The ever-growing scale of high-performance computing systems, particularly with the transition to exascale computing, has underscored the critical need for robust fault tolerance. As these systems ...

Fault tolerance in reconfigurable and embedded systems is a critical area of research that addresses the resilience of complex electronic devices against hardware faults and transient errors. As ...

While computing systems are typically equipped to handle crashes, slow faults—situations when system components' performance degrades rather than failing outright—can cause severe disruptions for ...

Vipul Kumar Bondugula's research enhances distributed databases by optimizing concurrency control and fault tolerance, ...

Hiperwall FT 4.0 offers the ability to run two simultaneous control stations, each with full control capabilities. As long as either of the control stations remains operational, the full Hiperwall ...

In the context of deep learning model training, checkpoint-based error recovery techniques are a simple and effective form of fault tolerance. By regularly saving the ...

A distributed system has a number of independent computers allied up a network and sharing middleware which enables computers to organize their behavior and behave as a single coherent system. Mobile ...

Basic principles behind distributed systems (collections of independent components that appear to users as a single coherent system) and main paradigms used to organize them. This course satisfies the ...

Designing a system for fault tolerance is a robust design principle for building systems that will continue to operate correctly or in an acceptable degraded fashion. This approach is appropriate for ...

The very first quantum computers are here. Some – such as those developed by IBM and Rigetti – have already been made available to researchers via the cloud. Sure they are on the small side, and only ...