Wiki source code of The FLASH HDF5 structure

Version 85.6 by sndueste on 2024/09/23 14:22

version	line-number	content
44.1	1	{{layout}}
	2	{{layout-section ac:type="single"}}
	3	{{layout-cell}}
1.1	4	== Contents ==
	5
	6
	7
13.1	8	{{toc/}}
1.1	9
	10
	11	== General information about HDF5 ==
	12
84.1	13	HDF5 is a data format maintained by the HDF group. For detailed general information see [[here>>url:https://portal.hdfgroup.org/display/support\|\|shape="rect"]]
1.1	14
84.1	15	To download the HDF5 Viewer click [[here>>url:https://portal.hdfgroup.org/display/support/Download+HDFView\|\|shape="rect"]]
1.1	16
79.1	17	For use on the DESY Maxwell or PAL (max-fsc or pal) hdfview is available in the xray module :
	18	{{code language="none"}}> module load xray{{/code}}
1.1	19	{{code language="none"}}> hdfview{{/code}}
	20
49.1	21	or you can use
	22
79.1	23	{{code language="none"}}
	24	> silx view
	25	{{/code}}
49.1	26
	27
4.1	28	[[Contents>>doc:\|\|anchor="Contents"]]
1.1	29
45.1	30	== The FLASH HDF5 format ==
1.1	31
45.1	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 gaps, users 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.
40.1	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.
	35
	36	Reference implementation, which follows the concept of Python libraries like Pandas, Xarray, or Dask, is given below.
	37
	38	{{expand title="Discontinued HDF formats"}}
47.1	39	=== Comparison to FLASH's deprecated HDF formats ===
40.1	40
	41	Before 2021, FLASH provided two different HDF formats formally known as //near-online// and //offline// HDF files.
	42
	43	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.
	44
	45	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.
	46
	47	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.
45.1	48
	49
46.1	50	HDF5 example files (old format)
45.1	51
	52	Here we have a few HDF5 samples (User data combined with Photon diagnostics data) from a few beamtimes showing the different kind options.
	53
	54	[[image:attach:image2019-10-21_17-2-50.png\|\|thumbnail="true" width="300"]] [[download HDF5 (Images @ FL2)>>url:https://desycloud.desy.de/index.php/s/nyEgeCWJFC4gao2\|\|shape="rect"]]
	55
	56
	57	[[~[~[image:attach:image2019-10-22_10-52-27.png~\|~\|thumbnail="true" width="300"~]~]download HDF5 (GHz ADC and OPIS @ FL2)>>url:https://desycloud.desy.de/index.php/s/AeA2kPNNnZgX95A\|\|shape="rect"]]
	58
	59
79.1	60
40.1	61	{{/expand}}
	62
45.1	63	=== HDF examples: ===
44.1	64	{{/layout-cell}}
	65	{{/layout-section}}
40.1	66
44.1	67	{{layout-section ac:type="three_equal"}}
	68	{{layout-cell}}
79.1	69	* ADC data as example for fast data (10 Hz):
40.1	70
44.1	71	[[image:attach:image2020-11-16_15-26-28.png\|\|height="250"]]
	72	{{/layout-cell}}
	73
	74	{{layout-cell}}
71.1	75	* The //average// FEL pulse energy as example for the slow data. Here the data is not saved with 10 Hz - thus not for every FEL pulse train. The data is typically saved with 1 Hz if the values are changing (like the FEL energy) and every about 20 sec if there is no change for longer time ( e.g. motor set values). Thus to use the data together with the "fast" one, one has to interpolate the data as explained in the examples in the repos below show (e.g. {{code language="none"}}df['GMD_T_average'] = df['GMD_T_average'].interpolate(method='linear'){{/code}})
44.1	76
70.1	77	( as example only every 10th train ID is listed in the HDF group "index")
40.1	78
44.1	79	[[image:attach:image2020-11-16_15-31-45.png\|\|height="250"]]
	80	{{/layout-cell}}
	81
	82	{{layout-cell}}
41.1	83	* (((
44.1	84	//zraw// group contains the original DAQ (DOOCS) names
41.1	85	)))
40.1	86
41.1	87	of the properties saved in the DESY internal raw format. (For experts)
40.1	88
	89
44.1	90	[[image:attach:image2020-11-16_16-26-3.png\|\|height="400"]]
	91	{{/layout-cell}}
	92	{{/layout-section}}
41.1	93
44.1	94	{{layout-section ac:type="single"}}
	95	{{layout-cell}}
53.1	96	{{info}}
79.1	97	=== There are different options that help you to work with the FLASH HDF5 data in Python ===
40.1	98
78.1	99	* The currently developed option for large data sets: [[the FAB package>>url:https://hasfcpkg.desy.de/fab/fab.html\|\|shape="rect"]] ... see below
	100	* and for smaller projects: (% class="Object" %)[[https:~~/~~/gitlab.desy.de/christopher.passow/flash-daq-hdf>>url:https://gitlab.desy.de/christopher.passow/flash-daq-hdf\|\|shape="rect"]]
40.1	101
78.1	102	(% class="Object" %)See also the collection of Demo data and sample scripts : [[doc:FLASHUSER.Data Acquisition and controls.Data Access at FLASH (DAQ, gpfs,\.\.\.).Offline data analysis (DAQ).Collection of HDF5 sample data from different beamlines.WebHome]] and [[doc:FLASHUSER.Data Acquisition and controls.Data Access at FLASH (DAQ, gpfs,\.\.\.).Offline data analysis (DAQ).DEMO - Working with FLASH data.WebHome]]
40.1	103	{{/info}}
44.1	104	{{/layout-cell}}
	105	{{/layout-section}}
40.1	106
44.1	107	{{layout-section ac:type="single"}}
	108	{{layout-cell}}
63.1	109
	110
45.1	111	== Complete list of recordable parameters ==
40.1	112
84.1	113	The complete list for the relation between DOOCS names and HDF5 names for the recordable parameters can be found in [[DESY's Repository>>url:https://stash.desy.de/projects/CS/repos/pah/browse/src/camp/data/channel2HdfName.dat\|\|shape="rect"]].
79.1	114
1.1	115
79.1	116	== Most popular FLASH parameters and their names in HDF5, DOOCS and (raw) DAQ ==
1.1	117
30.1	118	{{id name="DOOCSparameters"/}}
	119
5.1	120	Note, the HDF group and data set names apply to our HDF tree version since vers. 0.3.0.
1.1	121
	122
	123	=== FLASH1 ===
	124
	125	==== Beamline info (FLASH1) ====
	126
79.1	127	{{code language="none"}}/FL1/Beamlines/Attenuator/pressure{{/code}}
	128	//always saved (PBD)//
	129	DOOCS prop : {{code language="none"}}FLASH.FEL/GAS_DOSING/FL1.ATTENUATOR/PRESSURE{{/code}}
	130	DAQ channel: {{code language="none"}}FLASH.FEL/GAS_DOSING/FL1.ATTENUATOR/PRESSURE{{/code}}
	131	desc: set pressure in the gas attenuator
1.1	132	units: mbar
79.1	133
1.1	134
79.1	135	{{code language="none"}}/FL1/Beamlines/BL/Fast shutter/open{{/code}}
	136	//always saved (PBD)//
	137	DOOCS prop : {{code language="none"}}FLASH.FEL/ADC.SIS.FL1FS/BL.SHUTTER/CH00.TD{{/code}}
	138	DAQ channel: {{code language="none"}}FLASH.FEL/ADC.SIS.FL1FS/BL.SHUTTER{{/code}}
	139	desc: BL Beamline Fast shutter state: 1 is open, 0 is closed ( for technical reasons there are 100 vales of this state saved ...)
1.1	140	units: none
	141
79.1	142	{{code language="none"}}/FL1/Beamlines/PG/Fast shutter/open{{/code}}
	143	//always saved (PBD)//
	144	DOOCS prop : {{code language="none"}}FLASH.FEL/ADC.SIS.FL1FS/PG.SHUTTER/CH00.TD{{/code}}
	145	DAQ channel: {{code language="none"}}FLASH.FEL/ADC.SIS.FL1FS/PG.SHUTTER{{/code}}
	146	desc: PG Beamline Fast shutter state: 1 is open, 0 is closed ( for technical reasons there are 100 vales of this state saved ...)
1.1	147	units: none
	148
79.1	149	{{code language="none"}}/FL1/Beamlines/BL/Filters/BL filter wheel/position filter 1{{/code}}
	150	//always saved (PBD)//
	151	DOOCS prop : {{code language="none"}}TTF2.FEL/BLFILTERS1/FILTER1/FW.MOTOR.POS{{/code}}
	152	DAQ channel: {{code language="none"}}TTF2.FEL/BLFILTERS1/FILTER1/FW.MOTOR.POS{{/code}}
24.1	153	desc: Position of the BL filter wheel 1 - to correlate with the filter material please look [[here>>doc:FLASHUSER.jddd-linked help pages.Filter-Units.Filter wheels in FLASH1 and FLASH2.WebHome]]
1.1	154	units: degree
79.1	155
1.1	156
79.1	157	{{code language="none"}}/FL1/Beamlines/BL/Filters/BL filter wheel/position filter 2{{/code}}
	158	//always saved (PBD)//
	159	DOOCS prop : {{code language="none"}}TTF2.FEL/BLFILTERS2/FILTER2/FW.MOTOR.POS{{/code}}
	160	DAQ channel: {{code language="none"}}TTF2.FEL/BLFILTERS2/FILTER2/FW.MOTOR.POS{{/code}}
24.1	161	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]]
1.1	162	units: degree
79.1	163
1.1	164
79.1	165	{{code language="none"}}/FL1/Beamlines/PG/Filters/position filter 1{{/code}}
	166	//always saved (PBD)//
	167	DOOCS prop : = TTF2.FEL/BDAF1/BDA.F1/FW.MOTOR.POS=
	168	DAQ channel: {{code language="none"}}TTF2.FEL/BDAF1/BDA.F1/FW.MOTOR.POS{{/code}}
	169	desc: Position of the PG filter wheel 1
1.1	170	units: degree
79.1	171
1.1	172
79.1	173	{{code language="none"}}/FL1/Beamlines/PG/Filters/position filter 2{{/code}}
	174	//always saved (PBD)//
	175	DOOCS prop : {{code language="none"}}TTF2.FEL/BDAF2/BDA.F2/FW.MOTOR.POS{{/code}}
	176	DAQ channel: {{code language="none"}}TTF2.FEL/BDAF2/BDA.F2/FW.MOTOR.POS{{/code}}
	177	desc: Position of the PG filter wheel 2
1.1	178	units: degree
79.1	179
1.1	180
79.1	181	{{code language="none"}}/FL1/Beamlines/PG/Filters/position filter 3{{/code}}
	182	//always saved (PBD)//
	183	DOOCS prop : {{code language="none"}}TTF2.FEL/PGFILTERS/PGFILTERS/FW.MOTOR.POS{{/code}}
	184	DAQ channel: {{code language="none"}}TTF2.FEL/PGFILTERS/PGFILTERS/FW.MOTOR.POS{{/code}}
	185	desc: Position of the PG filter wheel 3
1.1	186	units: degree
8.1	187
1.1	188
8.1	189
34.1	190	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
8.1	191
4.1	192	[[Contents>>doc:\|\|anchor="Contents"]]
1.1	193
8.1	194
39.1	195	==== Photon Diagnostics SASE ([[GMD>>url:http://photon-science.desy.de/facilities/flash/photon_diagnostics/gmd_intensity_and_position/index_eng.html\|\|shape="rect"]]) ====
1.1	196
55.1	197	{{expand title="Discontinued GMD format (used until 2021)"}}
79.1	198	(% style="color:#000000" %)Discontinued GMD data recording / evaluation (VME + PhotonFlux ML server)
39.1	199
79.1	200	{{code language="none"}}/FL1/Photon Diagnostic/GMD/Average energy/energy tunnel{{/code}}
40.1	201	//always saved (PBD)//
34.1	202
79.1	203	(% style="color:#000000" %)DOOCS prop : {{code language="none"}}TTF2.DAQ/PHFLUX/OUT04/VAL{{/code}} (%%)
	204	(% style="color:#000000" %)DAQ channel: {{code language="none"}}PBD.PHFLUX/TUNNEL.ENPULSEIC{{/code}}(%%)
	205	desc : calibrated average SASE Energy/pulse measured in the TUNNEL upstream the gas attenuator (ion current)
1.1	206	units : microJ
	207
79.1	208	{{code language="none"}}/FL1/Photon Diagnostic/GMD/Pulse resolved energy/energy tunnel{{/code}}
34.1	209	//always saved (PBD)//
	210
79.1	211	DOOCS prop : {{code language="none"}}TTF2.DAQ/PHFLUX/OUT34/VAL{{/code}}
	212	DAQ channel: {{code language="none"}}PBD.PHFLUX/TUNNEL.ENERGYPULSE.USER{{/code}}
1.1	213	desc :Energy per pulse Tunnel (from e-) - the values are set to "0" if there was no SASE beam in the FEL
23.1	214	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]]
1.1	215
79.1	216	{{code language="none"}}/FL1/Photon Diagnostic/GMD/Pulse resolved energy/energy tunnel (raw){{/code}}
	217	//always saved (PBD)//
	218	DOOCS prop : {{code language="none"}}TTF2.DAQ/PHFLUX/OUT14/VAL{{/code}}
	219	DAQ channel: {{code language="none"}}PBD.PHFLUX/TUNNEL.ENERGYPULSE.FF{{/code}}
	220	desc :Energy per pulse Tunnel (from e-) - uncorrected values. There are also values saved if there was no beam ... just background noise
23.1	221	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]]
1.1	222
79.1	223	{{code language="none"}}/FL1/Photon Diagnostic/GMD/Average energy/energy BDA{{/code}}
34.1	224	//always saved (PBD)//
	225
79.1	226	DOOCS prop : {{code language="none"}}TTF2.DAQ/PHFLUX/OUT05/VAL{{/code}}
	227	DAQ channel: {{code language="none"}}PBD.PHFLUX/BDA.ENPULSEIC{{/code}}
1.1	228	desc : calibrated average SASE Energy/pulse measured in the BDA (in the experimental hall) after the attenuator (ion current)
	229	units : microJ
	230
79.1	231	{{code language="none"}}/FL1/Photon Diagnostic/GMD/Pulse resolved energy/energy BDA{{/code}}
34.1	232	//always saved (PBD)//
	233
79.1	234	DOOCS prop : {{code language="none"}}TTF2.DAQ/PHFLUX/OUT35/VAL{{/code}}
	235	DAQ channel: {{code language="none"}}PBD.PHFLUX/BDA.ENERGYPULSE.USER{{/code}}
1.1	236	desc :Energy per pulse BDA (from e-) - the values are set to "0" if there was no SASE beam in the FEL
23.1	237	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]]
1.1	238
79.1	239	{{code language="none"}}/FL1/Photon Diagnostic/GMD/Pulse resolved energy/energy BDA (raw){{/code}}
	240	//always saved (PBD)//
	241	DOOCS prop : {{code language="none"}}TTF2.DAQ/PHFLUX/OUT15/VAL{{/code}}
	242	DAQ channel: {{code language="none"}}PBD.PHFLUX/BDA.ENERGYPULSE.FF{{/code}}
	243	desc :Energy per pulse BDA (from e-) - uncorrected values. There are also values saved if there was no beam ... just background noise
23.1	244	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]]
54.1	245	{{/expand}}
1.1	246
34.1	247
79.1	248	(% style="color:#000000; letter-spacing:0px" %)NEW (since 2021) GMD data recording / evaluation (same format as FLASH2 and XFEL)
54.1	249
79.1	250	{{code language="none"}}/FL1/Photon Diagnostic/GMD/Average energy/energy tunnel{{/code}}
	251	//always saved (PBD)//
	252	(% style="color:#000000" %)DOOCS prop : {{code language="none"}}FLASH.FEL/XGM.PHOTONFLUX/FL1.TUNNEL/PHOTONFLUX.UJ{{/code}} (%%)
	253	(% style="color:#000000" %)DAQ channel: {{code language="none"}}FLASH.FEL/XGM.PHOTONFLUX/FL1.TUNNEL/PHOTONFLUX.UJ{{/code}}
39.1	254
79.1	255	desc : calibrated average SASE Energy/pulse measured in the TUNNEL upstream the gas attenuator
39.1	256	units : microJ
	257
	258
79.1	259	{{code language="none"}}/FL1/Photon Diagnostic/GMD/Pulse resolved energy/energy tunnel{{/code}}
39.1	260	//always saved (PBD)//
	261
79.1	262	(% style="color:#000000" %)DOOCS prop :
39.1	263	{{code language="none"}}FLASH.FEL/XGM.INTENSITY/FL1.TUNNEL/INTENSITY.TD{{/code}}DAQ channel: {{code language="none"}}FLASH.FEL/XGM.INTENSITY/FL1.TUNNEL/INTENSITY.TD{{/code}}
	264
	265	desc : Energy per pulse measured in the Tunnel. In addition measurement errors and beam position are included for EACH pulse in the pulse train !! (see below)
	266	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]]
	267
	268	{{info title="GMD pulse resolved data structure"}}
79.1	269	For every pulse in the pulse train the information is saved:
39.1	270
	271
	272	1. Intensity per pulse (a.u. (more or less µJ ))
	273	1. Intensity per pulse (auxillary GMD) - not used
	274	1. Position horizontal (mm, for a single pulse the position information may be very noisy - talk to your local contact)
	275	1. Position vertical (mm, for a single pulse the position information may be very noisy - talk to your local contact)
79.1	276	1. Intensity per pulse sigma (a.u. (more or less µJ ), (% style="color:#000000" %)This parameter gives an indication of the error of the measurement of the pulse energy. This takes signal to noise, detector resolution, uncertainties in crossection etc into account. (it is NOT the measurement of the statistical fluctuation of the SASE pulses)(%%))
39.1	277	1. Position horizontal sigma (mm, indicates the error (RMS, sigma) of the measurement according to known uncertainties and signal to noise)
	278	1. Position vertical sigma (mm, indicates the error (RMS, sigma) of the measurement according to known uncertainties and signal to noise)
	279	1. Combined warning and error flags
	280
	281	The pulse energy and the error are plotted for the first bunch of the pulse trains saved in this
	282	file
	283
	284
	285	[[image:attach:image2021-2-9_10-51-6.png\|\|height="250"]]
	286
79.1	287
39.1	288	{{/info}}
	289
79.1	290	All values for the GMD are also available for the BDA GMD which is located in the experimental hall down stream the gas attenuator. If the attenuator is on the ratio between BDA and Tunnel signal shows the attenuation. BUT NOTE that the filter units are downstream the GMD. So if filters are used this influence is NOT measured by the GMD BDA !
