AOB

Speaker : All ( All )


Talk time : 12:55, Duration : 00:05

Last week's action item updates

Speaker : Jerome Lauret ( BNL )


Talk time : 12:45, Duration : 00:10

Two issues w/ respect to simulation readiness

There are two issues being discussed within several groups (emc, phana, W) which may impact our readiness to run simulations for y2009.

Is there an SF issue in EMC?

Speaker : Jason Webb ( BNL )


Talk time : 12:30, Duration : 00:15

Link:

Sampling Fraction Issue(s) raised in the B/EEMC

Review of the data production plan

Speaker : Lidia Didenko ( BNL )


Talk time : 12:15, Duration : 00:15

                        &nbsp

Calibration status for run 9 production

Speaker : Gene Van Buren ( BNL )


Talk time : 12:00, Duration : 00:15

 Since You do not have access to view this node:

Software and Computing phone meeting

2009-12-02 12:00
2009-12-02 13:00
Etc/GMT-5
Wednesday, 2 December 2009
1-189, EVO, at 17:00 (GMT), duration : 01:00
TimeTalkPresenter
12:00Calibration status for run 9 production ( 00:15 ) 0 filesGene Van Buren (BNL)
12:15Review of the data production plan ( 00:15 ) 0 filesLidia Didenko (BNL)
12:30Is there an SF issue in EMC? ( 00:15 ) 0 filesJason Webb (BNL)
12:45Last week's action item updates ( 00:10 ) 0 filesJerome Lauret (BNL)
12:55AOB ( 00:05 ) 0 filesAll (All)

Files for 2Dec Group Meeting

I've attached three files to be discussed at the group meeting here at MIT. 

Upsilon 1s,2s,3s in d+Au Run 8

Request TypeStandard Embedding request (particle in real events)
Description
-----------------------------------------
 d+Au 200 GeV (year 2008)
 fast stream data st_upsilon

 Production tag = P08ie
Trigger = 210601 30K events for each states (1s, 2s, 3s) flat in pT and y: pT= 0 - 10 GeV/c y= -2.0 - 2.0 no VertexZ cut 1 Upsilon per event let the Upsilon decay only into e+e- production version: P12ic or P11id starver: SL12c geant geometry option: y2008(low material) ------------------------------------------ Here is list of bad runs. Any other one should be fine for: 8347019,
8347100, 8348053, 8348055, 8350003, 8350078, 8350085, 8356018,
8357051, 8359113, 8365104, 9006015, 9006016, 9006048, 9006049,
9011119, 9013087, 9014032, 9015030, 9015031, 9015032, 9015036,
9015037, 9015040, 9015041, 9015043, 9015049, 9015083, 9016093,
9016100, 9017018, 9017136, 9018029, 9020010, 9020031, 9021045,
9023050, 9023062, 9024072, 9026072
General Information
Request ID6e3fc974bf5cc484daa76bd45969eb5b
Priority: EC31
Priority: pwgNormal
StatusKilled
Physics Working GroupHeavy Flavor
Requested byAnthony Kesich
Contact email(s)akesich@gmail.com, jaroslav.bielcik@fjfi.cvut.cz
Contact phone(s)
PWG email(s)heavy-hn@www.star.bnl.gov
Assigned Deputy: Not assigned
Assigned Helper: Not assigned
Global Simulation Settings
Request type:Standard Embedding request (particle in real events)
Number of events30000 = 30 K
Magnetic FieldFull-Field
Collision Typedau 200GeV
Centrality---- SELECT CENTRALITY ----
BFC tagsst_upsilon
Production---- SELECT PRODUCTION TAG ----
Geometry: simu
Geometry: reco
LibrarySL11d_embed
Vertex optionForce vertex as MC vertex
Pileup optionNo
Detector Set 
Data Sources
Real Data
File lookup 
Single Particle MC
ParticleUpsilon1S
Particle settingsFlat in Pt
Particles per event1
Vertex Z, cm-150 < Vertex < 150
Gaussian sigma in X,Y,Z (cm), if applicable0, 0, 0
Vertex offset: x, mm0
Vertex offset: y, mm0
Φ (phi), radian0 < Φ < 6.39
η (eta)-2 < η < 2
Pt, GeV0 < Pt < 10

Gereration of W events for w-pythia-pp500-2009-zerobiasefficiency

Request TypeUndefined
Description

A simulation of W events for the embedding task described at http://drupal.star.bnl.gov/STAR/starsimrequests/2009/nov/29/w-pythia-pp500-2009-zerobiasefficiency (Request ID 4db6170267472c0b5b28bcea1cf47847) is needed.

