Changes for page The FLASH HDF5 structure

Last modified by sndueste on 2025/02/06 10:55
From version 59.1
edited by sndueste
on 2022/09/08 08:48
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To version 39.1
edited by sndueste
on 2021/02/09 11:53
Change comment: There is no comment for this version

Summary

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Content
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1 -{{layout}}
2 -{{layout-section ac:type="single"}}
3 -{{layout-cell}}
4 4  == Contents ==
5 5  
6 6  
... ... @@ -19,38 +19,27 @@
19 19  {{code language="none"}}> module load xray{{/code}}
20 20  {{code language="none"}}> hdfview{{/code}}
21 21  
22 -or you can use
23 -
24 -{{code language="none"}}> silx view{{/code}}
25 -
26 -\\
27 -
28 28  [[Contents>>doc:||anchor="Contents"]]
29 29  
30 -== The FLASH HDF5 format ==
21 +== The current FLASH HDF5 structure ==
31 31  
32 -FLASH provides a conversion of its data acquisition (DAQ) to the commonly used [[HDF5>>url:https://www.hdfgroup.org/solutions/hdf5/||shape="rect"]] format. Correlated  data are mapped by a primary index called **train ID**. Every data set has an individual index of train IDs to identify the data even when data are missing or deviate in update rate. If the data set of choice contains gapsusers have to decide how to treat missing values. DAQ channels are spread across various files with one file name pattern for each DAQ. This means users have to assemble data from different files if necessary.
23 +The photon diagnostic, electron diagnostic and beamline information as well as the information about the pump-probe laser and the infrastructure offered for users (GHz/MHz ADCs) can be included in one HDF5 file which is organized according to train IDs. The general structure is:
33 33  
34 -The hierarchy is realized using a human readable named HDF tree with each DAQ channel containing the data sets "//value//" and "//index//". Additionally, the HDF group //zraw// contains a tree of the original DAQ channel names.
25 +* Electron Diagnostic
26 +* Photon Diagnostics
27 +* Beamlines
28 +* Experiment
29 +* Timing
30 +[[image:attach:HDF5_structure.jpg||height="400"]]
35 35  
36 -Reference implementation, which follows the concept of Python libraries like Pandas, Xarray, or Dask, is given below.
32 +A detailed description of (most) channels can be found in the lower part of the hdf5 viewer:
33 +[[image:attach:HDF5_structure_desc.jpg||thumbnail="true" height="250"]]
37 37  
38 -\\
35 +[[Contents>>doc:||anchor="Contents"]]
39 39  
40 -{{expand title="Discontinued HDF formats"}}
41 -=== Comparison to FLASH's deprecated HDF formats ===
42 -
43 -Before 2021, FLASH provided two different HDF formats formally known as //near-online// and //offline// HDF files.
44 -
45 -All data sets were aligned by the same global index by filling in missing data. Fast DAQ channels  (pulse synchronous data - update 10 Hz) are filled in by NaN or 0, slow channels (not pulse synchronous data - update e.g. 1 Hz ) are interpolated by the DAQs libraries, by keeping the value constant up to the next change.
46 -
47 -While the near-online HDF files were converted live during the beamtime, the offline HDF files were manually compiled weeks/months later. Near-online HDF files were used by a provided API [[BeamtimeDaqAccess>>url:https://confluence.desy.de/display/FLASHUSER/Near-Online+data+analysis#Near-Onlinedataanalysis-BriefUserGuidetoBeamtimeDAQAccess||shape="rect"]], which also searches for DAQ channels in files. With assembled files "by run", all DAQ channels were existing in the same HDF file. While shorter runs usually fitted into one file, longer runs still had to be aggregated over several files. The creation of the assembled type of files still involves the use of fairly unstable DAQ Mex-functions As the environment required for using the Mex-functions is already deprecated, its continued existence is uncertain.
48 -
49 -The HDF hierarchy is almost identical in all formats. While in the the recent format each DAQ channel contains the data sets "value" and "index", the deprecated format had one data set for each DAQ channel. The deprecated formats supplies no time axis parameters for spectra data types.
50 -
51 51  \\
52 52  
53 -**HDF5 example files (old format)**
39 +=== HDF5 example files ===
54 54  
55 55  Here we have a few HDF5 samples (User data combined with Photon diagnostics data) from a few beamtimes showing the different kind options.
56 56  
... ... @@ -63,67 +63,26 @@
63 63  \\
64 64  
65 65  \\
66 -{{/expand}}
67 67  
68 -=== HDF examples: ===
69 -{{/layout-cell}}
70 -{{/layout-section}}
53 +[[Contents>>doc:||anchor="Contents"]]
71 71  
72 -{{layout-section ac:type="three_equal"}}
73 -{{layout-cell}}
74 -* ADC data as example for **fast** **data** (10 Hz):           
75 -
76 76  \\
77 77  
78 -[[image:attach:image2020-11-16_15-26-28.png||height="250"]]
79 -{{/layout-cell}}
57 +== The new (starting 2021) HDF5 format ==
80 80  
81 -{{layout-cell}}
82 -* The //average// FEL pulse energy as example for the **slow** **data** (different e.g. 1 Hz):
59 +Here is [[some documentation on the changes of the HDF5 format>>doc:FLASHUSER.HDF5 format]] that well be available in 2021 (work in progress)
83 83  
84 - ( every 10th train ID is listed in the HDF group "index")
85 -
86 86  \\
87 87  
88 -[[image:attach:image2020-11-16_15-31-45.png||height="250"]]
89 -{{/layout-cell}}
90 -
91 -{{layout-cell}}
92 -* (((
93 -//zraw// group contains the **original DAQ (DOOCS) names**
94 -)))
95 -
96 - of the properties saved in the DESY internal raw format. (For experts)
97 -
98 98  \\
99 99  
100 -[[image:attach:image2020-11-16_16-26-3.png||height="400"]]
101 -{{/layout-cell}}
102 -{{/layout-section}}
103 -
104 -{{layout-section ac:type="single"}}
105 -{{layout-cell}}
106 -{{info}}
107 -=== Reference implementation (Python) ===
108 -
109 -(imperative)  (% class="Object" %)[[https:~~/~~/gitlab.desy.de/christopher.passow/flash-daq-hdf>>url:https://gitlab.desy.de/christopher.passow/flash-daq-hdf||shape="rect"]]
110 -
111 -(% class="Object" %)(object oriented) [[https:~~/~~/gitlab.desy.de/christopher.passow/fdh-builder>>url:https://gitlab.desy.de/christopher.passow/fdh-builder.git||shape="rect"]]
112 -{{/info}}
113 -{{/layout-cell}}
114 -{{/layout-section}}
115 -
116 -{{layout-section ac:type="single"}}
117 -{{layout-cell}}
118 -== Complete list of recordable parameters ==
119 -
120 -The complete list for the relation between DOOCS names and HDF5 names for the recordable parameters can be found in [[DESY's Repository~[~[image:url:http://hasfweb.desy.de/pub/TWiki/TWikiDocGraphics/external-link.gif~|~|width="13" height="12"~]~]>>url:https://stash.desy.de/projects/CS/repos/pah/browse/src/camp/data/channel2HdfName.dat||shape="rect"]].
