/[PAMELA software]/yoda/event/RunHeaderEvent.h
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Annotation of /yoda/event/RunHeaderEvent.h

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Revision 4.4 - (hide annotations) (download)
Sat May 28 10:44:09 2005 UTC (19 years, 6 months ago) by kusanagi
Branch: MAIN
Changes since 4.3: +0 -0 lines
File MIME type: text/plain
Main features of this release are:
- updated classes documentations;
- major changes on the calibration fortran routine for the calorimeter
- update on the TMTC thermistors
- removed old classes as CalibTrkBoth and CalibTrd

1 kusanagi 1.1 #ifndef RUNHEADER_EVENT_H
2     #define RUNHEADER_EVENT_H
3    
4     #include "SubPacket.h"
5    
6     namespace pamela {
7 kusanagi 4.3 /**
8     * RunHeaderEvent data Wrapper.
9     * The RunHeaderEvent represent a RunHeader packet generated by the PAMELA CPU software.
10     * One RunHeader packet is expected before each Run session.
11     */
12 kusanagi 1.1 class RunHeaderEvent: public pamela::SubPacket {
13     private:
14    
15     public:
16     RunHeaderEvent(void);
17 kusanagi 2.1
18 kusanagi 4.3 /**
19     * The Compilation Timestamp of the PAMELA CPU software.
20     */
21 kusanagi 2.2 UINT32 COMPILATIONTIMESTAMP;
22 kusanagi 4.3
23     /**
24     * The Acquisition setting mode for the to-be-started run.
25     */
26 kusanagi 2.4 UINT8 RM_ACQ_SETTING_MODE;
27 kusanagi 4.3
28     /**
29     * The last On-Board-Time on which has been received the LAST_TIME_SYNC_INFO.
30     * This parameter is the copy of On-Board-Time received in the last Timesync MCMD.
31     * If zero means TimeSync mcmd nerver come.
32     */
33 kusanagi 2.1 UINT32 OBT_TIME_SYNC;
34 kusanagi 4.3
35     /**
36     * The last received TimeSync.
37     * This parameter is the copy of TimeSync received in the last Timesync MCMD.
38     * If zero means TimeSync mcmd nerver come.
39     */
40 kusanagi 4.1 UINT32 LAST_TIME_SYNC_INFO;
41 kusanagi 4.3
42     /**
43     * The Favourite Working Schedule.
44     * Description: <BR>
45     */
46 kusanagi 2.4 UINT8 FAVOURITE_WORKING_SCHEDULE;
47 kusanagi 4.3
48     /**
49     * The Effective Working Schedule.
50     */
51 kusanagi 2.4 UINT8 EFFECTIVE_WORKING_SCHEDULE;
52 kusanagi 4.3
53     /**
54     * The Acquisition mode for the trigger mode in A mode.
55     * See: sec:Trigger-acquisition-modes.
56     */
57 kusanagi 2.1 UINT32 PRH_VAR_TRIGGER_MODE_A;
58 kusanagi 4.3
59     /**
60     * The Acquisition mode for the trigger mode in B mode.
61     * See sub:working-schedule-3
62     */
63 kusanagi 2.1 UINT32 PRH_VAR_TRIGGER_MODE_B;
64 kusanagi 4.3
65     /**
66     * This flag Define if this is the first run after a calibration.
67     * Description: <BR>
68     * 0: is NOT the first run. <BR>
69     * 1: is the first run. <BR>
70     */
71 kusanagi 2.4 UINT8 RM_ACQ_AFTER_CALIB;
72 kusanagi 4.3
73     /**
74     * This flag Define if this is the first run after a calibration.
