CLIC NI Acquisition and Control Module update CLIC
![Inventory of signals Ch type S-rate [S/s] Resolution [bits] # ch + bu 2](https://slidetodoc.com/presentation_image/9abf080b21cb45fcc551632d57050b65/image-5.jpg "Inventory of signals Ch type S-rate [S/s] Resolution [bits] # ch + bu 2")
![NI DAQ modules Ch type S-rate [S/s] Spec/NI Resolution [bits] Spec/NI Module type #](https://slidetodoc.com/presentation_image/9abf080b21cb45fcc551632d57050b65/image-6.jpg "NI DAQ modules Ch type S-rate [S/s] Spec/NI Resolution [bits] Spec/NI Module type #")
![NI system proposal Ch type S-rate [S/s] NI Resolution [bits] NI #ch Module type](https://slidetodoc.com/presentation_image/9abf080b21cb45fcc551632d57050b65/image-7.jpg "NI system proposal Ch type S-rate [S/s] NI Resolution [bits] NI #ch Module type")
- Slides: 18
CLIC NI Acquisition and Control Module update CLIC Module Working group meeting 3 -10 -2013 Adriaan Rijllart EN-ICE-MTA
Content CLIC ACM requirements Motivation for NI systems Inventory of signals Prototype system proposal Miniaturisation Planning Summary CMWG - A. Rijllart 2 3/10/2013
ACM requirements 23000 modules-2 m length-200 signals/module - details in excel file - large variety of signal sources (18 GHz wakefield monitor to DC temperature sensors or flow-meters) - requested readout speed: up to 100 Hz - single value readouts or vector readouts - FE electronics needs external timing reference with ps stability Standard industrial solution with crates and individual modules will explode available budget TDR phase of CLIC (2011 -2016) will seek industrial “custom solution” CMWG - A. Rijllart 3 3/10/2013
Motivation for NI-PXI systems Industrial standard Hardware and software made to work together Large offer 600 alliance partners world wide Good support CMWG - A. Rijllart 4 3/10/2013
Inventory of signals Ch type S-rate [S/s] Resolution [bits] # ch + bu 2 G 8 0 0 Fast ADC 200 M 14 28 48 Slow ADC 1 k 16 105 160 Slow DAC 1 k 18 8 32 Raw DIO 1 k 146 256 Serial I/O 14 32 Total 301 528 V. Fast ADC CMWG - A. Rijllart 5 3/10/2013
NI DAQ modules Ch type S-rate [S/s] Spec/NI Resolution [bits] Spec/NI Module type # ch/mod Price($)/ch U. fast ADC 5 G 10 PXIe-5162 4 4100 V. fast ADC 2 G 8 PXI-5153 2 3300 Fast ADC 200 M (250 M) 14 NI 5761 R 4 3200 Slow ADC 1 k (3 k) 16 PXI-6225 40/80 40/20 Slow DAC 1 k (8 k) 18 (16) PXI-6225 2 free Raw DIO 1 k (1 M) PXI-6225 24 free PXIe-6535 32 50 NI 6584 16 180 Serial I/O CMWG - A. Rijllart 6 3/10/2013
NI system proposal Ch type S-rate [S/s] NI Resolution [bits] NI #ch Module type NI # ch NI # NI modules 2 G 8 0 PXI-5153 0 0 Fast ADC 200 M (250 M) 14 28 NI 5761 R 28 7 Slow ADC 1 k (3 k) 16 105 PXI-6225 160 4 Slow DAC 1 k (8 k) 18 (16) 8 PXI-6225 8 4* Raw DIO 1 k (1 M) 146 PXI-6225 96 4* PXIe-6535 64 2 NI 6584 16 1 372 * Included V. Fast ADC Serial I/O 14 Total CMWG - A. Rijllart 7 3/10/2013
NI system cost Ch type Module NI # ch NI # NI mod Cost $/mod V. Fast ADC PXI-5153 0 0 7500 0 Fast ADC NI 5761 R 28 7 12300 86100 Slow ADC PXI-6225 160 4 2000 8000 Slow DAC PXI-6225 8 4* * Raw DIO PXI-6225 96 4* * PXIe-6535 64 2 2000 4000 Serial I/O NI 6584 16 1 7500 Crate PXIe-1085 1 8500 Controller – FPGA + fibre PXIe. PCIe 8375 1 5500 PC Total CMWG - A. Rijllart Cost $ 800 372 * Included 8 120400 3/10/2013
NI system overview Controller DIO Synchro IEEE-1588 Fast ADC CMWG - A. Rijllart Serial DIO + Slow ADC + DAC 9 3/10/2013
Flex. RIO architecture CMWG - A. Rijllart 10 3/10/2013
FPGA controller Fiber-Optic MXI-Express x 4 link, PXIe-PCIe 8375 838 MB/s sustained transfer rate Remote control of PXIe crate Cost 5. 5 k. CHF CMWG - A. Rijllart 11 3/10/2013
Next steps NI-ACM Functional validation (DAQ, timing, data transfer) Purchase system with FPGA based controller Communication test with optical fibre (length) Validate on Module Test Stand Develop White Rabbit FPGA controller Radiation resistance test? Controller + DAQ boards CMWG - A. Rijllart 12 3/10/2013
White Rabbit-FPGA controller Development by NI White Rabbit timing signal decoding Loop back in the daisy chain Estimated cost 25 k. CHF • The White Rabbit timing should be decoded on the FPGA • The loop back mechanism should be implemented, if we want to be protected from a single fibre fault CMWG - A. Rijllart 13 3/10/2013
Miniaturisation Final system requirements: cheap consuming little power easy cooling (conduction? ) small Solution: Miniaturise 15 boards into 1 small box NI has long experience with custom design CMWG - A. Rijllart 14 3/10/2013
CMW integration OASIS compatibility Choices: FESA 3 Lightweight CMW client A short study needed to compare the 2 solutions CMWG - A. Rijllart 15 3/10/2013
NI-ACM (+ RF) Planning Year Personnel Material Work Packages 2013 0. 2 CERN staff 1. 0 NI consultant 120 k. CHF 5 k. CHF Prototype NI-ACM Fibre controller with 100 m fibre 25 k. CHF Realisation of the “fibre +” interface Test of CLIC module on CTF 3 130 k. CHF 70 k. CHF RF measurement systems x 4 Definition of a single board /highly compact NI-ACM TDR contribution Radiation test TDR contribution 2014 0. 2 CERN staff 1. 0 NI consultant 1. 0 CLIC fellow 2015 0. 1 CERN staff 1. 0 CLIC fellow 0. 1 CERN staff 2016 CMWG - A. Rijllart 16 3/10/2013
Summary NI system can fit the ACM requirements Miniaturisation can solve the cost, power, cooling and space requirements Proposed program: Validation of NI-ACM functionality: 120 k. CHF Fibre optic controller: 5 k. CHF WR timing and loop back development: 25 k. CHF CMWG - A. Rijllart 17 3/10/2013
Thank you Questions? CMWG - A. Rijllart 18 3/10/2013
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