1 / 7

Detector Control System at the GIF++

Detector Control System at the GIF++. A. Polini (INFN Bologna) on behalf of WP 8.5.3 group 29/06/2012. Outline What needs to be provided Manpower First Design Consideration Hardware + Software Options Cost Estimate Plans. Manpower. Groups: INFN Bologna A. Polini et al.

zyta
Télécharger la présentation

Detector Control System at the GIF++

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Detector Control System at the GIF++ A. Polini (INFN Bologna) on behalf of WP 8.5.3 group 29/06/2012 Outline • What needs to be provided • Manpower • First Design Consideration • Hardware + Software Options • Cost Estimate • Plans A. Polini

  2. Manpower Groups: • INFN Bologna • A. Polini et al. • NTUA group • E.N.Gazis, T. Alexopoulos, G.Tsipolitis, + 5 students (NTUA group) • Techion Univ. • S. Tarem et. Al. Groups with good experience in DCS A. Polini

  3. Present Baseline Use PVSS (as in LHC experiments) Many components, devices, HW and SW already available (CAEN System, CAN PSU, ELMB, ENV Sensors, VME crates etc.) A baseline system could be: Power System CAEN Easy: • 1 mainframe, 1 Power Generator, 1-2 crates + with HV and LV boards(*) and 1ADC A-3801 board for monitoring (128 channels) (*) Some Low Voltage possibly external (non CAEN) with remote control via PVSS. A. Polini

  4. About the CAEN System Pros: Well established, very flexible, and reliable architecture Lots of software can be taken from ATLAS/RD-51 No other option usable given the system and manpower constraints Contra: Main one: cost !!! Baseline costs high(*). Options of resource sharing Buy only part of the equipment Rent from CERN pool or other group the remaining part (*) Note: The costs do not scale linearly… a larger system (including larger number of subsystems and/or power and monitoring channels) is in proportion more affordable. A. Polini

  5. Cost Estimate (i) DCS Caen Equipment ~ 15k€ (a bit less w/o EASY) RPC HV (12 KV min 6 ch): 5k€ - 8k€ TGCs: (3 KV, min 8 channels) 3.2k€ - 7.4k€ Extended Monitoring (ADC) and DAC (only w/ EASY) A. Polini

  6. Cost Estimate (ii) Low Voltage: RPC: (~45 W) TGC: LV requirements for TGC not yet available (as being heavily dependent on Front End electronics and detector design Option of using external (remotely controlled) Low Voltage systems possibly connected to DCS (CAN etc.) Cheaper Still controllable within DCS system PC and infrastructure: 2500 CHF A. Polini

  7. Conclusions DCS Baseline design available Resources in terms of manpower and experience not problematic Some (not small) adjustments still needed Main issue is the Cost • A complete solution not below 30 k€ Some options for reducing the cost available though Going for a fully non CAEN solution much more demanding in terms of manpower and development A. Polini

More Related