Orolia is providing Atomic Reference Time (ART) Cards to support Meta’s implementation of high precision timing protocols within its distributed timing infrastructure. The architecture of Orolia ART Cards is powered by the company's mRO-50 mini rubidium atomic clock technology.
“We are honored to have this opportunity to collaborate with Meta’s incredibly talented team of engineers to develop a unique open-source solution using our mRO-50 technology," said Jean-Yves Courtois, Orolia CEO. “We look forward to a continuing partnership with Meta and other global network leaders working to advance solutions to ensure ongoing timing accuracy and resilience.”
Orolia developed the ART Card solution in collaboration with the Meta engineering team to fulfill a specification that Meta published for the Time Appliances Project Initiative of the Open Compute Project. This collaborative community is focused on designing from scratch hardware and software to efficiently support the critical timing accuracy and resilience demands on computer network infrastructure. This project is fully open-sourced and available on Orolia's GitHub.
In 2020, Meta began converting its data center servers to a time distribution service based on Network Time Protocol and Precision Time Protocol. The service, built in-house and later open-sourced, was more scalable, and improved the accuracy of timekeeping within the Meta infrastructure from ten milliseconds to 100 microseconds. Orolia ART Cards will further increase the accuracy, resiliency, and adoption of Meta’s timing platform.
Developed with long term support in mind, Orolia’s ART Cards deliver management, disciplining, and monitoring functions that can be integrated into any computer with a PCIe port and bring accurate and resilient timing for the most demanding applications such as NTP/PTP time reference, time stamping, and latency calculation.
Key Features of Orolia’s ART Card:
- First PCIe card to include an atomic time reference from Orolia, the mRO-50, and a multi-frequency multi-constellation GNSS receiver.
- PCIe 2.0 x4 format.
- Sub 1µs/24h holdover performance.
- Open-source software suite including the driver, monitoring daemon, and disciplining algorithm, supported by the timing, PNT, and data center community.
- Compatible with existing NTP and PTP implementations.
- Open architecture with a huge potential for customization.
- Evolutive to support OS-NMA.