Development of the acquisition system for huge data flows in Diagnostic Plant systems of the iter
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Transcript of Development of the acquisition system for huge data flows in Diagnostic Plant systems of the iter
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DEVELOPMENT OF THE ACQUISITION SYSTEM FOR HUGE DATA FLOWS IN
DIAGNOSTIC PLANT SYSTEMS OF THE ITER
I.Semenov, A.Khilchenko*, S.Portone, N.Marusov, E.Mironova, E.Rogova,
“Project Center ITER” Russia, Moscow, sq. Academic Kurchatov sq., 1
*BINP SO RAS, Novosibirsk, prosp. Lavrentieva 11
E-mail: [email protected], [email protected], [email protected], [email protected], [email protected], [email protected],
GRID2012, Dubna, July 16-20, 2012
ITER• Major plasma radius: R - 6.2 м • Minor radius: a - 2.0 м• Plasma current: 15 MA• Объем плазмы: 815 м3
• Toroidal field BT : 5.3 T• Burning time: > 400 с
• Construction: 2006(7)-2016(17) (Now 2020).• Operation: 2016-2036• Total project coast: 10 B$• One day operation coast: ~2.5 M$.
Fusion Parameters :• Working gas D+T• Te=Ti= 15 keV• ne=1020 m-3
• neutron flux> 1016 n/m2s• DT Power– 500 МW
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ON SITE
TEST CELL
REMOTE PARTICIPATION( WORLD FUSION GRID )
REMOTE PARTICIPATION
Data acquisition USERSUSERS
~1 Gb/sec
WORLD FUSION GRID
ITER data distribution structure For 5 PB/Year
~2 106 ChannelsData flow - 10-100 GB/secPlasma duration – 30 minTotal Data during the year ~ 5 PB/Year
GRID2012, Dubna, July 16-20, 2012 4
Estimate of ADC channels and raw data
MS/s
Bit
1 10 100 10000.1
10
12
14
16
18
~5
~600
~300
~2000~ 3000
Bits : DatasheetENOB : Bits -1.5 FS
# channels required
60 GB/s *2 (no timestamp)60 GB/s *10 (with timestamp)
300 GB/s * 2 * DC (duty cycle = 0.1 ?)
<40 GB/s * X< 1 GB/s
Sum = (100 -1000) GB/s * Demand DC
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ITER control room (IBM proposal)
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Физическая архитектура ИТЭР I&C
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Limitations in standatd fast measurement channel
SignalCreate
NIPXIe
Industrial PC
PSH
PON1 Gb/sec16 Gb/sec
1 Gb/sec
10 Gb/sec
10 Gb/sec
TCN
Finput=500MHz
ADC16 Gb/sec
Fast PLC
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Online data processing
SignalCreate
NIPXIe
Industrial PC
PSH
PON1 Gb/sec16 Gb/sec
1 Gb/sec
10 Gb/sec
10 Gb/sec
TCN
GPUTESLA S1070
Finput=500MHz
16 Gb/sec
ADC16 Gb/sec
FPGA
ADC2500_PXIe Developed by Budker
Institute ob Nuclear Physics SO RAS
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Triggering Block
Data Processing Unit
RAMController
PXIe
PGA & DAC
CLKSynthesizer
Loader
CSR
Initialization ROM
ADC RXDChanel AADC RXDChanel B
RAMChanel A
RAMChanel B
GN4124
A
B
A
B
A BA
B
A B
FPGA
Local BusController
2-chanelAnalogSection
I/O port tr./r.
I/O port
ADC12500PXIe functional diagram
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ADC12500PXIe Digitizer Prototype module
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Measurement schema in ATCA standard
Required Data rate
Existing Data rate
2 Gb/sec
2 Gb/sec
10 Gb/sec
10 Gb/sec2 Gb/sec
2 Gb/sec 10 Gb/sec
10 Gb/sec
ADC2500M(FPGA)
ADC2500M(FPGA)
ADC2500M(FPGA)
ADC2500M(FPGA)
Finp<=1GHzFs<=2GHz
Finp<=1GHzFs<=2GHz
Finp<=1GHzFs<=2GHz
Finp<=1GHzFs<=2GHz
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-50 0 50 100 150 200 250Время, нс
FastSlow
n
-50 0 50 100 150 200 250Время, нс
FastSlow
n
0 1000 2000 3000 40000
0.2
0.4
0.6
0.8
1
1.2
1.4
1.6
1.8
2x 10
4
Slow
Fast
В частотной области
filter
SignalGauss weighting function
Filter responce
(Timing domain)
Convertion error
HV power source
High voltage divider
NaI scincillator
Photomultiplier
Sрectrometer (ADC12500)
0 1 103 2 1030
200
400
600
800
Spectr_CoCs1 i
i
Cs & Co
Neutron diagnostics (stilben) Gamma spectroscopy [BGO, NaI(Tl)]
ADC12500: applications
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Thank you
ITER at CADARASHE
Cadarashe