121 -\\
122 -
123 123  == Most popular FLASH parameters and their names in HDF5, DOOCS and (raw) DAQ ==
124 124  
125 125  {{id name="DOOCSparameters"/}}
126 126  
69 +The complete list for the relation between DOOCS names and HDF5 names for the recordable parameters can be found in [[DESY's Repository~[~[image:url:http://hasfweb.desy.de/pub/TWiki/TWikiDocGraphics/external-link.gif~|~|width="13" height="12"~]~]>>url:https://stash.desy.de/projects/CS/repos/pah/browse/src/camp/data/channel2HdfName.dat||shape="rect"]].
70 +The most common and often used ones are summarized below:
71 +
127 127  Note, the HDF group and data set names apply to our HDF tree version since vers. 0.3.0.
128 128  
129 129  \\
... ... @@ -130,6 +130,8 @@
130 130  
131 131  === FLASH1 ===
132 132  
78 +\\
79 +
133 133  ==== Beamline info (FLASH1) ====
134 134  
135 135  {{code language="none"}}/FL1/Beamlines/Attenuator/pressure{{/code}}
... ... @@ -206,11 +206,12 @@
206 206  
207 207  ==== Photon Diagnostics SASE ([[GMD>>url:http://photon-science.desy.de/facilities/flash/photon_diagnostics/gmd_intensity_and_position/index_eng.html||shape="rect"]]) ====
208 208  
209 -{{expand title="Discontinued GMD format (used until 2021)"}}
156 +\\
157 +
210 210  (% style="color: rgb(0,0,0);" %)**Discontinued GMD data recording / evaluation  (VME + PhotonFlux ML server)**
211 211  
212 212  {{code language="none"}}/FL1/Photon Diagnostic/GMD/Average energy/energy tunnel{{/code}}
213 -//always saved (PBD)//
161 +//always saved (PBD)//\\
214 214  
215 215  (% style="color: rgb(0,0,0);" %)DOOCS prop : {{code language="none"}}TTF2.DAQ/PHFLUX/OUT04/VAL{{/code}} (%%)
216 216  (% style="color: rgb(0,0,0);" %)DAQ channel: {{code language="none"}}PBD.PHFLUX/TUNNEL.ENPULSEIC{{/code}}(%%)
... ... @@ -254,11 +254,10 @@
254 254  DAQ channel: {{code language="none"}}PBD.PHFLUX/BDA.ENERGYPULSE.FF{{/code}}
255 255  desc :Energy per pulse BDA (from e-) - uncorrected values. There are also values saved if there was no beam ... just background noise
256 256  units : a.u. (more or less µJ but need to be calibrated with the "Average energy" for good precision)** [[see here for help>>doc:FLASHUSER.jddd-linked help pages.Calibrating the pulse resolved (electron) data from GMD.WebHome]]**
257 -{{/expand}}
258 258  
259 259  \\
260 260  
261 -(% style="letter-spacing: 0px; color: rgb(0, 0, 0)" %)**NEW (since 2021) GMD data recording / evaluation  (same format as FLASH2 and XFEL)**
208 +(% style="color: rgb(0,0,0);" %)**NEW (2021) GMD data recording / evaluation  (MTCA, analog to FLASH2 and XFEL)**
262 262  
263 263  {{code language="none"}}/FL1/Photon Diagnostic/GMD/Average energy/energy tunnel{{/code}}
264 264  //always saved (PBD)//
... ... @@ -416,27 +416,8 @@
416 416  units: nC
417 417  
418 418  =====
419 -arrival time (BAM) =====
366 +arrival time =====
420 420  
421 -{{info title="BAM information: updates 2022"}}
422 -* see: [[Info collection about the BAMs and how to use the BAM data>>url:https://confluence.desy.de/display/FLASHUSER/Info+collection+for+the+BAM||shape="rect"]]
423 -* The data format of the BAM has been completely altered in the 2022 shutdown
424 -* before 2022 BAMs were always saving the arrival time information for each 1µs bucked regardless if there were electrons in the accelerator or not. IN addition the arrival times for  FL1 and FL2 were saved in the same parameter ...
425 -* THIS is now different. there are new parameters for pulses that go to FL1 and to FL2 (in detail: first time slot of the accelerator and second)
426 -* There has been also a renaming  (and relocation) of the BAMs.
427 -** acc:  4DBC3 → FL0.DBC2
428 -** FL1: 1SFELC →  FL1.SFELC
429 -** FL2: FL2XTDS → (% style="color: rgb(23,43,77);" %)FL2.SEED5
430 -* for more Info: [[LINK to detailed infos from MSK>>url:https://confluence.desy.de/display/SDiagPublic/BAM+Data+Structure||shape="rect"]]
431 -* [[Link a collection of papers related to the BAM and the analysis of pump-probe experiments>>doc:FLASHUSER.Additional helpful things.FLASH beamlines and instruments references.WebHome]]
432 -* a recent  [[talk about the working principle of the BAM>>attach:BAM-basics and outlook-2018_DESY-template_16-9Format.pdf]]
433 -{{/info}}
434 -
435 -\\
436 -
437 -{{expand title="Discontinued BAM format (used until end 2021)"}}
438 -(% style="color: rgb(0,0,0);" %)**Discontinued BAM data recording **
439 -
440 440  {{code language="none"}}/FL1/Electron Diagnostic/BAM/4DBC3/electron bunch arrival time (low charge){{/code}}
441 441  //always saved (PBD)//
442 442  DOOCS prop : {{code language="none"}}FLASH.SDIAG/BAM/4DBC3/LOW_CHARGE_ARRIVAL_TIME{{/code}}
... ... @@ -444,68 +444,22 @@
444 444  desc: Electron bunch arrival time measured with the BAM inside the accelerator - however shows a very good correlation to the arrivaltime  of the XUV pulses in the experiment (pulse resolved data).