39.1	291
	292
	293	Besides pulse energy the GMD also provides information about the beam position
	294
79.1	295	{{code language="none"}}/FL1/Photon Diagnostic/GMD/Beam position/position BDA horizontal{{/code}}
	296	//always saved (PBD)//
	297	DOOCS prop : {{code language="none"}}FLASH.FEL/XGM.POSMON/FL1.BDA/IX.POS{{/code}}
	298	DAQ channel: {{code language="none"}}FLASH.FEL/XGM.POSMON/FL1.BDA/IX.POS{{/code}}
	299	desc :Beam position of the photon Beam determined by the GMD (BDA, x=horizontal)
1.1	300	units : mm
	301
79.1	302	{{code language="none"}}/FL1/Photon Diagnostic/GMD/Beam position/position BDA vertical{{/code}}
	303	//always saved (PBD)//
	304	DOOCS prop : {{code language="none"}}FLASH.FEL/XGM.POSMON/FL1.BDA/IY.POS{{/code}}
	305	DAQ channel: {{code language="none"}}FLASH.FEL/XGM.POSMON/FL1.BDA/IY.POS{{/code}}
	306	desc :Beam position of the photon Beam determined by the GMD (BDA, y=vertical)
1.1	307	units : mm
	308
79.1	309	{{code language="none"}}/FL1/Photon Diagnostic/GMD/Beam position/position tunnel horizontal{{/code}}
	310	//always saved (PBD)//
	311	DOOCS prop : {{code language="none"}}FLASH.FEL/XGM.POSMON/FL1.TUNNEL/IX.POS{{/code}}
	312	DAQ channel: {{code language="none"}}FLASH.FEL/XGM.POSMON/FL1.TUNNEL/IX.POS{{/code}}
	313	desc :Beam position of the photon Beam determined by the GMD (TUNNEL, x=horizontal)
1.1	314	units : mm
	315
79.1	316	{{code language="none"}}/FL1/Photon Diagnostic/GMD/Beam position/position tunnel vertical{{/code}}
	317	//always saved (PBD)//
	318	DOOCS prop : {{code language="none"}}FLASH.FEL/XGM.POSMON/FL1.TUNNEL/IY.POS{{/code}}
	319	DAQ channel: {{code language="none"}}FLASH.FEL/XGM.POSMON/FL1.TUNNEL/IY.POS{{/code}}
	320	desc :Beam position of the photon Beam determined by the GMD (TUNNEL, y=vertical)
1.1	321	units : mm
	322
39.1	323
	324	==== Spectrometer (FLASH1) ====
	325
79.1	326	{{code language="none"}}/FL1/Photon Diagnostic/Wavelength/Tunnelspectrometer/wavelength{{/code}}
	327	_always saved (when Spectrum is measured !!) (PBD) _
	328	DOOCS prop : {{code language="none"}}TTF2.EXP/PHOTONWL.ML/WAVE_LENGTH/VAL.TD{{/code}}
	329	DAQ channel: {{code language="none"}}PBD.PHOTONWL.ML/WAVE_LENGTH{{/code}}
	330	desc : XUV Spectrum measured with the "tunnel spectrometer"
1.1	331	units :
	332
79.1	333	{{code language="none"}}/FL1/Photon Diagnostic/Wavelength/Tunnelspectrometer/wavelength start value{{/code}}
	334	_always saved (when Spectrum is measured !!) (PBD) _
	335	DOOCS prop : {{code language="none"}}TTF2.EXP/PBD.PHOTONWL.ML/BSTART/VAL{{/code}}
	336	DAQ channel: {{code language="none"}}TTF2.EXP/PBD.PHOTONWL.ML/BSTART/VAL{{/code}}
	337	desc : start value (in nm) for the wavelength axis of the XUV Spectrum measured with the "tunnel spectrometer"
1.1	338	units : nm
	339
79.1	340	{{code language="none"}}/FL1/Photon Diagnostic/Wavelength/Tunnelspectrometer/wavelength increment{{/code}}
	341	_always saved (when Spectrum is measured !!) (PBD) _
	342	DOOCS prop : ==
	343	DAQ channel: ==
	344	desc : increment value (in nm) for each pixel for the wavelength axis of the XUV Spectrum measured with the "tunnel spectrometer"
1.1	345	units : nm
	346
79.1	347	{{code language="none"}}/FL1/Photon Diagnostic/Wavelength/PG2 spectrometer/photon energy{{/code}}
	348	//saved on DEMAND (PBD spectrometer stream)//
	349	DOOCS prop : ==
	350	DAQ channel: {{code language="none"}}PBD.PHOTONEN.ML/PHOTON_ENERGY{{/code}}
1.1	351	desc : XUV Spectrum in eV measured with the "PG2 spectrometer"
	352	units :
	353
79.1	354	{{code language="none"}}/FL1/Photon Diagnostic/Wavelength/PG2 spectrometer/photon energy start value{{/code}}
	355	//saved on DEMAND (PBD spectrometer stream)//
	356	DOOCS prop : ==
	357	DAQ channel: ==
	358	desc : start value (in eV) for the wavelength axis of the XUV Spectrum measured with the "PG2 spectrometer"
1.1	359	units : eV
	360
79.1	361	{{code language="none"}}/FL1/Photon Diagnostic/Wavelength/PG2 spectrometer/photon energy increment{{/code}}
	362	//saved on DEMAND (PBD spectrometer stream)//
	363	DOOCS prop : ==
	364	DAQ channel: ==
	365	desc : increment value (in eV) for each pixel for the wavelength axis of the XUV Spectrum measured with the "PG spectrometer"
1.1	366	units : eV
	367
79.1	368	{{code language="none"}}/FL1/Photon Diagnostic/Wavelength/PG2 spectrometer/photon wavelength{{/code}}
	369	//saved on DEMAND (PBD spectrometer stream)//
	370	DOOCS prop : ==
	371	DAQ channel: {{code language="none"}}PHOTONEN.ML/PHOTON_WAVE_LEN{{/code}}
1.1	372	desc : XUV Spectrum in nm measured with the "PG2 spectrometer"
	373	units :
	374
79.1	375	{{code language="none"}}/FL1/Photon Diagnostic/Wavelength/PG2 spectrometer/photon wavelength increment{{/code}}
	376	//saved on DEMAND (PBD spectrometer stream)//
	377	DOOCS prop : ==
	378	DAQ channel: ==
	379	desc : start value (in nm) for the wavelength axis of the XUV Spectrum measured with the "PG2 spectrometer"
1.1	380	units : nm
	381
79.1	382	{{code language="none"}}/FL1/Photon Diagnostic/Wavelength/PG2 spectrometer/photon wavelength start value{{/code}}
	383	//saved on DEMAND (PBD spectrometer stream)//
	384	DOOCS prop : ==
	385	DAQ channel: ==
	386	desc : increment value (in nm) for each pixel for the wavelength axis of the XUV Spectrum measured with the "PG spectrometer"
1.1	387	units : nm
	388
4.1	389	[[Contents>>doc:\|\|anchor="Contents"]]
1.1	390
	391	==== Electron Beam properties (FLASH1) ====
	392
	393	===== bunch charge =====
	394
79.1	395	{{code language="none"}}/FL1/Electron Diagnostic/Bunch charge/after undulator{{/code}}
	396	//always saved (PBD)//
	397	DOOCS prop : {{code language="none"}}FLASH.DIAG/TOROID.ML/12EXP/CHARGE.FLASH1{{/code}}
	398	DAQ channel: {{code language="none"}}FLASH.DIAG/TOROID/12EXP{{/code}}
	399	desc: electron bunch charge (FLASH1)
1.1	400	units: nC
	401
5.1	402	=====
57.1	403	arrival time (BAM) =====
1.1	404
57.1	405	{{info title="BAM information: updates 2022"}}
59.1	406	* 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"]]
57.1	407	* The data format of the BAM has been completely altered in the 2022 shutdown
	408	* 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 ...
61.1	409	* THIS is now different. There are new parameters saving only the arrival times for pulses that go to FL1 and to FL2 (in detail: first time slot of the accelerator and second)
57.1	410	* There has been also a renaming (and relocation) of the BAMs.
	411	** acc: 4DBC3 → FL0.DBC2
	412	** FL1: 1SFELC → FL1.SFELC
79.1	413	** FL2: FL2XTDS → (% style="color:#172b4d" %)FL2.SEED5
57.1	414	* for more Info: [[LINK to detailed infos from MSK>>url:https://confluence.desy.de/display/SDiagPublic/BAM+Data+Structure\|\|shape="rect"]]
	415	* [[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]]
	416	* a recent [[talk about the working principle of the BAM>>attach:BAM-basics and outlook-2018_DESY-template_16-9Format.pdf]]
	417	{{/info}}
	418
	419	{{expand title="Discontinued BAM format (used until end 2021)"}}
79.1	420	(% style="color:#000000" %)Discontinued BAM data recording
57.1	421
79.1	422	{{code language="none"}}/FL1/Electron Diagnostic/BAM/4DBC3/electron bunch arrival time (low charge){{/code}}
	423	//always saved (PBD)//
	424	DOOCS prop : {{code language="none"}}FLASH.SDIAG/BAM/4DBC3/LOW_CHARGE_ARRIVAL_TIME{{/code}}
	425	DAQ channel: {{code language="none"}}FLASH.SDIAG/BAM.DAQ/4DBC3.LOW_CHARGE_ARRIVAL_TIME{{/code}}
	426	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).
33.1	427	units: ps (bigger numbers indicate later arrivaltime of the electrons)
1.1	428
58.1	429
79.1	430	{{code language="none"}}/FL1/Electron Diagnostic/BAM/1SFELC/electron bunch arrival time (low charge){{/code}}
	431	//always saved (PBD)//
	432	DOOCS prop : {{code language="none"}}FLASH.SDIAG/BAM/1SFELC/LOW_CHARGE_ARRIVAL_TIME{{/code}}
	433	DAQ channel: {{code language="none"}}FLASH.SDIAG/BAM.DAQ/1SFELC.LOW_CHARGE_ARRIVAL_TIME{{/code}}
	434	desc: Electron bunch arrival time measured with the BAM before the undulator (pulse resolved data). This one was newly installed in 2020.
