Commissioning





Project Start:
Project Finish:
4/16/04
2/1/05


Tasks


ID
Task Name
DurationStartFinishResource Names% CompleteNotes
1
Milestones
157.5 d6/25/042/1/05 0% 
2
NuMI BPM electronics available
0 d6/30/046/30/04 0% 
3
Start 2004 shutdown
0 d8/23/048/23/04 0% 
4
End 2004 shutdown
0 d11/19/0411/19/04 0% 
5
MI Prep for Commissioning Complete
0 d12/7/0412/7/04 0% 
6
NuMI Checkout Complete
0 d12/9/0412/9/04 0% 
7
Administrative Approvals Complete
0 d12/15/0412/15/04 0% 
8
Operations Preparations Complete
0 d12/10/0412/10/04 0% 
9
Start Commissioning
0 d12/15/0412/15/04 0% 
10
Meet CD-4 Proton Intensity Goal
0 d1/5/051/5/05 0% 
11
Meet CD-4 Beam Alignment Goal
0 d12/22/0412/22/04 0% 
12
Meet CD-4 ND Neutrino Beam Energy Goal
0 d1/6/051/6/05 0% 
13
Meet CD-4 ND Cosmic Ray Goal
0 d11/30/0411/30/04 0% 
14
Meet CD-4 ND Neutrino Flux Goal
0 d1/6/051/6/05 0% 
15
Meet CD-4 FD Cosmic Ray Goal
0 d6/25/046/25/04 0% 
16
Achieve CD-4
0 d1/6/051/6/05 0% 
17
Start routine high intensity operation
0 d2/1/052/1/05 0% 
18
Turnover to Operations Complete
0 d2/1/052/1/05 0% 
19
MI Preparation for Commissioning
168 d4/16/0412/7/04 28% 
20
Booster Cogging Studies
60 d4/19/047/9/04 80% 
21
Booster cogging study 1
1 d4/19/044/19/04Alberto Marchionni100%First study showed random placement of the Booster notch
22
Booster cogging study 2
1 d4/21/044/21/04Alberto Marchionni100%Booster/MI noth sync looks good. Notch needs to be moved in between batches
23
Booster cogging study 3
1 d5/4/045/4/04Alberto Marchionni100%Notch is timed in with 1 booster batch. Low losses. Losses increase w 3 batches.
24
Booster cogging study 4
1 d7/8/047/8/04Alberto Marchionni100%Find large losses in Booster with multi-batch. Cog timing is ok, but the notcher apparently doesn't have enough kick to remove the beam at 800 MeV.
25
Fix booster notcher problem
1 d7/9/047/9/04 0%7/22: Need new notcher power supply. GMPS problem to be solved by moving to new feeder? or feed forward. Will be fixed during long shutdown.
26
Booster longitudinal dampers on $19 cycle
1 d6/17/046/17/04Alberto Marchionni0%7/8: Tested at low intensity with Bob Zwaska. Need input from Bob
27
High Intensity Studies
90 d5/10/049/10/04 29% 
28
Commission final FPGA board for the transverse damper system
30 d5/10/046/18/04Alberto Marchionni90%7/8: Need fast time plot feature. Phil A may start work on SHARC programming.
29
Study transverse dampers on NuMI cycle $23
30 d5/17/046/25/04Alberto Marchionni50%7/8: AM shows multi-batch plot with small beam loss with transverse dampers on at 1.5E13.
30
Study longitudinal dampers on NuMI cycle $23
15 d6/28/047/16/04Alberto Marchionni50%Need to ensure that the FPGA board is fully debugged or may impact Run II operation.
31
Fix problem with RF feedback limiters
15 d6/10/046/30/04Alberto Marchionni0%RF has a dip at transition at 2.5E13 ppp for some stations. Cause unknown....
32
Establish tune measurement system
20 d6/28/047/23/04Alberto Marchionni0% 
33
Recalibrate tune and chromaticity tables
15 d7/26/048/13/04Alberto Marchionni0% 
34
Set up automatic tune compensation with intensity
5 d8/16/048/20/04Alberto Marchionni0%System exists but numbers need to be determined. AM will work with Dave C.
35
Demonstrate reliable acceleration to 3.3E13 ppp
40 d7/19/049/10/04Alberto Marchionni0%7/8: Find problem at > 2.5E13. BLMON increases, RF problem at transition. Can probably run at 2.3E13 total....
36
Revise TCLK scheme $8D
61 d5/12/048/4/04 0% 
37
BSSB modifications
60 d5/12/048/3/04Bob Ducar0%Requires modification of Beam Switch Sum Box and firmware changes in service buildings to add new event. Plan to do this during the long shutdown....
38
Study new $8D cycle
1 d8/4/048/4/04Alberto Marchionni0%WIll need to be done after the shutdown.
39
Batch by Batch Integrator
83 d4/23/048/17/04 84% 
40
Finalize specifications
0 d4/23/044/23/04Andrew Godley100% 
41
Design FBBI
45 d4/23/046/24/04Instrument Dept100% 
42
Procurement
20 d6/25/047/22/04Instrument Dept100% 
43
Assembly & testing
15 d7/23/048/12/04Instrument Dept30% 
44
Install FBBI in MI
1 d8/13/048/13/04Instrument Dept0% 
45
Database & parameter page updates
1 d8/16/048/16/04Alan Wehmann0% 
46
Calibrate/study FBBI with MI beam
1 d8/17/048/17/04Alberto Marchionni0% 
47
Need better resolution on $74
30 d7/22/049/1/04 0%$74 event comes from 720 Hz clock which is inadequate for kicker timing. Probably comes from PS group to line-lock the magnet ramps.
48
MI "Beam Quality" BPS inputs
167 d4/19/0412/7/04 15% 
49
Conceptual design/review of requirements
1 d4/19/044/19/04Alberto Marchionni100% 
50
Extraction region BPM's
81 d4/30/048/20/04 26% 
51
Draft specs for BPM inputs to BPS
1 d4/30/044/30/04Andrew Godley100% 
52
Develop specs for BPM batch averaging electronics
15 d5/3/045/21/04Andrew Godley100% 
53
Build BPM batch averaging electronics
45 d6/18/048/19/04Instrument Dept0%7/8: Webber still thinking about how to do this. Not likely to be ready for NuMI startup.
54
Study 606, 607, 608, 609 BPM signals as inputs to BPS
1 d8/20/048/20/04Andrew Godley0% 
55
Extraction region Loss Monitors
147 d5/14/0412/6/04 5% 
56
Connect LM's in P1 line & study
25 d5/14/046/17/04Doug Jensen0%7/8: DJ figuring out how to data log these.
57
Install 608 & 612 LM's in tunnel
1 d6/18/046/18/04Bob Ducar0%7/8: WIll probably happend during the long shutdown.
58
Draft specs for LM gating electronics
5 d6/21/046/25/04Andrew Godley70%Need electronics to integrate losses at flat-top. Signal goes into the BPS
59
Build LM gating electronics
30 d6/28/048/6/04Instrument Dept0% 
60
Study 608 & 612 LM signals as inputs to BPS
1 d8/9/048/9/04Andrew Godley0% 
61
Checkout LM's
1 d12/6/0412/6/04 0% 
62
I:LMNKMA
1 d12/6/0412/6/04Sam Childress0% 
63
I:LMNKMB
1 d12/6/0412/6/04Sam Childress0% 
64
I:LMNKMC
1 d12/6/0412/6/04Sam Childress0% 
65
I:LML60
1 d12/6/0412/6/04Sam Childress0% 
66
I:LML61A
1 d12/6/0412/6/04Sam Childress0% 
67
I:LML61B
1 d12/6/0412/6/04Sam Childress0% 
68
E:LMQ608
1 d12/6/0412/6/04Sam Childress0% 
69
E:LMQ612
1 d12/6/0412/6/04Sam Childress0% 
70
Checkout Main Injector BPS inputs
81 d8/17/0412/7/04 0% 
71
Check 608 & 612 LM inputs
1 d12/7/0412/7/04Bob Ducar0% 
72
Check MI BPM inputs
1 d12/7/0412/7/04Bob Ducar0% 
73
Check kicker inputs
1 d11/9/0411/9/04Bob Ducar0% 
74
Check Lambertson inputs
1 d11/9/0411/9/04Bob Ducar0% 
75
Check FBI inputs
1 d8/17/048/17/04Bob Ducar0% 
76
MI BPM's w NuMI electronics
31 d6/10/047/23/04 5% 
77
Install prototype transition board on MI BPM 602
0 d6/10/046/10/04Debbie Harris100% 
78
Study prototype BPM electronics
15 d6/11/047/1/04Alberto Marchionni10% 
79
Install NuMI electronics on MI BPMs 602, 604, 606, 607
1 d7/2/047/2/04Sam Childress0%Depends on availability of 4 channels of final NuMI BPM electronics
80
Study production BPM electronics on 4 BPM's
15 d7/5/047/23/04Alberto Marchionni0% 
81
Orbit & Extraction Issues
66 d4/16/047/16/04 50% 
82
Re-tune MI closed orbit to reduce corrector currents - First pass
1 d4/16/044/16/04Alberto Marchionni100% 
83
Re-tune MI closed orbit to reduce corrector currents - 2nd pass
1 d7/15/047/15/04Alberto Marchionni0%Closed orbit check requires consistent flattop energy for pbar, SY120 and NuMI which is essentially done. Do the final check in July.