445 445  units: ps (bigger numbers indicate later arrivaltime of the electrons)
446 446  
447 -\\
448 -
449 449  {{code language="none"}}/FL1/Electron Diagnostic/BAM/1SFELC/electron bunch arrival time (low charge){{/code}}
450 450  //always saved (PBD)//
451 451  DOOCS prop : {{code language="none"}}FLASH.SDIAG/BAM/1SFELC/LOW_CHARGE_ARRIVAL_TIME{{/code}}
452 452  DAQ channel: {{code language="none"}}FLASH.SDIAG/BAM.DAQ/1SFELC.LOW_CHARGE_ARRIVAL_TIME{{/code}}
453 453  desc: Electron bunch arrival time measured with the BAM  before the undulator (pulse resolved data). This one was newly installed in 2020.
454 -units: ps (bigger numbers indicate later arrival time of the electrons)
455 -{{/expand}}
380 +units: ps (bigger numbers indicate later arrivaltime of the electrons)
456 456  
457 -(% style="color: rgb(255,102,0);" %)DBC2/electron bunch arrival time{{code language="none"}}/FL1/Electron Diagnostic/BAM/{{/code}}(%%)
458 -//always saved (PBD)//
459 -DOOCS prop : FLASH.SDIAG/BAM/FL0.DBC2/ARRIVAL_TIME.absolute.SA1
460 -DAQ channel: (% style="color: rgb(255,102,0);" %)FLASH.SDIAG/BAM/FL0.DBC2/ARRIVAL_TIME.absolute.SA1 (%%)
461 -desc: Electron bunch arrival time measured with the BAM inside the accelerator (after bunch compressor 2) - It shows a very good correlation to the arrival time  of the XUV pulses in the experiment (see help).  The SA1 indicates the data is recorded for the first time slot at FLASh, typically used for FLASH1
462 -units: fs (bigger numbers (typically) indicate later arrival times of the electrons).
382 +{{info title="BAM hints"}}
383 +* besides the arrivaltime from FLASH1 there is also the FLASH2/3 electron arrival time saved.In case of doubt ask your local contact
384 +* [[Link a collection of papers related to the BAM and the analysis of pump-probe experiments >>doc:FLASHUSER.Additional helpful things.FLASH beamlines and instruments references.WebHome]]
385 +* [[LINK to detailed infos from MSK (may only work inside DESY network~[~[image:url:http://hasfweb.desy.de/pub/TWiki/TWikiDocGraphics/external-link.gif~|~|width="13" height="12"~]~]>>url:http://www.desy.de/~~mbock/pages/BAM_daq_channel_descriptions.html||shape="rect"]]
386 +* a recent  [[talk about the working principle of the BAM>>attach:BAM-basics and outlook-2018_DESY-template_16-9Format.pdf]]
387 +{{/info}}
463 463  
464 464  \\
465 465  
466 -(% style="color: rgb(255,102,0);" %)DBC2/error{{code language="none"}}/FL1/Electron Diagnostic/BAM/{{/code}}(%%)
467 -//always saved (PBD)//
468 -DOOCS prop : FLASH.SDIAG/BAM/FL0.DBC2/ARRIVAL_TIM(% style="color: rgb(0,0,0);" %)E.bamError(%%)
469 -DAQ channel: (% style="color: rgb(255,102,0);" %)FLASH.SDIAG/BAM/FL0.DBC2/ARRIVAL_TIME.BAMERROR(%%)
470 -desc: If the value is 0 , the BAM is working well. If it is non-zero there is a problem !!
471 -
472 -\\
473 -
474 -(% style="color: rgb(255,102,0);" %)DBC2/error{{code language="none"}}/FL1/Electron Diagnostic/BAM/{{/code}}(%%)
475 -//always saved (PBD)//
476 -DOOCS prop : FLASH.SDIAG/BAM/FL0.DBC2/ARRIVAL_TIM(% style="color: rgb(0,0,0);" %)E..bamStatus.//1//(%%)
477 -DAQ channel: (% style="color: rgb(255,102,0);" %)FLASH.SDIAG/BAM/FL0.DBC2/ARRIVAL_TIME.BAMSTATUS(%%)
478 -desc: (% style="letter-spacing: 0.0px;" %) status bit: 0 - data is valid; 1 - beam present; 2 - calibration ongoing; 3 - feedback enabled; 4 - feedback acting;  mostly check for bit 0 == 1 is sufficient
479 -
480 -\\
481 -
482 -(% style="color: rgb(23,43,77);" %)SFELC(% style="color: rgb(255,102,0);" %)/electron bunch arrival time{{code language="none"}}/FL1/Electron Diagnostic/BAM/{{/code}}(%%)
483 -//always saved (PBD)//
484 -DOOCS prop : FLASH.SDIAG/BAM/(% style="color: rgb(23,43,77);" %)FL1.SFELC(%%)/ARRIVAL_TIME.absolute.SA1
485 -DAQ channel: (% style="color: rgb(255,102,0);" %)FLASH.SDIAG/BAM/(% style="color: rgb(255, 102, 0); color: rgb(23, 43, 77)" %)FL1.SFELC(% style="color: rgb(255,102,0);" %)/ARRIVAL_TIME.absolute.SA1 (%%)
486 -desc: Electron bunch arrival time measured  with the BAM  before the undulator (pulse resolved data). This one was newly installed in 2020.  The SA1 indicates the data is recorded for the first time slot at FLASh, typically used for FLASH1
487 -units: fs (bigger numbers (typically) indicate later arrival times of the electrons).