58.1	435	units: ps (bigger numbers indicate later arrival time of the electrons)
57.1	436	{{/expand}}
33.1	437
68.1	438	====== BAM FL0.DBC2{{code language="none"}}{{/code}} ======
	439
79.1	440	(% style="color:#ff6600" %)DBC2/electron bunch arrival time (HDF5 name not yet implemented - see zraw)(%%)
68.1	441	//always saved (PBD)//
74.1	442	{{code language="none"}}/FL1/Electron Diagnostic/BAM/ {{/code}}DOOCS prop : FLASH.SDIAG/BAM/FL0.DBC2/ARRIVAL_TIME.ABSOLUTE.SA1.COMP
79.1	443	DAQ (% style="color:#000000" %)channel: FLASH.SDIAG/BAM/FL0.DBC2/ARRIVAL_TIME.ABSOLUTE.SA1.COMP (%%)
74.1	444	desc: Electron bunch arrival time measured with the BAM inside the accelerator (after bunch compressor 2). The property contains only the arrival time of the bunches sent to FL1 (e.g. if there are 30 bunches in FL1 the first 30 values are the arrival time the remaining numbers still may have arbitrary numbers looking like a signal which they are not ). These are the same values as the "raw" data below - just "cleaned". The values show a very good correlation to the arrival time of the XUV pulses in the experiment (see help).
68.1	445
74.1	446	units: fs (bigger numbers (typically) indicate later arrival times of the electrons).
68.1	447
	448
79.1	449	(% style="color:#ff6600" %)DBC2/electron bunch arrival time (raw) (HDF5 name not yet implemented - see zraw){{code language="none"}}/FL1/Electron Diagnostic/BAM/{{/code}}(%%)
	450	//always saved (PBD)//
67.1	451	DOOCS prop : FLASH.SDIAG/BAM/FL0.DBC2/ARRIVAL_TIME.ABSOLUTE
79.1	452	DAQ channel: (% style="color:#000000" %)FLASH.SDIAG/BAM/FL0.DBC2/ARRIVAL_TIME.ABSOLUTE (%%)
68.1	453	desc: Electron bunch arrival time measured with the BAM inside the accelerator (after bunch compressor 2). Here the complete bunch train from the FEL is recorded (FLASH1 and FLASH2 pulses). Thus there are values from FLASH 1 in the first part. they may be separated by several "0" values if the reprate is different from 1 MHz ... - It shows a very good correlation to the arrival time of the XUV pulses in the experiment (see help).
58.1	454	units: fs (bigger numbers (typically) indicate later arrival times of the electrons).
	455
57.1	456
79.1	457	(% style="color:#ff6600" %)DBC2/error (HDF5 name not yet implemented - see zraw){{code language="none"}}/FL1/Electron Diagnostic/BAM/{{/code}}(%%)
	458	//always saved (PBD)//
85.3	459	DOOCS prop : FLASH.SDIAG/BAM/FL0.DBC2/ARRIVAL_TIM(% style="color:#000000" %)E.bamError.1(%%)
85.4	460	DAQ channel: (% style="color:#000000" %)FLASH.SDIAG/BAM/FL0.DBC2/ARRIVAL_TIME.BAMERROR.1(%%)
85.2	461	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
57.1	462
58.1	463
79.1	464	(% style="color:#ff6600" %)DBC2/status (HDF5 name not yet implemented - see zraw){{code language="none"}}/FL1/Electron Diagnostic/BAM/{{/code}}(%%)
	465	//always saved (PBD)//
	466	DOOCS prop : FLASH.SDIAG/BAM/FL0.DBC2/ARRIVAL_TIM(% style="color:#000000" %)E..bamStatus.//1//(%%)
	467	DAQ channel(% style="color:#000000" %): FLASH.SDIAG/BAM/FL0.DBC2/ARRIVAL_TIME.BAMSTATUS.1(%%)
	468	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
57.1	469
	470
68.1	471	====== BAM FL1.SFELC{{code language="none"}}{{/code}} ======
	472
79.1	473	(% style="font-family:SFMono-Medium,~"SF Mono~",~"Segoe UI Mono~",~"Roboto Mono~",~"Ubuntu Mono~",Menlo,Courier,monospace; letter-spacing:0.0px" %)/FL1/Electron Diagnostic/BAM/SFELC(% style="color:#ff6600" %)/electron bunch arrival time (HDF5 name not yet implemented - see zraw)
68.1	474
	475	//always saved (PBD)//
79.1	476	(% style="color:#172b4d" %)FL1.SFELC(%%)
	477	(% style="color:#000000" %)channel: FLASH.SDIAG/BAM/(% style="color:#172b4d" %)FL1.SFELC(% style="color:#000000" %)/ARRIVAL_TIME.ABSOLUTE.SA1.COMP
	478	{{code language="none"}} DOOCS prop : FLASH.SDIAG/BAM//ARRIVAL_TIME.ABSOLUTE.SA1.COMPDAQ {{/code}}(% style="letter-spacing:0.0px" %)desc: Electron bunch arrival time measured with the BAM before the undulator (pulse resolved data). This one was newly installed in 2020.. The property contains only the arrival time of the bunches sent to FL1 (e.g. if there are 30 bunches in FL1 the first 30 values are the arrival time the remaining numbers still may have arbitrary numbers looking like a signal which they are not). These are the same values as the "raw" data below - just "cleaned". The values show a very good correlation to the arrival time of the XUV pulses in the experiment (see help).
68.1	479	units: fs (bigger numbers (typically) indicate later arrival times of the electrons).
	480
	481
	482
79.1	483	(% style="color:#172b4d" %)SFELC(% style="color:#ff6600" %)/electron bunch arrival time (raw) (HDF5 name not yet implemented - see zraw){{code language="none"}}/FL1/Electron Diagnostic/BAM/{{/code}}(%%)
	484	//always saved (PBD)//
	485	DOOCS prop : FLASH.SDIAG/BAM/(% style="color:#172b4d" %)FL1.SFELC(%%)/ARRIVAL_TIME.ABSOLUTE
	486	DAQ channel: (% style="color:#000000" %)FLASH.SDIAG/BAM/FL1.SFELC/ARRIVAL_TIME.ABSOLUTE (%%)
68.1	487	desc: Electron bunch arrival time measured with the BAM before the undulator (pulse resolved data). This one was newly installed in 2020. Here the complete bunch train from the FEL is recorded (FLASH1 and FLASH2 pulses). Thus there are values from FLASH 1 in the first part. they may be separated by several "0" values if the reprate is different from 1 MHz ... - It shows a very good correlation to the arrival time of the XUV pulses in the experiment (see help).
58.1	488	units: fs (bigger numbers (typically) indicate later arrival times of the electrons).
	489
	490
79.1	491	(% style="color:#172b4d" %)SFELC(% style="color:#ff6600" %)/error (HDF5 name not yet implemented - see zraw){{code language="none"}}/FL1/Electron Diagnostic/BAM/{{/code}}(%%)
	492	//always saved (PBD)//
	493	DOOCS prop : FLASH.SDIAG/BAM/(% style="color:#172b4d" %)FL1.SFELC(%%)/ARRIVAL_TIM(% style="color:#000000" %)E.bamError(%%)
	494	DAQ channel(% style="color:#000000" %): FLASH.SDIAG/BAM/FL1.SFELC/ARRIVAL_TIME.BAMERROR(%%)
58.1	495	desc: If the value is 0 , the BAM is working well. If it is non-zero there is a problem !!
	496
	497
79.1	498	(% style="color:#172b4d" %)SFELC(% style="color:#ff6600" %)/status (HDF5 name not yet implemented - see zraw){{code language="none"}}/FL1/Electron Diagnostic/BAM/{{/code}}(%%)
	499	//always saved (PBD)//
	500	DOOCS prop : FLASH.SDIAG/BAM/(% style="color:#172b4d" %)FL1.SFELC(%%)/ARRIVAL_TIM(% style="color:#000000" %)E..bamStatus.//1//(%%)
	501	DAQ chann(% style="color:#000000" %)el: FLASH.SDIAG/BAM/FL1.SFELC/ARRIVAL_TIME.BAMSTATUS.1(%%)
59.1	502	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
58.1	503
	504
33.1	505
1.1	506	===== electron beam profile =====
	507
79.1	508	{{code language="none"}}/FL1/Electron Diagnostic/Electron bunch profile/TDS profile{{/code}}
	509	//always saved (PBD) - IF LOLA is ON and ACTIVATED in the PBD DAQ (talk to expert)//
	510	DOOCS prop : {{code language="none"}}TTF2.DAQ/BEAM.PROF.ML/BEAM.PROF/OUT.PROF.CCCED{{/code}}
	511	DAQ channel: {{code language="none"}}PBD.BEAM.PROF.ML/DAQ.OUT.PROF.CCCED{{/code}}
	512	desc: temporal profile of electron bunch, y axis in Ampers (FLASH1)
1.1	513	units: pixel
79.1	514
1.1	515
79.1	516	{{code language="none"}}/FL1/Electron Diagnostic/Electron bunch profile/Expert stuff/TDS calibration constant{{/code}}
	517	//always saved (PBD) - IF LOLA is ON and ACTIVATED in the PBD DAQ (talk to expert)//
	518	DOOCS prop : {{code language="none"}}TTF2.DAQ/BEAM.PROF.ML/BEAM.PROF/CALIB.CONST.T{{/code}}
	519	DAQ channel: = PBD.BEAM.PROF.ML/CCT=
	520	desc: TDS calibration constant for the x-axis of the profiles: fs per pixel
1.1	521	units: fs per pixel
79.1	522
1.1	523
79.1	524	{{code language="none"}}/FL1/Electron Diagnostic/Electron bunch profile/TDS profile width rms{{/code}}
	525	//always saved (PBD) - IF LOLA is ON and ACTIVATED in the PBD DAQ (talk to expert)//
	526	DOOCS prop : {{code language="none"}}TTF2.DAQ/BEAM.PROF.ML/BEAM.PROF/SOWS.W.CCTED{{/code}}
	527	DAQ channel: {{code language="none"}}PBD.BEAM.PROF.ML/PROFWIDTHCCTED{{/code}}
	528	desc: rms pulse width of the measures TDS electron bunch profile
1.1	529	units: fs
	530
	531	===== electron bunch energy =====
	532
79.1	533	{{code language="none"}}/FL1/Electron Diagnostic/Electron energy/average electron energy{{/code}}
	534	//always saved (PBD)//
	535	DOOCS prop : {{code language="none"}}TTF2.DAQ/ENERGY.DOGLEG/E_INTRA_MEAN/VAL{{/code}}
	536	DAQ channel: {{code language="none"}}PBD.ENERGY.DOGLEG/E_MEAN{{/code}}
	537	desc: electron bunch energy (average over the bunch train)
2.1	538	units: (% class="twikiNewLink" %)MeV(%%)
79.1	539
1.1	540
79.1	541	{{code language="none"}}/FL1/Electron Diagnostic/Electron energy/pulse resolved energy{{/code}}
	542	//always saved (PBD)//
	543	DOOCS prop : {{code language="none"}}TTF2.DAQ/ENERGY.DOGLEG/E_SPECT/VAL.TD{{/code}}
	544	DAQ channel: {{code language="none"}}PBD.ENERGY.DOGLEG/E_SPECT{{/code}}
	545	desc: electron bunch energy bunch resolved
5.1	546	units: (% class="twikiNewLink" %)MeV
1.1	547
	548
79.1	549	{{code language="none"}}/FL1/Electron Diagnostic/Electron energy/wavelength bunch train average{{/code}}
	550	//always saved (PBD)//
	551	DOOCS prop : {{code language="none"}}TTF2.DAQ/ENERGY.DOGLEG/LAMBDA_MEAN/VAL{{/code}}
	552	DAQ channel: {{code language="none"}}PBD.ENERGY.DOGLEG/LAMBDA_MEAN{{/code}}
	553	desc: Wavelength calculated by the electron bunch energy (average over the bunch train) (FLASH1)
1.1	554	units: nm
79.1	555
1.1	556
4.1	557	[[Contents>>doc:\|\|anchor="Contents"]]
1.1	558
	559
5.1	560	==== Timing information, rep rate etc. (FLASH1) ====
1.1	561
	562	===== bunch repetition rate =====
	563
79.1	564	{{code language="none"}}/FL1/Timing/repetition rate{{/code}}
	565	//always saved (PBD)//
	566	DOOCS prop : {{code language="none"}}FLASH.DIAG/TIMER/FLASHCPUTIME1.0/REP_RATE_KHZ.1{{/code}}
	567	DAQ channel: {{code language="none"}}TTF2.UTIL/LASER.CONTROL/GUN/PULSE_FREQ{{/code}}
1.1	568	desc: repetition rate of the bunches / pulses within the burst (FLASH1)
	569	units: kHz
79.1	570
1.1	571
	572	===== set number of pulses =====
	573
79.1	574	(% style="color:#ff6600" %)(HDF5 name not yet implemented - see zraw)(% style="color:#ff0000" %){{code language="none"}}/FL1/Timing/set number of bunches {{/code}}(%%)
	575	//always saved (PBD)//
74.1	576	DOOCS prop : {{code language="none"}}FLASH.DIAG/TIMINGINFO/TIME1.BUNCH_FIRST_INDEX.1 [4th number]{{/code}}
	577	DAQ channel: {{code language="none"}}FLASH.DIAG/TIMINGINFO/TIME1.BUNCH_FIRST_INDEX.1 [4th number]{{/code}}
	578	desc: Number of bunches set in the control (timing) system. The property contains 4 numbers. the last one is the number of pulses (see also [[doc:FLASH.Timing properties]] (internal link)). If pulses are used for diagnostic of the protection system of the accelerator limits the number of bunches to be accelerated and thus the actual number of pulses may be smaller than the set one
1.1	579	units:
	580
	581	===== actual number of pulses =====
	582
79.1	583	{{code language="none"}}/FL1/Timing/actual number of bunches{{/code}}
	584	//always saved (PBD)//
	585	DOOCS prop : {{code language="none"}}FLASH.DIAG/TOROID.ML/12EXP/NUMBEROFBUNCHES.FLASH1{{/code}}
	586	DAQ channel: {{code language="none"}}TTF2.DIAG/PBD.TOROID.ML/12EXP{{/code}}
	587	desc: Number of bunches measured BEHIND the undulator. If pulses are used for diagnostic of the protection system of the accelerator limits the number of bunches to be accelerated this is the actual number that created XUV radiation.The number is calculated by the DAQ middle layer server, (FLASH1)
1.1	588	units:
79.1	589
1.1	590
	591	===== actual pulse pattern recorded after the undulator =====
	592
79.1	593	{{code language="none"}}/FL1/Timing/Bunch pattern/pattern after undulator{{/code}}
	594	//always saved (PBD)//
	595	DOOCS prop : {{code language="none"}}TTF2.DIAG/PBD.TOROID.ML/12EXP/CHARGE.TD{{/code}}
	596	DAQ channel: {{code language="none"}}TTF2.DIAG/PBD.TOROID.ML/12EXP{{/code}}
	597	desc: The bunch pattern as function of time in a burst recorded by toroid diagnostic BEHIND the undulator. (FLASH1)
1.1	598	units:
79.1	599
1.1	600
	601	===== Train ID =====
	602
79.1	603	{{code language="none"}}/Timing/train ID{{/code}}
	604	//always saved (PBD)//
	605	DOOCS prop : {{code language="none"}}none{{/code}}
	606	DAQ channel: {{code language="none"}}none{{/code}}
	607	desc: Each 10 Hz burst has its unique train ID. For the HDF5 data set the ID is the same for all parameters with the same index (note camera images may be shifted by 1 ID - talk to the experts !)