84
Need new corrector time bump slots for NuMI
1 d4/16/044/16/04Alberto Marchionni100% 
85
Check MI52 rise/fall time - first pass
1 d4/16/044/16/04Alberto Marchionni100% 
86
Check MI52 rise/fall time - 2nd pass
1 d6/28/046/28/04Alberto Marchionni0%7/8: Low priority.
87
Check NuMI extraction bumps
1 d7/16/047/16/04Alberto Marchionni0% 
88
NuMI Checkout
140 d5/28/0412/9/04 1% 
89
Primary Beam
117 d5/28/0411/8/04 1% 
90
Primary Beam Magnets
117 d5/28/0411/8/04 2%Polarity check and power testing completed
91
I:KPS6N
1 d11/8/0411/8/04George Krafczyk0% 
92
Check effect of Lambertson operation on Recycler orbit
1 d5/28/045/28/04Sam Childress,Alberto Marchionni0% 
93
I:LAM60
1 d11/8/0411/8/04George Krafczyk0% 
94
I:LAM61
1 d11/8/0411/8/04George Krafczyk0% 
95
I:V100 (C-Magnet)
1 d11/8/0411/8/04George Krafczyk0% 
96
E:QD101
1 d11/8/0411/8/04George Krafczyk0% 
97
E:HT102
1 d11/8/0411/8/04George Krafczyk0% 
98
Check residual field at Recycler due to HV101:1,6
1 d5/28/045/28/04Doug Jensen100%Fields at Recycler as expected. Need end caps and more shields
99
Check residual field at Recycler with all HV101 shields in place
1 d6/30/046/30/04Doug Jensen0%Need all shields installed and another power-on access to check HV101 fields at Recycler
100
Check effect of HV101 on Recycler orbit
1 d7/2/047/2/04Alberto Marchionni0%Joint study with Alberto & Cons Gattuso
101
E:HV101
1 d11/8/0411/8/04George Krafczyk0% 
102
E:QF102
1 d11/8/0411/8/04George Krafczyk0% 
103
E:VT103
1 d11/8/0411/8/04George Krafczyk0% 
104
Check residual fieds at Recycler from extraction quads
1 d7/1/047/1/04Doug Jensen0% 
105
E:QD103
1 d11/8/0411/8/04George Krafczyk0% 
106
E:QF104
1 d11/8/0411/8/04George Krafczyk0% 
107
E:H104 (200 turn dipole)
1 d11/8/0411/8/04George Krafczyk0% 
108
E:QF105
1 d11/8/0411/8/04George Krafczyk0% 
109
E:HT105
1 d11/8/0411/8/04George Krafczyk0% 
110
E:QD106
1 d11/8/0411/8/04George Krafczyk0% 
111
E:VT106
1 d11/8/0411/8/04George Krafczyk0% 
112
E:QF107
1 d11/8/0411/8/04George Krafczyk0% 
113
E:HT107
1 d11/8/0411/8/04George Krafczyk0% 
114
E:VT108
1 d11/8/0411/8/04George Krafczyk0% 
115
E:QD108
1 d11/8/0411/8/04George Krafczyk0% 
116
E:V108
1 d11/8/0411/8/04George Krafczyk0% 
117
E:HT109
1 d11/8/0411/8/04George Krafczyk0% 
118
E:QF109
1 d11/8/0411/8/04George Krafczyk0% 
119
E:VT110
1 d11/8/0411/8/04George Krafczyk0% 
120
E:QD110
1 d11/8/0411/8/04George Krafczyk0% 
121
E:VT111
1 d11/8/0411/8/04George Krafczyk0% 
122
E:QD111
1 d11/8/0411/8/04George Krafczyk0% 
123
E:HT112
1 d11/8/0411/8/04George Krafczyk0% 
124
E:QF112
1 d11/8/0411/8/04George Krafczyk0% 
125
E:QD113
1 d7/26/047/26/04George Krafczyk0% 
126
E:VT114
1 d7/26/047/26/04George Krafczyk0% 
127
E:HT114
1 d7/26/047/26/04George Krafczyk0% 
128
E:QF114
1 d7/26/047/26/04George Krafczyk0% 
129
E:QF115
1 d7/26/047/26/04George Krafczyk0% 
130
E:HT115
1 d7/26/047/26/04George Krafczyk0% 
131
E:QD116
1 d7/26/047/26/04George Krafczyk0% 
132
E:VT116
1 d7/26/047/26/04George Krafczyk0% 
133
E:QF117
1 d7/26/047/26/04George Krafczyk0% 
134
E:HT117
1 d7/26/047/26/04George Krafczyk0% 
135
E:H117
1 d7/26/047/26/04George Krafczyk0% 
136
E:QD118
1 d7/26/047/26/04George Krafczyk0% 
137
E:VT118
1 d7/26/047/26/04George Krafczyk0% 
138
E:V118
1 d7/26/047/26/04George Krafczyk0% 
139
E:HT119
1 d7/26/047/26/04George Krafczyk0% 
140
E:QF119
1 d7/26/047/26/04George Krafczyk0% 
141
E:QD120
1 d7/26/047/26/04George Krafczyk0% 
142
E:QF121
1 d7/26/047/26/04George Krafczyk0% 
143
E:HT121
1 d7/26/047/26/04George Krafczyk0% 
144
E:VT121
1 d7/26/047/26/04George Krafczyk0% 
145
Beam Position Monitors
76 d7/26/0411/8/04 0%A/B plates pulsed and read out throught ACNET
146
E:VP101
1 d11/8/0411/8/04Sam Childress0% 
147
E:HP101
1 d11/8/0411/8/04Sam Childress0% 
148
E:HP102
1 d11/8/0411/8/04Sam Childress0% 
149
E:VP103
1 d11/8/0411/8/04Sam Childress0% 
150
E:HP104
1 d11/8/0411/8/04Sam Childress0% 
151
E:HP105
1 d11/8/0411/8/04Sam Childress0% 
152
E:VP106
1 d11/8/0411/8/04Sam Childress0% 
153
E:HP107
1 d11/8/0411/8/04Sam Childress0% 
154
E:VP108
1 d11/8/0411/8/04Sam Childress0% 
155
E:HP109
1 d11/8/0411/8/04Sam Childress0% 
156
E:VP110
1 d11/8/0411/8/04Sam Childress0% 
157
E:VP111
1 d11/8/0411/8/04Sam Childress0% 
158
E:HP112
1 d11/8/0411/8/04Sam Childress0% 
159
E:VP113
1 d7/26/047/26/04Sam Childress0% 
160
E:HP114
1 d7/26/047/26/04Sam Childress0% 
161
E:HP115
1 d7/26/047/26/04Sam Childress0% 
162
E:VP116
1 d7/26/047/26/04Sam Childress0% 
163
E:HP117
1 d7/26/047/26/04Sam Childress0% 
164
Evaluate effect of image current using network analyzer
1 d8/10/048/10/04Instrument Dept0% 
165
E:VP118
1 d7/26/047/26/04Sam Childress0% 
166
E:HP119
1 d7/26/047/26/04Sam Childress0% 
167
E:HP121
1 d7/26/047/26/04Sam Childress0% 
168
E:VP121
1 d7/26/047/26/04Sam Childress0% 
169
E:HPTAR
1 d7/26/047/26/04Sam Childress0% 
170
E:VPTAR
1 d7/26/047/26/04Sam Childress0% 
171
Profile Monitors
66 d8/9/0411/8/04 0%Motor drives are run to check limits and status read from ACNET. Final alignment done.