488 -
489 -\\
490 -
491 -(% style="color: rgb(23,43,77);" %)SFELC(% style="color: rgb(255,102,0);" %)/error{{code language="none"}}/FL1/Electron Diagnostic/BAM/{{/code}}(%%)
492 -//always saved (PBD)//
493 -DOOCS prop : FLASH.SDIAG/BAM/(% style="color: rgb(23,43,77);" %)FL1.SFELC(%%)/ARRIVAL_TIM(% style="color: rgb(0,0,0);" %)E.bamError(%%)
494 -DAQ channel: (% style="color: rgb(255,102,0);" %)FLASH.SDIAG/BAM/(% style="color: rgb(255, 102, 0); color: rgb(23, 43, 77)" %)FL1.SFELC(% style="color: rgb(255,102,0);" %)/ARRIVAL_TIME.BAMERROR(%%)
495 -desc: If the value is 0 , the BAM is working well. If it is non-zero there is a problem !!
496 -
497 -\\
498 -
499 -(% style="color: rgb(23,43,77);" %)SFELC(% style="color: rgb(255,102,0);" %)/error{{code language="none"}}/FL1/Electron Diagnostic/BAM/{{/code}}(%%)
500 -//always saved (PBD)//
501 -DOOCS prop : FLASH.SDIAG/BAM/(% style="color: rgb(23,43,77);" %)FL1.SFELC(%%)/ARRIVAL_TIM(% style="color: rgb(0,0,0);" %)E..bamStatus.//1//(%%)
502 -DAQ channel: (% style="color: rgb(255,102,0);" %)FLASH.SDIAG/BAM/(% style="color: rgb(255, 102, 0); color: rgb(23, 43, 77)" %)FL1.SFELC(% style="color: rgb(255,102,0);" %)/ARRIVAL_TIME.BAMSTATUS(%%)
503 -desc: status bit: 0 - data is valid; 1 - beam present; 2 - calibration ongoing; 3 - feedback enabled; 4 - feedback acting;  mostly check for bit 0 == 1 is sufficient
504 -
505 -\\
506 -
507 -\\
508 -
509 509  ===== electron beam profile =====
510 510  
511 511  {{code language="none"}}/FL1/Electron Diagnostic/Electron bunch profile/TDS profile{{/code}}
... ... @@ -534,7 +534,7 @@
534 534  ===== electron bunch energy =====
535 535  
536 536  {{code language="none"}}/FL1/Electron Diagnostic/Electron energy/average electron energy{{/code}}
537 -//always saved (PBD)//
419 +_always saved (PBD)
538 538  DOOCS prop : {{code language="none"}}TTF2.DAQ/ENERGY.DOGLEG/E_INTRA_MEAN/VAL{{/code}}
539 539  DAQ channel: {{code language="none"}}PBD.ENERGY.DOGLEG/E_MEAN{{/code}}
540 540  desc: electron bunch energy (average over the bunch train)
... ... @@ -542,7 +542,7 @@
542 542  \\
543 543  
544 544  {{code language="none"}}/FL1/Electron Diagnostic/Electron energy/pulse resolved energy{{/code}}
545 -//always saved (PBD)//
427 +_always saved (PBD)
546 546  DOOCS prop : {{code language="none"}}TTF2.DAQ/ENERGY.DOGLEG/E_SPECT/VAL.TD{{/code}}
547 547  DAQ channel: {{code language="none"}}PBD.ENERGY.DOGLEG/E_SPECT{{/code}}
548 548  desc: electron bunch energy bunch resolved
... ... @@ -551,7 +551,7 @@
551 551  \\
552 552  
553 553  {{code language="none"}}/FL1/Electron Diagnostic/Electron energy/wavelength bunch train average{{/code}}
554 -//always saved (PBD)//
436 +_always saved (PBD)
555 555  DOOCS prop : {{code language="none"}}TTF2.DAQ/ENERGY.DOGLEG/LAMBDA_MEAN/VAL{{/code}}
556 556  DAQ channel: {{code language="none"}}PBD.ENERGY.DOGLEG/LAMBDA_MEAN{{/code}}
557 557  desc: Wavelength calculated by the electron bunch energy (average over the bunch train) (FLASH1)
... ... @@ -599,7 +599,7 @@
599 599  //always saved (PBD)//
600 600  DOOCS prop : {{code language="none"}}TTF2.DIAG/PBD.TOROID.ML/12EXP/CHARGE.TD{{/code}}
601 601  DAQ channel: {{code language="none"}}TTF2.DIAG/PBD.TOROID.ML/12EXP{{/code}}
602 -desc: The bunch pattern as function of time in a burst recorded by toroid diagnostic BEHIND the undulator. (FLASH1)
484 +desc: The bunch pattern as function of time in a burst recorded by toroide diagnostic BEHIND the undulator. (FLASH1)
603 603  units:
604 604  \\
605 605  
... ... @@ -672,7 +672,7 @@
672 672  //always saved (PBD)//
673 673  DOOCS prop : {{code language="none"}}TTF2.FEL/TDOLFEL/TDOLFEL/STREAK.CAM.TIME{{/code}}
674 674  DOOCS prop : {{code language="none"}}TTF2.FEL/TDOLFEL/TDOLFEL/STREAK.CAM.TIME{{/code}}
675 -desc: delay time between the optical laser and the FEL units: ps
557 +desc: delaytime between the optical laser and the FEL units: ps
676 676  
677 677  \\
678 678  
... ... @@ -682,7 +682,7 @@
682 682  
683 683  ==== User Data (FLASH1) ====
684 684  
685 -The data saved specifically for detectors at an experiment will show up in /Experiment/ there is a large number of options for cameras or monitoring of slow properties (motor positions etc) for user experiments. For details please ask your local contact.
567 +The data saved specifically for detectors at an experiment will show up in /Experiment/ there is a large number of options for cameras or monitoring pslow properties (motor positons etc) for user experiments. For details please ask your local contact.
