DAQ system

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This is an image map. Click on a section of the picture to go to the page for that item.

VME CratesVME CratesVME CratesCollector BoxCollector BoxCollector BoxDAQ Power SupplyDAQ Power SupplyDAQ Power SupplyDAQ Power SupplyLiquid NitrogenLiquid NitrogenGammasphere frame (without detectors in it)
Figure 1. DAQ System circled in red; one rack for each of the four "hemispheres" of Gammasphere

Gammasphere's DAQ system (data acquisition system) is now placed on relay racks by each side of its "hemispheres". Each of the racks for the DAQ consists of a power supply, a collector box, and a VME crate. The data acquisition system observes, interprets, and modifies data taken from Gammasphere and appropriately presents it to the user.

The picture above provides an overall map to the naming conventions associated with the system. Cardinal directions are shown in purple text, process variable (EPICS) names are shown in green text and network IDs are shown in red text. There are multiple computers within the DAQ system:

ln2con || 192.168.203.148 || Linux computer that lnfill boots from
Network names and IP addresses of the devices within Digital Gammasphere
Network name IP address Description
ioc01: 192.168.203.141 MVME5500 VME processor used for control and readout
ioc02: 192.168.203.142 MVME5500 VME processor used for control and readout
ioc03: 192.168.203.143 MVME5500 VME processor used for control and readout
ioc04: 192.168.203.144 MVME5500 VME processor used for control and readout
ioc05: 192.168.203.145 MVME5500 VME processor used for control and readout
ioc06: 192.168.203.177 MVME5500 VME processor used for control and readout
ioc07: 192.168.203.178 MVME5500 VME processor used for control and readout
ioc08: 192.168.203.179 MVME5500 VME processor used for control and readout
ioc09: 192.168.203.180 MVME5500 VME processor used for control and readout
ioc10: 192.168.203.183 MVME5500 VME processor used for control and readout
ioc11: 192.168.203.181 MVME5500 VME processor used for control and readout
ioc12: 192.168.203.182 MVME5500 VME processor used for control and readout
gs-cne 192.168.203.88 Raspberry Pi inside the North East Collector box
gs-cnw 192.168.203.149 Raspberry Pi inside the North West Collector box
gs-cse 192.168.203.42 Raspberry Pi inside the South East Collector box
gs-csw 192.168.203.26 Raspberry Pi inside the South West Collector box
gs-pdu-north 192.168.203.224 Power Distribution Unit for the North Hemisphere
gs-pdu_south 192.168.203.225 Power Distribution Unit for the North Hemisphere
gs-ts-north 192.168.203.91 Terminal server providing console port access for ioc07 through ioc12
gs-ts_south 192.168.203.186 Terminal server providing console port access for ioc01 through ioc06
lnfill 192.168.203.121 Embedded VME processor that hosts the EPICS databases for valve status and valve control

When Gammasphere collects data, single-ended signals are first collected from the slope box for the Ge Center, Ge Sides, and BGO segment. The signals are converted to differential signals by the SBX, and are then sent to the collector box so the signals can properly be routed to the digitizers. The digitizers process and output the desired information to the user based upon their data specifications. The DAQ system is an FPGA-based design that provides communication hub interfacing the preamp, power board, dongle and slope box to EPICS through serial interface. Analog signal paths are completely software controlled.

DAQ System Function

The DAQ system prior to upgrades consisted of VME crates, IOC Modules, Digitizers and Trigger Modules. There were two types of Digitizers (Master and Slave) and well as Trigger (Master and Router). In the current version of the upgraded Gammasphere DAQ system, some of the old hardware is still used, but in a different way. All channels in all digitizers run continuously. When discriminator logic marks leading edges of gamma-ray signals, energy sums, timing and other data are stored in a header identifying the event. If the event is selected for readout by the trigger system, the header and a programmable amount of waveform is transferred from the channel to the board-wide FIFO (first in, first out) data holder. The IOC scans the FIFOs to see if there is data to read out. If so, the IOC reads it out into buffers. A program called “gtReceiver” sends messages to each IOC when the receiver is ready for more data. The IOC then breaks apart buffers into UDP packets and sends them to gtReceiver. The gtReceiver program then routes the packets to files that may be organized by digitizer or by channel.

Gammasphere DetectorsGammasphere DetectorsGammasphere DetectorsThe Slope BoxThe Slope BoxThe Slope BoxThe Slope Box ExtensionThe Slope Box ExtensionThe Slope Box Extension
Figure 2. Diagram of the DAQ system process.


To view how this system is controlled, go to DGS Commander EDM Screens.

Go back to Digital Gammasphere Upgrade Project