172
E:PM101
1 d11/8/0411/8/04Sam Childress0% 
173
E:PM105
1 d11/8/0411/8/04Sam Childress0% 
174
E:PM107
1 d11/8/0411/8/04Sam Childress0% 
175
E:PM108
1 d11/8/0411/8/04Sam Childress0% 
176
E:PM112
1 d11/8/0411/8/04Sam Childress0% 
177
E:PM114
1 d8/9/048/9/04Sam Childress0% 
178
E:PM115
1 d8/9/048/9/04Sam Childress0% 
179
E:PM117
1 d8/9/048/9/04Sam Childress0% 
180
E:PM121
1 d8/9/048/9/04Sam Childress0% 
181
E:PMTGT
1 d8/9/048/9/04Sam Childress0% 
182
Beam Loss Monitors
66 d8/9/0411/8/04 0%Signal cable rung out through ACNET. HV connected
183
E:LMHV1O - MI60
1 d11/8/0411/8/04Sam Childress0% 
184
E:LMHV1R - MI60
1 d11/8/0411/8/04Sam Childress0% 
185
E:LMV100
1 d11/8/0411/8/04Sam Childress0% 
186
E:LMQ101
1 d11/8/0411/8/04Sam Childress0% 
187
E:LM1011
1 d11/8/0411/8/04Sam Childress0% 
188
E:LM1012
1 d11/8/0411/8/04Sam Childress0% 
189
E:LMQ102
1 d11/8/0411/8/04Sam Childress0% 
190
E:LMHV2O - MI60
1 d11/8/0411/8/04Sam Childress0% 
191
E:LMHV2R - MI60
1 d11/8/0411/8/04Sam Childress0% 
192
E:LM1013
1 d11/8/0411/8/04Sam Childress0% 
193
E:LM1014
1 d11/8/0411/8/04Sam Childress0% 
194
E:LM1015
1 d11/8/0411/8/04Sam Childress0% 
195
E:LMQ103
1 d11/8/0411/8/04Sam Childress0% 
196
E:LM1016
1 d11/8/0411/8/04Sam Childress0% 
197
E:LMQ104
1 d11/8/0411/8/04Sam Childress0% 
198
E:LMH104
1 d11/8/0411/8/04Sam Childress0% 
199
E:LMQ105
1 d11/8/0411/8/04Sam Childress0% 
200
E:LMQ106
1 d11/8/0411/8/04Sam Childress0% 
201
E:LMQ107
1 d11/8/0411/8/04Sam Childress0% 
202
E:LMHV3O
1 d11/8/0411/8/04Sam Childress0% 
203
E:LMHV3R
1 d11/8/0411/8/04Sam Childress0% 
204
E:LMQ108
1 d11/8/0411/8/04Sam Childress0% 
205
E:LM1081
1 d11/8/0411/8/04Sam Childress0% 
206
E:LM1082
1 d11/8/0411/8/04Sam Childress0% 
207
E:LMQ109
1 d11/8/0411/8/04Sam Childress0% 
208
E:LM1083
1 d11/8/0411/8/04Sam Childress0% 
209
E:LM1084
1 d11/8/0411/8/04Sam Childress0% 
210
E:LMQ110
1 d11/8/0411/8/04Sam Childress0% 
211
E:LM1085
1 d11/8/0411/8/04Sam Childress0% 
212
E:LM1086
1 d11/8/0411/8/04Sam Childress0% 
213
E:LMQ111
1 d11/8/0411/8/04Sam Childress0% 
214
E:LMQ112
1 d11/8/0411/8/04Sam Childress0% 
215
E:LMHV4O - MI65
1 d8/9/048/9/04Sam Childress0% 
216
E:LMHV4R - MI65
1 d8/9/048/9/04Sam Childress0% 
217
E:LMQ113
1 d8/9/048/9/04Sam Childress0% 
218
E:LMQ114
1 d8/9/048/9/04Sam Childress0% 
219
E:LMQ115
1 d8/9/048/9/04Sam Childress0% 
220
E:LMQ116
1 d8/9/048/9/04Sam Childress0% 
221
E:LMQ117
1 d8/9/048/9/04Sam Childress0% 
222
E:LMH117
1 d8/9/048/9/04Sam Childress0% 
223
E:LMQ118
1 d8/9/048/9/04Sam Childress0% 
224
E:LM1181
1 d8/9/048/9/04Sam Childress0% 
225
E:LM1182
1 d8/9/048/9/04Sam Childress0% 
226
E:LMQ119
1 d8/9/048/9/04Sam Childress0% 
227
E:LMHV5O
1 d8/9/048/9/04Sam Childress0% 
228
E:LMHV5R
1 d8/9/048/9/04Sam Childress0% 
229
E:LM1183
1 d8/9/048/9/04Sam Childress0% 
230
E:LM1184
1 d8/9/048/9/04Sam Childress0% 
231
E:LMQ120
1 d8/9/048/9/04Sam Childress0% 
232
E:LMQ121
1 d8/9/048/9/04Sam Childress0% 
233
Total Loss Monitors
1 d11/8/0411/8/04 0%Signal cable rung out through ACNET. HV connected
234
E:TLMNS
1 d11/8/0411/8/04Sam Childress0% 
235
E:TLMCTU
1 d11/8/0411/8/04Sam Childress0% 
236
E:TLMCTD
1 d11/8/0411/8/04Sam Childress0% 
237
E:TLMPT
1 d11/8/0411/8/04Sam Childress0% 
238
E:TLMHV
1 d11/8/0411/8/04Sam Childress0% 
239
E:TLMGF
1 d11/8/0411/8/04Sam Childress0% 
240
Toroids
66 d8/9/0411/8/04 0%Signal cable rung out through ACNET
241
E:NIUP
1 d11/8/0411/8/04Sam Childress0% 
242
E:NIDN
1 d8/9/048/9/04Sam Childress0% 
243
Calibration Targets
1 d11/8/0411/8/04 0%Motor drives are run to check limits and status read from ACNET.
244
E:CT111
1 d11/8/0411/8/04Sam Childress0% 
245
E:CT118
1 d11/8/0411/8/04Sam Childress0% 
246
Resistive Wall Monitor
1 d11/8/0411/8/04Sam Childress0% 
247
Primary beam vacuum system
66 d8/9/0411/8/04 0%Beamline section is pumped down. Vac & status verified on ACNET
248
Extraction channel vacuum
1 d11/8/0411/8/04Dave Pushka0% 
249
Carrier Tunnel vacuum
1 d11/8/0411/8/04Dave Pushka0% 
250
Pre-target vacuum
1 d8/9/048/9/04Dave Pushka0% 
251
Target Hall
127 d6/15/0412/8/04 0% 
252
Target/Baffle Module
127 d6/15/0412/8/04 0% 
253
E:BTHTnn
1 d12/8/0412/8/04Jim Hylen0% 
254
E:BTHTnn
1 d12/8/0412/8/04Jim Hylen0% 
255
Target Budal Monitor
1 d12/8/0412/8/04Jim Hylen0% 
256
Target helium flow/pressure
1 d12/8/0412/8/04Jim Hylen0% 
257
Target positioning
1 d12/8/0412/8/04Jim Hylen0% 
258
Target/Baffle RAW system
1 d6/15/046/15/04Dave Pushka0% 
259
Horn 1 Module
127 d6/15/0412/8/04 0% 
260
E:BTHTnn
1 d12/8/0412/8/04Jim Hylen0% 
261
E:BTHTnn
1 d12/8/0412/8/04Jim Hylen0% 
262
E:BTHTnn
1 d12/8/0412/8/04Jim Hylen0% 
263
Horn 1 Bdot system
1 d12/8/0412/8/04Jim Hylen0% 
264
Horn 1 RAW System
1 d6/15/046/15/04Dave Pushka0% 
265
Horn 1 motor controls
1 d12/8/0412/8/04Jim Hylen0% 
266
Horn 2 Module
127 d6/15/0412/8/04 0% 
267
E:BTHTnn
1 d12/8/0412/8/04Jim Hylen0% 
268
E:BTHTnn
1 d12/8/0412/8/04Jim Hylen0% 
269
Horn 2 Bdot system
1 d12/8/0412/8/04Jim Hylen0% 
270
Horn 2 RAW System
1 d6/15/046/15/04Dave Pushka0% 
271
Horn 2 motor controls
1 d12/8/0412/8/04Jim Hylen0% 
272
Horn Power supply
1 d7/16/047/16/04George Krafczyk0% 
273
Chase Cooling System
1 d12/8/0412/8/04 0% 
274
Target pile temperature monitors
1 d12/8/0412/8/04Jim Hylen0% 
275
Differential pressure monitors
1 d12/8/0412/8/04Jim Hylen0% 
276
Confirm target pile leak rate is OK
1 d12/8/0412/8/04Jim Hylen0% 
277
Absorber Area
68 d6/15/049/16/04 0% 
278
Decay pipe vacuum system checkout
1 d6/15/046/15/04Dave Pushka0%DK pipe is evacuated to a stable vacuum level. Status is read out through ACNET
279
Checkout Decay Pipe RAW system
1 d7/16/047/16/04Dave Pushka0%RAW system is operated. Pumps, valves and instrumentation are checked for proper operation vis ACNET
280
Checkout Hadron Monitor gas and electrical
1 d7/16/047/16/04Debbie Harris0%Gas flows to monitor and checked for leaks. Electrical connections checked with HV & pulser through ACNET
281
Checkout Absorber temperature monitors
1 d9/16/049/16/04Cat James0%Temp monitors connected to ACNET and checked
282
Measure absorber air leak rate
1 d9/16/049/16/04Cat James0%Leak rate checked to ensure consistency with airborne release calculations. Mitigate leaks if too high.
