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Annotation of /tof/ground/README

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Revision 1.1.1.1 - (hide annotations) (download) (vendor branch)
Thu Mar 9 12:31:47 2006 UTC (18 years, 9 months ago) by pam-de
Branch: v_tag, MAIN
CVS Tags: r_tag, HEAD
Changes since 1.1: +0 -0 lines
Initial Release

1 pam-de 1.1
2     1) The ToF software uses the Tracking software V2.00
3     It is assumed that you have created all the directories and the compiling
4     of the three executables "level0.exe", "level1.exe" and "level2.exe"
5     was succesful.
6    
7     2) Copy the file toftrack.tar to the "utilities/template" directory (where
8     the program template.f is located), untar the file toftrack.tar.
9    
10     The following files will be extracted:
11     Makefile (the old Makefile will be overwritten)
12     run-test.sh
13     tofcalib.rz
14     toftrack.f
15     common_tof.f
16     tofroutine.f
17     trk_level2.f (the old trk_level2.f was not correct)
18     common_tofroutine.f
19    
20     3)Create the executable toftrack.exe doing
21     # make toftrack
22    
23     4) The "level*.exe" programs in your working directory were run by doing
24    
25     #./run-test.sh some_filename.txt level0/1/2 &
26    
27     Copy the new "run-test.sh" from the template directory to the working
28     directory. Copy toftrack.exe to the working directory
29     After you have done step 5 (see below) you can run the toftrack software
30     analogue to the command for the level0/1/2 software:
31    
32     #./run-test.sh some_filename.txt toftrack &
33    
34     In the file good_files.tar.gz there is a list of good files from the Roma
35     tests.
36    
37     5) Untar the file tofcalib.tar in your rz-data directory (where the level2
38     and tof rz-files are located). This will create a standard "tofcalib.rz"
39     file plus the calibration files for the Roma data
40     "DW_******_***_tofcalib.rz"
41    
42    
43     ---------------------------------------------------------------------------
44    
45     "tracktof" will read the appropriate level2, tof, and tofcalib file. If
46     there is no tofcalib file for this data run, the standard calibration is
47     used (There will be a message saying "Could not find.... Will use the
48     standard calibration")
49    
50    
51     "tracktof" will create a new rz file DW_******_**_toftrack.rz" combining
52     the level2 data, the (raw) tof data, plus the variables calculated in the
53     tofroutine.
54    
55     The structure looks like this:
56    
57    
58     ******************************************************************
59     * Ntuple ID = 2 Entries = 1185 TOF
60     ******************************************************************
61     * Var numb * Type * Packing * Range * Block * Name *
62     ******************************************************************
63     * 1 * L*4 * 1 * * EVENT * GOOD
64     * 2 * I*4 * * * EVENT * NEV_TRK
65     * 1 * I*4 * * * CPU * PKT_TYPE
66     * 2 * I*4 * * * CPU * PKT_NUM
67     * 3 * I*4 * * * CPU * OBT
68     * 4 * I*4 * * * CPU * WHICH_CALIB
69     * 1 * I*4 * * * TOF * TDCID(12)
70     * 2 * I*4 * * * TOF * EVCOUNT(12)
71     * 3 * I*4 * * * TOF * TDCMASK(12)
72     * 4 * I*4 * * * TOF * ADC(4,12)
73     * 5 * I*4 * * * TOF * TDC(4,12)
74     * 6 * I*4 * * * TOF * TEMP1(12)
75     * 7 * I*4 * * * TOF * TEMP2(12)
76     * 8 * R*4 * * * TOF * BETA(5)
77     * 9 * R*4 * * * TOF * XTOF(3)
78     * 10 * R*4 * * * TOF * YTOF(3)
79     * 11 * R*4 * * * TOF * ADC_C(4,12)
80     * 12 * I*4 * * * TOF * IFLAG(6)
81     * 13 * I*4 * * * TOF * JFLAG(6)
82     * 14 * R*4 * * * TOF * XOUT(3)
83     * 15 * R*4 * * * TOF * YOUT(3)
