Requests made on 16th Feb 2008

for production to validate simulation phase for physics production

For min bias and b inclusive samples Gauss → Boole → Brunel need to be run and sim, digi and dst files need to be kept. The will be available in the bookkeeping.

For the particle guns Gauss → Boole need to be run and sim+digi files need to be kept. The files will be available from the bookkeeping under the MC 2008, MC 2008 HT and MC 2008 LT folders.

General samples

Event types for general samples and status of production

Sample EvtType No. of events Physics(list and cuts) Responsible Prodid Status
MinimumBias 30000000 5 K LHEP + EM option1 + DRay off + KineHT lhcb-gauss 4012 (Req 31) Completed
5 K LHEP + EM option1 + DRay on + KineHT lhcb-gauss 4013 (Req 33) Completed
5 K LHEP + EM option1 + DRay on + KineLT lhcb-gauss 4014 (Req 35) Completed
5 K QGSP + EM option1 + DRay off + KineHT lhcb-gauss 4015 (Req 37) Completed
Inclusive b 10000000 20 K LHEP + EM option1 + DRay off + KineHT lhcb-gauss 4016 (Req 32) Completed
20 K LHEP + EM option1 + DRay on + KineHT lhcb-gauss 4017 (Req 34) Completed
20 K LHEP + EM option1 + DRay on + KineLT lhcb-gauss 4018 (Req 36) Completed
20 K QGSP + EM option1 + DRay off + KineHT lhcb-gauss 4019 (Req 38) Completed

Software configuration for general samples

Minimum bias and Inclusive b
Request 1: Three steps running Gauss → Boole → Brunel with Nominal settings
Step 1 Gauss v36r2
DecFiles v16r1
Tag of DDDB and SIMCOND head-20090112, sim-20090112
Generator to be used Pythia
Configuration: Beam energy 7 TeV
Velo Closed
Magnet polarity Down
Luminosity 2x10^32
Tuning Default
Options for all jobs: Gauss-2008.py
LHCbApp().DDDBtag = head-20090112
LHCbApp().CondDBtag = sim-20090112
Beam7TeV-VeloClosed-MagDown.py
$DECFILEROOT/options/EventType.opts
$LBPYTHIAROOT/options/Pythia.opts
Step 2 Boole v17r2p1
Tag of DDDB and SIMCOND head-20090112, sim-20090112
Spillover Off
Options for all jobs: Boole-2008.py
LHCbApp().DDDBtag = head-20090112
LHCbApp().CondDBtag = sim-20090112
Step 3 Brunel v34r1p1
Tag of DDDB and SIMCOND head-20090112, sim-20090112
Magnetic field On
Options for all jobs: Brunel-2008-MC.py
LHCbApp().DDDBtag = head-20090112
LHCbApp().CondDBtag = sim-20090112
Request 2: Three steps running Gauss → Boole → Brunel with Delta rays On, High thresholds
Step 1 Gauss v36r2
DecFiles v16r1
Tag of DDDB and SIMCOND head-20090112
Generator to be used Pythia
Configuration: Beam energy 7 TeV
Velo Closed
Magnet polarity Down
Luminosity 2x10^32
Tuning HT
Options for all jobs: Gauss-2008.py
LHCbApp().DDDBtag = head-20090112
LHCbApp().CondDBtag = sim-20090112
Beam7TeV-VeloClosed-MagDown.py
$DECFILEROOT/options/EventType.opts
$LBPYTHIAROOT/options/Pythia.opts
DraysOn-HT.opts
Step 2 Boole v17r2p1
Tag of DDDB and SIMCOND head-20090112, sim-20090112
Spillover Off
Options for all jobs: same as Request 1
Step 3 Brunel v34r1p1
Tag of DDDB and SIMCOND head-20090112, sim-20090112
Magnetic field On
Options for all jobs: same as Request 1
Request 3: Three steps running Gauss → Boole → Brunel with Delta rays On, Low thresholds
Step 1 Gauss v36r2
DecFiles v16r1
Tag of DDDB and SIMCOND head-20090112, sim-20090112
Generator to be used Pythia
Configuration: Beam energy 7 TeV
Velo Closed
Magnet polarity Down
Luminosity 2x10^32
Tuning LT
Options for all jobs: Gauss-2008.py
LHCbApp().DDDBtag = head-20090112
LHCbApp().CondDBtag = sim-20090112
Beam7TeV-VeloClosed-MagDown.py
$DECFILEROOT/options/EventType.opts
$LBPYTHIAROOT/options/Pythia.opts
DraysOn-LT.opts
Step 2 Boole v17r2p1
Tag of DDDB and SIMCOND head-20090112, sim-20090112
Spillover Off
Options for all jobs: same as Request 1
Step 3 Brunel v34r1p1
Tag of DDDB and SIMCOND head-20090112, sim-20090112
Magnetic field On
Options for all jobs: same as Request 1
Request 4: Three steps running Gauss → Boole → Brunel with QGSP physics list
Step 1 Gauss v36r2
DecFiles v16r1
Tag of DDDB and SIMCOND head-20090112, sim-20090112
Generator to be used Pythia
Configuration: Beam energy 7 TeV
Velo Closed
Magnet polarity Down
Luminosity 2x10^32
Tuning QGSP
Options for all jobs: Gauss-2008.py
LHCbApp().DDDBtag = head-20090112
LHCbApp().CondDBtag = sim-20090112
Beam7TeV-VeloClosed-MagDown.py
$DECFILEROOT/options/EventType.opts
$LBPYTHIAROOT/options/Pythia.opts
PhysList-QGSP.opts
Step 2 Boole v17r2p1
Tag of DDDB and SIMCOND head-20090112, sim-20090112
Spillover Off
Options for all jobs: same as Request 1
Step 3 Brunel v34r1p1
Tag of DDDB and SIMCOND head-20090112, sim-20090112
Magnetic field On
Options for all jobs: same as Request 1

