This article describes emerging trends in synchronizing digital ICs and shows how process scaling, rapid increases in clock frequencies, and demand for lower power dissipation will affect the choice ...

Can we find order in chaos? Physicists have shown, for the first time that chaotic systems can synchronize due to stable structures that emerge from chaotic activity. These structures are known as ...

System timing and synchronization remains one of the least understood sciences in today's communications equipment design processes. As the essential foundation of all multiplexing, switching and ...

Measurement and automation systems involving multiple devices often require accurate timing in order to facilitate event synchronization and data correlation. For example, an industrial automation ...

In the power generation industry, accurate time-keeping by supervisory control systems is of utmost importance. Operational failures can propagate rapidly across plant systems and trigger a chain ...

Quantum synchronization is an emergent phenomenon whereby interacting quantum systems develop a coherent phase relationship despite their inherent quantum fluctuations and decoherence. Unlike its ...

In physical, biological and technological systems, the time that a system's components take to influence each other can affect the transition to synchronization, an important finding that improves ...