Details of the full request are documented at http://drupal.star.bnl.gov/STAR/blog/balewski/2009/oct/29/pp500-embedding-revised-request-w-paper and most recently updated in email http://www.star.bnl.gov/HyperNews-star/get/embedding/716/1.html

 

 

 

General Information
Request ID
Priority: EC
Priority: pwg
Status
Physics Working Group
Requested by
Contact email(s)
Contact phone(s)
PWG email(s)
Assigned Deputy: Not assigned
Assigned Helper: Not assigned
Global Simulation Settings
Request type:Undefined
Number of events
Magnetic Field
Collision Type
Centrality
BFC tags
Production
Geometry: simu
Geometry: reco
Library
Vertex option
Pileup optionNo
Detector Set
Data Sources
Real Data
File lookup
Single Particle MC
Particle
Particle settings
Particles per event0
Vertex Z, cm < Vertex <
Gaussian sigma in X,Y,Z (cm), if applicable, ,
Vertex offset: x, mm
Vertex offset: y, mm
Φ (phi), radian < Φ <
η (eta) < η <
Pt, GeV < Pt <

Z studies

 I've been looking at Z events in the W sample.  

The following cuts are applied:

Pre-embedding QA for W analysis: Calorimeters

Pre-embedding QA for W analysis: Calorimeters

12/2 Update

The problem I was having with using the StEmcCollection vanished as mysteriously as it came, but at least my code is working now, so here are some plots that would have gone into my presentati

Geometry Differential: y2006g + ECALv6 versus y2006g + ECALv6 + TPCE04

Abstract: The latest version of the TPC geometry is TPCE04.  This geometry changes important features in the TPC structure, which account for ~1000 lbs.

MiniMc new structue explained

Speaker : Yuri Fisyak ( BNL )


Talk time : 16:20, Duration : 00:20

 MiniMc Issues (Y.Fisyak, 12/01/09)

Feedback gathering from the EH

Speaker : Renee Fatemi ( UKY )


Talk time : 16:00, Duration : 00:20

MiniMc structure discussion

2009-12-01 16:00
2009-12-01 17:00
Etc/GMT-5
Tuesday, 1 December 2009
1-189, EVO, at 21:00 (GMT), duration : 01:00

The discussion is aimed to be held within a restricted group.

  • Discuss the new and old structure of the MiniMc event, present and explain new structure and determine why the newer format does not fulfill the QA requirements?
  • Gather feedback on what are the functional requirements?

TimeTalkPresenter
16:00Feedback gathering from the EH ( 00:20 ) 1 fileRenee Fatemi (UKY)
16:20MiniMc new structue explained ( 00:20 ) 0 filesYuri Fisyak (BNL)

Old Beamline Constraint Values (Generated Aug 15)

Fill          Vx      Vy      Ux           Uy &

Lambda 1520 in 200 GeV CuCu

Request TypeStandard Embedding request (particle in real events)
Description

Lambda 1520 in 200 GeV CuCu

Data is in P06ib but needs VFMCE which is only in P07ie

centraility = 0-60%

Slope Pt distribution with T=350 MeV

5% mult per event

 

NOTE added by Hiroshi

The new request number is 20094801.

 