283
Checkout muon monitor 1 gas & electrical
1 d9/16/049/16/04Debbie Harris0%Gas flows to monitor and checked for leaks. Electrical connections checked with HV & pulser through ACNET
284
Checkout muon monitor 2 gas & electrical
1 d9/16/049/16/04Debbie Harris0%Gas flows to monitor and checked for leaks. Electrical connections checked with HV & pulser through ACNET
285
Checkout muon monitor 3 gas & electrical
1 d9/16/049/16/04Debbie Harris0%Gas flows to monitor and checked for leaks. Electrical connections checked with HV & pulser through ACNET
286
Beam Permit System
98 d7/27/0412/9/04 0%Inputs are checked after input signals are connected to the BPS. The signal is toggled at the device to verify operation on ACNET
287
Check MI/stub magnet inputs
1 d11/9/0411/9/04Bob Ducar0% 
288
Check MI/stub instrumentation inputs
1 d11/9/0411/9/04Bob Ducar0% 
289
Check CT magnet inputs
1 d7/27/047/27/04Bob Ducar0% 
290
Check CT instrumentation inputs
1 d11/9/0411/9/04Bob Ducar0% 
291
Check pre-tgt magnet inputs
1 d7/27/047/27/04Bob Ducar0% 
292
Check pre-tgt instrumentation inputs
1 d11/9/0411/9/04Bob Ducar0% 
293
Check target hall inputs
1 d12/9/0412/9/04Bob Ducar0% 
294
Check Upstream utility inputs
1 d11/9/0411/9/04 0% 
295
Check absorber area inputs
1 d9/17/049/17/04Bob Ducar0% 
296
Safety System
93 d7/15/0411/22/04 0% 
297
All gates, search & secure boxes in place
1 d7/15/047/15/04Bob Ducar0% 
298
Critical device test
1 d11/22/0411/22/04Bob Ducar0% 
299
Administrative Approvals
152 d5/18/0412/15/04 19% 
300
Main Injector Approvals
87 d6/18/0410/18/04 28% 
301
Update MI Shielding Assessment
27 d6/18/047/26/04Alberto Marchionni,Nancy Grossman89% 
302
AD approve MI running conditions
60 d7/27/0410/18/04Alberto Marchionni0% 
303
NuMI Approvals
152 d5/18/0412/15/04 15% 
304
AD Review Shielding Assessment
45 d5/18/047/19/04Nancy Grossman50% 
305
Shielding Assessment to SRSO, Director for Review & Approval
20 d7/20/048/16/04Nancy Grossman0% 
306
AD/ES&H Section/PPD review SAD
50 d7/20/049/27/04Nancy Grossman0% 
307
Accelerator Readiness Review
30 d9/28/0411/8/04Nancy Grossman0% 
308
Draft NuMI Running Conditions
5 d8/17/048/23/04Nancy Grossman0% 
309
Final walkthrough with NuMI ESH/QA committee
1 d12/10/0412/10/04Nancy Grossman0% 
310
NuMI ESH/QA Committee letter to AD head declaring NuMI Ready to Operate
1 d12/13/0412/13/04Nancy Grossman0% 
311
Final Signoffs on SAD (Safety Envelope), ARR at FNAL
1 d12/14/0412/14/04Nancy Grossman0% 
312
DOE Concurrence on SAD, approval of Safety Envelope
1 d12/15/0412/15/04 0% 
313
Operations Preparations
158 d5/5/0412/10/04 1% 
314
Controls
148 d5/5/0411/26/04 2% 
315
Database updates
10 d6/30/047/13/04Alan Wehmann0% 
316
Setup parameter pages
10 d7/14/047/27/04Peter Lucas0% 
317
Setup alarms & limits
10 d7/28/048/10/04Alan Wehmann0% 
318
Setup sequencers
10 d8/11/048/24/04Alan Wehmann0% 
319
Define list of devices to data log
1 d5/5/045/5/04Bruce Baller100% 
320
Setup data logger
1 d7/14/047/14/04Alan Wehmann0% 
321
Setup BLBM
5 d11/22/0411/26/04Bob Ducar0%Bill Marsh modifies BBM software to integrate TLM's in each loss region
322
Setup BBM
5 d11/22/0411/26/04Bob Ducar0%Bill Marsh modifies existing BBM software for NuMI use
323
Administration & training
121 d6/25/0412/10/04 0% 
324
Develop Search & Secure procedures
10 d7/16/047/29/04Nancy Grossman0% 
325
Search & Secure training
10 d7/30/048/12/04Mike Gerardi0% 
326
Develop Emergency Response Procedures
10 d7/30/048/12/04Nancy Grossman0% 
327
Emergency Response training
10 d8/13/048/26/04OPS0% 
328
Define requirements for access Supervised/Controlled
1 d7/30/047/30/04Mike Gerardi0% 
329
Define NuMI experts & call-in list
1 d8/9/048/9/04Bruce Baller0% 
330
Define criteria for min instrumentation needed to operate
1 d6/25/046/25/04Bruce Baller0%Define when beamline must be disabled because key instrumentation devices have failed.
331
Develop NuMI beam Operator training
20 d11/1/0411/26/04Alan Wehmann0%Web based operator guide for tuning and operating the NuMI beam
332
Operator training on NuMI commissioning
1 d11/29/0411/29/04OPS0% 
333
Develop mechanism for physically checking inputs to the BPS 200 module
1 d12/10/0412/10/04Bob Ducar0% 
334
NuMI Commissioning
33.5 d12/16/042/1/05 0% 
335
MI & NuMI set up
3.5 d12/16/0412/21/04 0%NuMI single batch setup. Ramp timing, Autotune validation
336
Load BPS commissioning file
1 d12/16/0412/16/04Bruce Baller0%First BPS commissioning file has large magnet current windows, std loss monitor windows, mask off kicker magnet status, mask off corrector magnets, target OUT, intensity <5E11.
337
Disable NuMI kicker & enable NuMI permit
1 h12/17/0412/17/04Sam Childress0% 
338
Start $23 cycle every 2 minutes. 2 turns, 30 bunches
1 h12/17/0412/17/04Alberto Marchionni0%Need 2 booster turns & 30 bunches to get 3E11 ppp so MI BPM's work
339
Ramp NuMI magnets. Check timing & levels
3 h12/17/0412/17/04Sam Childress0%All correctors are turned off. Magnet current readback is manually checked against design settings.
340
Put Profile Monitors IN
1 h12/17/0412/17/04Sam Childress0% 
341
Start Autotune & check magnet readbacks
2 h12/17/0412/17/04Peter Lucas0%Autotune is run in "do-nothing" mode to confirm that it is properly reading magnets and instrumentation. Autotune is set to ignore corrector magnets and to use profile monitor mean positions as inputs.
342
Check readback status of all NuMI devices
2 h12/20/0412/20/04Sam Childress0%All devices are checked on the parameter pages to ensure that readback status is correct. Ensure that the target is OUT.
343
Ensure Alarms & Limits, BLBM, BBM running
1 h12/20/0412/20/04Bruce Baller0%Ensure that all required administrative applications are running.
344
Ensure data-logging is on
1 h12/20/0412/20/04Sam Childress0%Ensure that we are data-logging MI & NuMI devices.
345
Ensure MI beam quality is acceptable
1 d12/20/0412/21/04Alberto Marchionni0%The MI orbit is checked to ensure the position is correct near the extraction region.
346
First beam to NuMI
2.25 d12/21/0412/23/04 0%Beam tuning to observe beam profiles tohadron monitor
347
Enable NuMI kicker
1 h12/21/0412/21/04Bruce Baller0%Beam is transported into the NuMI line when the kicker is turned on.
348
Tune beam from MI to hadron absorber
1 d12/21/0412/22/04Sam Childress0%Beam trajectory observed in PM's and BPM's. Adjustments to dipole magnets are made using Autotune in sem-automatic mode. Beam profiles are observed through pre-tgt and a 1 pad profile is observed on the had mon. Check to ensure expected pad is hit & co...
349
Check losses w PM's in
1 h12/22/0412/22/04Sam Childress0%Loss monitors readbacks are sampled as a reference.
