FEL PERFORMANCE PROGRAM IN 2016
January 2016
BACKGROUND
Non-user time 2/7 of total
Development e-,
x-ray,
~50%
Setup prepare configs
instrument checkout
~25%
Maintenance PAMM, urgent problems, BBA
~25%
User Beams. . . . . User Beams
Goal: “Make the best use of non-user time to improve the performance and capability of the machine.”
The FEL Performance Program started in the January 2014
FUNCTIONAL ORGANIZATION
CapabilityZ. Huang
QualityH. Loos,
ReproducibilityR. Iverson/W.
Colocho
StabilityT. Maxwell/F.J Decker
PhotonM. Minitti
Performance Program Management
H. Loos, J. Welch, W. White
Scheduling and Coordination
J. Turner
• 5 Program functions are chosen to cover all aspects of the beam the users receive
• Scheduling deals with the real-world complications
• Management keeps system going and helps provide transparency
• Good cross-over between photon and electron work.
HOW IT WORKS• Each Program has a clear Objective and Scope defined in a synopsis.
• User Run Schedule is made by LCLS and sets the user and non-user time.
• Overall % allocation of development time for each program is assigned by Performance Program Managers at beginning of user run.
• Program Leads decide priorities within their program, plan and organize studies, and make sure analysis is done and reported.
• Individual studies are scheduled each week using the % allocations.
SCHEDULING AND COORDINATION
Run Schedule Set
Program time is allocated
Program leaders prioritize studies
Studies are scheduled
Results analyzed and discussed
Final schedule set Monday afternoon
Thursday MD meeting and FEL R&D meeting
Resolves conflictsPAMM/POMM, instrument setup, undulator swaps, laser work, maintenance work, user configs, remedial tuning needs
Once per run
Once per run
ContinuouslyMany more studies are proposed than there is time for.
To match LCLS needs as best as possible.
Includes coordination with Linac & FEL Division
Input from broad community including users, instrument scientists and operators
PROGRAM PERFORMANCE• Pulse energy is somewhat higher
• New capabilities introduced
• Quicker energy changes / tune ups? Don’t have data to support claim
• Still need extensive tune-up on saved configurations
• Still have too much jitter
• Poor reproducibility and long start-up times after downs
• Photon operations seems smoother?
Hard
Soft
Quality
Fall 2015
Fall 2013
Reproducibility
0 0.5 1 1.50
5
10
15
20Soft X−Ray Reproducibility: 79.0 ± 33.9 (%)
Cou
nts
(#)
0 0.5 1 1.50
10
20
30Hard X−Ray Reproducibility: 70.6 ± 35.7 (%)
Cou
nts
(#)
Pulse Energy / SCORE expected value measured within 60 minutes of load
0 0.2 0.4 0.6 0.8 1 1.2 1.40
1
2
3
4Soft X−Ray Reproducibility: 66.2 ± 40.6 (%)
Cou
nts
(#)
0.4 0.5 0.6 0.7 0.8 0.9 1 1.1 1.2 1.30
1
2
3
4Hard X−Ray Reproducibility: 79.8 ± 16.8 (%)
Cou
nts
(#)
Pulse Energy / SCORE expected value measured within 60 minutes of load
ACTUAL ALLOCATION
Overallsince 11/12/13
Run 12AS OF 1/5/16
OLD ISSUES
• Maintenance time is too large
• Need feedback on program balance. Rebalance from 40% Capability, 20% Quality, 10% Reproducibility, 10% Stability, 20% Photon?
• Program goals are out of date
NEW ISSUES• Efficiency improvement needed
• Management and priority decisions are needed for
• Transfer to operations of new capabilities
• Special setups
• LCLS-II studies.
• No Henrik
LOOKING FORWARD
• I will take over Henrik’s role as program leader Beam Quality
• Try to re-establish target 25/50/25 split for Maintenance/Development/Setup
• Deal with the new issues
RUN 10 PROGRAM GOALS EXAMPLE
“Restoring machine setup following stopper disaster. Implementing different new operation modes: self seeding, two-color split bunch.”Quality
Recover from L1S modulator changes. Attain rho/2 energy stability.Stability
Concentrate on reproducibility of the source: laser and cathode.Reproducibility
• Commission Delta• Commission multi-bunch• Evaluation of harmonic lasing and associated studies (slice energy spread).• Further development of SXRSS capabilities• Evaluation of taper performance in SXRSS, HXRSS, SASE, iSASE.• Reach selenium edge 12.6 keV•
Capability
Expectations for progress in calendar year 2014 include:▪ Characterization of beam sharing operating conditions in self-seeded mode (single and double lines)▪ Commissioning of the FEE variable energy spectrometer▪ Commissioning of the new standardized LCLS time tools▪ Testing and characterization of the DESY polarization analyzer
Photon
NEXT WEEK
• Bring in and discuss updated goals for run12 and run 13
• Be prepared to discuss how to manage Transfer to Operation work.
