Laser to DCC mapping in EE Xtal Level-1 lasers

Report
Laser to DCC mapping in EE
Xtal
lasers
switch
Mother fiber
Level-1
Level-2
Level-1
Need 36*2+4*4=88-way
02/11/2005
Wolfgang Funk - CERN CMS
1
Laser mapping for Dee2 and Dee4
View from back of backplate
For each laser switch position, 1 DCC to be read out for yellow, green, and pink regions
and 2 DCCs for the combined blue and orange region !! -> firmware
4 (of 4) Level-2 fanouts (black, blue, brown, pink)
19 (of 20) Level-1 fanouts
Max. 6 Level-1 per Level-2!!
12 (of 12) FEMs
220 Xtals per Level-1 in 4, 201 in 1, 210 in 2,
82
90
206 in 3, 220 in 5 (normally 200 of 240)
81
89
80
79
78
88
3
2
77
1
97
96
98
4
105
112b
104
111
118
112c
6
87
95
103
110
117
124
86
94
102
109
116
123
101
108
115
122
100
107
114
99
106
133
134
135
137
138
139
85
93
74
73
72
71
70
69
68
67
66
65
64
63
62
61
60
59
149a
76
84
92
75
83
91
5 of 112a
1 of 119a
16
51
52
1
5 of 58c
1 of 29c
58
b
57
56
55
53
54
2
12
50
49
48
47
46
45
44
15
1
11
43
42
41
40
39
38
37
14
35
34
32
9
13
30
31
2
10
58
a
36
29
b
28
27
26
25
24
8
4
29a
23
22
21
20
7
6
2
3
33b
19
18
17
33a
5
1
4
3
4
3
5
X
L-1
L-2
3
11
9b
125
5
11
9c
128
129
121
126
127
113
120
130
131
136
141
142
143
144
145
146
147
148
4
1
140
2
13
2a
ECAL numbering scheme
•
•
•
•
•
•
CMS-note 2005/021 “CMS ECAL Barrel channel numbering”.
New numbering of SMs of EB (no change of the rest).
Numbering of trigger sectors in EE.
Numbering of data sectors in EE.
Scheme for both hardware and software.
Scheme has to be compliant with official CMS numbering
scheme and the standard trigger system numbering.
• ULR crate organization is organized as CMS trigger system
demands.
• In all sub-detectors the numbers are identical in each Φ-trigger
slice.
• After discussions with a lot of people new scheme has been
accepted by the ECAL management.
02/11/2005
Wolfgang Funk - CERN CMS
3
HB+ numbering scheme
near
02/11/2005
Wolfgang Funk - CERN CMS
4
HE+ numbering scheme
near
02/11/2005
Wolfgang Funk - CERN CMS
5
HE- numbering scheme
near
02/11/2005
Wolfgang Funk - CERN CMS
6
EB+- numbering scheme
EB-
EB+
far
far
SM6
SM5
SM7
near
SM4
SM8
SM3
SM9
SM1
SM11
+x
+x
SM7
SM8
SM9
SM1
SM10
SM18
SM17
SM13
SM4
SM2
SM18
SM12
SM6
SM3
SM2
SM10
SM5
near
SM11
SM12
SM17
SM16
SM16
SM14 SM15
SM13
SM15 SM14
Views from I.P.
02/11/2005
Wolfgang Funk - CERN CMS
7
EE+ trigger numbering
near
02/11/2005
Wolfgang Funk - CERN CMS
8
EE- trigger numbering
near
02/11/2005
Wolfgang Funk - CERN CMS
9
EE+ data sector numbering
S1
S9
S2
S8
near
EE+
EE+N
S3
9
3
S7
S4
S6
S5
02/11/2005
EE+F
Wolfgang Funk - CERN CMS
Viewed from the I.P.
10
EE- data sector numbering
S9
S1
S8
S2
EE-
EE-F
near
S7
9
3
S3
S6
S4
S5
02/11/2005
EE-N
Wolfgang Funk - CERN CMS
Viewed from the I.P.
