1. Data acquisition and control system for HEDP experiments on FAIR and GSI. A. Kantsyrev 1, D. Varentsov 2, A. Hug 2, S. Udrea 2, L. Shestov 1, V. Turtikov 1 FAIR Russia Research Centre (FRRC) 1 SSC RF Institute for Theoretical and Experimental Physics (ITEP) 2 Gesellschaft für Schwerionenforschung (GSI), Darmstadt, Germany Moscow

2. HIHEX Heavy Ion Heating and Expansion uniform quasi-isochoric heating of a large-volume dense target quasi-isentropic expansion in 1D (plane or cylindrical) geometry Numerous high-entropy HED states: EOS and transport properties of e.g., non-ideal plasmas, WDM and the critical point regions for various materials LAPLAS Laboratory Planetary Sciences hollow (ring-shaped) beam heats a heavy tamper shell cylindrical implosion and low-entropy compression Mbar pressures @ moderate temperatures: ultra-high density HED states, e.g. hydrogen metallization problem, interior of Jupiter, Saturn and Earth HEDgeHOB collaboration will construct and run at FAIR two main HEDP experiments: HIHEX and LAPLAS GSI (SIS-18) HHT experiments already present WOBLER prototype in ITEP+ Cryogenic target already present

3. light collection optics (temperature, spectroscopy) backlighting laser ion beam velocity, pressure alignment, beam diagnostics, sample volume, self-emission expansion velocity and sample volume Physics package Package in container Container on the target table Ta diaphragm target foil sapphire windows brass container ion beam target table with contact pins 6-axis target manipulator and target shelves pyrometer, streak-spectrometer interferometers, VISAR streak-camera for shadowgraphy and schlieren X Y Z fast intensified CCD camera alignment, beam diagnostics, self-emission WDM experimental setup at GSI HHT

4. Data acquisition and control system, for HEDP experiments on FAIR and GSI, consists of a set of hardware–software modules (HSMs), each of which includes one measuring, diagnostic, or actuating device and the relevant program for acquisition or processing of experimental data. The HSM programs reside in several personal computers integrated into a local Ethernet network. Data communication between the HSM programs has been organized via the TCP/IP socket interface. Data acquisition and control system

5. Basic HSM module +Synchronizing of devices. Data acquisition and control system

6. Logic scheme of work Data acquisition and control system

7. Principal schematic of data saving, processing and presenting Data acquisition and control system

8. Beam shots page Data acquisition and control system

9. PHP dynamic web pages Data acquisition and control system Active parameters + beam line elements Active parameters + Images Notes pages

10. NDescriptionDevice Program /language 1Beam request control + synchronization ICPDAS 7055D + logic scheme Beam Control/ Python 2 Readout and saving of high frequency signals from detectors Tektronix and Lecroy Oscilloscopes Ptek / Delphi+TekVISA 3 Readout and saving of high frequency signals from detectors Fast Multi Channels digitizer DigitazerPROG/ LabView 4Measuring pressure of gases Pffeifer Vaccum measuring unit PPRes/Python 5 Readout and saving of images from PCO DiCAM CCD cameras Fast CCD cameras PCO DiCamPro SDU-ITEP/ C+Java+ImageJ 6 Positioning of targets and detectors Micos Gmbh actuators Robot HHT/ Python 7 Reading/Setting parameters of beam line + reading beam intensity Accelerator database BeamLineREAD/ Python 8 Reading/Setting of parameters from pulse delay generators Pulse delay generators DG645, DG535 DG_HHT/ Python+pyVISA 9Control of lasersVerdi lasersLRS/Python (?) 10Readout and saving of images from fast Hamamatsu streak camera Hamamatsu streak camera STREAK_HHT/ Python (?) Data acquisition and control system Hardware-Software Modules (HSM) for prototype of system for GSI HHT experiments

11. Connecting of devices using TekVISA /pyVISA The universal TekVISA/pyVISA driver has been selected to organize data communication between the programs and devices with unlike interfaces (RS232, GPIB, USB, and LAN). Using this driver, it is possible to organize data communication with the HSM programs with allowance for the specific command system of the device. The ActiveX component of the TekVISA driver is set up for access to the functions of the TekVISA program in the C, Delphi, Java language. Data acquisition and control system

12. HSM programs Data acquisition and control system Digitizer control program CCD camera control programs DAQ+ beam control program Robot + Streak camera control program Ptek (tektronix) control program

13. Main advantages Scalability of system. The modular structure of system allows to add new elements easily Possibility to spend processing of experimental data in a mode of real time Carrying out of completely automated experiment with the description of the plan of experiment All initial and processed experimental data saving on the server Use of various programming languages for a writing of programs HSM of modules allows to reduce time of introduction of new elements of system The system is constructed on the basis of the traditional measuring equipment (oscillographs, CCD camera …) User friendly WEB interface Use possibility in additional experiments and stands (Magnet Scanner, PRIOR …) Data acquisition and control system

14. Thank you for attention…