JADE Computing notes (click to download)
Index of notes
Note 1 Does not exist
Note 2 Graphic Facilities on the JADE NORD-10 Computer
Note 3 Status of Monte-Carlo and Off-Line Programs
Note 4 Standards to JADE-Library programmers
Note 5 Conventions of Jet Chamber Data Formats for Pattern Recognition and Related Programs
Note 6 Proposal for Management of Calibration Data
Note 7 IBM - NORD, Data transfer via magnetic tape
Note 8 The JADE BOS System
Note 9 Version No. Identifier for Lead Glass analysis Programs
Note 10 Monte Carlo Formats
Note 11a Track Bank from Pattern Recognition Program last version 18.4.80 by G.F. Pearce
Note 11 Use of BOS-Banks Generating Subroutine Package in the First Stage Data Reduction Program
Note 12 Track bank from pattern recognition program
Note 12v2 Track bank from pattern recognition program
Note 13 Simple Way to Analyse JADE Data on Tapes
Note 14a JADE Computer Note 14a
Note 14c JADE Computer Note 14c
Note 14d JADE Computer Note 14d
Note 14 Lead glass cluster bank structure
Note 15 Data Acquisition System: Physical Record
Note 16 Data format of the tagging bank
Note 17 Data format of the tagging Banks
Note 18 How to Change Existing Analysis Routines
Note 19 LIFILE - a Program to Prepare File Statistics on the NORD
Note 20a Output Format of TOF Program
Note 20 Output Format of TOF Program
Note 21 Hit label bank created by PATREC
Note 22 Mu Software Information, Issue 4
Note 23a IBM Trigger Banks
Note 23b Trigger Words
Note 23 IBM data banks
Note 24a JADE Computer Note 24a
Note 24 Printing Half-Word Banks
Note 25 Reading and writing of real and MTC-event data
Note 26 Monte Carlo tracking
Note 27 JADE data reduction, STEP 1
Note 28 Editing pattern recognition results in the JADE graphics
Note 29 How to create graphics modules within the JADE graphics framework
Note 30 Spinning lead glass analysis
Note 31 Description of philosophy of muon filter tracks pattern recognition program 'TRACK'
Note 32 How to use vertex fit program
Note 33 Small programs with very large PROG files
Note 34 JADE graphics program
Note 35 Energy correction for showers in the lead glass counters
Note 36 The function EBEAM
Note 37 IBM action Bits in the bank 'HEAD'
Note 38 Cuts of first data reduction
Note 39a The CPU-Time Contingent and its Usage
Note 39 Convention about the Use of Computer Time
Note 40 Monte Carlo tracking through lead glass
Note 41 Document preparation using the Nord 10/S
Note 42 The Subroutines REDONE and REDTVA A General Second Reduction Program
Note 43 A general second reduction program
Note 44 Change of JETCAL + improve Resolution for Tracks close to the Wire Plane
Note 45a New jet chamber constants which are applied for the data taken in 1981
Note 45 New corrections for the space-time relation in the JET chamber
Note 46 Instalment of the New Jet Chamber Calibration
Note 47 New Pattern Recognition Programs
Note 48 Subroutine JREKAL (IERR) on 'F11CH0.JADEGL'
Note 49 Subroutine REFITO(IPTR;IPJHTL,X0,YO,WGHT0) on 1F11GOO.PATRELID1
Note 50 Miproc Result Bank 'MPRS'
Note 51 A General Routine for the Fast Reconstruction of Jet Events
Note 52 Adendum to computer note 52. Replacing computer note 22
Note 53e How to use JADE volumes on mass storage system
Note 54 Detector Monte-Carlo
Note 55 The muon Monte-Carlo at DESY
Note 56 Search for a track in PATR(10) bank or any other PATR bank - which corresponds to a selected Monte Carlo generated track of PATR bank 12
Note 57 How to use the improved Jet Cahmber callibration
Note 58 New conventions for callibration data
Note 59 Run dependent Event Vertex on callibration file
Note 60 Refit tracks with run vertex constrain
Note 61 Refit all tracks with run vertex constrain
Note 62 JADE reformat program
Note 63a JADE computer note 63a
Note 63 z-Recalibration
Note 64 Help for JADE (on the computer)
Note 65 Subroutine GGFIT(EMAS,PROB)
Note 66a JADE computer note 66a
Note 66 Inner detector spearing and detector simulation in JADE Monte Carlo events
Note 67 The JADE MOnte Carlo
Note 68 The JADE calibration scheme
Note 69 Monte Carlo traceback
Note 70 Monte Carlo simulation of electormagnetic Showers in the Lead-Glass
Note 71 New $dE/dx$ callibration
Note 72 Monte Carlo data validation
Note 73 The JADE supervison program: An introduction for newcommers
Note 74 Analysis routines for tagging system
Note 75 Routines for converted photons
Note 76 A collection of Programs used in the analysis of inclusive photon production
Note 77 Copying of source files and data files from the JADE-NORD10 to the IBM and vice-versa
Note 78 Decays of $K^{\pm}$ and $K^0$ in MC
Note 79 The JADE TP program
Note 80 Format of the generation 8 TP banks
Note 81 LUMI and RANDOM events on TAPE
Note 82 MUTANA -- a simple algorithm to find tracks in the muon filter
Note 83 Re-analysis of multihadronic events
Note 84 Efficiency corrections due to online and offline event filtering
Note 85 JADEZ the JADE graphics program
Note 86 Tagging System Monte Carlo
Note 87a JADE computer note 87a
Note 87 Error in the Monte Carlo simulation
Note 88 How to Handle Lead Glass Clusters in Calculating the Visible Energy
Note 89 Calibration for 1986 REUC1 and status of Rutherford tapes
Note 90 Jet chanber cell inefficiencies in 1986
Note 91 Neutral triggers on tape
Note 92 REDUC1 and REDUC2 for 1986 Data
Note 93 JADE computer note 94
Note 94 A general $s-z$ fit routine ZSRFTV
Note 95 Improved resolution with $z$-chamber hits
Note 96 Changes to $dE/dx$ routines and description of Bank JHQT
Note 97 $dE/dx$ Monte Carlo
Note 98 Minutes of the JADE software meeting of Dec. 14 1987 at DESY
Note 99 A new compact data format: description of bank ZE4V
Note 100 Vertex chanber software
Note 101 Reconstruction of cluster energies in the barrel lead glass
Note 102 The new TP program version 9
Note 103 A Guide to the Resurrected JADE Data and Software (2003)
Updated in October 2020 by
Andrii Verbytskyi