Ein White Rabbit Timing-Netzwerk. Ein Timing-Netzwerk für weiße Kaninchen besteht aus drei. Time services. State-of-the-art network time synchronisation with the T7 trading infrastructure Time Service (White Rabbit). High precision. Technologies from @sevensols help deliver high-accuracy synchronisation using the #WhiteRabbit protocol to ensure plug and play sub-nanosecond timing is.
Navigation und ServiceEin White Rabbit Timing-Netzwerk. Ein Timing-Netzwerk für weiße Kaninchen besteht aus drei. Beam - Controls - Hardware and Timing section (BE-CO-HT). Working on White Rabbit project (unitedmediasports.com) - sub-nanosecond. An important issue is the link between the GMT and the timing system of the existing facility. The GMT will be implemented using White Rabbit which is an.
White Rabbit Timing Navigation menu VideoThe White Rabbit Project - Evangelia Gousiou - ehsm - 2012 The White Rabbit Project is a multilaboratory, multicompany and multinational collaboration to develop new technology that provides a versatile solution for control and data acquisition systems. The Lotto 6/49 De designs as well as the source code are publicly available. WR PTP core: status and plans [pdf]. Both components may be added dynamically to the network. White Rabbit Solutions. Unklare Situation: Fehlersuche zusammen mit Experten der UNILAC Pulszentrale. State-of-the-art network time synchronisation with the T7 trading Syrinxx. Deutet auf einen schweren Fehler hin. An important issue is the link between the GMT and the timing system of the existing facility. The GMT will be implemented using White Rabbit which is an. Das Gateway hat die Aufgabe, das zeitbasierte White Rabbit Timingsystem mit der eventbasierten UNILAC Pulszentrale (UNIPZ) zu verbinden. Time services. State-of-the-art network time synchronisation with the T7 trading infrastructure Time Service (White Rabbit). High precision. Ein White Rabbit Timing-Netzwerk. Ein Timing-Netzwerk für weiße Kaninchen besteht aus drei.
White Rabbit Timing besonderer Vorreiter im mobilen Bonus-Programm ist das schwedische Leo. - Auf einen BlickKommando Queue das Gateway ist nicht leer.
Request a quote. It is the first commercial available device developed with the White Rabbit WR Technology. It distributes Time and Frequency within a sub-nanosecond accuracy to thousands of nodes through standard optical fiber over Metro Area network distances.
It also works as a basic data switch. A two-way exchange of the Precision Time Protocol synchronization messages allows precise adjustment of clock phase and offset.
The link delay is known precisely via accurate hardware timestamps and the calculation of delay asymmetry. At CERN White Rabbit was used for the new control system of the injector chain.
At GSI White Rabbit will become the timing system of the FAIR complex. The KM3NeT neutrino telescope uses White Rabbit for synchronising the detector units.
The EISCAT 3D radar will utilise White Rabbit for synchronization in the beam forming network. About detector nodes for the LHAASO Large High Altitude Air Shower Observatory experiment are synchronized by White Rabbit network.
At least two Cosmic Microwave Background research programs Simons Observatory , and CMB-S4 are considering White Rabbit for the timing of their data acquisition and control systems.
White Rabbit case study: preliminary results : In this presentation, we will discuss the preliminary results of our research collaboration on the economics and collaborative dynamics of Open Hardware development.
Based on the case of "White Rabbit" WR at CERN, we will examine the process of creating an open platform for collaborative development involving companies, research centers, and volunteers working with Free and Open Source projects.
Our preliminary results were obtained through a combination of research methods, including documentary analysis, interviewing, and a survey conducted by CERN "Knowledge Transfer" in For the conclusion, we discuss the implications of our results and request comments on a research report we prepared for the European Commission "Open Science Monitor" on WR and its importance for understanding the challenges and benefits of Open Hardware development for the sciences.
RF distribution over WR : Timing systems in synchrotrons often need to be referenced the RF frequency which accelerates the particles.
Phase-compensated RF distribution is also useful in other domains such as radar. This talk presents a method for distributing RF using WR and a distributed DDS approach, along with the current status and plans for the short-term future.
ESRF timing system based on White Rabbit : The ESRF synchrotron aims at providing extremely bright X rays for the study of matter at atom level.
These X rays are generated by the deviation of an electron beam injected in a storage ring. This injection process is managed by the timing system which has been recently refurbished by using the White Rabbit technology and the RF distribution over WR method.
This presentation focuses on this new system, its implementation and status. WR eXtensions for Instrumentation WRXI : status and plans : WR can be used to build a "distributed oscilloscope".
This talk presents WRXI , its present status and plans for the short-term future. On Time - In Time: Successful Operation of the GSI Facility by White Rabbit except UNILAC : After successful CRYRING operation in , the White Rabbit based General Machine Timing system GMT is successfully applied to the retrofitted GSI facility in This contribution gives an overview on the achievements, shares experience and gives an outlook to the planned activities for the next years.
WR results in 7S and the University of Granada : a presentation made of three parts: a Scalability and performance of the WR protocol over large networks; b Redundant WR technology: HSR White-Rabbit; c WR Timing solution for SST CTA telescopes.
Application of WR supporting the time calibration of GNSS installations for metrological use : GNSS calibrations are based on traveling receiver setups that are assumed to be constant with respect to their delays.
That either implies the local installation of the traveling antenna cable or the estimation of L-band delays of existing cables in customer installations.
The former is often for practical reasons impossible, whereas the latter is difficult and increases uncertainties. White Rabbit Solutions.
Product Info. Key Features. Reduces errors in time transfer with high accuracy phase and frequency time transfer Scalable to long distances Automatically calibrated links remove any potential offsets from variance between forward and reverse delays Easy to integrate into existing network infrastructure Utilizes standard Ethernet and extensions to PTP Can operate over spare fiber next to existing network links Can be multiplexed with data links using WDM Wavelength Division Multiplexing.
Title Brochures. White Rabbit — The newest time protocol described here was developed in at CERN, the European Organization for Nuclear Research.
White Rabbit is an extension of Ethernet and provides subnanosecond synchronization over 1G Ethernet networks. Who is White Rabbit For? White Rabbit Benefits Include: The White Rabbit protocol was conceived by CERN, one of the foremost scientific research institutions, and they actively collaborate in product design to ensure durability and quality.
All elements in White Rabbit solutions are modular to reduce maintenance and upgrade costs. The White Rabbit protocol is open and enhances current protocols such as Precision Time Protocol IEEE or Synchronous Ethernet Sync-E.
The White Rabbit Ecosystem. Time Nodes. How It All Fits Together. Technically, the White Rabbit Network is a Bridged Local Area Network with VLANs IEEE The high accuracy of synchronization in White Rabbit is achieved by extending the Precision Time Protocol PTP, IEEE