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Calibration Database
Bartosz Sakowicz
Marek Kaminski
Piotr Mazur
Calibration Database
Status of work from previous contract
WP2.3.10.1
Flash firmware database
Under review/accepted
WP6.5.1.1
WP6.5.1.2
WP6.5.1.3
WP6.5.1.4
WP6.5.1.5
EA Requirements
Under review/accepted
Active
Active
Active
Under review/accepted
WP6.5.2.1
WP6.5.2.2
WP6.5.3.1
WP6.5.3.2
WP6.5.3.3
WP6.5.3.4
WP6.5.3.5
WP6.5.3.6
WP6.5.3.7
WP6.5.3.8
Cancelled
Cancelled
Main database modules
WP6.5.4.1
WP6.5.4.2
WP6.5.4.3
Under review/accepted
Under review/accepted
Under review/accepted
Under review/accepted
Under review/accepted
Under review/accepted
Under review/accepted
Under review/accepted
Cancelled
Cancelled
Cancelled
WP6.5.5.1
EA configuration change
Accepted
WP6.5.6.1
Time Sheet System
Under review/accepted
2009.06.26 XFEL Collaboration meeting, Lodz, Poland
Bartosz Sakowicz, Ph.D., Dep. of Microelectronics and Computer Science, Tech. Univ. of Lodz
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Calibration Database
Proposition to new contract (1)
 Calibration parameters prototype database (already done !)
 hardware database (including cables and connections)
 firmware database
 calibration parameters database
2009.06.26 XFEL Collaboration meeting, Lodz, Poland
Bartosz Sakowicz, Ph.D., Dep. of Microelectronics and Computer Science, Tech. Univ. of Lodz
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Calibration Database
Proposition to new contract (2)
 Calibration parameters database improvements (to be precised):
 relation to DOOCS parameters
 documentation database
 software bundles concept
 geographical localization feature
 relation to Time Sheet System (in the future)
2009.06.26 XFEL Collaboration meeting, Lodz, Poland
Bartosz Sakowicz, Ph.D., Dep. of Microelectronics and Computer Science, Tech. Univ. of Lodz
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Calibration Database
Relation to XFEL requirements/goals (1)
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[LLRF GOALS]
Name
Text
ID
G1
Minimal System
Build minimal system capable of fulfilling commissioning and initial
operation (build minimal system that is capable of being upgraded to full
automated system without major changes in the system structure)
a. Scalable
b. Upgradable
c. Release capable (designed for multiple releases)
G4
Easy operation
Support the operators for easy operation, allow single operator to change
beam energy
G4.1
Accept declarative inputs
System should accept declarative inputs:
a. Parameter will be set by operator and system determines settings for the
inputs itself
G4.2
Operator input fault
tolerance
Prevent operator from setting parameters which lead to undesired
accelerator conditions
2009.06.26 XFEL Collaboration meeting, Lodz, Poland
Bartosz Sakowicz, Ph.D., Dep. of Microelectronics and Computer Science, Tech. Univ. of Lodz
Calibration Database
Relation to XFEL requirements/goals (2)
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[USER REQUIREMENTS]
Name
Text
ID
UR6
Provide automation for
operation
Provide a high degree of automation of operation to assist the operator and
system experts
UR6.1
Minimize the parameter
set that the user should
input
Most of the LLRF system parameters should be generated automatically
from the abstract input from the user.
UR27
User's manual
Provide user's manual for LLRF operation
UR32
User interface
Provide intuitive user interface with help function
2009.06.26 XFEL Collaboration meeting, Lodz, Poland
Bartosz Sakowicz, Ph.D., Dep. of Microelectronics and Computer Science, Tech. Univ. of Lodz
Calibration Database
[SYSTEM REQUIREMENTS]
Relation to XFEL requirements/goals (3)
[SYSTEM
REQUIREMENTS]
ID
Name
Text
SR7
Automation for operation
SR14.4.4
Control system status
SR16
Documentation
Provide documentation for LLRF system description and operation support. The
documentation should include system requirements, system concept, design,
acceptance test descriptions and operational manuals.
SR16.2
Provide online help
documentations
Provide online help documentations for trouble shooting by the users. Each topic of
the online help documentations should be able to be searched out within 1 minute.
SR39
(To be elaborated) Easy to
install and re-install
LLRF hardware and software should be easily installed. The metric can be: the manhour needed to install a hardware or software.
May include:
1.Cable installation
2.Crate and board installation
3.Software including the run-time environment installation
4.Firmware configuration
SR49
Easy to learn
More than 90% of the tasks should be done by the operator by accessing the online
help documentations
Provide a high degree of automation of operation to assist the operators and RF
experts:
1.All LLRF components should provide interfaces for automatic configuration and
control
2.An unified and extendable automation concept and framework should be worked
out
3.Procedures for different LLRF operation scenarios should be worked out
4.Automation bypass mode (manual mode of operation) should be also provided
Warnings and alarms:
1.LLRF database accessibility
2.Operator input out of range
Exceptions:
1.Operating system failure
2.Device driver failure
3.DOOCS server failure
4.Computer network failure
2009.06.26 XFEL Collaboration meeting, Lodz, Poland
Bartosz Sakowicz, Ph.D., Dep. of Microelectronics and Computer Science, Tech. Univ. of Lodz
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Calibration Database
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Thank you for attention
2009.06.26 XFEL Collaboration meeting, Lodz, Poland
Bartosz Sakowicz, Ph.D., Dep. of Microelectronics and Computer Science, Tech. Univ. of Lodz