The Global Positioning System (GPS), the Internet and many defense-critical applications for example—demand exceptionally precise time and frequency standards. Today’s systems, however, rely on 1950s ...

Extracting a clock from the data stream may be an obvious way to generate a synchronization signal, but doing so is nontrivial Many common measurements require some form of timing reference to ...

Discovered in the 1970s, circadian clocks are essential for the regulation of biological time in most cells in the human body. These internal mechanisms adjust biological processes to a 24-hour cycle, ...

The need for more accurate time synchronization within a distributed system. The challenges of using synchronized time provided by the Precision Time Protocol (PTP) in application software and the ...

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 ...

IEX Group Inc. subsidiary swXtch.io, a provider of cloud-native network infrastructure, said today it has completed its integration with Timebeat.app Ltd.’s Precision Time Protocol to enable extremely ...

Circadian clocks, which regulate the metabolic functions of all living beings over a period of about 24 hours, are one of the most fundamental biological mechanisms. In humans, their disruption is the ...

LTC6950 is a low phase noise integer-N synthesizer core with an ultralow jitter clock distribution output section, for generating and distributing the low jitter signals essential to clocking data ...

For decades, atomic clocks have provided the most stable means of timekeeping. They measure time by oscillating in step with ...

Precision time is ubiquitous today thanks to GPS and WWVB. Even your Macbook or smartphone displays time which is synchronized to the NIST-F1 clock, a cesium fountain atomic clock (aka the ‘Atomic ...