686 686  
687 687  NOTE: If parameters for an experiment are included on short notice the correct naming in the HDF5 may not be in time and the data will show up in /uncategorized/ with the DOOCS names
688 688  
... ... @@ -710,13 +710,13 @@
710 710  {{code language="none"}}/FL1/Experiment/BL3/ADQ412 GHz ADC/CH03/TD{{/code}}
711 711  
712 712  DOOCS prop : {{code language="none"}}FLASH.FEL/ADC.ADQ.PG/EXP1.CH00/CH00.TD  or CH00.DAQ.TD{{/code}}
713 -here the {{code language="none"}}CH00.TD{{/code}} is the full ADC trace as it is sampled ( typically several 100.000 samples per pulse train) while the {{code language="none"}}CH00.DAQ.TD{{/code}} trace only has the number of samples which are sent to the DAQ OR if //grouping// is activated the {{code language="none"}}CH00.DAQ.TD{{/code}} contains only the grouped spectra. To read the ADC trace with an online analysis program the {{code language="none"}}CH00.DAQ.TD{{/code}} is used preferably.
595 +here the {{code language="none"}}CH00.TD{{/code}} is the full ADC trace as it is sampled ( typically several 100.000 samples per pulse train) while the {{code language="none"}}CH00.DAQ.TD{{/code}} trace only has the number of samples which are sent to the DAQ OR if //grouping// is activated the {{code language="none"}}CH00.DAQ.TD{{/code}} conatins only the grouped spectra. To read the ADC trace with an online analysis program the {{code language="none"}}CH00.DAQ.TD{{/code}} is used preferablly.
714 714  DAQ channel: {{code language="none"}}FLASH.FEL/ADC.ADQ.PG/EXP1.CH00{{/code}}
715 715  
716 716  In addition there are also additional parameters saved like:
717 717  
718 718  * {{code language="none"}}sample frequency{{/code}}: it shows the sample frequency in MHz (number of samples per µs). NOTE: the clock of the ADC is NOT synchronized to the FLASH timing system. Thus the number of samples between bunches in the bunch train may be not integer numbers which will be show up for long bunch trains.
719 -* {{code language="none"}}number of samples{{/code}}: total number of samples recorded for each 10 Hz trigger
601 +* {{code language="none"}}number of samples{{/code}}: total number of samoles recorded for each 10 Hz trigger
720 720  * {{code language="none"}}error (ADC):{{/code}} 0 indicates that there was no error
721 721  
722 722  ===== MHz ADCs =====
... ... @@ -729,7 +729,7 @@
729 729  In addition there are also additional parameters saved like:
730 730  
731 731  * {{code language="none"}}sample frequency{{/code}}: it shows the sample frequency in MHz (number of samples per µs). NOTE: the clock of the ADC is NOT synchronized to the FLASH timing system. Thus the number of samples between bunches in the bunch train may be not integer numbers which will be show up for long bunch trains.
732 -* {{code language="none"}}number of samples{{/code}}: total number of samples recorded for each 10 Hz trigger
614 +* {{code language="none"}}number of samples{{/code}}: total number of samoles recorded for each 10 Hz trigger
733 733  
734 734  [[Contents>>doc:||anchor="Contents"]]
735 735  
... ... @@ -745,12 +745,12 @@
745 745  
746 746  ==== Beamline info (FLASH2) ====
747 747  
748 -{{code language="none"}}/FL2/Beamlines/Attenuator/pressure  {{/code}}
749 -(% style="color: rgb(0,0,0);" %)//always saved (PBD2)// (%%)
750 -(% style="color: rgb(0,0,0);" %)DOOCS prop : {{code language="none"}}FLASH.FEL/ATT.GAS_DOSING/FL2.HALL/PRESSURE{{/code}} (%%)
751 -(% style="color: rgb(0,0,0);" %)DAQ channel:  {{code language="none"}}FLASH.FEL/ATT.GAS_DOSING/FL2.HALL/PRESSURE{{/code}} (%%)
752 -(% style="color: rgb(0,0,0);" %)desc: set pressure in the gas attenuator (%%)
753 -(% style="color: rgb(0,0,0);" %)units: mbar(%%)
630 +(% style="color: rgb(255,153,0);" %)(not yet available){{code language="none"}}/FL2/Beamlines/Attenuator/pressure  {{/code}}(%%)
631 +(% style="color: rgb(193,199,208);" %)//always saved (PBD2)// (%%)
632 +(% style="color: rgb(193,199,208);" %)DOOCS prop : {{code language="none"}}FLASH.FEL/ATT.GAS_DOSING/FL2.HALL/PRESSURE{{/code}} (%%)
633 +(% style="color: rgb(193,199,208);" %)DAQ channel:  {{code language="none"}}FLASH.FEL/ATT.GAS_DOSING/FL2.HALL/PRESSURE{{/code}} (%%)
634 +(% style="color: rgb(193,199,208);" %)desc: set pressure in the gas attenuator (%%)
635 +(% style="color: rgb(193,199,208);" %)units: mbar(%%)
754 754  \\
755 755  
756 756  {{code language="none"}}/FL2/Beamlines/FL20/Shutter/open{{/code}}
... ... @@ -769,13 +769,11 @@
769 769  units: degree
770 770  \\
771 771  
772 -/FL2/Beamlines/Filter wheel/position wheel 2
773 -always saved (PBD2)
774 -DOOCS prop : {{code language="none"}}FLASH.FEL/FL20H.PH.MOTOR/MOTOR2.MOT3/FPOS{{/code}}
775 -DAQ channel: {{code language="none"}}FLASH.FEL/FL20H.PH.MOTOR/MOTOR2.MOT3/FPOS{{/code}}
776 -desc: Position of the BL filter wheel 2 - to correlate with the filter material please look [[here>>doc:FLASHUSER.jddd-linked help pages.Filter-Units.Filter wheels in FLASH1 and FLASH2.WebHome]]
777 -units: degree
778 778  
655 +//always saved (PBD2)//
656 +\\\\**[[here>>doc:FLASHUSER.jddd-linked help pages.Filter-Units.Filter wheels in FLASH1 and FLASH2.WebHome]]**
657 +{{code language="none"}}/FL2/Beamlines/Filter wheel/position wheel 2 DOOCS prop : FLASH.FEL/FL20H.PH.MOTOR/MOTOR2.MOT3/FPOS DAQ channel: FLASH.FEL/FL20H.PH.MOTOR/MOTOR2.MOT3/FPOS desc: Position of the BL filter wheel 2 - to correlate with the filter material please look units: degree{{/code}}
658 +
779 779  \\
780 780  
781 781  NOTE: Aperture positions in the beamline as well as the positions of the beam steering mirrors are also saved. for more Info contact your local contact
... ... @@ -854,15 +854,13 @@
854 854  
855 855  \\
856 856  
857 -/FL2/Photon Diagnostic/GMD/Pulse resolved beam position/position tunnel x
858 -always saved (PBD2)
859 -DOOCS prop : FLASH.FEL/XGM.BPM/FL2.HALL/X.TD
860 -DAQ channel: FLASH.FEL/XGM.BPM/FL2.HALL:2
861 -desc: Besides the well calibrated averaged beam position information there is also the option to measure the beam position on a single bunch level. HOWEVER this methide needs a perfectly adjusted signal level (talk to your local contact !!) and also then the signal to noise is rather small and one needs some averaging ... BUT with this option one can determine if there was a spatial slope on a burst (say forst bunches were lower than the last ones or so ...)