11
ULR crate matching
8/17
far
EE
7/16
0/9 near
S1
S2
S9
6/15
S3
82.2
(79.8) 80.2
(77.8)
81.7
(79.3)
80.2
(77.8))
S4
S7
SM3
SM2
SM11
SM1
SM18
SM17
SM16
SM15
SM14
SM12
SM13
1-2-3
81.3+6.4=87.7 82.8+7.0=89.8
SRP
85.2+7.6=92.8
EE+ C EE+ B EE- B
10-11-12
13-14-15
4-5-6
EB+ A1 EB+ A2 EB+ C2 TST
16-17
10-11
Raw D 9-17
EB+ C1 EB+ B1 EB+ B2
EB- A1 EB- A2 EB- C2
EB- C1 EB- B1 EB- B2
0-8
E
2/11
S6
0-7-8
EB
SM4
Max. 61.4
SM10
3/12
4/13
85.3+4.0=89.3 87.7+4.6=92.3 83.7+5.2=88.9
EE+ A EE- A EE- C
9-16-17
SM6 SM5
SM9
S5
5/14
wall to UX
SM7
SM8
1/10
87.7 85.7
(85.3) (83.3)
S8
87.7
83.7
(85.3))
(81.3)
85.2 (82.8)
near
far
7-8
1-2
11-12
5-6
4-5
3
14
12
5
4
13
8
9
9
8
1
16
10
7
2
15
11
6
1
2
3
4
5
6
02/11/2005
rack2
rack3
rack4
13-14
2-3
0
17
rack1
14-15
Max.total
length
of fibers
rack5
Wolfgang Funk - CERN CMS
7
rack6
rack7
12
Laser distribution system
X
L-2 L-1
general
• Laser station is connected via switch to mother fibers.
• Switch has to be at least (2x36 + 4x4) = 88-way. Maybe 92-way?
• Each mother fiber (coming from the laser switch in laser
barrack) has one Level-2 fanout.
• Each Level-2 fanout has 7 fibers going out towards one
Level-1 fanout, where normally 5 are installed.
• Each Level-1 fanout has 240 fibers going out towards the Xtals,
where at least 200 working fibers have to be available for Xtals.
• Each Level-2 fanout has one fiber to a PN diode in a FEM.
• Each Level-1 fanout has one fiber to a PN diode in a FEM.
• Each FEM has 2 PN diode either for Level-1 or Level-2 (not
mixed).
• Each FEM has 2 read-out cables to (Double) MEM-box.
20/09/2005
Wolfgang Funk - CERN CMS
2
Laser distribution system
EE specific
L-2
L-1
X
• 6 mother fibers per Dee are installed in pt5. Need spares!
• 4 Level-2 fanouts per Dee are foreseen.
• 20 Level-1 fanouts per Dee are foreseen.
• If possible, each fiber connected to one Level-1 should get
similar radiation dose.
• 12 FEMs (24 PN diodes) per Dee are foreseen.
• Power cables for 12 FEMs are installed in pt5.
• 24 read-out cables per Dee from FEMs to Double MEM (has
24 ADCs) are installed in pt5.
• Double MEM reads 2 Quadrant (≡ 2 SMs)
20/09/2005
Wolfgang Funk - CERN CMS
3
Data sector/DCC architecture
EE specific
L-2
L-1
X
• Per Dee there are 4 ½ data sectors.
• Each data sector has one specific DCC in the ULR.
• Laser trigger information is sent to DCCs, to determine which
DCC is read out.
• All Xtals in this data sector are then read out.
• To read out several data sectors, a special bit pattern is used,
special firmware would need to be developed.
20/09/2005
Wolfgang Funk - CERN CMS
4
Former EE laser mapping
20/09/2005
82
81
4
149a
89
97
98
105
112b
80
X
L-1
90
88
79
87
78
86
77
85
76
84
75
83
96
3
111
118
5
11
9b
95
103
110
117
124
94
102
109
116
123
125
101
108
115
122
128
129
92
100
107
114
121
126
127
91
99
106
113
120
130
131
133
134
135
136
141
142
143
144
139
140
145
146
147
148
2
1
104
112c
93
74
73
72
71
70
69
68
L-2
5 of 112a
1 of 119a
5 of 58c
1 of 29c
59
1
67
66
65
64
63
62
60
2
4
61
57
56
55
54
53
52
51
16
50
49
48
47
46
45
44
15
3
12
10
14
2
1
11
43
42
37
38
39
5
40
41
36
35
34
32
31
30
13
9
28
27
26
25
24
8
4
23
22
21
20
7
3
3
17
6
4
2
1
5
33a
18
19
33b
29a
29
b
5
58
a
58
b
For each laser switch position, 2-3 DCCs to be read out!!
