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XFEL The European X-Ray Laser Project X-Ray Free-Electron Laser Dariusz Makowski, Technical University of Łódź LLRF review, DESY, 3 December 2007 The Importance.

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Presentation on theme: "XFEL The European X-Ray Laser Project X-Ray Free-Electron Laser Dariusz Makowski, Technical University of Łódź LLRF review, DESY, 3 December 2007 The Importance."— Presentation transcript:

1 XFEL The European X-Ray Laser Project X-Ray Free-Electron Laser Dariusz Makowski, Technical University of Łódź LLRF review, DESY, 3 December 2007 The Importance of Intelligent Platform Management Controller in LLRF system

2 Dariusz Makowski, Technical University of Łódź LLRF review, DESY, 3 December 2007 XFEL The European X-Ray Laser Project X-Ray Free-Electron Laser 2 Summary Advanced Telecommunications Computing Architecture (ATCA) standard offers high reliability and availability because of build-in advanced diagnosis and monitoring system controlled by System Manager (SM) and Intelligent Platform Management Interface (IPMI). The purpose of the Shelf management system is to monitor, control, and assure proper operation of AdvancedTCA b oards and other Shelf components. The Shelf management system watches over the basic health of the system, reports anomalies, and takes corrective action when needed. The presentation discusses the role of IPMI standard in LLRF control system. The design of prototype ATCA carried board with Intelligent Platform Management Controller (IPMC) and AMC Module Management Controller (MMC) will be presented. The diagnosis proposed for LLRF system will be also included. An AMC module with gamma and neutron radiation sensors and FPGA configuration management system will be shown. Total presentation length: 11 slides

3 Dariusz Makowski, Technical University of Łódź LLRF review, DESY, 3 December 2007 XFEL The European X-Ray Laser Project X-Ray Free-Electron Laser 3 Agenda 1.Intelligent Platform Management 2.Development of IPMC for LLRF ATCA 3.Module Management Controller 4.Power Distributtion Management Architecture 5.Electronic-keying 6.Diagnostics offered by ATCA standard 7.Non-standard diagnostics 8.FPGA configuration management system

4 Dariusz Makowski, Technical University of Łódź LLRF review, DESY, 3 December 2007 XFEL The European X-Ray Laser Project X-Ray Free-Electron Laser 4 Intelligent Platform Management

5 Dariusz Makowski, Technical University of Łódź LLRF review, DESY, 3 December 2007 XFEL The European X-Ray Laser Project X-Ray Free-Electron Laser 5 ATCA crate and ShelfManager Ethernet 10/100 Mbit IPMI interface I 2 C Redundant ShelfManager

6 Dariusz Makowski, Technical University of Łódź LLRF review, DESY, 3 December 2007 XFEL The European X-Ray Laser Project X-Ray Free-Electron Laser 6 ATCA carrier board with IPMC Redundant I2C IPM-Buses that aggregate into IPMB-0 IPMB-L AMC - I2C Bus Peripheral I2C Bus Peripheral s

7 Dariusz Makowski, Technical University of Łódź LLRF review, DESY, 3 December 2007 XFEL The European X-Ray Laser Project X-Ray Free-Electron Laser 7 Module Management Controller MMC Sensors FRU information EEPROM AMCB+AMCB+ GA [2..0] Control signals IPMB-L (I2C) PS1 PS0 Management Power Hot Swap switch Watchdog Payload reset Blue LED E-Keying Fabric Interface E-Keying Payload Power

8 Dariusz Makowski, Technical University of Łódź LLRF review, DESY, 3 December 2007 XFEL The European X-Ray Laser Project X-Ray Free-Electron Laser 8 Power Distributtion Management Architecture MMC (Current descriptor) IPMC (Carriet current and AMC bays descriptors) SM (Power budget)

9 Dariusz Makowski, Technical University of Łódź LLRF review, DESY, 3 December 2007 XFEL The European X-Ray Laser Project X-Ray Free-Electron Laser 9 Electronic-keying Electronic Keying is the mechanism used to dynamically satisfy the needs that had traditionally been satisfied by various mechanical connector keying solutions: Prevent mis-operation Verify fabric compatibility E-Keying between the Modules and switch(es) Point-to-point E-Keying for AMC modules Mechanical KEY

10 Dariusz Makowski, Technical University of Łódź LLRF review, DESY, 3 December 2007 XFEL The European X-Ray Laser Project X-Ray Free-Electron Laser 10 AMC Power Requirements Requirements: Module Power MP = +3V3 ±5% MP <150mA MP cap. < 150uF Paylod Power PP = +12 ±10% PP < 7.4A PP cap. < 800uF