862 -units : mm   
863 863  
864 -(x=horizontal, y = vertial)
738 +//always saved (PBD2)//
739 +\\\\{{code language="none"}}/FL2/Photon Diagnostic/GMD/Pulse resolved beam position/position tunnel x DOOCS prop : FLASH.FEL/XGM.BPM/FL2.HALL/X.TDDAQ channel: FLASH.FEL/XGM.BPM/FL2.HALL:2 desc: {{/code}}Besides the well calibrated averaged beam position information there is also the option
740 +{{code language="none"}}to measure the beam position on a single bunch level. HOWEVER this methide needs a perfectly adjusted signal level (talk to your local contact !!) and also then the signal to noise is rather small and one needs some averaging ... BUT with this option one can determine if there was a spatial slope on a burst (say forst bunches were lower than the last ones or so ...)units : mm    {{/code}}
865 865  
742 +{{code language="none"}}(x=horizontal, y = vertial){{/code}}
743 +
866 866  again the same parameter set is available for the **HALL GMD**
867 867  
868 868  \\
... ... @@ -890,7 +890,7 @@
890 890  // saved opon request (PBD2)//
891 891  DOOCS prop : {{code language="none"}}FLASH.UTIL/STORE/FL2.TUNNEL.OPIS/VAL040{{/code}}
892 892  DAQ channel:{{code language="none"}} FLASH.UTIL/STORE/FL2.TUNNEL.OPIS/VAL040{{/code}}
893 -desc : mean wavelength ( ~~ 1 sec averaging time ) measured in the TUNNEL for a specific bunch out of the bunch train (via photoelectron spectroscopy)
771 +desc : meanwavelength ( ~~ 1 sec averaging time ) measured in the TUNNEL for a specific bunch out of the bunch train (via photoelectron spectroscopy)
894 894  units : nm
895 895  
896 896  \\
... ... @@ -904,11 +904,11 @@
904 904  
905 905  \\
906 906  
907 -If Opis is running typically on the the averaged data is saved. For several experiments it may make sense to save the information for each single bunch. This is up to now done by saving the complete ADC trace of the TOF setup. This is a huge amount of data and needs processing. This has to be performed after the beamtime in close contact to [[Markus Braune>>mailto:markus.braune@desy.de||shape="rect"]] ( responsible for [[OPIS>>url:http://photon-science.desy.de/facilities/flash/photon_diagnostics/opis_spectrometer/index_eng.html||shape="rect"]])
785 +If Opis is running typically on the the averaged data is saved. For several experiments it may make sense to save the information for each single bunch. This is up to now done by savng the compleate ADC trace of the TOF setup. This is a huge amount of data and needs processing. This has to be performed after the beamtime in close contact to [[Markus Braune>>mailto:markus.braune@desy.de||shape="rect"]] ( respobsible for [[OPIS>>url:http://photon-science.desy.de/facilities/flash/photon_diagnostics/opis_spectrometer/index_eng.html||shape="rect"]])
908 908  
909 909  \\
910 910  
911 -In case OPIS was not operating there is still information about the **set wavelength** for the undulators (see below) which may differ by up to 5 % from the actual wavelength due to different settings in the FEL ...
789 +In case OPIS was not operating there is still informaton about the **set wavelength** for the undulators (see below) which may differ by up to 5 % from the actual wavelength due to different settings in the FEL ...
912 912  
913 913  \\
914 914  
... ... @@ -927,21 +927,8 @@
927 927  
928 928  \\
929 929  
930 -===== electron bunch energy =====
808 +===== undulator settings =====
931 931  
932 -{{code language="none"}}/FL2/Electron Diagnostic/Electron energy/energy of first bunch/behind undulators{{/code}}
933 -//always saved (PBD2)//
934 -DOOCS prop : {{code language="none"}}FLASH.DIAG/BEAM_ENERGY_MEASUREMENT/FL2XTDS/ENERGY.FLASH2{{/code}}
935 -DAQ channel: (% style="color: rgb(94,108,132);" %)TTF2.DAQ/PBD2.BEAM.ENERGY.MEAS.ML.COPY/FL2XTDS.ENERGY.FLASH2{{code language="none"}}{{/code}}(%%)
936 -desc: electron bunch energy measured behind the undulator. Data is saved with 10 Hz - BUT (for computation reasons) only the energy of the FIRST bunch is recorded. The data is also available for (% style="color: rgb(94,108,132);" %)extraction and septum  in the beginning of FLASH2
937 -
938 -(% style="letter-spacing: 0.0px;" %)units: (% class="twikiNewLink" %)MeV
939 -
940 -\\
941 -
942 -(% style="color: rgb(94,108,132);font-weight: 600;letter-spacing: 0.0px;" %)
943 -undulator settings
944 -
945 945  {{code language="none"}}/FL2/Electron Diagnostic/Undulator setting/set wavelength{{/code}}
946 946  //always saved (PBD2)//
947 947  DOOCS prop : {{code language="none"}}TTF2.FEEDBACK/FL2.WAVELENGTHCONTROL/FLASH2/WAVELENGTH{{/code}}
... ... @@ -959,27 +959,8 @@
959 959  The gap values are saved for all 12 undulators (Nr 3 to 14). Undulator 14 is the one closest to the experimental hall.