Particle guns with only calorimeters

Event types for calo particle gun samples and status of production

Sample: Type & Energy EvtType Physics(list and cuts) No. of events Responsible Prodid Status
               
pi+/pi- in calos 1 GeV, 5 GeV, 10 GeV, 16.8 GeV, 33.8 GeV, 50 GeV, 100 GeV, 120 GeV, 168 GeV 53200001, 53200005, 53200010, 53200017, 53200034, 53200050, 53200100, 53200120, 53200168 LHEP + EM option1 + DRay off + KineHT 50 K for each energy and physics setting lhcb-gauss 4339, 4348, 4354, 4357, 4342, 4360, 4345, 4363, 4351 Completed
LHEP + EM option1 + DRay on+ KineHT 50 K for each energy and physics setting lhcb-gauss 4340, 4349, 4355, 4358, 4343, 4361, 4346, 4364, 4352 Completed
LHEP + EM option1 + DRay on+ KineLT 50 K for each energy and physics setting lhcb-gauss 4341, 4350, 4356, 4359, 4344, 4362, 4347, 4365, 4353 Completed
               
e- in calos 1 GeV, 5 GeV, 10 GeV, 16.8 GeV , 33.8 GeV , 50 GeV ,100 GeV, 168 GeV 51000001, 51000005, 51000010, 51000017, 51000034, 51000050, 51000100, 51000168 LHEP + EM option1 + DRay off + KineHT 50 K for each energy lhcb-gauss 4571, 4580, 4586, 4589, 4574, 4592, 4577, 4583 Completed
LHEP + EM option1 + DRay on+ KineHT 50 K for each energy lhcb-gauss 4572, 4581, 4587, 4590, 4575, 4593, 4578, 4584 Completed
LHEP + EM option1 + DRay on+ KineLT 50 K for each energy lhcb-gauss 4573, 4582, 4588, 4591, 4576, 4594, 4579, 4585 Completed
               
gamma in calos 1 GeV, 5 GeV, 10 GeV, 16.8 GeV , 33.8 GeV , 50 GeV ,100 GeV, 120 GeV, 168 GeV 56000001, 56000005, 56000010, 56000017, 56000034, 56000050, 56000100, 56000168 LHEP + EM option1 + DRay off + KineHT 50 K for each energy lhcb-gauss 4366, 4375, 4381, 4384, 4369, 4387, 4372, 4378 Completed
LHEP + EM option1 + DRay on+ KineHT 50 K for each energy lhcb-gauss 4367, 4376, 4382, 4385, 4370, 4388, 4373, 4379 Completed
LHEP + EM option1 + DRay on+ KineLT 50 K for each energy lhcb-gauss 4368, 4377, 4383, 4386, 4371, 4389, 4374, 4380 Completed
               