General Information
Request IDb7a3589e93ee8735283cf5a51eb67c1e
Priority: EC0
Priority: pwgHigh
StatusClosed
Physics Working GroupLight Flavor Spectra
Requested byrfatemi
Contact email(s)rfatemi@pa.uky.edu
Contact phone(s)
PWG email(s)lfspectra-hn@www.star.bnl.gov
Assigned Deputy:
Assigned Helper: Not assigned
Global Simulation Settings
Request type:Standard Embedding request (particle in real events)
Number of events1
Magnetic FieldFull-Field
Collision Typecucu 200GeV
Centrality---- SELECT CENTRALITY ----
BFC tags
ProductionP07ic
Geometry: simu---- SELECT GEOMETRY ----
Geometry: reco---- SELECT GEOMETRY ----
LibrarySL07e
Vertex optionForce vertex as MC vertex, pick vertex from tag file for simulated data
Pileup optionNo
Detector Set
Data Sources
Real Data
File lookup<p>&lt;p&gt;&amp;lt;p&amp;gt;&amp;amp;lt;p&amp;amp;gt;&amp;amp;amp;lt;p&amp;amp;amp;gt;&amp;amp;amp;amp;lt;pre&amp;amp;amp;amp;gt; file:/eliza12/starprod/reco/cuProductionMinBias/FullField/P06ib/2005/050/st_physics_adc_6050018_raw_1050001.MuDst.root file:/eliza12/starprod/reco/cuProductionMinBias/FullField/P06ib/2005/050/st_physics_adc_6050018_raw_1080001.MuDst.root file:/eliza12/starprod/reco/cuProductionMinBias/FullField/P06ib/2005/050/st_physics_adc_6050018_raw_2050001.MuDst.root file:/eliza12/starprod/reco/cuProductionMinBias/FullField/P06ib/2005/050/st_physics_adc_6050018_raw_2080001.MuDst.root file:/eliza12/starprod/reco/cuProductionMinBias/FullField/P06ib/2005/050/st_physics_adc_6050018_raw_3050001.MuDst.root file:/eliza12/starprod/reco/cuProductionMinBias/FullField/P06ib/2005/050/st_physics_adc_6050018_raw_3080001.MuDst.root file:/eliza12/starprod/reco/cuProductionMinBias/FullField/P06ib/2005/050/st_physics_adc_6050022_raw_1050001.MuDst.root file:/eliza12/starprod/reco/cuProductionMinBias/FullField/P06ib/2005/050/st_physics_adc_6050022_raw_1060001.MuDst.root file:/eliza12/starprod/reco/cuProductionMinBias/FullField/P06ib/2005/050/st_physics_adc_6050022_raw_1070001.MuDst.root file:/eliza12/starprod/reco/cuProductionMinBias/FullField/P06ib/2005/050/st_physics_adc_6050022_raw_1080001.MuDst.root file:/eliza12/starprod/reco/cuProductionMinBias/FullField/P06ib/2005/050/st_physics_adc_6050022_raw_1080002.MuDst.root file:/eliza12/starprod/reco/cuProductionMinBias/FullField/P06ib/2005/050/st_physics_adc_6050022_raw_2050001.MuDst.root file:/eliza12/starprod/reco/cuProductionMinBias/FullField/P06ib/2005/050/st_physics_adc_6050022_raw_2060001.MuDst.root file:/eliza12/starprod/reco/cuProductionMinBias/FullField/P06ib/2005/050/st_physics_adc_6050022_raw_2060002.MuDst.root file:/eliza12/starprod/reco/cuProductionMinBias/FullField/P06ib/2005/050/st_physics_adc_6050022_raw_2070001.MuDst.root file:/eliza12/starprod/reco/cuProductionMinBias/FullField/P06ib/2005/050/st_physics_adc_6050022_raw_3050001.MuDst.root file:/eliza12/starprod/reco/cuProductionMinBias/FullField/P06ib/2005/052/st_physics_adc_6052070_raw_1050001.MuDst.root file:/eliza12/starprod/reco/cuProductionMinBias/FullField/P06ib/2005/052/st_physics_adc_6052070_raw_1050002.MuDst.root file:/eliza12/starprod/reco/cuProductionMinBias/FullField/P06ib/2005/052/st_physics_adc_6052070_raw_1060001.MuDst.root file:/eliza12/starprod/reco/cuProductionMinBias/FullField/P06ib/2005/052/st_physics_adc_6052070_raw_1070001.MuDst.root