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This project covers the hardware development of version 4 of the White Rabbit switch (WRS-v4). More info at the Wiki page
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DIOT 3U crate mechanics and backplane compliant with CompactPCI-Serial standard.
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Projects / White Rabbit Switch - Software
GNU General Public License v2.0 or laterDevelopment of software for the White Rabbit switch, and in particular the embedded Linux system running in the ARM9 processor. More info at the Wiki page
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Radiation-tolerant AC/DC power supply unit (PSU). In: 230VAC, 50Hz, Out: +12V, 8.33A (100W) and +5V, 2A (10W). Possibility for redundancy. The design is CompactPCI compatible. Part of DIOT project.
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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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FPGA Firmware ( "Gateware" ) for AIDA-2020 TLU and AIDA mini-TLU
Uses "IPBus Build" ( ipbb )
Build instructions at Instructions here
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E-bone first aims at interfacing an FPGA based PCIe Endpoint core to a collection of other cores. The E-bone release contains a number of general purpose cores within that scope. E-bone specifications cater for both a Control Interconnect and a Fast Transmitter. The Control Interconnect defines a 32 bit wide interconnection between a number of masters and slaves. The Fast Transmitter is a one way path (up to 256 bit wide) aiming at dumping large data sets to the root complex. E-bone is nevertheless not restricted to PCIe interfacing and may be used for developing sub-systems in others environments.
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Specific applications of open hardware modules are subprojects of this project. These subprojects contain specific firmware and/or software for existing hardware projects.
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SPIETBOX is a board developed around a SPARTAN-3 FPGA in order to process TTL and SSI encoders. The board is design to work in stand alone or connected to a SPICONTROLLER via the SPI interface.
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A fully open electronic watch-like device that will signal a too high-level of UV light. It is meant for people with a highly sensitive skin. More info at the Wiki page
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Triple 10MBd POF/HCS optical receiver with single optical transmitter (10Mbd) using an LPC connector.
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The fmc-adc125m14b12ch-dac1250m16b2ch (fmc-dad) board is a 12 ch ADC/ 2 ch DAC channels board using FMC HPC and QSE connectors It has been designed for system requiring a feedback loop mechanism with precise timing, such as the tunning of RF cavities. More info at the Wiki page
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EDM is a Embedded Design Module standard under the Creative Commons license targeting on embedded applications and controllers which are being actively developed by many embedded companies. See http://www.edm-standard.org. This projects holds all EDM compatible boards.
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embedded-linux is a project explaining how to make embedded-Linux work on different FPGA platforms. More info at the Wiki page
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FMC MasterFIP is an interface card for the WorldFIP network in an LPC FMC form-factor. More info at the Wiki page
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PC/104 modules. PC/104 (or PC104) is a family of embedded computer standards which define both form factors and computer buses. The standard is modular, and allows to stack together boards from a variety of COTS manufacturers to produce a customized embedded system. The designs are in sub-projects.
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A UV-mask meant for people with a highly sensitive skin. It features 100% protection from UV and has an integrated fan. The design is fully open. More info at the Wiki page
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A VME rear transition module providing 24 Dry Contact Inputs. Dry contact switch connecting 24V to ground (limited to 20mA). Uses the SVEC as front-module. More info at the Wiki page CANCELLED PROJECT
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Cosmic Pi - a low cost distributed cosmic ray detector, based on Raspberry Pi. It makes the detection and analysis of cosmic rays accessible to students, educators and ordinary people. It uses a specially designed detector combined with the low cost hardware of the Raspberry Pi computer for data storage and online analysis. More info at the Wiki page
If you're looking for the V1 prototype schematics and PCB layouts you can find them here Our more recent hardware (V1.5 and V2) plus all code is stored on github and can be found here To learn about the project, have a look at our blog
You can also follow us on Facebook.
The project hardware is currently being developed in EagleCAD but we'll be moving to KiCAD fairly soon.
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