pi0 in calos 1 GeV, 5 GeV, 10 GeV, 16.8 GeV , 33.8 GeV , 50 GeV ,100 GeV, 120 GeV, 168 GeV 57000001, 57000005, 57000010, 57000017, 57000034, 57000050, 57000100, 57000168 LHEP + EM option1 + DRay off + KineHT 50 K for each energy lhcb-gauss 4315, 4324, 4330, 4333, 4318, 4336, 4321, 4327 Completed
LHEP + EM option1 + DRay on+ KineHT 50 K for each energy lhcb-gauss 4316, 4325, 4331, 4334, 4319, 4337, 4322, 4328 Completed
LHEP + EM option1 + DRay on+ KineLT 50 K for each energy lhcb-gauss 4317, 4326, 4332, 4335, 4320, 4338, 4323, 4329 Completed

Software configuration for calo particle guns

Particle gun in calo acceptance event types
Request 1: Two steps running Gauss → Boole with Nominal settings
Step 1 Gauss v36r2
DecFiles v16r1
Tag of DDDB and SIMCOND head-20090112, sim-20090112
Generator to be used Pythia irrelevant
Configuration: Beam energy 7 TeV irrelevant
Velo Closed
Magnet polarity Down
Luminosity 2x10^32 irrelevant
Tuning Default
Options for all jobs: Gauss-2008.py
LHCbApp().DDDBtag = head-20090112
LHCbApp().CondDBtag = sim-20090112
Beam7TeV-VeloClosed-MagDown.py
$DECFILEROOT/options/EventType.opts
CaloOnly.opts
Step 2 Boole v17r2p1
Tag of DDDB and SIMCOND head-20090112, sim-20090112
Spillover Off
Options for all jobs: Boole-2008.py
LHCbApp().DDDBtag = head-20090112
LHCbApp().CondDBtag = sim-20090112
Request 2: Two steps running Gauss → Boole with Delta rays On, High thresholds
Step 1 Gauss v36r2
DecFiles v16r1
Tag of DDDB and SIMCOND head-20090112, sim-20090112
Generator to be used Pythia irrelevant
Configuration: Beam energy 7 TeV irrelevant
Velo Closed
Magnet polarity Down
Luminosity 2x10^32 irrelevant
Tuning HT
Options for all jobs: Gauss-2008.py
LHCbApp().DDDBtag = head-20090112
LHCbApp().CondDBtag = sim-20090112
Beam7TeV-VeloClosed-MagDown.py
$DECFILEROOT/options/EventType.opts
CaloOnly.opts
DraysOn-HT.opts
Step 2 Boole v17r2p1
Tag of DDDB and SIMCOND head-20090112, sim-20090112
Spillover Off
Options for all jobs: same as Request 1
Request 3: Two steps running Gauss → Boole with Delta rays On, Low thresholds
Step 1 Gauss v36r2
DecFiles v16r1
Tag of DDDB and SIMCOND head-20090112, sim-20090112
Generator to be used Pythia irrelevant
Configuration: Beam energy 7 TeV irrelevant
Velo Closed
Magnet polarity Down
Luminosity 2x10^32 irrelevant
Tuning LT
Options for all jobs: Gauss-2008.py
LHCbApp().DDDBtag = head-20090112
LHCbApp().CondDBtag = sim-20090112
Beam7TeV-VeloClosed-MagDown.py
$DECFILEROOT/options/EventType.opts
DraysOn-LT.opts
CaloOnly.opts
Step 2 Boole v17r2p1
Tag of DDDB and SIMCOND head-20090112, sim-20090112
Spillover Off
Options for all jobs: same as Request 1

Particle guns for/with all detectors

Event types for particle gun samples and status of production

Sample: Type & Energy EvtType Physics(list and cuts) No. of events Responsible Prodid Status
               