350
Compare losses w PM's out
1 h12/22/0412/22/04Sam Childress0%Check that a drop is seen in all LM's when the PM's are moved out.
351
PM's put back in
1 h12/22/0412/22/04Sam Childress0%PM's are put back in.
352
Check BPM calibration
3 h12/23/0412/23/04Sam Childress0%BPM calibration is checked against the PM's.
353
Check calibration @ 3E11 ppp
3 h12/23/0412/23/04Sam Childress0%Intensity as measured by the BPM's, toroids, PM's and hadron monitor(?) are calibrated using the MI DCCT.
354
Aperture Scans
4 d12/23/0412/29/04 0%Check transport apertures & transport matrix
355
Scan the Lambertson apertures
1 d12/23/0412/24/04Sam Childress0%The MI/NuMI extraction 4 bump is scanned to confirm MI/NuMI losses are minimized. Adjust the NuMI transport if necessary.
356
Scan NuMI apertures
1 d12/24/0412/27/04Sam Childress0%Q113 and V118 are scanned using Auto-tune to check magnet apertures.
357
Declare beam transport standard
1 d12/27/0412/28/04Sam Childress0%Settings of major dipoles and quads are documented and declared "standard".
358
Define BPS Golden file
0 d12/28/0412/28/04Bruce Baller0%Standard beam transport magnet current settings define a new golden BPS file.
359
Validate Auto-tune operation
1 d12/28/0412/29/04Peter Lucas0%Check the transport matrix and validate Auto-tune operation
360
Start tuning with correctors
0 d12/29/0412/29/04Sam Childress0%Correctors are now used for tuning.
361
Horn Alignment
2 d12/29/0412/31/04 0%Check horn alignment with beam scan & tgt pit LM
362
Check horn 1 neck vert & hor alignment
1 d12/29/0412/30/04Jim Hylen0%The beam is moved horizontally and vertically while losses in the tgt pit PM are monitored to check the horn 1 alignment.
363
Check position monitor response (concurrent)
0.5 d12/29/0412/30/04Sam Childress,Debbie Harris0%Response of the BPM's, PM's and hadron monitor are compared while horn scans are in progress.
364
Check horn 1 DS end alignment
4 h12/30/0412/31/04Jim Hylen0%The position of the downstream end of horn 1 is checked by hitting the cross-hair wire and monitoring the tgt pit LM.
365
Check horn 2 US & DS end alignment
4 h12/31/0412/31/04Jim Hylen0%The position of the up/downstream ends of horn 2 are checked by hitting the cross-hair wire and monitoring the tgt pit LM.
366
Target/Baffle Alignment
2 d12/31/041/4/05 0%Check target/baffle alignment with beam scan & tgt pit LM
367
Scan target in ME position
1 d12/31/041/3/05Jim Hylen0%Target is put in ME position and scanned horizontally and vertically. Baffle is OUT. Budal monitor and tgt pit PM response is checked. Beam position is held stable during this period.
368
Correlate Had Mon response w tgt position (concurrent)
1 d12/31/041/3/05Sacha Kopp0%Hadron monitor profile behavior is monitored while target scan is in progress.
369
Scan target in LE position
4 h1/3/051/4/05Jim Hylen0%Target is put in LE position. The beam is scanned horizontally and vertically to confirm alignment.
370
Correlate Had Mon response w tgt position (concurrent)
4 h1/3/051/4/05Sacha Kopp0% 
371
Scan target in HE position
4 h1/4/051/4/05Jim Hylen0%Target is put in HE position and scanned horizontally and vertically to confirm alignment.
372
Correlate Had Mon response w tgt position (concurrent)
4 h1/4/051/4/05Sacha Kopp0% 
373
Raise intensity & check calibration
0.88 d1/4/051/5/05 0%Check linearity of instrumentation, loss monitors
374
Authorize operation at 1E12
0 d1/4/051/4/05Bruce Baller0%Modify Running Conditions if necessary
375
Increase intensity to 1E12 ppp
1 h1/4/051/4/05Alberto Marchionni0%Intensity is increased by adding booster turns
376
Check intensity calibration @ 1E12 ppp
2 h1/4/051/5/05Sam Childress0%Intensity monitor (MI DCCT, toroids, BPM's, budal monitor?, hadron monitor) linearity are checked with intensities up to 1E12.
377
Check loss monitor calibration @ 1E12 ppp
2 h1/5/051/5/05Sam Childress0%BLM and TLM calibration is checked using the PM's and calibration target.
378
Check BPM position calibration (concurrent)
2 h1/5/051/5/05Sam Childress0%BPM positions are checked against the PM's during LM calibration
379
Calibrate the baffle
2 h1/5/051/5/05Jim Hylen0%Scan beam on the baffle and calibrate the thermocouple response. Jim would like higher rep rate to make this go quicker.
380
First neutrinos
1.63 d1/5/051/7/05 0%First neutrinos
381
Turn on the horn. Tgt in LE position
1 h1/5/051/5/05Jim Hylen0%Configure beamline and target hall for neutrino production.
382
Re-define BPS golden file
0 d1/5/051/5/05Bruce Baller0%Require horn and target IN in BPS. Declare new golden file.
383
Log neutrinos in ND
1 d1/5/051/6/05Bruce Baller0%Stable beam running.
384
Perform beam-on surveys (concurrent)
4 h1/5/051/6/05Mike Gerardi0%Beam-on rates are measured below-ground in areas that personnel will (hopefully) access while the beam is on.
385
Check residual rates in the tunnel
4 h1/6/051/7/05Mike Gerardi0%An access in the MI, NuMI stub, CT and pre-target areas is made to check residual rates on all NuMI components.
386
Multi-batch tuning
7 d1/7/051/18/05 0%Establish Main Injector multi-batch operation. Check NuMI transport & optics, kicker timing
387
Check NuMI timing with 2 batches
4 h1/7/051/7/05Alberto Marchionni0%Magnet ramps, BPM position/intensity and LM's are checked. Fast Batch Integrator operation is checked.
388
Check NuMI timing with 3 batches
4 h1/7/051/10/05Alberto Marchionni0%Magnet ramps, BPM position/intensity and LM's are checked. Fast Batch Integrator operation is checked.
389
Check NuMI timing with 4 batches
4 h1/10/051/10/05Alberto Marchionni0%Magnet ramps, BPM position/intensity and LM's are checked. Fast Batch Integrator operation is checked.
390
Check NuMI timing with 5 batches
4 h1/10/051/11/05Alberto Marchionni0%Magnet ramps, BPM position/intensity and LM's are checked. Fast Batch Integrator operation is checked.