1.1	608	units:
79.1	609
1.1	610
	611	===== Train time =====
	612
79.1	613	{{code language="none"}}/Timing/train time{{/code}}
	614	desc:Local time as array of day, hour, minute, second, and centisecond. This data set is meant for visualization purposes only. For correlations use the train ID or the Unix time of the time stamp
1.1	615	units: d h min s cs
79.1	616
1.1	617
79.1	618	{{code language="none"}}/Timing/time stamp{{/code}}
	619	desc:first column: Local time in unix time. To get day, hour, minute, second you can use unix: e.g. date ~-~-date='@1553617729' or matlab, python etc
	620	second column: microseconds
1.1	621	third column: Train ID of FLASH
79.1	622
1.1	623
4.1	624	[[Contents>>doc:\|\|anchor="Contents"]]
1.1	625
	626
	627	==== Pump Probe Laser (FLASH1) ====
	628
63.1	629	PIGLET (PG laser)
62.1	630
63.1	631	{{code language="none"}}/FL1/Experiment/Pump probe laser{{/code}}
	632
83.1	633	{{info width="30%"}}
80.1	634	list of saved parameters status May 2024 (up to now the parameters can be found in /zraw/ ... )
63.1	635
82.1	636	Download the PDF:
	637
83.1	638	{{view-file att--filename="FSLADAQ-DAQParameterlistPiGLET.pdf"}}{{/view-file}}
	639
	640
81.1	641
80.1	642	{{/info}}
69.1	643
62.1	644	{{expand title="Parameters used until 2021"}}
79.1	645	{{code language="none"}}
	646	/FL1/Experiment/Pump probe laser/laser attenuation
	647	{{/code}}
5.1	648
79.1	649	//always saved (PBD)//
	650	DOOCS prop : {{code language="none"}}TTF2.FEL/PPDELAYCAL/PPDELAYCAL/ROT2.CURRENT{{/code}}
	651	DAQ channel: {{code language="none"}}TTF2.FEL/PPDELAYCAL/PPDELAYCAL/ROT2.CURRENT{{/code}}
	652	desc: attenuation of the PPLaser (rotation of a waveplate)
1.1	653	units : 0 no transmission , 1: full transmission
	654
5.1	655
79.1	656	{{code language="none"}}/FL1/Experiment/Pump probe laser/laser delay{{/code}}
	657	//always saved (PBD)//
	658	DOOCS prop : {{code language="none"}}TTF2.FEL/PPDELAYCAL/PPDELAYCAL/DLY1.CURRENT{{/code}}
	659	DAQ channel: {{code language="none"}}TTF2.FEL/PPDELAYCAL/PPDELAYCAL/DLY1.CURRENT{{/code}}
	660	desc: delay of the Pump probe laser - measured by the read back position of the motor. only read out every secound ... better use the encoder
1.1	661	units : ps ( pos delay means IR comes later)
	662
5.1	663
79.1	664	{{code language="none"}}/FL1/Experiment/Pump probe laser/delay line IK220.0/ENC.DELAY{{/code}}
	665	//always saved (PBD)//
	666	DOOCS prop : {{code language="none"}}TTF2.FEL/DELLINE.ENC/IK220.0/ENC.DELAY{{/code}}
	667	DAQ channel: {{code language="none"}}TTF2.FEL/DELLINE.ENC/IK220.0:ENC.DELAY{{/code}}
	668	subsystem: {{code language="none"}}DELLINE.ENC{{/code}} desc : delay of the Pump probe laser - measured by an encoder. The position is read out with 10Hz train synchronized and should be used to determine the actual laser delay (the motor position is only read out about every second
1.1	669	units : ps ( pos delay means IR comes later)
	670
5.1	671
79.1	672	{{code language="none"}}/FL1/Experiment/Pump probe laser/Synchronization/timing jitter RMS GECCO{{/code}}
	673	//always saved (PBD)//
	674	DOOCS prop : {{code language="none"}}FLASH.SYNC/F1PPL.LASER_LOCK/28C.F1PPL1.CONTROLLER/ADV_CTRL_MANAGER.0.PID_INPUT_JITTER.2.RD{{/code}}
	675	DAQ channel: {{code language="none"}}FLASH.SYNC/F1PPL.LASER_LOCK/28C.F1PPL1.CONTROLLER/ADV_CTRL_MANAGER.0.PID_INPUT_JITTER.2.RD{{/code}}
2.1	676	desc: rms jitter of the GECCO (% class="twikiNewLink" %)TiSa(%%) Oscillator units: fs
1.1	677
	678
79.1	679	{{code language="none"}}/FL1/Experiment/Pump probe laser/streak camera delay time{{/code}}
	680	//always saved (PBD)//
	681	DOOCS prop : {{code language="none"}}TTF2.FEL/TDOLFEL/TDOLFEL/STREAK.CAM.TIME{{/code}}
	682	DOOCS prop : {{code language="none"}}TTF2.FEL/TDOLFEL/TDOLFEL/STREAK.CAM.TIME{{/code}}
52.1	683	desc: delay time between the optical laser and the FEL units: ps
62.1	684	{{/expand}}
1.1	685
	686
4.1	687	[[Contents>>doc:\|\|anchor="Contents"]]
1.1	688
	689
	690	==== User Data (FLASH1) ====
	691
52.1	692	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.
18.1	693
	694	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
	695
	696	The most common and permanently installed device used by experiment are our ADCs:
	697
1.1	698	===== GHz ADCs =====
	699
79.1	700	ADC traces of the (SPDevices 412) GHZ ADCs available for the users . More information about the ADCs can be found [[here>>doc:FLASHUSER.Data Acquisition and controls.Controls (DOOCS, jDDD,\.\.\.).MTCA ADCs.WebHome]]
	701	//saved on DEMAND in the user DAQ//
1.1	702	\\The HDF5 names for the ADC traces are depending on the beamline :
79.1	703	\\PG Beamline:
	704	{{code language="none"}}/FL1/Experiment/PG/ADQ412 GHz ADC/CH00/TD{{/code}}
	705	{{code language="none"}}/FL1/Experiment/PG/ADQ412 GHz ADC/CH01/TD{{/code}}
	706	{{code language="none"}}/FL1/Experiment/PG/ADQ412 GHz ADC/CH02/TD{{/code}}
1.1	707	{{code language="none"}}/FL1/Experiment/PG/ADQ412 GHz ADC/CH03/TD{{/code}}
	708
79.1	709	BL Beamlines:
	710	{{code language="none"}}/FL1/Experiment/BL1/ADQ412 GHz ADC/CH00/TD{{/code}}
	711	{{code language="none"}}/FL1/Experiment/BL1/ADQ412 GHz ADC/CH01/TD{{/code}}
	712	{{code language="none"}}/FL1/Experiment/BL1/ADQ412 GHz ADC/CH02/TD{{/code}}
	713	{{code language="none"}}/FL1/Experiment/BL1/ADQ412 GHz ADC/CH03/TD{{/code}}
	714	\\{{code language="none"}}/FL1/Experiment/BL2/ADQ412 GHz ADC/CH00/TD{{/code}}
	715	{{code language="none"}}/FL1/Experiment/BL2/ADQ412 GHz ADC/CH01/TD{{/code}}
	716	\\{{code language="none"}}/FL1/Experiment/BL3/ADQ412 GHz ADC/CH02/TD{{/code}}
1.1	717	{{code language="none"}}/FL1/Experiment/BL3/ADQ412 GHz ADC/CH03/TD{{/code}}
	718
79.1	719	DOOCS prop : {{code language="none"}}FLASH.FEL/ADC.ADQ.PG/EXP1.CH00/CH00.TD or CH00.DAQ.TD{{/code}}
52.1	720	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.
1.1	721	DAQ channel: {{code language="none"}}FLASH.FEL/ADC.ADQ.PG/EXP1.CH00{{/code}}
	722
18.1	723	In addition there are also additional parameters saved like:
1.1	724
16.1	725	* {{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.
52.1	726	* {{code language="none"}}number of samples{{/code}}: total number of samples recorded for each 10 Hz trigger
79.1	727	* {{code language="none"}}error (ADC):{{/code}}0 indicates that there was no error
1.1	728
	729	===== MHz ADCs =====
	730
79.1	731	similar to the GHz ADCs the MHz ADCs are saved with HDF5 names like:
	732	{{code language="none"}}/FL1/Experiment/BL1/SIS8300 100MHz ADC/CH2/TD{{/code}}
	733	DOOCS prop : FLASH.FEL/ADC.SIS.BL1/EXP1.CH02/CH00.TD
1.1	734	DAQ channel: : FLASH.FEL/ADC.SIS.BL1/EXP1.CH02
	735
18.1	736	In addition there are also additional parameters saved like:
1.1	737
18.1	738	* {{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.
52.1	739	* {{code language="none"}}number of samples{{/code}}: total number of samples recorded for each 10 Hz trigger
18.1	740
4.1	741	[[Contents>>doc:\|\|anchor="Contents"]]
1.1	742
18.1	743
	744
	745
1.1	746	=== FLASH2 ===
	747
7.1	748	There is analog to FLASH1 a permanently running "PhotonDagnostic DAQ FLASH2" (PBD2) and 2 User DAQs
1.1	749
7.1	750	==== Beamline info (FLASH2) ====
6.1	751
79.1	752	{{code language="none"}}/FL2/Beamlines/Attenuator/pressure {{/code}}
	753	(% style="color:#000000" %)//always saved (PBD2)// (%%)
	754	(% style="color:#000000" %)DOOCS prop : {{code language="none"}}FLASH.FEL/ATT.GAS_DOSING/FL2.HALL/PRESSURE{{/code}} (%%)
	755	(% style="color:#000000" %)DAQ channel: {{code language="none"}}FLASH.FEL/ATT.GAS_DOSING/FL2.HALL/PRESSURE{{/code}} (%%)
	756	(% style="color:#000000" %)desc: set pressure in the gas attenuator (%%)
	757	(% style="color:#000000" %)units: mbar(%%)
	758
5.1	759
79.1	760	{{code language="none"}}/FL2/Beamlines/FL20/Shutter/open{{/code}}
	761	//always saved (PBD2)//
	762	DOOCS prop : {{code language="none"}}FLASH.FEL/ADC.SIS.FL2FS/FL20.SHUTTER/CH00.TD{{/code}}
	763	DAQ channel: {{code language="none"}}FLASH.FEL/ADC.SIS.FL2FS/FL20.SHUTTER{{/code}}
	764	desc: BL Beamline Fast shutter state: 1 is open, 0 is closed ( for technical reasons there are 100 vales of this state saved ...)
6.1	765	units: none
5.1	766
	767
79.1	768	{{code language="none"}}/FL2/Beamlines/Filter wheel/position wheel 1{{/code}}
	769	//always saved (PBD2)//
	770	DOOCS prop : {{code language="none"}}FLASH.FEL/FL20H.PH.MOTOR/MOTOR1.MOT3/FPOS{{/code}}
	771	DAQ channel: FLASH.FEL/FL20H.PH.MOTOR/MOTOR1.MOT3/FPOS
24.1	772	desc: Position of the BL filter wheel 1 - to correlate with the filter material please look [[here>>doc:FLASHUSER.jddd-linked help pages.Filter-Units.Filter wheels in FLASH1 and FLASH2.WebHome]]
6.1	773	units: degree
79.1	774
6.1	775
79.1	776	/FL2/Beamlines/Filter wheel/position wheel 2
	777	always saved (PBD2)
	778	DOOCS prop : {{code language="none"}}FLASH.FEL/FL20H.PH.MOTOR/MOTOR2.MOT3/FPOS{{/code}}
	779	DAQ channel: {{code language="none"}}FLASH.FEL/FL20H.PH.MOTOR/MOTOR2.MOT3/FPOS{{/code}}
40.1	780	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]]
	781	units: degree
6.1	782
8.1	783
	784	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
	785
6.1	786	[[Contents>>doc:\|\|anchor="Contents"]]
	787
	788
	789
10.1	790	==== Photon Diagnostics SASE ([[XGMD>>url:http://photon-science.desy.de/facilities/flash/photon_diagnostics/gmd_intensity_and_position/index_eng.html\|\|shape="rect"]] - FLASH2) ====
8.1	791
79.1	792	{{code language="none"}}/FL2/Photon Diagnostic/GMD/Average energy/energy tunnel{{/code}}
	793	//always saved (PBD2)//
	794	DOOCS prop : {{code language="none"}}FLASH.FEL/XGM.PHOTONFLUX/FL2.TUNNEL/PHOTONFLUX.UJ{{/code}}
	795	DAQ channel:{{code language="none"}} FLASH.FEL/XGM.PHOTONFLUX/FL2.TUNNEL/PHOTONFLUX.UJ{{/code}}
	796	desc : calibrated average ( ~~ 20 sec averaging time ) SASE Energy/pulse measured in the TUNNEL before the attenuator (ion current)
8.1	797	units : microJ
	798
	799
79.1	800	{{code language="none"}}/FL2/Photon Diagnostic/GMD/Pulse resolved energy/energy tunnel{{/code}}
	801	//always saved (PBD2)//
	802	DOOCS prop : {{code language="none"}}FLASH.FEL/XGM.INTENSITY/FL2.TUNNEL/INTENSITY.TD{{/code}}
	803	DAQ channel: {{code language="none"}}FLASH.FEL/XGM.INTENSITY/FL2.TUNNEL/INTENSITY.TD{{/code}}
38.1	804	desc : Energy per pulse measured in the Tunnel (in front of the gas attenuator and the apertures in the Hall) In addition measurement errors and beam position are included for EACH pulse in the pulse train !! (see below)
23.1	805	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]]
8.1	806
39.1	807	{{info title="GMD pulse resolved data structure"}}
79.1	808	For every pulse in the pulse train the information is saved:
38.1	809
8.1	810
38.1	811	1. Intensity per pulse (a.u. (more or less µJ ))
	812	1. Intensity per pulse (auxillary GMD) - not used
39.1	813	1. Position horizontal (mm, for a single pulse the position information may be very noisy - talk to your local contact)
	814	1. Position vertical (mm, for a single pulse the position information may be very noisy - talk to your local contact)
79.1	815	1. Intensity per pulse sigma (a.u. (more or less µJ ), (% style="color:#000000" %)This parameter gives an indication of the error of the measurement of the pulse energy. This takes signal to noise, detector resolution, uncertainties in crossection etc into account. (it is NOT the measurement of the statistical fluctuation of the SASE pulses)(%%))
38.1	816	1. Position horizontal sigma (mm, indicates the error (RMS, sigma) of the measurement according to known uncertainties and signal to noise)
	817	1. Position vertical sigma (mm, indicates the error (RMS, sigma) of the measurement according to known uncertainties and signal to noise)
	818	1. Combined warning and error flags
8.1	819
38.1	820	The pulse energy and the error are plotted for the first bunch of the pulse trains saved in this
	821	file
8.1	822
38.1	823
	824	[[image:attach:image2021-2-9_10-51-6.png\|\|height="250"]]
8.1	825
79.1	826
39.1	827	{{/info}}
38.1	828
8.1	829
79.1	830	All values for the GMD are also available for the HALL GMD which is located in the experimental hall down stream the gas attenuator. If the attenuator is on the ratio between Hall and Tunnel signal shows the attenuation. BUT NOTE that the filter unit and the Aperture 4 are downstream the GMD. So if filters and aperture are used this influence is NOT measured by the GMD hall !