pi+/pi- 0.1 GeV, 0.2 GeV, 0.4 GeV, 1 GeV, 5 GeV, 10 GeV, 16.8 GeV, 33.8 GeV, 50 GeV, 100 GeV, 120 GeV, 168 GeV 53230100, 53230200, 53230400, 53210001, 53210005, 53210010, 53210017, 53210034, 53210050, 53210100, 53210120, 53210168 LHEP + EM option1 + DRay off + KineHT 80 K for each energy and physics setting lhcb-gauss 4552, 4561, 4534, 4546, 4555, 4567, 4537, 4549, 4540, 4564, 4543, 4558 Completed
LHEP + EM option1 + DRay on+ KineHT 80 K for each energy and physics setting lhcb-gauss 4553, 4562, 4535, 4547, 4556, 4568, 4538, 4550, 4541, 4565, 4544, 4559 Completed
LHEP + EM option1 + DRay on+ KineLT 80 K for each energy and physics setting lhcb-gauss 4554, 4563, 4536, 4548, 4557, 4569, 4539, 4551, 4542, 4566, 4545, 4560 Completed
               
e+/e- 0.1 GeV, 0.2 GeV, 0.4 GeV, 1 GeV, 5 GeV, 10 GeV, 16.8 GeV , 33.8 GeV , 50 GeV ,100 GeV, 120 GeV, 168 GeV 51230100, 51230200, 51230400, 51210001, 51210005, 51210010, 51210017, 51210034, 51210050, 51210100, 51210120, 51210168 LHEP + EM option1 + DRay off + KineHT 80 K for each energy lhcb-gauss 4519, 4525, 4498, 4510, 4522, 4531, 4501, 4513, 4504, 4528, 4507, 4516 Completed
LHEP + EM option1 + DRay on+ KineHT 80 K for each energy lhcb-gauss 4520, 4526, 4499, 4511, 4523, 4532, 4502, 4514, 4505, 4529, 4508, 4517 Completed
LHEP + EM option1 + DRay on+ KineLT 80 K for each energy lhcb-gauss 4521, 4527, 4500, 4512, 4524, 4533, 4503, 4515, 4506, 4530, 4509, 4518 In progress
               
mu+/mu- 0.1 GeV, 0.2 GeV, 0.4 GeV, 1 GeV, 5 GeV, 10 GeV, 16.8 GeV , 33.8 GeV , 50 GeV ,100 GeV, 120 GeV, 168 GeV 52230100, 52230200, 52230400, 52210001, 52210005, 52210010, 52210017, 52210034, 52210050, 52210100, 52210120, 52210168 LHEP + EM option1 + DRay off + KineHT 50 K for each energy lhcb-gauss 4411, 4417, 4390, 4405, 4414, 4423, 4393, 4408, 4396, 4420, 4402, 4399 Completed
LHEP + EM option1 + DRay on+ KineHT 50 K for each energy lhcb-gauss 4412, 4418, 4391, 4406, 4415, 4424, 4394, 4409, 4397, 4421, 4403, 4400 Completed
LHEP + EM option1 + DRay on+ KineLT 50 K for each energy lhcb-gauss 4413, 4419, 4392, 4407, 4416, 4425, 4395, 4410, 4398, 4422, 4404, 4401 Completed
               
K+/K- 0.1 GeV, 0.2 GeV, 0.4 GeV, 1 GeV, 5 GeV, 10 GeV, 16.8 GeV , 33.8 GeV , 50 GeV ,100 GeV, 120 GeV, 168 GeV 54230100, 54230200, 54230400, 54210001, 54210005, 54210010, 54210017, 54210034, 54210050, 54210100, 54210120, 54210168 LHEP + EM option1 + DRay off + KineHT 50 K for each energy lhcb-gauss 4447, 4453, 4426, 4441, 4450, 4459, 4429, 4444, 4432, 4456, 4435, 4438 Completed
LHEP + EM option1 + DRay on+ KineHT 50 K for each energy lhcb-gauss 4448, 4454, 4427, 4442, 4451, 4460, 4430, 4445, 4433, 4457, 4436, 4439 Completed
LHEP + EM option1 + DRay on+ KineLT 50 K for each energy lhcb-gauss 4449, 4455, 4428, 4443, 4452, 4461, 4431, 4446, 4434, 4458, 4437, 4440 Completed
               
p/p~ 0.1 GeV, 0.2 GeV, 0.4 GeV, 1 GeV, 5 GeV, 10 GeV, 16.8 GeV , 33.8 GeV , 50 GeV ,100 GeV, 120 GeV, 168 GeV 55230100, 55230200, 55230400, 55210001, 55210005, 55210010, 55210017, 55210034, 55210050, 55210100, 55210120, 55210168 LHEP + EM option1 + DRay off + KineHT 50 K for each energy lhcb-gauss 4480, 4486, 4462, 4474, 4483, 4492, 4465, 4477, 4468, 4489, 4471, 4495 Completed
LHEP + EM option1 + DRay on+ KineHT 50 K for each energy lhcb-gauss 4481, 4487, 4463, 4475, 4484, 4493, 4466, 4478, 4469, 4490, 4472, 4496 Completed
LHEP + EM option1 + DRay on+ KineLT 50 K for each energy lhcb-gauss 4482, 4488, 4464, 4476, 4485, 4494, 4467, 4479, 4470, 4491, 4473, 4497 Completed
               