EFFICIENCY IMPROVEMENT• There are about 24 months of delivering beam before
we start commissioning LCLS-II.
• Accelerator operations budget will go down ~30% during that time and then go back up with LCLS-II is running.
• We will need to become more efficient, particularly in the next six months to one year time frame.
EFFICIENCY IDEAS FROM OPSManagement
1. operators doing work outside of daily operation - need to add management (working on that) mainly using project driven priorities, who are the customers?
Hardware: priority is very roughly in order of list
1. motion control is really painful except undulator 2. laser cathode profile reproducibility 3. laser motion control system is unreliable: steering and feedbacks, hysteresis, home is lost, resolution is poor for needs 4. ability to recover from klystron cycles: feedback go wild, 6x6 is dumb 5. klystron reliability / trip rate 6. modulator upgrade fallout 7. weak steering software: LTU feedback and steering, jitter, dispersion correction is lost 8. LLRF is not too bad according to Stanek - failure modes are difficult to detect 9. timing system is ok: laser timing / phase timing; some new improvement is well liked: frisch and justin 10. dispersion correction is poor. routines don’t converge and don’t cover many areas of the beamline 11. Lutman setups are too hard 12. need more one button push stuff 13. flow charts for special setups would be helpful 14. changing matrices when changing energies should be automatic: no hooks for model 15. MPS just trips instead of rate recovery, some project is going but it taking years 16. phase error masked by feedback corrections
EFFICIENCY IDEAS
• flat-topping
• auto-tuning
• mission readiness programs
• reproducible source: laser spot: beam shaping, single mode
• laser temporal profile? what is reproducible?
TRANSFER TO OPERATIONS
• New capabilities are proven within the Capabilities program, but commissioning them and making them routinely available for users has become an increasingly large fraction of the non-user time.
• Process and responsibilities are not well defined.
• AOS needs to say when they have sufficient tools and training.
• L&FEL and new capabilities experts should provide the tools and training.
New Capability Proven
Commissioning
Transfer to Operations
Delivery to Users
LFEL staff and experts, using MD time, demonstrate the new
capability
LFEL staff and experts work with AOS staff to develop tools and
provide operator training
AOS records it is ready to provide the new capability without requiring
LFEL staff and experts
AOS delivers the beam to users
SPECIAL SETUPS• Some users are getting special setups that take 12 hrs of “non-user
time” where normal users get 2. For example
• 2-bunch Delta on1/11/16,
• 2-bunch 2-color on 1/20/16
• Is it fair to other users?
• Is it given the right priority for this time?
• Is the priority process transparent?
LCLS-II STUDIES
1. Radiation hardness of coated and uncoated CVD diamond
2. Argon fluorescence
3. Plasma effects on gas detectors and attenuators
4. CVD diamond attenuator speckle measurement
5. Diamond fluorescence tests
Do we want to track them separately?What priority should they be given?
Examples
WHAT’S GOING ON• Tim Maxwell is working on the jitter problem!• Various people are doing machine studies for new capabilities.• Yuantao and others are understanding the details of the final phase space that generate good performance• Rick is making hardware improvements to the LTU• Juhao and others are working on find a magic taper• Feng Zhou is constantly retuning the injector• Daniel Ratner is trying to improve the initial phase space with cathode shaping R&D• FJ Decker is solving the latest crises• J. Turner is solving the latest crises• J. Welch is pontificating• A. Lutman is making GUIs for hard to use software• Chao is getting his feet wet• HD Nuhn is keeping the undulators going• W. Colocho is collating information• Henrik is leaving
• Dorian Bohler is GUI-ing• Alan Fisher is playing with detectors• P. Krejcik is …• Jacek Kryzwinski is …• Tonee is…
• John Sheppard is …• Mike Sullivan is keeping up with the users• Axel Brachmann is managing up and managing down to 26 regular employees. only 26 reporting. Everything else is functional.
WEBSITES
• https://portal.slac.stanford.edu/sites/lclscore_public/Pages/FEL-Performance-Programs.aspx