8.1	831
	832
9.1	833	Besides pulse energy the GMD also provides information about the beam position
8.1	834
9.1	835
79.1	836	{{code language="none"}}/FL2/Photon Diagnostic/GMD/Average Beam position/position tunnel horizontal{{/code}}
	837	//always saved (PBD2)//
	838	DOOCS prop : {{code language="none"}}FLASH.FEL/XGM.POSMON/FL2.TUNNEL/IX.POS{{/code}}
	839	DAQ channel: {{code language="none"}}FLASH.FEL/XGM.POSMON/FL2.TUNNEL/IX.POS{{/code}}
	840	desc : the Average ( ~~ 20 sec averaging time ) Beam position of the photon Beam determined by the GMD (tunnel, x=horizontal)
8.1	841	units : mm
	842
9.1	843
79.1	844	{{code language="none"}}/FL2/Photon Diagnostic/GMD/Average Beam position/position tunnel vertical{{/code}}
	845	//always saved (PBD2)//
	846	DOOCS prop : {{code language="none"}}FLASH.FEL/XGM.POSMON/FL2.TUNNEL/IY.POS{{/code}}
	847	DAQ channel: {{code language="none"}}FLASH.FEL/XGM.POSMON/FL2.TUNNEL/IY.POS{{/code}}
	848	desc : the Average ( ~~ 20 sec averaging time ) Beam position of the photon Beam determined by the GMD (tunnel, x=horizontal)
8.1	849	units : mm
	850
	851
79.1	852	/FL2/Photon Diagnostic/GMD/Pulse resolved beam position/position tunnel x
40.1	853	always saved (PBD2)
	854	DOOCS prop : FLASH.FEL/XGM.BPM/FL2.HALL/X.TD
79.1	855	DAQ channel: FLASH.FEL/XGM.BPM/FL2.HALL:2
40.1	856	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 ...)
	857	units : mm
8.1	858
40.1	859	(x=horizontal, y = vertial)
9.1	860
	861	again the same parameter set is available for the HALL GMD
	862
8.1	863
9.1	864
15.1	865	==== Photon Diagnostics OPIS[[ >>url:http://photon-science.desy.de/facilities/flash/photon_diagnostics/opis_spectrometer/index_eng.html\|\|shape="rect"]](FLASH2) ====
10.1	866
19.1	867	for more info see: [[ OPIS>>url:http://photon-science.desy.de/facilities/flash/photon_diagnostics/opis_spectrometer/index_eng.html\|\|shape="rect"]]
10.1	868
	869	(The OPIS hall is not installed yet ...)
	870
9.1	871
10.1	872	{{code language="none"}}/FL2/Photon Diagnostic/Wavelength/OPIS tunnel/Processed/mean photon energy{{/code}}
79.1	873	// saved opon request (PBD2)//
	874	DOOCS prop : {{code language="none"}}FLASH.UTIL/STORE/FL2.TUNNEL.OPIS/VAL042{{/code}}
	875	DAQ channel:{{code language="none"}} FLASH.UTIL/STORE/FL2.TUNNEL.OPIS/VAL042{{/code}}
10.1	876	desc : mean photon energy ( ~~ 1 sec averaging time ) measured in the TUNNEL for a specific bunch out of the bunch train (via photoelectron spectroscopy)
	877	units : eV
	878
9.1	879
10.1	880	{{code language="none"}}/FL2/Photon Diagnostic/Wavelength/OPIS tunnel/Processed/mean wavelength{{/code}}
79.1	881	// saved opon request (PBD2)//
	882	DOOCS prop : {{code language="none"}}FLASH.UTIL/STORE/FL2.TUNNEL.OPIS/VAL040{{/code}}
10.1	883	DAQ channel:{{code language="none"}} FLASH.UTIL/STORE/FL2.TUNNEL.OPIS/VAL040{{/code}}
52.1	884	desc : mean wavelength ( ~~ 1 sec averaging time ) measured in the TUNNEL for a specific bunch out of the bunch train (via photoelectron spectroscopy)
10.1	885	units : nm
	886
9.1	887
10.1	888	{{code language="none"}}/FL2/Photon Diagnostic/Wavelength/OPIS tunnel/Processed/number of analyzed bunch (in older version this can be found in OPIS tunnel/Expert stuff/General operation parameters/){{/code}}
79.1	889	// saved opon request (PBD2)//
	890	DOOCS prop : {{code language="none"}}FLASH.UTIL/STORE/FL2.TUNNEL.OPIS/VAL060{{/code}}
10.1	891	DAQ channel:{{code language="none"}} FLASH.UTIL/STORE/FL2.TUNNEL.OPIS/VAL060{{/code}}
11.1	892	desc : The bunch number of the bunch used for the wavelength calculation
	893	units :
10.1	894
9.1	895
52.1	896	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"]])
11.1	897
9.1	898
52.1	899	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 ...
12.1	900
9.1	901
	902
12.1	903	==== Electron Beam properties (FLASH2) ====
	904
	905	===== bunch charge =====
	906
79.1	907	{{code language="none"}}/FL2/Electron Diagnostic/Bunch charge/after undulator{{/code}}
	908	//always saved (PBD2)//
12.1	909	DOOCS prop : {{code language="none"}}FLASH.DIAG/PBD2.TOROID.ML/9FL2BURN/CHARGE.FLASH2{{/code}}
79.1	910	DAQ channel: {{code language="none"}}FLASH.DIAG/PBD2.TOROID.ML/9FL2BURN/CHARGE.FLASH2{{/code}}
	911	desc: electron bunch charge FLASH2 (average value for each bunchtrain).
12.1	912	units: nC
	913
9.1	914
52.1	915	===== electron bunch energy =====
9.1	916
52.1	917	{{code language="none"}}/FL2/Electron Diagnostic/Electron energy/energy of first bunch/behind undulators{{/code}}
79.1	918	//always saved (PBD2)//
52.1	919	DOOCS prop : {{code language="none"}}FLASH.DIAG/BEAM_ENERGY_MEASUREMENT/FL2XTDS/ENERGY.FLASH2{{/code}}
79.1	920	DAQ channel: (% style="color:#5e6c84" %)TTF2.DAQ/PBD2.BEAM.ENERGY.MEAS.ML.COPY/FL2XTDS.ENERGY.FLASH2{{code language="none"}}{{/code}}(%%)
	921	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:#5e6c84" %)extraction and septum in the beginning of FLASH2
52.1	922
79.1	923	(% style="letter-spacing:0.0px" %)units: (% class="twikiNewLink" %)MeV
52.1	924
	925
83.1	926	(% style="color: rgb(94, 108, 132); font-weight: 600; letter-spacing: 0px;" %)
	927	===== undulator settings =====
52.1	928
79.1	929	{{code language="none"}}/FL2/Electron Diagnostic/Undulator setting/set wavelength{{/code}}
	930	//always saved (PBD2)//
14.1	931	DOOCS prop : {{code language="none"}}TTF2.FEEDBACK/FL2.WAVELENGTHCONTROL/FLASH2/WAVELENGTH{{/code}}
79.1	932	DAQ channel: {{code language="none"}}TTF2.FEEDBACK/FL2.WAVELENGTHCONTROL/FLASH2/WAVELENGTH{{/code}}
14.1	933	desc: Set value for the anticipated wavelength . This parameter is used to set the undulator gap. It may however deviate from the actual wavelength by several % ...
	934	units: nm
12.1	935
79.1	936	{{code language="none"}}/FL2/Electron Diagnostic/Undulator setting/SASE14 gap{{/code}}
	937	//always saved (PBD2)//
14.1	938	DOOCS prop : {{code language="none"}}FLASH.UTIL/FL2.UND.MOTOR/FL2SASE14/GAP{{/code}}
79.1	939	DAQ channel: {{code language="none"}}FLASH.UTIL/FL2.UND.MOTOR/FL2SASE14/GAP{{/code}}
15.1	940	desc: gap value of the undulators. This can be used to follow up how many undulators were closed and if there was a taper
14.1	941	units: mm
	942
15.1	943	The gap values are saved for all 12 undulators (Nr 3 to 14). Undulator 14 is the one closest to the experimental hall.
14.1	944
12.1	945	=====
59.1	946	arrival time (BAM) =====
12.1	947
59.1	948	{{info title="BAM information: updates 2022"}}
	949	* 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"]]
	950	* The data format of the BAM has been completely altered in the 2022 shutdown
60.1	951	* before 2022 BAMs were always saving the arrival time information for each 1µs bucked regardless if there were electrons in the accelerator or not. I addition the arrival times for FL1 and FL2 were saved in the same parameter ...
61.1	952	* THIS is now different. There are new parameters saving only the arrival times for pulses that go to FL1 and to FL2 (in detail: first time slot of the accelerator and second)
59.1	953	* There has been also a renaming (and relocation) of the BAMs.
	954	** acc: 4DBC3 → FL0.DBC2
	955	** FL1: 1SFELC → FL1.SFELC
79.1	956	** FL2: 8FL2XTDS → (% style="color:#172b4d" %)FL2.SEED5
59.1	957	* for more Info: [[LINK to detailed infos from MSK>>url:https://confluence.desy.de/display/SDiagPublic/BAM+Data+Structure\|\|shape="rect"]]
	958	* [[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]]
	959	* a recent [[talk about the working principle of the BAM>>attach:BAM-basics and outlook-2018_DESY-template_16-9Format.pdf]]
	960	{{/info}}
	961
	962	{{expand title="Discontinued BAM format (used until end 2021)"}}
79.1	963	(% style="color:#000000" %)Discontinued BAM data recording
59.1	964
79.1	965	{{code language="none"}}/FL2/Electron Diagnostic/BAM/8FL2XTDS/electron bunch arrival time (low charge){{/code}}
	966	//always saved (PBD2)//
	967	DOOCS prop : {{code language="none"}}FLASH.SDIAG/BAM/8FL2XTDS/LOW_CHARGE_ARRIVAL_TIME{{/code}}
	968	DAQ channel: {{code language="none"}}FLASH.SDIAG/BAM.DAQ/8FL2XTDS.LOW_CHARGE_ARRIVAL_TIME{{/code}}
	969	desc: Electron bunch arrival time measured with the BAM after the FLASH2 undulator (pulse resolved data)
33.1	970	units: ps (bigger numbers indicate later arrivaltime of the electrons)
	971
79.1	972	FL1{{code language="none"}}//Electron Diagnostic/BAM/4DBC3/electron bunch arrival time (low charge){{/code}}
	973	//always saved (PBD2)//
	974	DOOCS prop : {{code language="none"}}FLASH.SDIAG/BAM/4DBC3/LOW_CHARGE_ARRIVAL_TIME{{/code}}
	975	DAQ channel: {{code language="none"}}FLASH.SDIAG/BAM.DAQ/4DBC3.LOW_CHARGE_ARRIVAL_TIME{{/code}}
	976	desc: Electron bunch arrival time measured with the BAM in the accelerator (pulse resolved data)
14.1	977	units: ps (bigger numbers indicate later arrivaltime of the electrons)
12.1	978
80.1	979	{{info title="BAM hints"}}
79.1	980	* The BAM 4DBC3 measures the arrivaltime of FLASH 1 and FLASH2 in the same data set (thus also sorted in at /FL1/ !).
33.1	981	* The BAM 8FL2XTDS measures only for FLASH2 BUT has the same data structure as the other BAMS ... thus there are also (random) values in in the FLASH1 time slot
	982	** Structure: The first values are for FLASH1 bunches. After a gap of about 70 micros ( 70 colums) with as entry for the switching between FLASH 1 and 2 the values for the electrons used in FLASH2 start. The start time of FLASH2 is also recorded in the DAQ. FLASH1 start time is for historic reasons 700. thus if e.g. the start time of FLASH2 ( property name see below) is 1200 it means that FLASH starts at column 500 (1200-700) ... .In case of doubt ask your local contact
	983	* [[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]]
79.1	984	* [[LINK to detailed infos from MSK (may only work inside DESY network~[~[image:url:http://hasfweb.desy.de/pub/TWiki/TWikiDocGraphics/external-link.gif~\|~\|height="12" width="13"~]~]>>url:http://www.desy.de/~~mbock/pages/BAM_daq_channel_descriptions.html\|\|shape="rect"]]
33.1	985	* a recent [[talk about the working principle of the BAM>>attach:BAM-basics and outlook-2018_DESY-template_16-9Format.pdf]]
	986	{{/info}}
59.1	987	{{/expand}}
10.1	988
68.1	989
	990	====== BAM FL0.DBC2{{code language="none"}}{{/code}} ======
	991
79.1	992	(% style="color:#ff6600" %)DBC2/electron bunch arrival time (HDF5 name not yet implemented - see zraw){{code language="none"}}/FL2/Electron Diagnostic/BAM/{{/code}}
73.1	993
79.1	994	{{code language="none"}}
	995	/zraw/FLASH.SDIAG/BAM.DAQ/FL0.DBC2.ARRIVAL_TIME.ABSOLUTE.SA2.COMP/dGroup/
	996	{{/code}}
73.1	997
68.1	998	//always saved (PBD)//
	999	FL0.DBC2
79.1	1000	(% style="color:#000000" %)channel: FLASH.SDIAG/BAM/FL0.DBC2/ARRIVAL_TIME.ABSOLUTE.SA2.COMP
	1001	{{code language="none"}} DOOCS prop : FLASH.SDIAG/BAM//ARRIVAL_TIME.ABSOLUTE.SA2.COMPDAQ {{/code}}(% style="letter-spacing:0.0px" %)desc: Electron bunch arrival time measured with the BAM inside the accelerator (after bunch compressor 2). The property contains only the arrival time of the bunches sent to FL2 (e.g. if there are 30 bunches in FL2 the first 30 values are the arrival time the remaining numbers still may have arbitrary numbers looking like a signal which they are not0). These are the same values as the "raw" data below - just "cleaned". The values show a very good correlation to the arrival time of the XUV pulses in the experiment (see help).