11 Dariusz Makowski, Technical University of Łódź LLRF review, DESY, 3 December 2007 XFEL The European X-Ray Laser Project X-Ray Free-Electron Laser 11 Power supply in ATCA Smart Power Converter ATC 210 - 48V - 48V_A - 48V_B +3V3 +12V IPMC +3V3 I2 C /INT

12 Dariusz Makowski, Technical University of Łódź LLRF review, DESY, 3 December 2007 XFEL The European X-Ray Laser Project X-Ray Free-Electron Laser 12 Diagnostics of ATCA-based systems Useful diagnostics offered by ATCA standard: 1. Thermal violation – IPMC controls temperature of ATCA and AMC components 2. Monitoring of supply voltages 3. Monitoring of supply currents 4. Monitoring of main power converter (-48V to +3V3/+12V) ‏ 5. Payload control (read of device state, reset and other user-dependent diagnostics) ‏ 6. External watch-dog for IPMC (with external oscillator independent from IPMC oscillator ‏ ) 7. SM periodically tests state of IPMC on ATCA boards 8. Electronic Keying (E-Keying) Additional diagnostics: 1. Monitoring of gamma and neutron radiation in ATCA crates and other important spots in accelerator tunnel 2. Reference clocks detectors

13 Dariusz Makowski, Technical University of Łódź LLRF review, DESY, 3 December 2007 XFEL The European X-Ray Laser Project X-Ray Free-Electron Laser 13 AMC module for radiation monitoring Local IPMC Gamma radiation dosimeter Neutron dosimeter Local IPMC Power supply Temp. stabilisation IPMI I 2 C Power supply Calibration parameters

14 Dariusz Makowski, Technical University of Łódź LLRF review, DESY, 3 December 2007 XFEL The European X-Ray Laser Project X-Ray Free-Electron Laser 14 FPGA Configuration Management System Aim: update or check configuration of programmable devices present of ATCA boards via IPMI Shelf Manager Shelf Manager Shelf Manager AMC module IPMC FPGA MEMORY FPGA MEMORY

15 Dariusz Makowski, Technical University of Łódź LLRF review, DESY, 3 December 2007 XFEL The European X-Ray Laser Project X-Ray Free-Electron Laser 15 Spare slides

16 Dariusz Makowski, Technical University of Łódź LLRF review, DESY, 3 December 2007 XFEL The European X-Ray Laser Project X-Ray Free-Electron Laser 16 Requirements for RAMC Detection ability:neutron fluence, gamma dose Lowest detectable level of fluence:10 4 – 10 5 n*cm -2 Lowest detectable level gamma:10 -3 – 10 -2 Gy(Si) Level of neutron fluence tolerance:in range of 10 12 n*cm -2 Level of gamma rad. tolerance:in range of 10 3 Gy(Si) Dynamic range for neutron fluence:6 orders of magnitude Dynamic range for gamma:3 orders of magnitude Gamma and neutron radiation should be monitoring in real-time in each ATCA crate and in various places where other electronics is installed. When allowed dose or fluence is violated alarm should be triggered (IPMI message). All measured data should be stored in main data base for further analysis

17 Dariusz Makowski, Technical University of Łódź LLRF review, DESY, 3 December 2007 XFEL The European X-Ray Laser Project X-Ray Free-Electron Laser 17 Module Management Controller

18 Dariusz Makowski, Technical University of Łódź LLRF review, DESY, 3 December 2007 XFEL The European X-Ray Laser Project X-Ray Free-Electron Laser 18 Electronic Keying Electronic Keying – the mechanism used to verify interface compatibillity in analogical way to mechanical connector keying solutions: Prevent mis-operation Verify fabric compatibility Requirements: The basis for the E-Keying process is the E-Keying entries present as FRU information in the Carrier and all Modules. Those E-Keying entries describe the Control Interface, and the Data Fabric Interface implemented by the Carrier and Modules. Independent of Electronic Keying (E-Keying), the receiver hardware must not be damaged during inadvertent interconnects of incompatible interfaces; therefore, the following requirements have to be followed. Figure 6-2 shows one mode of operation where two Modules are directly connected. The example shows the case where optional receive interface capacitors are used. The AdvancedMC point-to-point connectivity can be found in the Carrier and Module's FRU Information. The Carrier Point-to-Point Connectivity record is located in the Carrier's FRU Information. Those E-Keying entries describe the Fabric Interface implemented. It is the IPMC's responsibility to perform the ule Port E-Keying function. The AdvancedTCA Shelf Manager does not participate in the Module E-Keying


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