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F. Simeone – University “Sapienza” and INFN Sec. Roma1RICAP 11 Conference Roma 25-27 May 2011 The data acquisition and transport design for NEMO phase.

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Presentation on theme: "F. Simeone – University “Sapienza” and INFN Sec. Roma1RICAP 11 Conference Roma 25-27 May 2011 The data acquisition and transport design for NEMO phase."— Presentation transcript:

1 F. Simeone – University “Sapienza” and INFN Sec. Roma1RICAP 11 Conference Roma 25-27 May 2011 The data acquisition and transport design for NEMO phase 2 F. Simeone on behalf of the NEMO Collaboration

2 F. Simeone – University “Sapienza” and INFN Sec. Roma1RICAP 11 Conference Roma 25-27 May 2011 Underwater Cherenkov neutrino detectors neutrino muon Cherenkov photons (  42° in water) Cable to shore neutrino µ µ N X W Array of PMTs A bullet at Mach = 2.5 neutrino telescope ! Look at upgoing muons: use the Earth as a filter Only atrmopheric and astrophysical neutrinos can cross the Earth Golden channel: througoing muon from CC µ interaction

3 F. Simeone – University “Sapienza” and INFN Sec. Roma1RICAP 11 Conference Roma 25-27 May 2011 NEMO Experiment NEMO is an underwater neutrino telescope experiment Events reconstructed with Čerenkov photon detection Photo-Multipliers (PMT) are used as sensors Background rate (due to 40 K) ~70kHz PMT Signal Bandwidth <100MHz PMT full hit length ~70ns Timing coherency on the apparatus scale for hit “time stamping”

4 F. Simeone – University “Sapienza” and INFN Sec. Roma1RICAP 11 Conference Roma 25-27 May 2011 Design Choices Optical Signal digitization: sampling 200MHz@8bit  Background bit rate per PMT is about 10Mbps  4 OMs produce about 40Mbps per floor Acoustic Signal digitization: sampling 192Hz@24bit  bit rate per hydrophone is about 6Mbps  2 hydrophones produce about 12Mbps per floor Communication Synchronous Protocol –Clock and bit stream on same transport medium –Compliant with DWDM standards –Reduced number of fibers

5 F. Simeone – University “Sapienza” and INFN Sec. Roma1RICAP 11 Conference Roma 25-27 May 2011 DWDM TRANSCEIVER DWDM DROP Floor RX TX Next Floor Previous Floor ADD Each floor has a point to point communication link

6 F. Simeone – University “Sapienza” and INFN Sec. Roma1RICAP 11 Conference Roma 25-27 May 2011 Floor scheme PMT DAQ Boards Hydrophones DAQ Board GPS receiver Ethernet Floor Control Module Floor Control Module On-ShoreOff-Shore Slow Control Interface

7 F. Simeone – University “Sapienza” and INFN Sec. Roma1RICAP 11 Conference Roma 25-27 May 2011 Floor Control Module Board Off-Shore - On-Shore link –Fiber optic interface (DWDM transceiver) –FEM Interface (proprietary protocol) –Acoustic Interface (AES3 standard protocol) –Slow Control Board (SPI standard protocol) Communication with other electronics: –Slow Control Board –Acoustic Board –Time Calibration Board Safe reconfiguration from remote Used on-shore for bidirectional data communication

8 F. Simeone – University “Sapienza” and INFN Sec. Roma1RICAP 11 Conference Roma 25-27 May 2011 FCM part I Electro-Optical Interface: Ser-Des (up to 1.4 Gbps) + DWDM compliant Transceiver Spartan-3 FPGA Manage the communication and the interfaces with the other boards Electrical Interfaces for 4 Optical Modules 3 Differential Lines:  Tx Clock line (5 MHz)  Tx Data line (5 Mbps)  Rx Data line (20 Mbps)

9 F. Simeone – University “Sapienza” and INFN Sec. Roma1RICAP 11 Conference Roma 25-27 May 2011 FCM part II Slow Control board connector: electrical link with SPI interface Power Area: linear regulators to minimize noise. Time calibration connector: send trigger signal synchronous with the master clock. Acoustic Board link (AE3 standard)

10 F. Simeone – University “Sapienza” and INFN Sec. Roma1RICAP 11 Conference Roma 25-27 May 2011 10 Serial Peripheral Interface (5Mbit/s) & SCI Power Supply SCI Auxiliary Power Supply Temp. Sensor Humidity Sensor Tilt Sensor Spare RS232 C-Star Auxiliary Sensor Instrumentation Power Supply Sound Velocity 1 Sound Velocity 2 CTDAcoustic Doppler Current Profiler Slow Control Interface

11 F. Simeone – University “Sapienza” and INFN Sec. Roma1RICAP 11 Conference Roma 25-27 May 2011 Front End Module Board Signal sampling: two 100 MHz 8bit-ADCs Analog conditioning: –quasi-logarithmic compander => 13 bit –on-board calibration circuit –ADCs pedestal adjustment PMT HV management Low Power: 0.3A @ 3.3V Safe reconfiguration from remote