4 Level-2 fanouts (black, blue, brown, pink)
20 Level-1 fanouts
Max. 5 Level-1 per Level-2
12 FEMs
Max. 215 Xtals per Level-1 (5, 5)
137
Wolfgang Funk - CERN CMS
1
138
5
2
3
11
9c
4
13
2a
5
Possible EE laser mapping (2)
20/09/2005
90
149a
81
89
80
79
78
88
3
4
77
5
97
96
98
2
105
112b
104
111
87
95
103
110
86
94
102
85
118
1
112c
11
9b
117
124
109
116
123
125
101
108
115
122
128
129
100
107
114
121
126
127
99
106
113
120
130
131
133
134
135
136
141
142
143
137
138
139
140
145
2
146
147
93
74
73
72
71
70
69
68
1
X
L-1
L-2
76
84
92
75
83
91
5 of 112a
1 of 119a
5 of 58c
1 of 29c
59
5
67
66
65
64
63
62
60
3
61
57
56
55
54
53
52
51
16
5
4
12
50
49
15
44
45
46
47
48
2
11
43
42
41
40
38
10
14
37
39
36
13
31
4
30
32
34
35
1
9
28
27
26
25
24
8
3
4
23
22
7
20
21
2
3
17
6
1
2
1
5
33a
18
19
33b
29a
29
b
58
a
58
b
For each laser switch position, only 1 DCCs to be read out!!
5 Level-2 fanouts (black, blue, brown, pink, green)!!
23 Level-1 fanouts!!
Max. 5 Level-1 per Level-2
15 FEMs (12 foreseen)!!
82
Max. 200 Xtals per Level-1
5
Wolfgang Funk - CERN CMS
3
3
4
11
9c
2
1
13
2a
144
148
7
Possible EE laser mapping (3)
20/09/2005
L-2
X
L-1
90
74
149a
81
89
80
88
97
96
98
4
105
112b
104
111
118
112c
78
87
2
77
1
86
85
3
95
103
110
117
124
94
102
109
116
123
101
108
115
122
100
107
114
99
106
133
134
135
137
138
139
93
79
76
84
92
75
83
91
5 of 112a
1 of 119a
68
69
70
71
72
73
3
67
66
65
5 of 58c
1 of 29c
59
60
61
62
63
64
57
56
55
54
53
51
52
1
16
15
1
2
12
50
44
45
46
47
48
49
4
11
43
42
41
40
39
38
37
14
13
30
31
2
10
36
32
34
35
3
9
28
27
26
25
24
8
4
23
22
21
20
7
3
3
17
6
4
2
1
5
33a
18
19
33b
29a
29
b
58
a
58
b
For each laser switch position, only 1 DCCs to be read out!!
5 Level-2 fanouts (black, blue, brown, pink, green)
18 Level-1 fanouts
Max. 5 Level-1 per Level-2
12 FEMs!!
220 Xtals per Level-1 in 4, 201 in 1, 220 in 1,
82
210 in 4, 206 in 1, 220 in 4, 210 in 2
Wolfgang Funk - CERN CMS
1
11
9b
125
4
11
9c
128
129
121
126
127
113
120
130
131
136
141
142
143
144
145
146
147
148
2
1
140
2
13
2a
8
What is the best?
For an external viewer
(3)
L-2
L-1
X
Independent firing of all data sectors!
One more Level-2, two less Level-1.
Same number of FEMS as foreseen.
Need switch with 72 (EB) + 20 (EE) = 92!
20/09/2005
Wolfgang Funk - CERN CMS
9

similar documents