391
Increase NuMI intensity w 5 batches
5 d1/11/051/18/05Alberto Marchionni0% 
392
Reduce cycle time - Mixed mode
1 d1/18/051/19/05 0%Establish standard NuMI cycle time in mixed mode
393
Test MI "Beam Quality" BPS inputs in mixed mode
1 d1/18/051/19/05Alberto Marchionni0% 
394
Main Injector - High Intensity
1 d1/19/051/20/05 0% 
395
Upgrade MI loss monitors in NuMI extraction region
1 d1/19/051/20/05Alberto Marchionni0% 
396
Turnover to Operations
8.25 d1/20/052/1/05 0% 
397
Document tunes/settings, etc
1 d1/20/051/21/05Sam Childress0% 
398
Document training for future operators
0.5 d2/1/052/1/05Sam Childress,Alberto Marchionni0% 

Resources


IDNameGroupMax UnitsPeak Units
1Alberto Marchionni 100%600%
2Bruce Baller 100%100%
3Sam Childress 100%6,000%
4Peter Lucas 100%100%
5Bob Ducar 100%600%
6Dave Pushka 100%400%
7Nancy Grossman 100%400%
8Debbie Harris 100%300%
9George Krafczyk 100%2,900%
10Jim Hylen 100%1,700%
11Andrew Godley 100%100%
12Instrument Dept 100%300%
13Cat James 100%200%
14Alan Wehmann 100%200%
15Doug Jensen 100%200%
16OPS 100%100%
17Mike Gerardi 100%200%
18Sacha Kopp 100%100%
19ID 100%0%

Assignments


Task IDTask NameResource NameWorkStartFinish% Work Complete
21Booster cogging study 1Alberto Marchionni8 h4/19/044/19/04100%
22Booster cogging study 2Alberto Marchionni8 h4/21/044/21/04100%
23Booster cogging study 3Alberto Marchionni8 h5/4/045/4/04100%
24Booster cogging study 4Alberto Marchionni8 h7/8/047/8/04100%
26Booster longitudinal dampers on $19 cycleAlberto Marchionni8 h6/17/046/17/040%
28Commission final FPGA board for the transverse damper systemAlberto Marchionni240 h5/10/046/18/0490%
29Study transverse dampers on NuMI cycle $23Alberto Marchionni240 h5/17/046/25/0450%
30Study longitudinal dampers on NuMI cycle $23Alberto Marchionni120 h6/28/047/16/0450%
31Fix problem with RF feedback limitersAlberto Marchionni120 h6/10/046/30/040%
32Establish tune measurement systemAlberto Marchionni160 h6/28/047/23/040%
33Recalibrate tune and chromaticity tablesAlberto Marchionni120 h7/26/048/13/040%
34Set up automatic tune compensation with intensityAlberto Marchionni40 h8/16/048/20/040%
35Demonstrate reliable acceleration to 3.3E13 pppAlberto Marchionni320 h7/19/049/10/040%
37BSSB modificationsBob Ducar480 h5/12/048/3/040%
38Study new $8D cycleAlberto Marchionni8 h8/4/048/4/040%
40Finalize specificationsAndrew Godley0 h4/23/044/23/04100%
41Design FBBIInstrument Dept360 h4/23/046/24/04100%
42ProcurementInstrument Dept160 h6/25/047/22/04100%
43Assembly & testingInstrument Dept120 h7/23/048/12/0430%
44Install FBBI in MIInstrument Dept8 h8/13/048/13/040%
45Database & parameter page updatesAlan Wehmann8 h8/16/048/16/040%
46Calibrate/study FBBI with MI beamAlberto Marchionni8 h8/17/048/17/040%
49Conceptual design/review of requirementsAlberto Marchionni8 h4/19/044/19/04100%
51Draft specs for BPM inputs to BPSAndrew Godley8 h4/30/044/30/04100%
52Develop specs for BPM batch averaging electronicsAndrew Godley120 h5/3/045/21/04100%
53Build BPM batch averaging electronicsInstrument Dept360 h6/18/048/19/040%
54Study 606, 607, 608, 609 BPM signals as inputs to BPSAndrew Godley8 h8/20/048/20/040%
56Connect LM's in P1 line & studyDoug Jensen200 h5/14/046/17/040%
57Install 608 & 612 LM's in tunnelBob Ducar8 h6/18/046/18/040%
58Draft specs for LM gating electronicsAndrew Godley40 h6/21/046/25/0470%
59Build LM gating electronicsInstrument Dept240 h6/28/048/6/040%
60Study 608 & 612 LM signals as inputs to BPSAndrew Godley8 h8/9/048/9/040%
62I:LMNKMASam Childress8 h12/6/0412/6/040%
63I:LMNKMBSam Childress8 h12/6/0412/6/040%
64I:LMNKMCSam Childress8 h12/6/0412/6/040%
65I:LML60Sam Childress8 h12/6/0412/6/040%
66I:LML61ASam Childress8 h12/6/0412/6/040%
67I:LML61BSam Childress8 h12/6/0412/6/040%
68E:LMQ608Sam Childress8 h12/6/0412/6/040%
69E:LMQ612Sam Childress8 h12/6/0412/6/040%
71Check 608 & 612 LM inputsBob Ducar8 h12/7/0412/7/040%
72Check MI BPM inputsBob Ducar8 h12/7/0412/7/040%
73Check kicker inputsBob Ducar8 h11/9/0411/9/040%
74Check Lambertson inputsBob Ducar8 h11/9/0411/9/040%
75Check FBI inputs Bob Ducar8 h8/17/048/17/040%
77Install prototype transition board on MI BPM 602Debbie Harris0 h6/10/046/10/04100%
78Study prototype BPM electronicsAlberto Marchionni120 h6/11/047/1/0410%
79Install NuMI electronics on MI BPMs 602, 604, 606, 607Sam Childress8 h7/2/047/2/040%
80Study production BPM electronics on 4 BPM'sAlberto Marchionni120 h7/5/047/23/040%
82Re-tune MI closed orbit to reduce corrector currents - First passAlberto Marchionni8 h4/16/044/16/04100%
83Re-tune MI closed orbit to reduce corrector currents - 2nd passAlberto Marchionni8 h7/15/047/15/040%
84Need new corrector time bump slots for NuMIAlberto Marchionni8 h4/16/044/16/04100%
85Check MI52 rise/fall time - first passAlberto Marchionni8 h4/16/044/16/04100%
86Check MI52 rise/fall time - 2nd passAlberto Marchionni8 h6/28/046/28/040%
87Check NuMI extraction bumpsAlberto Marchionni8 h7/16/047/16/040%
91I:KPS6NGeorge Krafczyk8 h11/8/0411/8/040%
92Check effect of Lambertson operation on Recycler orbitSam Childress8 h5/28/045/28/040%
92Check effect of Lambertson operation on Recycler orbitAlberto Marchionni8 h5/28/045/28/040%
93I:LAM60George Krafczyk8 h11/8/0411/8/040%
94I:LAM61George Krafczyk8 h11/8/0411/8/040%
95I:V100 (C-Magnet)George Krafczyk8 h11/8/0411/8/040%
96E:QD101George Krafczyk8 h11/8/0411/8/040%
97E:HT102George Krafczyk8 h11/8/0411/8/040%
98Check residual field at Recycler due to HV101:1,6Doug Jensen8 h5/28/045/28/04100%
99Check residual field at Recycler with all HV101 shields in placeDoug Jensen8 h6/30/046/30/040%
100Check effect of HV101 on Recycler orbitAlberto Marchionni8 h7/2/047/2/040%
101E:HV101George Krafczyk8 h11/8/0411/8/040%
102E:QF102George Krafczyk8 h11/8/0411/8/040%
103E:VT103George Krafczyk8 h11/8/0411/8/040%
104Check residual fieds at Recycler from extraction quadsDoug Jensen8 h7/1/047/1/040%
105E:QD103George Krafczyk8 h11/8/0411/8/040%
106E:QF104George Krafczyk8 h11/8/0411/8/040%
107E:H104 (200 turn dipole)George Krafczyk8 h11/8/0411/8/040%
108E:QF105George Krafczyk8 h11/8/0411/8/040%
109E:HT105George Krafczyk8 h11/8/0411/8/040%
110E:QD106George Krafczyk8 h11/8/0411/8/040%
111E:VT106George Krafczyk8 h11/8/0411/8/040%
112E:QF107George Krafczyk8 h11/8/0411/8/040%
113E:HT107George Krafczyk8 h11/8/0411/8/040%
114E:VT108George Krafczyk8 h11/8/0411/8/040%
115E:QD108George Krafczyk8 h11/8/0411/8/040%
116E:V108George Krafczyk8 h11/8/0411/8/040%
117E:HT109George Krafczyk8 h11/8/0411/8/040%
118E:QF109George Krafczyk8 h11/8/0411/8/040%
119E:VT110George Krafczyk8 h11/8/0411/8/040%
120E:QD110George Krafczyk8 h11/8/0411/8/040%
121E:VT111George Krafczyk8 h11/8/0411/8/040%
122E:QD111George Krafczyk8 h11/8/0411/8/040%
123E:HT112George Krafczyk8 h11/8/0411/8/040%
