC requirements of complex control
As automation technologies and the Industrial Internet of Things (IIoT) become more commonplace in modern manufacturing, the requirements of control hardware have increased.
Productivity increases with cloud-connected IPC
Glidewell Dental used flexible, scalable automation, EtherCAT, and IIoT solutions to modernize prosthetic tooth factory
Six steps to improve computer hardening
Computer hardening is about making systems resistant to cybersecurity attacks, which is something engineers are becoming more aware of. Six tips are highlighted.
Redundant and fail-safe controller CPU
The SIMATIC S7-1500 controller family is extended by a redundant controller which also allows to implement fail-safe applications.
New combination of materials provides progress toward quantum computing
Rensselaer Polytechnic Institute researchers have demonstrated how the future of quantum computing may depend on the further development and understanding of semiconductor materials known as transition metal dichalcogenides (TMDCs).
Perovskite superfluoresces could benefit quantum computing
A commonly-studied perovskite can superfluoresce at temperatures practical to achieve and at timescales long enough to make it potentially useful in quantum computing applications.
Reducing quantum computing errors
MIT researchers demonstrate a way to sharply reduce errors in two-qubit gates, a significant advance toward fully realizing quantum computation.