84     * 1 * I*4 * * * TRIGGER * TRIG_EVCOUNT
85     * 2 * I*4 * * * TRIGGER * PMTPL(3)
86     * 3 * I*4 * * * TRIGGER * TRIGRATE(6)
87     * 4 * I*4 * * * TRIGGER * DLTIME(2)
88     * 5 * I*4 * * * TRIGGER * S4CALCOUNT(2)
89     * 6 * I*4 * * * TRIGGER * PMTCOUNT1(24)
90     * 7 * I*4 * * * TRIGGER * PMTCOUNT2(24)
91     * 8 * I*4 * * * TRIGGER * PATTERNBUSY(3)
92     * 9 * I*4 * * * TRIGGER * PATTERNTRIG(6)
93     * 10 * I*4 * * * TRIGGER * TRIGCONF
94     * 1 * I*4 * * [0,50] * TRACKS * NTRK
95     * 2 * U*4 * 6 * [0,50] * TRACKS * IMAGE(NTRK)
96     * 3 * R*4 * * * TRACKS * XM(6,NTRK)
97     * 4 * R*4 * * * TRACKS * YM(6,NTRK)
98     * 5 * R*4 * * * TRACKS * ZM(6,NTRK)
99     * 6 * R*4 * * * TRACKS * RESX(6,NTRK)
100     * 7 * R*4 * * * TRACKS * RESY(6,NTRK)
101     * 8 * R*4 * * * TRACKS * AL(5,NTRK)
102     * 9 * R*4 * * * TRACKS * COVAL(5,5,NTRK)
103     * 10 * R*4 * * * TRACKS * CHI2(NTRK)
104     * 11 * U*4 * 1 * [0,1] * TRACKS * XGOOD(6,NTRK)
105     * 12 * U*4 * 1 * [0,1] * TRACKS * YGOOD(6,NTRK)
106     * 13 * R*4 * * * TRACKS * XV(6,NTRK)
107     * 14 * R*4 * * * TRACKS * YV(6,NTRK)
108     * 15 * R*4 * * * TRACKS * ZV(6,NTRK)
109     * 16 * R*4 * * * TRACKS * AXV(6,NTRK)
110     * 17 * R*4 * * * TRACKS * AYV(6,NTRK)
111     * 18 * R*4 * * * TRACKS * DEDXP(6,NTRK)
112     * 1 * I*4 * * * SINGLETS * NCLSX(6)
113     * 2 * I*4 * * * SINGLETS * NCLSY(6)
114     ******************************************************************
115     * Block * Entries * Unpacked * Packed * Packing Factor *
116     ******************************************************************
117     * EVENT * 1185 * 8 * 5 * 1.600 *
118     * CPU * 1185 * 16 * 16 * 1.000 *
119     * TOF * 1185 * 932 * 932 * 1.000 *
120     * TRIGGER * 1185 * 288 * 288 * 1.000 *
121     * TRACKS * 1185 * 22004 * Var. * Variable *
122     * SINGLETS * 1185 * 48 * 48 * 1.000 *
123     * Total * --- * 23296 * Var. * Variable *
124     ******************************************************************
125     * Blocks = 6 Variables = 51 Max. Columns = 5824 *
126     ******************************************************************
127    
128    
129    
130     The variables calculated in "TOFROUTINE" are the last ones in the block
131     "TOF":
132    
133    
134     BETA(5): four values (1-4) for beta from S11-S31, S12-S32, S21-S31
135     and S22-S32.
136     if there is no valid signal beta is set to "100".
137     if there are four values for beta, the weighted mean is
138     calculated and put into beta(5). So it is possible for
139     the user to calculate his own mean value by using the
140     single values.
141    
142     XTOF(3): The x-position in the 3 different layers using the ToF
143     timing (So, for the x-coordinate we use S12, S21,S32).
144     If we cannot find a valid timing the value is set to "1000"
145    
146     YTOF(3): The same for y-position using S11, S22,S31
147    
148     ADC_C(4,12): normalized ADC values, the value in the middle of the
149     paddle is set to "1", using the (sometimes poor) attenuation
150     fit curves. The ADC_C matrix is analog to the ADC matrix
151     for the raw data, so one can use the same channel map.
152    
153     IFLAG(6): 6 values for the six layers:
154     "0" if no hit in this layer
155     "-1" if more than one hit
156     otherwise the number of the hitted paddle ("hit" = good
157     TDC values on both sides)
158    
159     JFLAG(6): 6 values for the six layers: coded value to see which
160     strips have valid hits:
161     for i=1 to (number of strips) do
162     if (paddle "i" = hit) then jflag = jflag + 2**(i-1)
163    
164    
165    
166    

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