file:/eliza12/starprod/reco/cuProductionMinBias/FullField/P06ib/2005/052/st_physics_adc_6052070_raw_1080001.MuDst.root file:/eliza12/starprod/reco/cuProductionMinBias/FullField/P06ib/2005/052/st_physics_adc_6052070_raw_2050001.MuDst.root file:/eliza12/starprod/reco/cuProductionMinBias/FullField/P06ib/2005/052/st_physics_adc_6052070_raw_2060001.MuDst.root file:/eliza12/starprod/reco/cuProductionMinBias/FullField/P06ib/2005/052/st_physics_adc_6052070_raw_2060002.MuDst.root file:/eliza12/starprod/reco/cuProductionMinBias/FullField/P06ib/2005/052/st_physics_adc_6052070_raw_2070001.MuDst.root file:/eliza12/starprod/reco/cuProductionMinBias/FullField/P06ib/2005/052/st_physics_adc_6052070_raw_2070002.MuDst.root file:/eliza12/starprod/reco/cuProductionMinBias/FullField/P06ib/2005/052/st_physics_adc_6052070_raw_2080001.MuDst.root file:/eliza12/starprod/reco/cuProductionMinBias/FullField/P06ib/2005/052/st_physics_adc_6052070_raw_3050001.MuDst.root file:/eliza12/starprod/reco/cuProductionMinBias/FullField/P06ib/2005/052/st_physics_adc_6052070_raw_3050002.MuDst.root file:/eliza12/starprod/reco/cuProductionMinBias/FullField/P06ib/2005/052/st_physics_adc_6052070_raw_3060001.MuDst.root file:/eliza12/starprod/reco/cuProductionMinBias/FullField/P06ib/2005/052/st_physics_adc_6052070_raw_3060002.MuDst.root 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file:/eliza12/starprod/reco/cuProductionMinBias/FullField/P06ib/2005/052/st_physics_adc_6052072_raw_3080001.MuDst.root file:/eliza12/starprod/reco/cuProductionMinBias/FullField/P06ib/2005/057/st_physics_adc_6057046_raw_1060001.MuDst.root file:/eliza12/starprod/reco/cuProductionMinBias/FullField/P06ib/2005/057/st_physics_adc_6057046_raw_1060002.MuDst.root file:/eliza12/starprod/reco/cuProductionMinBias/FullField/P06ib/2005/057/st_physics_adc_6057046_raw_1060003.MuDst.root file:/eliza12/starprod/reco/cuProductionMinBias/FullField/P06ib/2005/057/st_physics_adc_6057046_raw_1080001.MuDst.root file:/eliza12/starprod/reco/cuProductionMinBias/FullField/P06ib/2005/057/st_physics_adc_6057046_raw_1080002.MuDst.root file:/eliza12/starprod/reco/cuProductionMinBias/FullField/P06ib/2005/057/st_physics_adc_6057046_raw_2070002.MuDst.root file:/eliza12/starprod/reco/cuProductionMinBias/FullField/P06ib/2005/057/st_physics_adc_6057046_raw_2080001.MuDst.root file:/eliza12/starprod/reco/cuProductionMinBias/FullField/P06ib/2005/057/st_physics_adc_6057046_raw_3050001.MuDst.root file:/eliza12/starprod/reco/cuProductionMinBias/FullField/P06ib/2005/057/st_physics_adc_6057046_raw_3060001.MuDst.root file:/eliza12/starprod/reco/cuProductionMinBias/FullField/P06ib/2005/057/st_physics_adc_6057046_raw_3070001.MuDst.root file:/eliza12/starprod/reco/cuProductionMinBias/FullField/P06ib/2005/057/st_physics_adc_6057046_raw_3080001.MuDst.root file:/eliza12/starprod/reco/cuProductionMinBias/FullField/P06ib/2005/057/st_physics_adc_6057046_raw_3080002.MuDst.root &amp;amp;amp;amp;lt;/pre&amp;amp;amp;amp;gt;&amp;amp;amp;lt;/p&amp;amp;amp;gt;&amp;amp;lt;/p&amp;amp;gt;&amp;lt;/p&amp;gt;&lt;/p&gt;</p>
Single Particle MC
ParticleLambda 1520
Particle settingsSpectra
Particles per event5
Vertex Z, cm-30 < Vertex < 30
Gaussian sigma in X,Y,Z (cm), if applicable0, 0, 0
Vertex offset: x, mm0
Vertex offset: y, mm0
Φ (phi), radian0 < Φ < 6.39
η (eta)-1.5 < η < 1.5
Pt, GeV0.1 < Pt < 4

Run6 FPD Shower Shape

Run6 FPD Shower Shape Simulation and Data Comparison