68.1	1002	units: fs (bigger numbers (typically) indicate later arrival times of the electrons).
	1003
	1004
79.1	1005	(% style="color:#ff6600" %)DBC2/electron bunch arrival time (raw) (HDF5 name not yet implemented - see zraw){{code language="none"}}/FL2/Electron Diagnostic/BAM/{{/code}}
73.1	1006
	1007	{{code language="none"}}/zraw/FLASH.SDIAG/BAM.DAQ/FL0.DBC2.ARRIVAL_TIME.ABSOLUTE.SA2/dGroup/{{/code}}
79.1	1008	//always saved (PBD)//
68.1	1009	{{code language="none"}}DOOCS prop : FLASH.SDIAG/BAM/FL0.DBC2/ARRIVAL_TIME.ABSOLUTE{{/code}}
79.1	1010	(% style="color:#000000" %)FLASH.SDIAG/BAM/FL0.DBC2/ARRIVAL_TIME.ABSOLUTE {{code language="none"}}DAQ channel: {{/code}}(%%)
68.1	1011	desc: Electron bunch arrival time measured with the BAM inside the accelerator (after bunch compressor 2). Here the complete bunch train from the FEL is recorded (FLASH1 and FLASH2 pulses). Thus there are values from FLASH 2 in the second part. they may be separated by several "0" values if the reprate is different from 1 MHz ... - It shows a very good correlation to the arrival time of the XUV pulses in the experiment (see help).
59.1	1012	units: fs (bigger numbers (typically) indicate later arrival times of the electrons).
14.1	1013
59.1	1014
79.1	1015	(% style="color:#ff6600" %)DBC2/error (HDF5 name not yet implemented - see zraw){{code language="none"}}/FL2/Electron Diagnostic/BAM/{{/code}}(%%)
	1016	//always saved (PBD)//
	1017	(% style="color:#000000" %)E.bamError{{code language="none"}}DOOCS prop : FLASH.SDIAG/BAM/FL0.DBC2/ARRIVAL_TIM{{/code}}(%%)
	1018	(% style="color:#000000" %)FLASH.SDIAG/BAM/FL0.DBC2/ARRIVAL_TIME.BAMERROR{{code language="none"}}DAQ channel: {{/code}}(%%)
59.1	1019	desc: If the value is 0 , the BAM is working well. If it is non-zero there is a problem !!
	1020
	1021
79.1	1022	(% style="color:#ff6600" %)DBC2/status (HDF5 name not yet implemented - see zraw){{code language="none"}}/FL2/Electron Diagnostic/BAM/{{/code}}(%%)
	1023	//always saved (PBD)//
	1024	(% style="color:#000000" %)E..bamStatus.//2//{{code language="none"}}DOOCS prop : FLASH.SDIAG/BAM/FL0.DBC2/ARRIVAL_TIM{{/code}}(%%)
	1025	(% style="color:#000000" %): FLASH.SDIAG/BAM/FL0.DBC2/ARRIVAL_TIME.BAMSTATUS.2{{code language="none"}}DAQ channel{{/code}}(%%)
59.1	1026	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
	1027
	1028
85.6	1029	DBC2/error (HDF5 name not yet implemented - see zraw)/FL2/Electron Diagnostic/BAM/
85.5	1030	//always saved (PBD)//
85.6	1031	DOOCS prop : FLASH.SDIAG/BAM/FL0.DBC2/ARRIVAL_TIME.bamError.2
	1032	DAQ channel: FLASH.SDIAG/BAM/FL0.DBC2/ARRIVAL_TIME.BAMERROR.2
	1033	desc: If the value is 0 , the BAM is working well. If it is non-zero there is a problem !!
85.5	1034
	1035	DBC2/status (HDF5 name not yet implemented - see zraw)/FL1/Electron Diagnostic/BAM/
	1036	//always saved (PBD)//
	1037	DOOCS prop : FLASH.SDIAG/BAM/FL0.DBC2/ARRIVAL_TIME..bamStatus.//1//
	1038	DAQ channel: FLASH.SDIAG/BAM/FL0.DBC2/ARRIVAL_TIME.BAMSTATUS.1
	1039	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
	1040
	1041
	1042
68.1	1043	====== BAM FL2.SEED5{{code language="none"}}{{/code}} ======
	1044
79.1	1045	/FL2/Electron Diagnostic/BAM/SEED5(% style="color:#ff6600" %)/electron bunch arrival time (HDF5 name not yet implemented - see zraw)
68.1	1046
79.1	1047	(% style="color:#000000" %){{code language="none"}}/zraw/FLASH.SDIAG/BAM.DAQ/FL0.SEED5.ARRIVAL_TIME.ABSOLUTE.SA2.COMP/dGroup/{{/code}}
73.1	1048
68.1	1049	//always saved (PBD)//
79.1	1050	(% style="color:#172b4d" %)FL2.SEED5(%%)
	1051	(% style="color:#000000" %)channel: FLASH.SDIAG/BAM/(% style="color:#172b4d" %)FL2.SEED5(% style="color:#000000" %)/ARRIVAL_TIME.ABSOLUTE.SA1.COMP
74.1	1052	{{code language="none"}} DOOCS prop : FLASH.SDIAG/BAM//ARRIVAL_TIME.ABSOLUTE.SA1.COMPDAQ {{/code}}(%%)desc: Electron bunch arrival time measured with the BAM before the undulator (pulse resolved data). This one was newly installed in 2020.. The property contains only the arrival time of the bunches sent to FL2 (e.g. if there are 30 bunches in FL2 the first 30 values are the arrival time the remaining numbers still may have arbitrary numbers looking like a signal which they are not). These are the same values as the "raw" data below - just "cleaned". The values show a very good correlation to the arrival time of the XUV pulses in the experiment (see help).
68.1	1053	units: fs (bigger numbers (typically) indicate later arrival times of the electrons).
	1054
	1055
	1056
79.1	1057	(% style="color:#172b4d" %)SEED5(% style="color:#ff6600" %)/electron bunch arrival time (raw) (HDF5 name not yet implemented - see zraw){{code language="none"}}/FL2/Electron Diagnostic/BAM/{{/code}}
73.1	1058
79.1	1059	(% style="color:#000000" %){{code language="none"}}/zraw/FLASH.SDIAG/BAM.DAQ/FL0.SEED5.ARRIVAL_TIME.ABSOLUTE.SA2/dGroup/{{/code}}(%%)
	1060	//always saved (PBD)//
	1061	(% style="color:#172b4d" %)FL2.SEED5{{code language="none"}}DOOCS prop : FLASH.SDIAG/BAM//ARRIVAL_TIME.ABSOLUTE{{/code}}(%%)
	1062	~ (% style="color:#000000" %)FLASH.SDIAG/BAM/(% style="color:#172b4d" %)FL2.SEED5(% style="color:#000000" %)/ARRIVAL_TIME.ABSOLUTE {{code language="none"}}DAQ channel:{{/code}}(%%)
68.1	1063	desc: Electron bunch arrival time measured with the BAM before the undulator (pulse resolved data). This one was newly installed in 2020. Here the complete bunch train from the FEL is recorded (FLASH1 and FLASH2 pulses). Thus there are values from FLASH 2 in the second part. they may be separated by several "0" values if the reprate is different from 1 MHz ... - It shows a very good correlation to the arrival time of the XUV pulses in the experiment (see help).
59.1	1064	units: fs (bigger numbers (typically) indicate later arrival times of the electrons).
	1065
	1066
79.1	1067	(% style="color:#172b4d" %)SEED5(% style="color:#ff6600" %)/error (HDF5 name not yet implemented - see zraw){{code language="none"}}/FL2/Electron Diagnostic/BAM/{{/code}}(%%)
	1068	//always saved (PBD)//
	1069	(% style="color:#172b4d" %)FL2.SEED5(% style="color:#000000" %)E.bamError{{code language="none"}}DOOCS prop : FLASH.SDIAG/BAM//ARRIVAL_TIM{{/code}}(%%)
	1070	(% style="color:#000000" %): FLASH.SDIAG/BAM/(% style="color:#172b4d" %)FL2.SEED5(% style="color:#000000" %)/ARRIVAL_TIME.BAMERROR{{code language="none"}}DAQ channel{{/code}}(%%)
59.1	1071	desc: If the value is 0 , the BAM is working well. If it is non-zero there is a problem !!
	1072
	1073
79.1	1074	(% style="color:#172b4d" %)SEED5(% style="color:#ff6600" %)/status (HDF5 name not yet implemented - see zraw){{code language="none"}}/FL2/Electron Diagnostic/BAM/{{/code}}(%%)
	1075	//always saved (PBD)//
	1076	(% style="color:#172b4d" %)FL2.SEED5(% style="color:#000000" %)E.bamStatus.//2//{{code language="none"}}DOOCS prop : FLASH.SDIAG/BAM//ARRIVAL_TIM{{/code}}(%%)
	1077	(% style="color:#000000" %)el: FLASH.SDIAG/BAM/(% style="color:#172b4d" %)FL2.SEED5(% style="color:#000000" %)/ARRIVAL_TIME.BAMSTATUS.2{{code language="none"}}DAQ chann{{/code}}(%%)
59.1	1078	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
	1079
	1080
15.1	1081	[[Contents>>doc:\|\|anchor="Contents"]]
12.1	1082
	1083
16.1	1084	==== Timing information, rep rate etc. (FLASH2) ====
12.1	1085
15.1	1086	===== start time of FLASH2 =====
12.1	1087
79.1	1088	{{code language="none"}}/FL2/Timing/start time flash2{{/code}}
	1089	//always saved (PBD2)//
	1090	DOOCS prop : {{code language="none"}}FLASH.DIAG/TIMER/FLASHCPUTIME1.0/BUNCH_POSITION.2{{/code}}
	1091	DAQ channel: {{code language="none"}}FLASH.DIAG/TIMER/FLASHCPUTIME1.0/BUNCH_POSITION.2{{/code}}
17.1	1092	desc: The max 600 µs acceleration time of FLASH is devided between FLASH1 and FLASH2. This 600 µs window starts with FLASH1 (up to now) at a time"label" of 700 µs (for historic reasons). Thus the first bunch of FLASH 1 comes at "700" and the last possibel bunch comes at 1300 (700+600). After FLASH1 train is over ther is a about 70µs switching time with no bunches. Then comes the first FLASH2 bunch. Thus if e.g. the start time of FLASH2 is 1200 it means that FLASH2 starts at column 500 (1200-700) in the HDF5 files. (However for yet unknown reasons this may change by 2-3 colums ...)
15.1	1093	units: µs
12.1	1094
	1095	===== bunch repetition rate =====
	1096
79.1	1097	{{code language="none"}}/FL2/Timing/repetition rate{{/code}}
	1098	//always saved (PBD2)//
	1099	DOOCS prop : {{code language="none"}}FLASH.DIAG/TIMER/FLASHCPUTIME1.0/REP_RATE_KHZ.2{{/code}}
	1100	DAQ channel: {{code language="none"}}FLASH.DIAG/TIMER/FLASHCPUTIME1.0/REP_RATE_KHZ.2{{/code}}
15.1	1101	desc: repetition rate of the bunches / pulses within the burst (FLASH2)
12.1	1102	units: kHz
	1103
74.1	1104
	1105	===== set number of pulses =====
	1106
79.1	1107	(% style="color:#ff6600" %)(HDF5 name not yet implemented - see zraw)(% style="color:#ff0000" %){{code language="none"}}/FL2/Timing/set number of bunches {{/code}}(%%)
	1108	//always saved (PBD2)//
74.1	1109	DOOCS prop : {{code language="none"}}FLASH.DIAG/TIMINGINFO/TIME1.BUNCH_FIRST_INDEX.2 [4th number]{{/code}}
	1110	DAQ channel: {{code language="none"}}FLASH.DIAG/TIMINGINFO/TIME1.BUNCH_FIRST_INDEX.2 [4th number]{{/code}}
	1111	desc: Number of bunches set in the control (timing) system. The property contains 4 numbers. the last one is the number of pulses (see also [[doc:FLASH.Timing properties]] (internal link)). If pulses are used for diagnostic of the protection system of the accelerator limits the number of bunches to be accelerated and thus the actual number of pulses may be smaller than the set one
	1112	units:
	1113
12.1	1114	===== actual number of pulses =====
	1115
79.1	1116	{{code language="none"}}/FL1/Timing/actual number of bunches{{/code}}
	1117	//always saved (PBD2)//
	1118	DOOCS prop : {{code language="none"}}FLASH.DIAG/PBD2.TOROID.ML/3GUN/NUMBEROFBUNCHES.FLASH2{{/code}}
	1119	DAQ channel: {{code language="none"}}FLASH.DIAG/PBD2.TOROID.ML/3GUN/NUMBEROFBUNCHES.FLASH2{{/code}}
	1120	desc: Number of bunches measured BEHIND the undulator. If pulses are used for diagnostic of the protection system of the accelerator limits the number of bunches to be accelerated this is the actual number that created XUV radiation.The number is calculated by the DAQ middle layer server, (FLASH2)
12.1	1121	units:
79.1	1122
12.1	1123
	1124	===== actual pulse pattern recorded after the undulator =====
	1125
79.1	1126	{{code language="none"}}/FL1/Timing/Bunch pattern/pattern after undulator{{/code}}
	1127	//always saved (PBD2)//
	1128	DOOCS prop : {{code language="none"}}FLASH.DIAG/PBD2.TOROID.ML/9FL2BURN.PULSEPATTERN{{/code}}
	1129	DAQ channel: {{code language="none"}}FLASH.DIAG/PBD2.TOROID.ML/9FL2BURN.PULSEPATTERN{{/code}}
	1130	desc: The bunch pattern as function of time in a burst recorded by toroide diagnostic BEHIND the undulator. (FLASH2)
12.1	1131	units:
79.1	1132
12.1	1133
	1134	===== Train ID =====
	1135
79.1	1136	{{code language="none"}}/Timing/train ID{{/code}}
	1137	//always saved (PBD2)//
	1138	DOOCS prop : {{code language="none"}}none{{/code}}
	1139	DAQ channel: {{code language="none"}}none{{/code}}
	1140	desc: Each 10 Hz burst has its unique train ID. For the HDF5 dataset the ID is the same for all parameters with the same index (note camera images may be shifted by 1 ID - talk to the experts !)