75     * See sub:trk_calib_used.
76     */
77 kusanagi 2.3 UINT32 TRK_CALIB_USED;
78 kusanagi 4.3
79     /**
80     * Provide information about what FEs commands are assembled inside the acquisition command queue for this run.
81     * It is a bitmask whose mean is defined by the constants defined in CM_ACQBI (see sub:RM_ACQBI).
82     * In case of TRIGGER_II mode, it does count, see sec:Trigger-II-Level. <br>
83     * Each bit says wheather a certain part of the command queue had been
84     * build into the command aquisition queue.
85     * Bit in LSB corresponds to low-numerical values of the following enum C-type <br>
86     * RM_ACQBI_TOF_PLAN_1 is bit (1<<0) <br>
87     * RM_ACQBI_TOF_PLAN_2 is bit (1<<1) <br>
88     * etc...
89     * Note that RM_ACQBI_XXX_BASE and RM_ACQBI_XXX_1 is the same bit.
90     * MSB not used are spere (zeroed) <br>
91     * typedef enum { <br>
92     * RM_ACQBI_TOF_PLAN_1, <br>
93     * RM_ACQBI_TOF_PLAN_2, <br>
94     * RM_ACQBI_TOF_PLAN_3, <br>
95     * RM_ACQBI_TOF_PLAN_4, <br>
96     * RM_ACQBI_TOF_PLAN_5, <br>
97     * RM_ACQBI_TOF_PLAN_6, <br>
98     * RM_ACQBI_AC_1, <br>
99     * RM_ACQBI_AC_2, <br>
100     * RM_ACQBI_CAL_BASE, <br>
101     * RM_ACQBI_CAL_1=RM_ACQBI_CAL_BASE, <br>
102     * RM_ACQBI_CAL_2, <br>
103     * RM_ACQBI_CAL_3, <br>
104     * RM_ACQBI_CAL_4, <br>
105     * RM_ACQBI_TRK_BASE, <br>
106     * RM_ACQBI_TRK_1_1=RM_ACQBI_TRK_BASE, <br>
107     * RM_ACQBI_TRK_1_2, <br>
108     * RM_ACQBI_TRK_1_3, <br>
109     * RM_ACQBI_TRK_1_4, <br>
110     * RM_ACQBI_TRK_1_5, <br>
111     * RM_ACQBI_TRK_1_6, <br>
112     * RM_ACQBI_TRK_2_1, <br>
113     * RM_ACQBI_TRK_2_2, <br>
114     * RM_ACQBI_TRK_2_3, <br>
115     * RM_ACQBI_TRK_2_4, <br>
116     * RM_ACQBI_TRK_2_5, <br>
117     * RM_ACQBI_TRK_2_6, <br>
118     * RM_ACQBI_S4, <br>
119     * RM_ACQBI_ND, <br>
120     * } RM_ACQBI;
121     */
122 kusanagi 2.3 UINT32 ACQ_BUILD_INFO;
123 kusanagi 4.3
124     /**
125     * Provide informations about some variable value in the starting of the acquisition procedure.
126     * See sub:trk_calib_used
127     * (PRH_VAR_TOF_OK ? 1<<0 : 0 ) |
128     * (PRH_VAR_AC_1_OK ? 1<<1 : 0 ) |
129     * (PRH_VAR_AC_2_OK ? 1<<2 : 0 ) |
130     * (PRH_VAR_CAL_OK ? 1<<3 : 0 ) |
131     * (PRH_VAR_TRK_OK ? 1<<4 : 0 ) |
132     * (PRH_VAR_S4_OK ? 1<<5 : 0 ) |
133     * (PRH_VAR_S4_WORKING ? 1<<6 : 0 ) |
134     * (PRH_VAR_S4_ATTEMPT ? 1<<7 : 0 ) |
135     * (PRH_VAR_ND_OK ? 1<<8 : 0 ) |
136     * (RM_use_nd ? 1<<9 : 0 ) |
137     * (PRH_VAR_ND_ATTEMPT ? 1<<10 : 0 );
138     */
139 kusanagi 4.2 UINT16 ACQ_VAR_INFO;
140 kusanagi 4.3
141     /**
142     * Provide informations about the calorimter DSP Mask.
143     * See sub:trk_calib_used
144     */
145 kusanagi 2.5 UINT8 CAL_DSP_MASK;
146 kusanagi 4.2 ClassDef(RunHeaderEvent, 3)
147 kusanagi 1.1 };
148     }
149    
150     #endif /* RUNHEADER_EVENT_H */
151    

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