960 960  
961 961  =====
962 -arrival time (BAM) =====
827 +arrival time =====
963 963  
964 -{{info title="BAM information: updates 2022"}}
965 -* see: [[Info collection about the BAMs and how to use the BAM data>>url:https://confluence.desy.de/display/FLASHUSER/Info+collection+for+the+BAM||shape="rect"]]
966 -* The data format of the BAM has been completely altered in the 2022 shutdown
967 -* before 2022 BAMs were always saving the arrival time information for each 1µs bucked regardless if there were electrons in the accelerator or not. IN addition the arrival times for  FL1 and FL2 were saved in the same parameter ...
968 -* THIS is now different. there are new parameters for pulses that go to FL1 and to FL2 (in detail: first time slot of the accelerator and second)
969 -* There has been also a renaming  (and relocation) of the BAMs.
970 -** acc:  4DBC3 → FL0.DBC2
971 -** FL1: 1SFELC →  FL1.SFELC
972 -** FL2: 8FL2XTDS → (% style="color: rgb(23,43,77);" %)FL2.SEED5
973 -* for more Info: [[LINK to detailed infos from MSK>>url:https://confluence.desy.de/display/SDiagPublic/BAM+Data+Structure||shape="rect"]]
974 -* [[Link a collection of papers related to the BAM and the analysis of pump-probe experiments>>doc:FLASHUSER.Additional helpful things.FLASH beamlines and instruments references.WebHome]]
975 -* a recent  [[talk about the working principle of the BAM>>attach:BAM-basics and outlook-2018_DESY-template_16-9Format.pdf]]
976 -{{/info}}
977 -
978 -\\
979 -
980 -{{expand title="Discontinued BAM format (used until end 2021)"}}
981 -(% style="color: rgb(0,0,0);" %)**Discontinued BAM data recording **
982 -
983 983  {{code language="none"}}/FL2/Electron Diagnostic/BAM/8FL2XTDS/electron bunch arrival time (low charge){{/code}}
984 984  //always saved (PBD2)//
985 985  DOOCS prop : {{code language="none"}}FLASH.SDIAG/BAM/8FL2XTDS/LOW_CHARGE_ARRIVAL_TIME{{/code}}
... ... @@ -1004,60 +1004,8 @@
1004 1004  * [[LINK to detailed infos from MSK (may only work inside DESY network~[~[image:url:http://hasfweb.desy.de/pub/TWiki/TWikiDocGraphics/external-link.gif~|~|width="13" height="12"~]~]>>url:http://www.desy.de/~~mbock/pages/BAM_daq_channel_descriptions.html||shape="rect"]]
1005 1005  * a recent  [[talk about the working principle of the BAM>>attach:BAM-basics and outlook-2018_DESY-template_16-9Format.pdf]]
1006 1006  {{/info}}
1007 -{{/expand}}
1008 1008  
1009 -(% style="color: rgb(255,102,0);" %)DBC2/electron bunch arrival time{{code language="none"}}/FL1/Electron Diagnostic/BAM/{{/code}}(%%)
1010 -//always saved (PBD)//
1011 -DOOCS prop : FLASH.SDIAG/BAM/FL0.DBC2/ARRIVAL_TIME.absolute.SA2
1012 -DAQ channel: (% style="color: rgb(255,102,0);" %)FLASH.SDIAG/BAM/FL0.DBC2/ARRIVAL_TIME.absolute.SA2(%%)
1013 -desc: Electron bunch arrival time measured with the BAM inside the accelerator (after bunch compressor 2) - It shows a very good correlation to the arrival time  of the XUV pulses in the experiment (see help).  The SA2 indicates the data is recorded for the second time slot at FLASH, typically used for FLASH2
1014 -units: fs (bigger numbers (typically) indicate later arrival times of the electrons).
1015 1015  
1016 -\\
1017 -
1018 -(% style="color: rgb(255,102,0);" %)DBC2/error{{code language="none"}}/FL1/Electron Diagnostic/BAM/{{/code}}(%%)
1019 -//always saved (PBD)//
1020 -DOOCS prop : FLASH.SDIAG/BAM/FL0.DBC2/ARRIVAL_TIM(% style="color: rgb(0,0,0);" %)E.bamError(%%)
1021 -DAQ channel: (% style="color: rgb(255,102,0);" %)FLASH.SDIAG/BAM/FL0.DBC2/ARRIVAL_TIME.BAMERROR(%%)
1022 -desc: If the value is 0 , the BAM is working well. If it is non-zero there is a problem !!
1023 -
1024 -\\
1025 -
1026 -(% style="color: rgb(255,102,0);" %)DBC2/error{{code language="none"}}/FL1/Electron Diagnostic/BAM/{{/code}}(%%)
1027 -//always saved (PBD)//
1028 -DOOCS prop : FLASH.SDIAG/BAM/FL0.DBC2/ARRIVAL_TIM(% style="color: rgb(0,0,0);" %)E..bamStatus.//2//(%%)
1029 -DAQ channel: (% style="color: rgb(255,102,0);" %)FLASH.SDIAG/BAM/FL0.DBC2/ARRIVAL_TIME.BAMSTATUS(%%)
1030 -desc: status bit: 0 - data is valid; 1 - beam present; 2 - calibration ongoing; 3 - feedback enabled; 4 - feedback acting;  mostly check for bit 0 == 1 is sufficient
1031 -
1032 -\\
1033 -
1034 -(% style="color: rgb(23,43,77);" %)SEED5(% style="color: rgb(255,102,0);" %)/electron bunch arrival time{{code language="none"}}/FL1/Electron Diagnostic/BAM/{{/code}}(%%)
1035 -//always saved (PBD)//
1036 -DOOCS prop : FLASH.SDIAG/BAM/(% style="color: rgb(23,43,77);" %)FL2.SEED5(%%)/ARRIVAL_TIME.absolute.SA2
1037 -DAQ channel: (% style="color: rgb(255,102,0);" %)FLASH.SDIAG/BAM/(% style="color: rgb(255, 102, 0); color: rgb(23, 43, 77)" %)FL2.SEED5(% style="color: rgb(255,102,0);" %)/ARRIVAL_TIME.absolute.SA2(%%)
1038 -desc: Electron bunch arrival time measured  with the BAM  before the undulator (pulse resolved data). This one was newly installed in 2020.  The SA2 indicates the data is recorded for the first time slot at FLASH, typically used for FLASH2
1039 -units: fs (bigger numbers (typically) indicate later arrival times of the electrons).
