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A carrier for two low pin count FPGA Mezzanine Cards (VITA 57), analog inputs and fail-safe functionality. It has memory and clocking resources and supports the White Rabbit timing and control network. Stand-alone board for use in a 'pizza-box'. More info at the Wiki page
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Projects / Euro ADC 65M 14b 40cha hw PUMA-hw
CERN Open Hardware Licence v1.2Updated -
The TimIQ system is an IQ modulator allowing to phase shift a radio frequency clock with a resolution of 40 fs and an accuracy of 8 ps. Software.
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The aim of this project is to evaluate resources required to run wr switch HDL on Xilinx Ultrascale+ FPGA
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Hardware design of the PandABox. Includes schematics, PCB layout and manufacturing files.
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A fully open electronic watch project featuring an integrated GPS receiver. More info at the Wiki page
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Projects / AIDA-2020 TLU
OtherA Trigger/Timing Logic Unit designed for use with High Energy Physics beam-tests. Provides a simple and flexible interface for fast timing and triggering signals at the AIDA pixel sensor beam-telescope. Connects to a FPGA carrier card via a FMC connector.
( N.B. Use the sub-project Git repositories, not the top level repository )
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FMC nanoFIP is an interface card for the WorldFIP network in an LPC FMC form-factor. More info at the Wiki page
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A software suite written in Python to help with production tests of PCBs. AKA PTS.
%(red)This pts-base project is used to re-organise the current pts project In the future this project will replace the existing pts project.
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A collection of cores needed in the White Rabbit node and switch. Includes White Rabbit PTP Core (WRPC).
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This project contains all the HDL gateware necessary for the FPGA of the WR switch.
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Projects / AIDA-2020 TLU - Hardware
CERN Open Hardware Licence v1.2Updated -
A web based commander based on Node.JS for the HDLMake tool.
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The robustness of a White Rabbit Network (WRN) is a broad subject covering methods (HW & SW) which enable to increase overall reliability of a WR-based system. This includes Forward Error Correction (FEC), Quality of Service (QoS) assurance, support of network redundancy, proper network design, thorough diagnostics, and increasing the reliability of network components (i.e. switches, nodes). Here, these methods are described and their implementation sources gathered.
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