124E:QF112George Krafczyk8 h11/8/0411/8/040%
125E:QD113George Krafczyk8 h7/26/047/26/040%
126E:VT114George Krafczyk8 h7/26/047/26/040%
127E:HT114George Krafczyk8 h7/26/047/26/040%
128E:QF114George Krafczyk8 h7/26/047/26/040%
129E:QF115George Krafczyk8 h7/26/047/26/040%
130E:HT115George Krafczyk8 h7/26/047/26/040%
131E:QD116George Krafczyk8 h7/26/047/26/040%
132E:VT116George Krafczyk8 h7/26/047/26/040%
133E:QF117George Krafczyk8 h7/26/047/26/040%
134E:HT117George Krafczyk8 h7/26/047/26/040%
135E:H117George Krafczyk8 h7/26/047/26/040%
136E:QD118George Krafczyk8 h7/26/047/26/040%
137E:VT118George Krafczyk8 h7/26/047/26/040%
138E:V118George Krafczyk8 h7/26/047/26/040%
139E:HT119George Krafczyk8 h7/26/047/26/040%
140E:QF119George Krafczyk8 h7/26/047/26/040%
141E:QD120George Krafczyk8 h7/26/047/26/040%
142E:QF121George Krafczyk8 h7/26/047/26/040%
143E:HT121George Krafczyk8 h7/26/047/26/040%
144E:VT121George Krafczyk8 h7/26/047/26/040%
146E:VP101Sam Childress8 h11/8/0411/8/040%
147E:HP101Sam Childress8 h11/8/0411/8/040%
148E:HP102Sam Childress8 h11/8/0411/8/040%
149E:VP103Sam Childress8 h11/8/0411/8/040%
150E:HP104Sam Childress8 h11/8/0411/8/040%
151E:HP105Sam Childress8 h11/8/0411/8/040%
152E:VP106Sam Childress8 h11/8/0411/8/040%
153E:HP107Sam Childress8 h11/8/0411/8/040%
154E:VP108Sam Childress8 h11/8/0411/8/040%
155E:HP109Sam Childress8 h11/8/0411/8/040%
156E:VP110Sam Childress8 h11/8/0411/8/040%
157E:VP111Sam Childress8 h11/8/0411/8/040%
158E:HP112Sam Childress8 h11/8/0411/8/040%
159E:VP113Sam Childress8 h7/26/047/26/040%
160E:HP114Sam Childress8 h7/26/047/26/040%
161E:HP115Sam Childress8 h7/26/047/26/040%
162E:VP116Sam Childress8 h7/26/047/26/040%
163E:HP117Sam Childress8 h7/26/047/26/040%
164Evaluate effect of image current using network analyzerInstrument Dept8 h8/10/048/10/040%
165E:VP118Sam Childress8 h7/26/047/26/040%
166E:HP119Sam Childress8 h7/26/047/26/040%
167E:HP121Sam Childress8 h7/26/047/26/040%
168E:VP121Sam Childress8 h7/26/047/26/040%
169E:HPTARSam Childress8 h7/26/047/26/040%
170E:VPTARSam Childress8 h7/26/047/26/040%
172E:PM101Sam Childress8 h11/8/0411/8/040%
173E:PM105Sam Childress8 h11/8/0411/8/040%
174E:PM107Sam Childress8 h11/8/0411/8/040%
175E:PM108Sam Childress8 h11/8/0411/8/040%
176E:PM112Sam Childress8 h11/8/0411/8/040%
177E:PM114Sam Childress8 h8/9/048/9/040%
178E:PM115Sam Childress8 h8/9/048/9/040%
179E:PM117Sam Childress8 h8/9/048/9/040%
180E:PM121Sam Childress8 h8/9/048/9/040%
181E:PMTGTSam Childress8 h8/9/048/9/040%
183E:LMHV1O - MI60Sam Childress8 h11/8/0411/8/040%
184E:LMHV1R - MI60Sam Childress8 h11/8/0411/8/040%
185E:LMV100Sam Childress8 h11/8/0411/8/040%
186E:LMQ101Sam Childress8 h11/8/0411/8/040%
187E:LM1011Sam Childress8 h11/8/0411/8/040%
188E:LM1012Sam Childress8 h11/8/0411/8/040%
189E:LMQ102Sam Childress8 h11/8/0411/8/040%
190E:LMHV2O - MI60Sam Childress8 h11/8/0411/8/040%
191E:LMHV2R - MI60Sam Childress8 h11/8/0411/8/040%
192E:LM1013Sam Childress8 h11/8/0411/8/040%
193E:LM1014Sam Childress8 h11/8/0411/8/040%
194E:LM1015Sam Childress8 h11/8/0411/8/040%
195E:LMQ103Sam Childress8 h11/8/0411/8/040%
196E:LM1016Sam Childress8 h11/8/0411/8/040%
197E:LMQ104Sam Childress8 h11/8/0411/8/040%
198E:LMH104Sam Childress8 h11/8/0411/8/040%
199E:LMQ105Sam Childress8 h11/8/0411/8/040%
200E:LMQ106Sam Childress8 h11/8/0411/8/040%
201E:LMQ107Sam Childress8 h11/8/0411/8/040%
202E:LMHV3OSam Childress8 h11/8/0411/8/040%
203E:LMHV3RSam Childress8 h11/8/0411/8/040%
204E:LMQ108Sam Childress8 h11/8/0411/8/040%
205E:LM1081Sam Childress8 h11/8/0411/8/040%
206E:LM1082Sam Childress8 h11/8/0411/8/040%
207E:LMQ109Sam Childress8 h11/8/0411/8/040%
208E:LM1083Sam Childress8 h11/8/0411/8/040%
209E:LM1084Sam Childress8 h11/8/0411/8/040%
210E:LMQ110Sam Childress8 h11/8/0411/8/040%
211E:LM1085Sam Childress8 h11/8/0411/8/040%
212E:LM1086Sam Childress8 h11/8/0411/8/040%
213E:LMQ111Sam Childress8 h11/8/0411/8/040%
214E:LMQ112Sam Childress8 h11/8/0411/8/040%
215E:LMHV4O - MI65Sam Childress8 h8/9/048/9/040%
216E:LMHV4R - MI65Sam Childress8 h8/9/048/9/040%
217E:LMQ113Sam Childress8 h8/9/048/9/040%
218E:LMQ114Sam Childress8 h8/9/048/9/040%
219E:LMQ115Sam Childress8 h8/9/048/9/040%
220E:LMQ116Sam Childress8 h8/9/048/9/040%
221E:LMQ117Sam Childress8 h8/9/048/9/040%
222E:LMH117Sam Childress8 h8/9/048/9/040%
223E:LMQ118Sam Childress8 h8/9/048/9/040%
224E:LM1181Sam Childress8 h8/9/048/9/040%
225E:LM1182Sam Childress8 h8/9/048/9/040%
226E:LMQ119Sam Childress8 h8/9/048/9/040%
227E:LMHV5OSam Childress8 h8/9/048/9/040%
228E:LMHV5RSam Childress8 h8/9/048/9/040%
229E:LM1183Sam Childress8 h8/9/048/9/040%
230E:LM1184Sam Childress8 h8/9/048/9/040%
231E:LMQ120Sam Childress8 h8/9/048/9/040%
232E:LMQ121Sam Childress8 h8/9/048/9/040%
234E:TLMNSSam Childress8 h11/8/0411/8/040%
235E:TLMCTUSam Childress8 h11/8/0411/8/040%
236E:TLMCTDSam Childress8 h11/8/0411/8/040%
237E:TLMPTSam Childress8 h11/8/0411/8/040%
238E:TLMHVSam Childress8 h11/8/0411/8/040%
239E:TLMGFSam Childress8 h11/8/0411/8/040%
241E:NIUPSam Childress8 h11/8/0411/8/040%
242E:NIDNSam Childress8 h8/9/048/9/040%
244E:CT111Sam Childress8 h11/8/0411/8/040%
245E:CT118Sam Childress8 h11/8/0411/8/040%
246Resistive Wall MonitorSam Childress8 h11/8/0411/8/040%
248Extraction channel vacuumDave Pushka8 h11/8/0411/8/040%
249Carrier Tunnel vacuumDave Pushka8 h11/8/0411/8/040%
250Pre-target vacuumDave Pushka8 h8/9/048/9/040%
253E:BTHTnnJim Hylen8 h12/8/0412/8/040%
254E:BTHTnnJim Hylen8 h12/8/0412/8/040%
255Target Budal MonitorJim Hylen8 h12/8/0412/8/040%
256Target helium flow/pressureJim Hylen8 h12/8/0412/8/040%
257Target positioningJim Hylen8 h12/8/0412/8/040%
258Target/Baffle RAW systemDave Pushka8 h6/15/046/15/040%
260E:BTHTnnJim Hylen8 h12/8/0412/8/040%
261E:BTHTnnJim Hylen8 h12/8/0412/8/040%
262E:BTHTnnJim Hylen8 h12/8/0412/8/040%
263Horn 1 Bdot systemJim Hylen8 h12/8/0412/8/040%
264Horn 1 RAW SystemDave Pushka8 h6/15/046/15/040%
265Horn 1 motor controlsJim Hylen8 h12/8/0412/8/040%
267E:BTHTnnJim Hylen8 h12/8/0412/8/040%
268E:BTHTnnJim Hylen8 h12/8/0412/8/040%
269Horn 2 Bdot systemJim Hylen8 h12/8/0412/8/040%
270Horn 2 RAW SystemDave Pushka8 h6/15/046/15/040%
271Horn 2 motor controlsJim Hylen8 h12/8/0412/8/040%
272Horn Power supplyGeorge Krafczyk8 h7/16/047/16/040%
274Target pile temperature monitorsJim Hylen8 h12/8/0412/8/040%
275Differential pressure monitorsJim Hylen8 h12/8/0412/8/040%
276Confirm target pile leak rate is OKJim Hylen8 h12/8/0412/8/040%
278Decay pipe vacuum system checkoutDave Pushka8 h6/15/046/15/040%
279Checkout Decay Pipe RAW systemDave Pushka8 h7/16/047/16/040%
280Checkout Hadron Monitor gas and electricalDebbie Harris8 h7/16/047/16/040%
281Checkout Absorber temperature monitorsCat James8 h9/16/049/16/040%
282Measure absorber air leak rateCat James8 h9/16/049/16/040%