1040 -
1041 -\\
1042 -
1043 -(% style="color: rgb(23,43,77);" %)SEED5(% style="color: rgb(255,102,0);" %)/error{{code language="none"}}/FL1/Electron Diagnostic/BAM/{{/code}}(%%)
1044 -//always saved (PBD)//
1045 -DOOCS prop : FLASH.SDIAG/BAM/(% style="color: rgb(23,43,77);" %)FL2.SEED5(%%)/ARRIVAL_TIM(% style="color: rgb(0,0,0);" %)E.bamError(%%)
1046 -DAQ channel: (% style="color: rgb(255,102,0);" %)FLASH.SDIAG/BAM/(% style="color: rgb(255, 102, 0); color: rgb(23, 43, 77)" %)FL2.SEED5(% style="color: rgb(255,102,0);" %)/ARRIVAL_TIME.BAMERROR(%%)
1047 -desc: If the value is 0 , the BAM is working well. If it is non-zero there is a problem !!
1048 -
1049 -\\
1050 -
1051 -(% style="color: rgb(23,43,77);" %)SEED5(% style="color: rgb(255,102,0);" %)/error{{code language="none"}}/FL1/Electron Diagnostic/BAM/{{/code}}(%%)
1052 -//always saved (PBD)//
1053 -DOOCS prop : FLASH.SDIAG/BAM/(% style="color: rgb(23,43,77);" %)FL2.SEED5(%%)/ARRIVAL_TIM(% style="color: rgb(0,0,0);" %)E..bamStatus.//2//(%%)
1054 -DAQ channel: (% style="color: rgb(255,102,0);" %)FLASH.SDIAG/BAM/(% style="color: rgb(255, 102, 0); color: rgb(23, 43, 77)" %)FL2.SEED5(% style="color: rgb(255,102,0);" %)/ARRIVAL_TIME.BAMSTATUS(%%)
1055 -desc: status bit: 0 - data is valid; 1 - beam present; 2 - calibration ongoing; 3 - feedback enabled; 4 - feedback acting;  mostly check for bit 0 == 1 is sufficient
1056 -
1057 -\\
1058 -
1059 -\\
1060 -
1061 1061  [[Contents>>doc:||anchor="Contents"]]
1062 1062  
1063 1063  \\
... ... @@ -1342,6 +1342,68 @@
1342 1342  [[Contents>>doc:||anchor="Contents"]]
1343 1343  
1344 1344  \\
1345 -{{/layout-cell}}
1346 -{{/layout-section}}
1347 -{{/layout}}
1139 +
1140 +== Example code showing how to access HDF5 files ==
1141 +
1142 +\\
1143 +
1144 +=== Samples how to read HDF5 with Matlab ===
1145 +
1146 +The examples apply to HDF files with HDF tree version before vers. 0.3.0.
1147 +
1148 +(% style="color: rgb(0,128,0);" %)%% read in the needed data p=path; path(p,'D:\mess-daten\DAQ-data\hdf5\Gotthard') % add the actual folder to the path hdf5file='FLASH1_EXP-2016-03-16T1420.h5'; % data with Gotthard and VLS
1149 +
1150 +(% style="color: rgb(0,128,0);" %)% h5disp(hdf5file,'/','min') % to get an idea what is in the file % h5info(hdf5file,'/Experiment/Gotthard1/BL.0') % get info about the individual channel
1151 +
1152 +(% style="color: rgb(0,128,0);" %)% read a Number per 10 Hz pulse train:
1153 +
1154 +(% class="code" %)
1155 +(((
1156 +FEL_Wavelength_energy_server=h5read(hdf5file,'/Photon Diagnostic/Wavelength/Calculated by energy/wavelength' );
1157 +)))
1158 +
1159 +(% style="color: rgb(0,128,0);" %)% read in a 1D array (spectrum) %GMD data GMD_Spectrum=h5read(hdf5file,'/Photon Diagnostic/GMD/Pulse resolved energy/energy BDA');
1160 +
1161 +(% style="color: rgb(0,128,0);" %)% This reads in all the data . One can also limit the amount of data read to a subset of the data stored in the file. e.g. for image Data (Gotthard)
1162 +
1163 +\\
1164 +
1165 +(% class="code" %)
1166 +(((
1167 +Start_event= 500 ; % define the first 10 Hz event
1168 + Number_of_events = 20; % how many 10 Hz events to load
1169 +)))
1170 +
1171 +(% style="color: rgb(0,128,0);" %)% read only part of the data:
1172 +
1173 +(% class="code" %)
1174 +(((
1175 +Gotthard_data=h5read(hdf5file,'/Experiment/Gotthard1/BL.0',[2 650 Start_event],[50 85 Number_of_events]);
1176 +)))
1177 +
1178 +(% style="color: rgb(0,128,0);" %)% start stop increment "manual" for 2 D data : [start bunch number in Gotthard data start pixelin spectrum start sample in 10 Hz trains], % [number of bunches in the Gotthard data number of points in the spectrum number of spectra ]
1179 +
1180 +(% class="code" %)
1181 +(((
1182 +VLS_Spectrum=h5read(hdf5file,'/Photon Diagnostic/Wavelength/VLS online spectrometer/PCO.ROI.X',[400 Start_event],[200 Number_of_events] );
1183 +
1184 +)))
1185 +
1186 +(% style="color: rgb(0,128,0);" %)% start stop increment "manual" for 1D data : [start sample in the spectrum start sample in 10 Hz trains],[number of points in the spectrum number of spectra ]
1187 +
1188 +(% style="color: rgb(0,128,0);" %)%GMD data
1189 +
1190 +(% class="code" %)
1191 +(((
1192 +GMD_Spectrum=h5read(hdf5file,'/Photon Diagnostic/GMD/Pulse resolved energy/energy BDA',[1 Start_event],[40 Number_of_events] );
1193 +)))
1194 +
1195 +[[Contents>>doc:||anchor="Contents"]]
1196 +
1197 +\\
1198 +
1199 +== HDF5 and DOOCS ==
1200 +
1201 +Here is an outdated [[list with the available properties that are always saved (PBD) for FLASH1 as>>attach:FLASH1__DaqChannel2HdfNamePbd.xlsx]] HDF5 names and the corresponding DOOCS names
1202 +
1203 +[[Contents>>doc:||anchor="Contents"]]