12.1	1141	units:
79.1	1142
12.1	1143
	1144	===== Train time =====
	1145
79.1	1146	//always saved (PBD2)//
	1147	{{code language="none"}}/Timing/train time{{/code}}
	1148	desc:Local time as array of day, hour, minute, second, and centisecond. This dataset is meant for visualisation purposes only. For correlations use the train ID or the Unix time of the time stamp
12.1	1149	units: d h min s cs
79.1	1150
12.1	1151
79.1	1152	{{code language="none"}}
	1153	/Timing/time stamp
	1154	{{/code}}
16.1	1155
79.1	1156	//always saved (PBD2)//
	1157	desc: first column: Local time in unix time. To get day, hour, minute, second you can use unix: e.g. date ~-~-date='@1553617729' or matlab, python etc
	1158	second column: microseconds
12.1	1159	third column: Train ID of FLASH
79.1	1160
12.1	1161
	1162	[[Contents>>doc:\|\|anchor="Contents"]]
	1163
	1164
19.1	1165	==== User Data (FLASH2) ====
18.1	1166
19.1	1167	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.
	1168
	1169	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
	1170
	1171	The most common and permanently installed device used by experiment are our ADCs:
	1172
18.1	1173	===== GHz ADCs =====
	1174
79.1	1175	ADC traces of the (SPDevices 412) GHZ ADCs available for the users . More information about the ADCs can be found [[here>>doc:FLASHUSER.Data Acquisition and controls.Controls (DOOCS, jDDD,\.\.\.).MTCA ADCs.WebHome]]
	1176	//saved on DEMAND in the user DAQ//
19.1	1177	\\Up to now there are 4 channels available at FL24
	1178	\\\\{{code language="none"}}/FL2/Experiment/MTCA-EXP1/ADQ412 GHz ADC/CH00/TD{{/code}}
	1179	{{code language="none"}}/FL2/Experiment/MTCA-EXP1/ADQ412 GHz ADC/CH01/TD{{/code}}
	1180	\\{{code language="none"}}/FL2/Experiment/MTCA-EXP1/ADQ412 GHz ADC/CH02/TD{{/code}}{{code language="none"}}/FL2/Experiment/MTCA-EXP1/ADQ412 GHz ADC/CH03/TD{{/code}}
18.1	1181
	1182
79.1	1183	DOOCS prop : {{code language="none"}}FLASH.FEL/ADC.ADQ.FL2EXP1/FL2EXP1.CH00/CH00.TD or CH00.DAQ.TD{{/code}}
18.1	1184	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.
19.1	1185	DAQ channel: {{code language="none"}}FLASH.FEL/ADC.ADQ.FL2EXP1/FL2EXP1.CH00{{/code}}
18.1	1186
	1187	In addition there are also additional parameters saved like:
	1188
	1189	* {{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.
	1190	* {{code language="none"}}number of samples{{/code}}: total number of samoles recorded for each 10 Hz trigger
79.1	1191	* {{code language="none"}}error (ADC):{{/code}}0 indicates that there was no error
18.1	1192	* {{code language="none"}}/CH0-CH3/offset{{/code}}: To use the full dynamic range of the ADC one can shift the base line . This offset is saved here.
	1193
	1194	===== MHz ADCs =====
	1195
79.1	1196	similar to the GHz ADCs the MHz ADCs are saved with HDF5 names like:
	1197	{{code language="none"}}/FL2/Experiment/MTCA-EXP1/SIS8300 100MHz ADC/CH2/TD{{/code}}
	1198	DOOCS prop : FLASH.FEL/ADC.SIS.FL2EXP1/FL2EXP1.CH02/CH00.TD
19.1	1199	DAQ channel: : FLASH.FEL/ADC.SIS.FL2EXP1/FL2EXP1.CH02
18.1	1200
	1201	In addition there are also additional parameters saved like:
	1202
	1203	* {{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.
	1204	* {{code language="none"}}number of samples{{/code}}: total number of samoles recorded for each 10 Hz trigger
	1205
	1206	[[Contents>>doc:\|\|anchor="Contents"]]
	1207
12.1	1208
	1209
85.1	1210	==== Pump Probe Laser (FLASH2) ====
21.1	1211
84.1	1212	{{info width="30%"}}
80.1	1213	list of saved parameters status May 2024 (up to now the parameters can be found in /zraw/ ... )
	1214
84.1	1215	[[attach:FSLADAQ-DAQParameterlistULGAN-2.pdf\|\|target="_blank"]]
80.1	1216
84.1	1217	[[attach:FSLADAQ-DAQParameterlistFL23-2.pdf\|\|target="_blank"]]
80.1	1218
84.1	1219	[[attach:FSLADAQ-DAQParameterlistFL24-2.pdf\|\|target="_blank"]]
	1220
	1221
	1222	{{view-file att--filename="FSLADAQ-DAQParameterlistFL23-2.pdf"}}{{/view-file}}
	1223
85.1	1224
	1225	{{view-file att--filename="FSLADAQ-DAQParameterlistFL23-2.pdf"}}{{/view-file}}
	1226
	1227
	1228	{{view-file att--filename="FSLADAQ-DAQParameterlistFL24-2.pdf"}}{{/view-file}}
	1229
84.1	1230
80.1	1231	{{/info}}
	1232
85.1	1233	{{expand title="Laser parameters used until 2023"}}
79.1	1234	These are the parameters that can be saved in the FL2 User DAQ for the FL2 PP laser// FOR BEAMLINE FL24//
21.1	1235
64.1	1236	User delay
	1237
	1238	Delay (set value):
	1239
79.1	1240	{{code language="none"}}
	1241	FLASH.SYNC/LASER.LOCK.EXP/F2.PPL.OSC/FMC0.MD22.0.POSITION_SET.WR
	1242	{{/code}}
64.1	1243
77.1	1244	Delay (readback):
64.1	1245
79.1	1246	{{code language="none"}}
	1247	FLASH.SYNC/LASER.LOCK.EXP/F2.PPL.OSC/FMC0.MD22.0.POSITION.RD
	1248	{{/code}}
64.1	1249
79.1	1250	(% style="letter-spacing:0.0px" %)Delay (encoder readback):
77.1	1251
79.1	1252	{{code language="none"}}
	1253	FLASH.SYNC/LASER.LOCK.EXP/F2.PPL.OSC/FMC0.MD22.0.ENCODER_POSITION.RD
	1254	{{/code}}
77.1	1255
64.1	1256	OXC. jitter:
	1257
79.1	1258	{{code language="none"}}
	1259	FLASH.SYNC/LASER.LOCK.EXP/F2.PPL.OSC/CURRENT_INPUT_JITTER.RD
	1260	{{/code}}
64.1	1261
	1262
	1263
77.1	1264	FL24 Pulse resolved energy:
	1265
72.1	1266	OPCPA output (photodiode signal raw ADC trace 16000 samples):
64.1	1267
79.1	1268	{{code language="none"}}
	1269	/zraw/FLASH.LASER/FLASH2CPUULGAN1.ADCSCOPE/CH23.TD/dGroup
	1270	{{/code}}
64.1	1271
79.1	1272	(% style="letter-spacing:0.0px" %)Upper breadboard Photodiode (THG) burst (photodiode signal raw ADC trace 16000 samples)::
64.1	1273
79.1	1274	{{code language="none"}}
	1275	/zraw/FLASH.LASER/FLASH2CPUULGAN1.ADCSCOPE/CH26.TD/dGroup
	1276	{{/code}}
64.1	1277
72.1	1278	Upper breadboard Photodiode (THG) energy (analyzed signal. integration over pulses in the ADC trace. contains for each laser pulse the pulse energy in a.u.)
64.1	1279
79.1	1280	{{code language="none"}}
	1281	/zraw/FLASH.LASER/MOD24.PES/FL24_userPD/dGroup
	1282	{{/code}}
64.1	1283
	1284
77.1	1285	FL24 LAM (Laser Arrivaltime Monitor) pulse resolved data:
64.1	1286
72.1	1287	Signal of Photodiode1 - for experts only... (analyzed signal. integration over pulses in the ADC trace. )
	1288
79.1	1289	{{code language="none"}}
	1290	/zraw/FLASH.LASER/MOD24.PES/LAM.PD1/dGroup
	1291	{{/code}}
72.1	1292
	1293	Signal of Photodiode2 - for experts only... (analyzed signal. integration over pulses in the ADC trace.)
	1294
79.1	1295	{{code language="none"}}
	1296	/zraw/FLASH.LASER/MOD24.PES/LAM.PD2/dGroup
	1297	{{/code}}
72.1	1298
	1299	"Actual" LAM Signal - to be calibrated ...... (analyzed signal. integration over pulses in the ADC trace.)
	1300
79.1	1301	{{code language="none"}}
	1302	/zraw/FLASH.LASER/MOD24.PES/LAM.PDBAL/dGroup
	1303	{{/code}}
72.1	1304
79.1	1305	The delay feedback(% style="letter-spacing:0.0px" %)
75.1	1306
79.1	1307	{{code language="none"}}
	1308	FLASH.LASER/ULGAN1.DYNPROP/TCFIBER.DOUBLES/DOUBLE26
	1309	{{/code}}
64.1	1310
79.1	1311	The LAM delay feedback(% style="letter-spacing:0.0px" %) (the pulse energy signal, which is saved in the above but maybe it’s good to have this also as slow, in the case these two numbers are not the same the sysdc was active instead of the LAM):
75.1	1312
79.1	1313	{{code language="none"}}
	1314	FLASH.LASER/MOD24.PES/LAM.PDBAL/PULSEENERGY.MEAN
	1315	{{/code}}
75.1	1316
76.1	1317	LAM Delay line act:
75.1	1318
76.1	1319	{{code language="none"}}FLASH.SYNC/LAM.EXP.ODL/F2.MOD.AMC12/FMC0.MD22.1.POSITION.RD{{/code}}
	1320	LAM Delay line set:
75.1	1321
79.1	1322	{{code language="none"}}
	1323	FLASH.SYNC/LAM.EXP.ODL/F2.MOD.AMC12/FMC0.MD22.1.POSITION_SET.WR
	1324	{{/code}}
75.1	1325
76.1	1326	LAM Delay line encoder:
75.1	1327
79.1	1328	{{code language="none"}}
	1329	FLASH.SYNC/LAM.EXP.ODL/F2.MOD.AMC12/FMC0.MD22.1.ENCODER_POSITION.RD
	1330	{{/code}}
75.1	1331
76.1	1332	Temperature feedback:
75.1	1333
79.1	1334	{{code language="none"}}
	1335	FLASH.LASER/ULGAN1.DYNPROP/TCFIBER.DOUBLES/DOUBLE24
	1336	{{/code}}
75.1	1337
	1338	Feedback mode (if this is not =1 the delay FB is not active, then it’s either temp feedback controlled or failsave, maybe it’s good to have):
	1339
79.1	1340	{{code language="none"}}
	1341	FLASH.LASER/ULGAN1.DYNPROP/TCFIBER.INTS/INTEGER30
	1342	{{/code}}
75.1	1343
	1344
77.1	1345	FL24 Attenuator angle:
75.1	1346
79.1	1347	{{code language="none"}}
	1348	FLASH.FEL/FLAPP2BEAMLINES/MOTOR1.FL24/FPOS
	1349	{{/code}}
64.1	1350
77.1	1351	FL24 Polarization control:
64.1	1352
79.1	1353	{{code language="none"}}
	1354	FLASH.FEL/FLAPP2BEAMLINES/MOTOR14.FL24/FPOS
	1355	{{/code}}
64.1	1356
	1357	SysDC delay error:
	1358
79.1	1359	{{code language="none"}}
	1360	FLASH.LASER/ULGAN1.DYNPROP/TCFIBER.DOUBLES/DOUBLE26
	1361	{{/code}}
64.1	1362
	1363
	1364	Timing error: (these two need to be observed and both=0 means no error)
	1365
79.1	1366	{{code language="none"}}
	1367	FLASH/CPUULGAN1.TIMING/ULGAN1/dT_alarm
	1368	{{/code}}
64.1	1369
79.1	1370	{{code language="none"}}
	1371	FLASH/CPUULGAN1.TIMING/ULGAN1/dMPN
	1372	{{/code}}
64.1	1373
	1374	Laser error status:
	1375
	1376
77.1	1377	FL24 Virtual camera X and Y history, beam size: (use slow data)
64.1	1378
79.1	1379	{{code language="none"}}
	1380	FLASH.LASER/MOD24.BEAMPOS/UV.VF_BP/CENTER.X
	1381	{{/code}}
64.1	1382
79.1	1383	{{code language="none"}}
	1384	FLASH.LASER/MOD24.BEAMPOS/UV.VF_BP/CENTER.Y
	1385	{{/code}}
64.1	1386
79.1	1387	{{code language="none"}}
	1388	FLASH.LASER/MOD24.CAM/UV.14.VF/ROI_SPECTRUM.X.SIG
	1389	{{/code}}
64.1	1390
	1391	{{expand title="Parameters used until 2021"}}
79.1	1392	//{{code language="none"}}/FL2/Experiment/Pump probe laser/FL24/attenuator position{{/code}}always saved (PBD2)//
	1393	DOOCS prop : {{code language="none"}}FLASH.FEL/FLAPP2BEAMLINES/MOTOR1.FL24/FPOS{{/code}}
	1394	DAQ channel: {{code language="none"}}FLASH.FEL/FLAPP2BEAMLINES/MOTOR1.FL24/FPOS{{/code}}
	1395	desc: attenuation of the PPLaser in the FL24 hutch (rotation of a waveplate)
21.1	1396	units : deg.
	1397
12.1	1398
21.1	1399
79.1	1400	//{{code language="none"}}/FL2/Experiment/Pump probe laser/FL24/polarization position{{/code}}always saved (PBD2)//
	1401	DOOCS prop : {{code language="none"}}FLASH.FEL/FLAPP2BEAMLINES/MOTOR2.FL24/FPOS{{/code}}
	1402	DAQ channel: {{code language="none"}}FLASH.FEL/FLAPP2BEAMLINES/MOTOR2.FL24/FPOS{{/code}}
	1403	desc: attenuation of the PPLaser in the FL24 hutch (rotation of a waveplate)
21.1	1404	units : deg.