12 F. Simeone – University “Sapienza” and INFN Sec. Roma1RICAP 11 Conference Roma 25-27 May 2011 FEM Board: interface Local processor for start-up, debug and board monitoring On-board power regulators Local sensors (temperature, humidity) and front-end setup PMT electrical interface Serial interface for test, debug and stand- alone operations Flash EEPROM (remotely reprogrammable)

13 F. Simeone – University “Sapienza” and INFN Sec. Roma1RICAP 11 Conference Roma 25-27 May 2011 FEM Board: PMT signal FCM – FEM Interface Analog conditioning and digital sampling of PMT signal Spartan IIE FPGA: L0 trigger, FIFO, data coding and line interface

14 F. Simeone – University “Sapienza” and INFN Sec. Roma1RICAP 11 Conference Roma 25-27 May 2011 eFCM Board GPS Clock in AES3 Interface Xilinx Virtex5 development board: Embedded PowerPC Embedded uBlaze Receive and distribute underwater the GPS clock Manage the optical communication with the underwater floor Extract the acoustic signals and distribute them over a dedicated physical link Extract the PMT signals and distribute them over a gigabit ethernet Manage the point-to-point connection with the remote instruments GPS Data in Gigabit ethernet Configuration Switch Laser

15 F. Simeone – University “Sapienza” and INFN Sec. Roma1RICAP 11 Conference Roma 25-27 May 2011 Jitter measurement BoardJitter RMS [ps] Generator13 PLL7.2 FantimeV18.2 eFcm10 FCM15 Gen 13 ps PLL 7.2 ps FanT 8.2 ps FCM 15 ps eFcm 10 ps

16 F. Simeone – University “Sapienza” and INFN Sec. Roma1RICAP 11 Conference Roma 25-27 May 2011 Link budget 38dB for a BER of 10^-12 at 800Mb/s 8.65dB margin without the raman amplifier

17 F. Simeone – University “Sapienza” and INFN Sec. Roma1RICAP 11 Conference Roma 25-27 May 2011 Floor integration

18 F. Simeone – University “Sapienza” and INFN Sec. Roma1RICAP 11 Conference Roma 25-27 May 2011 Floor vessel assembly

19 F. Simeone – University “Sapienza” and INFN Sec. Roma1RICAP 11 Conference Roma 25-27 May 2011 Conclusions The synchronous protocol simplifies the overall design Transmission exploits optical passive devices The transmission latency is fixed The FCM board implements a point to point synchronous link between boards and sensors using different protocols. Powerful mechanism of safe reconfiguration Usefulness of hit waveform for DAQ tuning Tower deployment foreseen by the end of the year

20 F. Simeone – University “Sapienza” and INFN Sec. Roma1RICAP 11 Conference Roma 25-27 May 2011 BACKUP SLIDES

21 F. Simeone – University “Sapienza” and INFN Sec. Roma1RICAP 11 Conference Roma 25-27 May 2011 The Cosmic Ray Spectrum Spectrum: E -2.7 at almost all energies More than 10 orders of magnitude The CR sources are still unkown Ankle Nuclei accelerated in Galactic SNR Knee GZK Cut-off protons accelerated in Galactic SN Remnants Hadrons deflected by the Galactic magnetic fields extragalactic Hadrons Hadrons absorbed by the interaction with CMBR

22 F. Simeone – University “Sapienza” and INFN Sec. Roma1RICAP 11 Conference Roma 25-27 May 2011 Cosmic Ray, Gamma Ray and Neutrinos Neutrinos Cosmic accelerator (SNR, AGN, GRB, etc) Progenitor outflow Interstellar material Ambient photon field Cosmic ray   e   Photons p, He,...   p + p p +          e ± + e ( e )+  (  )

23 F. Simeone – University “Sapienza” and INFN Sec. Roma1RICAP 11 Conference Roma 25-27 May 2011 Absorption lenght of protons and gammas in the Universe Photons’ Horizion Protons’ Horizion Cosmic Microwave and IR radiation Dusts and Clouds protons gammas neutrinos Neutrino astronomy can: -probe the far and violent Universe -disentangle between pure leptonic and hadronic acceleration models

24 F. Simeone – University “Sapienza” and INFN Sec. Roma1RICAP 11 Conference Roma 25-27 May 2011 Measures: Jitter Clock generator (80 MHz): –Jitter = 13 ps

25 F. Simeone – University “Sapienza” and INFN Sec. Roma1RICAP 11 Conference Roma 25-27 May 2011 Measures: Jitter Dejittered clock from PLL (80 MHz): –Jitter = 7.2ps

26 F. Simeone – University “Sapienza” and INFN Sec. Roma1RICAP 11 Conference Roma 25-27 May 2011 Measures: Jitter LVDS clock distributed by FanTime (80 MHz): –Jitter = 8.2 ps

27 F. Simeone – University “Sapienza” and INFN Sec. Roma1RICAP 11 Conference Roma 25-27 May 2011 Measures: Jitter eFcm Transmit Clock (40 MHz): –Jitter = 10.6 ps –Measured on ML507 SMA connector;

28 F. Simeone – University “Sapienza” and INFN Sec. Roma1RICAP 11 Conference Roma 25-27 May 2011 Measures: Jitter Off-Shore recovered clock (40 MHz): –Jitter = 15 ps

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