J/Psi 20 GeV < E < 140 GeV 59050001 LHEP + EM option1 + DRay off + KineHT 50 K lhcb-gauss event type not available  
LHEP + EM option1 + DRay on+ KineHT 50 K lhcb-gauss event type not available  
LHEP + EM option1 + DRay on+ KineLT 50 K lhcb-gauss event type not available  

Software configuration for particle guns

Particle gun in calo acceptance event types
Request 1: Two steps running Gauss → Boole with Nominal settings
Step 1 Gauss v36r2
DecFiles v16r1
Tag of DDDB and SIMCOND head-20090112, sim-20090112
Generator to be used Pythia irrelevant
Configuration: Beam energy 7 TeV irrelevant
Velo Closed
Magnet polarity Down
Luminosity 2x10^32 irrelevant
Tuning Default
Options for all jobs: Gauss-2008.py
LHCbApp().DDDBtag = head-20090112
LHCbApp().CondDBtag = sim-20090112
Beam7TeV-VeloClosed-MagDown.py
$DECFILEROOT/options/EventType.opts
Step 2 Boole v17r2p1
Tag of DDDB and SIMCOND head-20090112, sim-20090112
Spillover Off
Options for all jobs: Boole-2008.py
LHCbApp().DDDBtag = head-20090112
LHCbApp().CondDBtag = sim-20090112
Request 2: Two steps running Gauss → Boole with Delta rays On, High thresholds
Step 1 Gauss v36r2
DecFiles v16r1
Tag of DDDB and SIMCOND head-20090112, sim-20090112
Generator to be used Pythia irrelevant
Configuration: Beam energy 7 TeV irrelevant
Velo Closed
Magnet polarity Down
Luminosity 2x10^32 irrelevant
Tuning HT
Options for all jobs: Gauss-2008.py
LHCbApp().DDDBtag = head-20090112
LHCbApp().CondDBtag = sim-20090112
Beam7TeV-VeloClosed-MagDown.py
$DECFILEROOT/options/EventType.opts
DraysOn-HT.opts
Step 2 Boole v17r2p1
Tag of DDDB and SIMCOND head-20090112, sim-20090112
Spillover Off
Options for all jobs: same as Request 1
Request 3: Two steps running Gauss → Boole with Delta rays On, Low thresholds
Step 1 Gauss v36r2
DecFiles v16r1
Tag of DDDB and SIMCOND head-20090112, sim-20090112
Generator to be used Pythia irrelevant
Configuration: Beam energy 7 TeV irrelevant
Velo Closed
Magnet polarity Down
Luminosity 2x10^32 irrelevant
Tuning LT
Options for all jobs: Gauss-2008.py
LHCbApp().DDDBtag = head-20090112
LHCbApp().CondDBtag = sim-20090112
Beam7TeV-VeloClosed-MagDown.py
$DECFILEROOT/options/EventType.opts
DraysOn-LT.opts
Step 2 Boole v17r2p1
Tag of DDDB and SIMCOND head-20090112, sim-20090112
Spillover Off
Options for all jobs: same as Request 1

-- GloriaCorti - 16 Feb 2008

Edit | Attach | Watch | Print version | History: r20 < r19 < r18 < r17 < r16 | Backlinks | Raw View | Raw edit | More topic actions...
Topic revision: r19 - 2009-03-02 - StuartPaterson
 
    • Cern Search Icon Cern Search
    • TWiki Search Icon TWiki Search
    • Google Search Icon Google Search

    LHCb All webs login

This site is powered by the TWiki collaboration platform Powered by PerlCopyright & 2008-2019 by the contributing authors. All material on this collaboration platform is the property of the contributing authors.
Ideas, requests, problems regarding TWiki? Send feedback