	1405
12.1	1406
79.1	1407	{{code language="none"}}/FL1/Experiment/Pump probe laser/laser delay readback{{/code}}
	1408	//always saved (PBD2)//
	1409	DOOCS prop : {{code language="none"}}FLASH.SYNC/LASER.LOCK.EXP/FLASH2.PPL1.OSC1/FMC0.MD22.0.POSITION.RD{{/code}}
21.1	1410	DAQ channel: {{code language="none"}}FLASH.SYNC/LASER.LOCK.EXP/FLASH2.PPL1.OSC1/FMC0.MD22.0.POSITION.RD{{/code}}
	1411	desc: delay of the Pump probe laser - measured by the read back position of the motor. There is also the set value available ( upto now these values are only updating every 1-2 seconds. There is no fast encoder property as on FLASH1 available)
	1412	units : ps )
	1413
12.1	1414
79.1	1415	{{code language="none"}}/FL1/Experiment/Pump probe laser/Synchronization/timing jitter RMS{{/code}}
	1416	//always saved (PBD)//
	1417	DOOCS prop : {{code language="none"}}FLASH.SYNC/LASER.LOCK.EXP/FLASH2.PPL1.OSC1/CURRENT_INPUT_JITTER.RD{{/code}}
	1418	DAQ channel: {{code language="none"}}FLASH.SYNC/LASER.LOCK.EXP/FLASH2.PPL1.OSC1/CURRENT_INPUT_JITTER.RD{{/code}}
22.1	1419	desc: rms jitter of the fs-Oscillator
	1420	units: fs
65.1	1421	{{/expand}}
21.1	1422
77.1	1423
	1424	==== FL 26 Pump Probe Laser (FLASH2) ====
	1425
79.1	1426	These are the parameters that can be saved in the FL2 User DAQ for the FL2 PP laser// FOR BEAMLINE FL26//
77.1	1427
	1428
	1429	User delay
	1430
	1431	Delay (set value):
	1432
79.1	1433	{{code language="none"}}
	1434	FLASH.SYNC/LASER.LOCK.EXP/F2.PPL.OSC/FMC0.MD22.0.POSITION_SET.WR
	1435	{{/code}}
77.1	1436
	1437	Delay (readback):
	1438
79.1	1439	{{code language="none"}}
	1440	FLASH.SYNC/LASER.LOCK.EXP/F2.PPL.OSC/FMC0.MD22.0.POSITION.RD
	1441	{{/code}}
77.1	1442
78.1	1443	Delay (encoder readback):
77.1	1444
79.1	1445	{{code language="none"}}
	1446	FLASH.SYNC/LASER.LOCK.EXP/F2.PPL.OSC/FMC0.MD22.0.ENCODER_POSITION.RD
	1447	{{/code}}
77.1	1448
	1449	OXC. jitter:
	1450
79.1	1451	{{code language="none"}}
	1452	FLASH.SYNC/LASER.LOCK.EXP/F2.PPL.OSC/CURRENT_INPUT_JITTER.RD
	1453	{{/code}}
77.1	1454
	1455
	1456	Parameters for FL26
	1457
78.1	1458	(% class="wrapped" %)
77.1	1459	\|(((
	1460	FL2PPL FL26 REMI Attenuation: HWP motor current position
	1461	)))\|(((
	1462	FLASH.FEL/FLAPP2BEAMLINES/MOTOR11.FL26B/FPOS
	1463	)))
	1464	\|(((
	1465	FL2PPL FL26 REMI Polarization: linear polarization angle
	1466	)))\|(((
	1467	FLASH.FEL/FLAPP2BEAMLINES/MOTOR12.FL26B/FPOS
	1468	)))
	1469	\|(((
	1470	FL2PPL FL26 REMI Diagnostics: NIR spectrum
	1471	)))\|(((
	1472	FLASH.LASER/MOD26.SPECT/REMI/DAQ_CHANNEL
	1473	)))
	1474	\|(((
	1475	FL2PPL FL26 REMI Diagnostics: photo diode input MOD2.6 - pulse energy mean
	1476	)))\|(((
	1477	FLASH.LASER/MOD26.PES/RE_OUT/PULSEENERGY.MEAN
	1478	)))
	1479	\|(((
	1480	FL2PPL FL26 REMI Diagnostics: photo diode input MOD2.6 - intra burst pulse energy
	1481	)))\|(((
	1482	FLASH.LASER/MOD26.PES/RE_OUT/DAQ_CHANNEL
	1483	)))
	1484	\|(((
	1485	FL2PPL FL26 REMI Diagnostics: photo diode input MOD2.6 - raw adc
	1486	)))\|(((
	1487	FLASH.LASER/TAMC532DMA/ULGAN1_S5/CH04.TD
	1488	)))
	1489	\|(((
	1490	FL2PPL FL26 REMI Diagnostics: photo diode input REMI - pulse energy mean
	1491	)))\|(((
	1492	FLASH.LASER/MOD26.PES/INC_BOX/PULSEENERGY.MEAN
	1493	)))
	1494	\|(((
	1495	FL2PPL FL26 REMI Diagnostics: photo diode input REMI - intra burst pulse energy
	1496	)))\|(((
	1497	FLASH.LASER/MOD26.PES/INC_BOX/DAQ_CHANNEL
	1498	)))
	1499	\|(((
	1500	FL2PPL FL26 REMI Diagnostics: photo diode input REMI - raw adc
	1501	)))\|(((
	1502	FLASH.LASER/TAMC532DMA/ULGAN1_S5/CH05.TD
	1503	)))
	1504	\|(((
	1505	FL2PPL FL26 REMI In coupling: filter wheel 1 position
	1506	)))\|(((
	1507	FLASH/MOD26.FW1/FLASH2MOD26/pos
	1508	)))
	1509	\|(((
	1510	FL2PPL FL26 REMI In coupling: filter wheel 2 position
	1511	)))\|(((
	1512	FLASH/MOD26.FW2/FLASH2MOD26/pos
	1513	)))
	1514	\|(((
	1515	FL2PPL FL26 REMI: Energy meter REMI incoupling breadboard
	1516	)))\|(((
	1517	FLASH.LASER/MOD26.OPHIRE/REINC.54/DAQ_CHANNEL
	1518	)))
	1519	\|(((
	1520	FL2PPL FL26 REMI Incoupling: focusing lens position
	1521	)))\|(((
	1522	FLASH.FEL/FLAPP2BEAMLINES/MOTOR3.FL26B/FPOS
	1523	)))
	1524	\|(((
	1525	FL2PPL FL26 REMI Incoupling: nearfield
	1526	)))\|(((
	1527	FLASH.LASER/MOD26.CAM/REINC.21.NF/DAQ_CHANNEL
	1528	)))
	1529	\|(((
	1530	FL2PPL FL26 REMI Incoupling: focus
	1531	)))\|(((
	1532	FLASH.LASER/MOD26.CAM/REINC.22.FF/DAQ_CHANNEL
	1533	)))
	1534	\|(((
	1535	FL2PPL FL26 REMI Drift: relative arrival time intra burst LAM balanced - calb. in the PES
	1536	)))\|(((
	1537	FLASH.LASER/MOD26.PES/LAM_DIFF/DAQ_CHANNEL
	1538	)))
	1539	\|(((
	1540	FL2PPL FL26 REMI Drift: forward signal (PD1) raw
	1541	)))\|(((
	1542	FLASH.LASER/TAMC532DMA/ULGAN1_S5/CH00.TD
	1543	)))
	1544	\|(((
	1545	FL2PPL FL26 REMI Drift: backward signal (PD2) raw
	1546	)))\|(((
	1547	FLASH.LASER/TAMC532DMA/ULGAN1_S5/CH01.TD
	1548	)))
	1549	\|(((
	1550	FL2PPL FL26 REMI Drift: mean relative burst arrival time - avarage of the calib value
	1551	)))\|(((
	1552	FLASH.LASER/MOD26.PES/LAM_DIFF/PULSEENERGY.MEAN
	1553	)))
	1554	\|(((
	1555	FL2PPL FL26 REMI Drift: delay line position (ODL of the LAM REMI)
	1556	)))\|(((
	1557	FLASH.FEL/FLAPP2BEAMLINES/MOTOR14.FL26B/FPOS
	1558	)))
	1559	\|(((
	1560	FL2PPL FL26 Laser Hutch: delay line position (ODL of the osc. Sync / user delay)
	1561	)))\|(((
	1562	FLASH.SYNC/LASER.LOCK.EXP/F2.PPL.OSC/FMC0.MD22.0.POSITION.RD
	1563	)))
	1564	\|(((
	1565	FL2PPL FL26 REMI Drift: delay line encoder position (ODL REMI raw value)
	1566	)))\|(((
	1567	FLASH.SYNC/LAM.EXP.ODL/F2.MOD.AMC12/FMC0.MD22.0.ENCODER_POSITION.RD
	1568	)))
	1569	\|(((
	1570	Jiiter between oscillator and MLO (inloop jitter osc. Sync)
	1571	)))\|(((
	1572	FLASH.SYNC/LASER.LOCK.EXP/F2.PPL.OSC/CURRENT_INPUT_JITTER.RD
	1573	)))
	1574	\|(((
	1575	Temperature controlled fiber (PWM signal to the temperature controlled fiber delay sysdc)
	1576	)))\|(((
	1577	FLASH.LASER/ULGAN1.DYNPROP/TCFIBER.DOUBLES/DOUBLE23
	1578	)))
	1579	\|(((
	1580	Temperature controlled fiber (Temp of the fiber delay sysdc)
	1581	)))\|(((
	1582	FLASH.LASER/ULGAN1.DYNPROP/TCFIBER.DOUBLES/DOUBLE24
	1583	)))
	1584	\|(((
	1585	Sydc feedback data if LAM is not activated (sysdc delay)
	1586	)))\|(((
	1587	FLASH.LASER/ULGAN1.DYNPROP/TCFIBER.DOUBLES/DOUBLE26
	1588	)))
85.1	1589	{{/expand}}
21.1	1590
	1591
85.1	1592
23.1	1593	=== "/uncategorized/" ===
	1594
	1595	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 their DOOCS names
	1596
	1597
1.1	1598	=== HDF5 structure revisions ===
	1599
	1600	Starting with Beamblock 4, August 2018, the hierarchy of the HDF group names have been adapted to reflect the new situation at FLASH. FLASH2 is operating for users quite some time now. Therefore, both accelerators appear equally in their respective HDF groups, namely "/FL1" and "/FL2". The root group of proper, by run organised HDF files have an attribute called "version". This version attribute has changed from "0.2.x" to "0.3.x". The changes in detail:
	1601
	1602
	1603	* All FLASH1 related HDF groups moved to group "/FL1", i.e. a new prefix "/FL1" is added to their HDF path.
	1604	* The ambigious term "pulse" has been replaced by "train" to refer to "pulse train". Most notably, the dataset "/Timing/pulse ID" has changed to "/Timing/train ID".
	1605	* A number of inconsistent names have been streamlined. The relevant changes are listed in the following table.
	1606
45.1	1607	(% class="wrapped" %)
1.1	1608	\|=(((
4.1	1609	earlier HDF path (vers. 0.2)
1.1	1610	)))\|=(((
4.1	1611	is now (vers. 0.3)
1.1	1612	)))
	1613	\|(((
	1614	/Photon Diagnostic/GMD/Beam position/position BDA x
	1615	)))\|(((
	1616	/FL1/Photon Diagnostic/GMD/Beam position/position BDA horizontal
	1617	)))
	1618	\|(((
	1619	/Photon Diagnostic/GMD/Beam position/position BDA y
	1620	)))\|(((
	1621	/FL1/Photon Diagnostic/GMD/Beam position/position BDA vertical
	1622	)))
	1623	\|(((
	1624	/Photon Diagnostic/GMD/Beam position/position tunnel x
	1625	)))\|(((
	1626	/FL1/Photon Diagnostic/GMD/Beam position/position tunnel horizontal
	1627	)))
	1628	\|(((
	1629	/Photon Diagnostic/GMD/Beam position/position tunnel y
	1630	)))\|(((
	1631	/FL1/Photon Diagnostic/GMD/Beam position/position tunnel vertical
	1632	)))
	1633	\|(((
	1634	/Experiment/Pump probe laser/BPM/position x
	1635	)))\|(((
	1636	/FL1/Experiment/Pump probe laser/BPM/position horizontal
	1637	)))
	1638	\|(((
	1639	/Experiment/Pump probe laser/BPM/position y
	1640	)))\|(((
	1641	/FL1/Experiment/Pump probe laser/BPM/position vertical
	1642	)))
	1643	\|(((
	1644	/FL2/Photon Diagnostic/GMD/Beam position/Average/position hall horizontal
	1645	)))\|(((
	1646	/FL2/Photon Diagnostic/GMD/Average beam position/position hall horizontal
	1647	)))
	1648	\|(((
	1649	/FL2/Photon Diagnostic/GMD/Beam position/Average/position hall vertical
	1650	)))\|(((
	1651	/FL2/Photon Diagnostic/GMD/Average beam position/position hall vertical
	1652	)))
	1653	\|(((
	1654	/FL2/Photon Diagnostic/GMD/Beam position/Average/position tunnel horizontal
	1655	)))\|(((
	1656	/FL2/Photon Diagnostic/GMD/Average beam position/position tunnel horizontal
	1657	)))
	1658	\|(((
	1659	/FL2/Photon Diagnostic/GMD/Beam position/Average/position tunnel vertical
	1660	)))\|(((
	1661	/FL2/Photon Diagnostic/GMD/Average beam position/position tunnel vertical
	1662	)))
	1663	\|(((
	1664	/FL2/Photon Diagnostic/GMD/Average energy/hall
	1665	)))\|(((
	1666	/FL2/Photon Diagnostic/GMD/Average energy/energy hall
	1667	)))
	1668	\|(((
	1669	/FL2/Photon Diagnostic/GMD/Average energy/hall (raw)
	1670	)))\|(((
	1671	/FL2/Photon Diagnostic/GMD/Average energy/energy hall (raw)
	1672	)))
	1673	\|(((
	1674	/FL2/Photon Diagnostic/GMD/Average energy/tunnel
	1675	)))\|(((
	1676	/FL2/Photon Diagnostic/GMD/Average energy/energy tunnel
	1677	)))
	1678	\|(((
	1679	/FL2/Photon Diagnostic/GMD/Average energy/tunnel (raw)
	1680	)))\|(((
	1681	/FL2/Photon Diagnostic/GMD/Average energy/energy tunnel (raw)
	1682	)))
	1683	\|(((
	1684	/FL2/Photon Diagnostic/GMD/Beam position/Pulse resolved/hall x
	1685	)))\|(((
	1686	/FL2/Photon Diagnostic/GMD/Pulse resolved beam position/position hall horizontal
	1687	)))
	1688	\|(((
	1689	/FL2/Photon Diagnostic/GMD/Beam position/Pulse resolved/hall y
	1690	)))\|(((
	1691	/FL2/Photon Diagnostic/GMD/Pulse resolved beam position/position hall vertical
	1692	)))
	1693	\|(((
	1694	/FL2/Photon Diagnostic/GMD/Beam position/Pulse resolved/tunnel x
	1695	)))\|(((
	1696	/FL2/Photon Diagnostic/GMD/Pulse resolved beam position/position tunnel horizontal
	1697	)))
	1698	\|(((
	1699	/FL2/Photon Diagnostic/GMD/Beam position/Pulse resolved/tunnel y
	1700	)))\|(((
	1701	/FL2/Photon Diagnostic/GMD/Pulse resolved beam position/position tunnel vertical
	1702	)))
	1703
4.1	1704	[[Contents>>doc:\|\|anchor="Contents"]]
1.1	1705
79.1	1706
44.1	1707	{{/layout-cell}}
	1708	{{/layout-section}}
	1709	{{/layout}}

Wiki source code of The FLASH HDF5 structure

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