283Checkout muon monitor 1 gas & electricalDebbie Harris8 h9/16/049/16/040%
284Checkout muon monitor 2 gas & electricalDebbie Harris8 h9/16/049/16/040%
285Checkout muon monitor 3 gas & electricalDebbie Harris8 h9/16/049/16/040%
287Check MI/stub magnet inputsBob Ducar8 h11/9/0411/9/040%
288Check MI/stub instrumentation inputsBob Ducar8 h11/9/0411/9/040%
289Check CT magnet inputsBob Ducar8 h7/27/047/27/040%
290Check CT instrumentation inputsBob Ducar8 h11/9/0411/9/040%
291Check pre-tgt magnet inputsBob Ducar8 h7/27/047/27/040%
292Check pre-tgt instrumentation inputsBob Ducar8 h11/9/0411/9/040%
293Check target hall inputsBob Ducar8 h12/9/0412/9/040%
295Check absorber area inputsBob Ducar8 h9/17/049/17/040%
297All gates, search & secure boxes in placeBob Ducar8 h7/15/047/15/040%
298Critical device testBob Ducar8 h11/22/0411/22/040%
301Update MI Shielding AssessmentAlberto Marchionni216 h6/18/047/26/0489%
301Update MI Shielding AssessmentNancy Grossman24 h7/22/047/26/040%
302AD approve MI running conditionsAlberto Marchionni480 h7/27/0410/18/040%
304AD Review Shielding AssessmentNancy Grossman360 h5/18/047/19/0450%
305Shielding Assessment to SRSO, Director for Review & ApprovalNancy Grossman160 h7/20/048/16/040%
306AD/ES&H Section/PPD review SADNancy Grossman400 h7/20/049/27/040%
307Accelerator Readiness ReviewNancy Grossman240 h9/28/0411/8/040%
308Draft NuMI Running ConditionsNancy Grossman40 h8/17/048/23/040%
309Final walkthrough with NuMI ESH/QA committeeNancy Grossman8 h12/10/0412/10/040%
310NuMI ESH/QA Committee letter to AD head declaring NuMI Ready to OperateNancy Grossman8 h12/13/0412/13/040%
311Final Signoffs on SAD (Safety Envelope), ARR at FNALNancy Grossman8 h12/14/0412/14/040%
315Database updatesAlan Wehmann80 h6/30/047/13/040%
316Setup parameter pagesPeter Lucas80 h7/14/047/27/040%
317Setup alarms & limitsAlan Wehmann80 h7/28/048/10/040%
318Setup sequencersAlan Wehmann80 h8/11/048/24/040%
319Define list of devices to data logBruce Baller8 h5/5/045/5/04100%
320Setup data loggerAlan Wehmann8 h7/14/047/14/040%
321Setup BLBMBob Ducar40 h11/22/0411/26/040%
322Setup BBMBob Ducar40 h11/22/0411/26/040%
324Develop Search & Secure proceduresNancy Grossman80 h7/16/047/29/040%
325Search & Secure trainingMike Gerardi80 h7/30/048/12/040%
326Develop Emergency Response ProceduresNancy Grossman80 h7/30/048/12/040%
327Emergency Response trainingOPS80 h8/13/048/26/040%
328Define requirements for access Supervised/ControlledMike Gerardi8 h7/30/047/30/040%
329Define NuMI experts & call-in listBruce Baller8 h8/9/048/9/040%
330Define criteria for min instrumentation needed to operateBruce Baller8 h6/25/046/25/040%
331Develop NuMI beam Operator trainingAlan Wehmann160 h11/1/0411/26/040%
332Operator training on NuMI commissioningOPS8 h11/29/0411/29/040%
333Develop mechanism for physically checking inputs to the BPS 200 moduleBob Ducar8 h12/10/0412/10/040%
336Load BPS commissioning fileBruce Baller8 h12/16/0412/16/040%
337Disable NuMI kicker & enable NuMI permitSam Childress1 h12/17/0412/17/040%
338Start $23 cycle every 2 minutes. 2 turns, 30 bunchesAlberto Marchionni1 h12/17/0412/17/040%
339Ramp NuMI magnets. Check timing & levelsSam Childress3 h12/17/0412/17/040%
340Put Profile Monitors INSam Childress1 h12/17/0412/17/040%
341Start Autotune & check magnet readbacksPeter Lucas2 h12/17/0412/17/040%
342Check readback status of all NuMI devicesSam Childress2 h12/20/0412/20/040%
343Ensure Alarms & Limits, BLBM, BBM runningBruce Baller1 h12/20/0412/20/040%
344Ensure data-logging is onSam Childress1 h12/20/0412/20/040%
345Ensure MI beam quality is acceptableAlberto Marchionni8 h12/20/0412/21/040%
347Enable NuMI kickerBruce Baller1 h12/21/0412/21/040%
348Tune beam from MI to hadron absorberSam Childress8 h12/21/0412/22/040%
349Check losses w PM's inSam Childress1 h12/22/0412/22/040%
350Compare losses w PM's outSam Childress1 h12/22/0412/22/040%
351PM's put back inSam Childress1 h12/22/0412/22/040%
352Check BPM calibrationSam Childress3 h12/23/0412/23/040%
353Check calibration @ 3E11 pppSam Childress3 h12/23/0412/23/040%
355Scan the Lambertson aperturesSam Childress8 h12/23/0412/24/040%
356Scan NuMI aperturesSam Childress8 h12/24/0412/27/040%
357Declare beam transport standardSam Childress8 h12/27/0412/28/040%
358Define BPS Golden fileBruce Baller0 h12/28/0412/28/040%
359Validate Auto-tune operationPeter Lucas8 h12/28/0412/29/040%
360Start tuning with correctorsSam Childress0 h12/29/0412/29/040%
362Check horn 1 neck vert & hor alignmentJim Hylen8 h12/29/0412/30/040%
363Check position monitor response (concurrent)Sam Childress4 h12/29/0412/30/040%
363Check position monitor response (concurrent)Debbie Harris4 h12/29/0412/30/040%
364Check horn 1 DS end alignmentJim Hylen4 h12/30/0412/31/040%
365Check horn 2 US & DS end alignmentJim Hylen4 h12/31/0412/31/040%
367Scan target in ME positionJim Hylen8 h12/31/041/3/050%
368Correlate Had Mon response w tgt position (concurrent)Sacha Kopp8 h12/31/041/3/050%
369Scan target in LE positionJim Hylen4 h1/3/051/4/050%
370Correlate Had Mon response w tgt position (concurrent)Sacha Kopp4 h1/3/051/4/050%
371Scan target in HE positionJim Hylen4 h1/4/051/4/050%
372Correlate Had Mon response w tgt position (concurrent)Sacha Kopp4 h1/4/051/4/050%
374Authorize operation at 1E12Bruce Baller0 h1/4/051/4/050%
375Increase intensity to 1E12 pppAlberto Marchionni1 h1/4/051/4/050%
376Check intensity calibration @ 1E12 pppSam Childress2 h1/4/051/5/050%
377Check loss monitor calibration @ 1E12 pppSam Childress2 h1/5/051/5/050%
378Check BPM position calibration (concurrent)Sam Childress2 h1/5/051/5/050%
379Calibrate the baffleJim Hylen2 h1/5/051/5/050%
381Turn on the horn. Tgt in LE positionJim Hylen1 h1/5/051/5/050%
382Re-define BPS golden fileBruce Baller0 h1/5/051/5/050%
383Log neutrinos in NDBruce Baller8 h1/5/051/6/050%
384Perform beam-on surveys (concurrent)Mike Gerardi4 h1/5/051/6/050%
385Check residual rates in the tunnelMike Gerardi4 h1/6/051/7/050%
387Check NuMI timing with 2 batchesAlberto Marchionni4 h1/7/051/7/050%
388Check NuMI timing with 3 batchesAlberto Marchionni4 h1/7/051/10/050%
389Check NuMI timing with 4 batchesAlberto Marchionni4 h1/10/051/10/050%
390Check NuMI timing with 5 batchesAlberto Marchionni4 h1/10/051/11/050%
391Increase NuMI intensity w 5 batchesAlberto Marchionni40 h1/11/051/18/050%
393Test MI "Beam Quality" BPS inputs in mixed modeAlberto Marchionni8 h1/18/051/19/050%
395Upgrade MI loss monitors in NuMI extraction regionAlberto Marchionni8 h1/19/051/20/050%
397Document tunes/settings, etcSam Childress8 h1/20/051/21/050%
398Document training for future operatorsSam Childress4 h2/1/052/1/050%
398Document training for future operatorsAlberto Marchionni4 h2/1/052/1/050%


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