Software and Simulation Session (ECFA Vienna)
15 Nov 2005, 08:00
→
16 Nov 2005, 18:00
Europe/Zurich
Vienna
Vienna
Ties Behnke/ David Ward
Description
This session is closely linked to the detector performance session. Most talks on particle flow performance studies have been assigned to the detector performance session.
Tuesday 15 November
Tue 15 Nov
Wed 16 Nov
09:00
→
10:30
Simulation/ Reconstruction Session #1
09:00
MARLIN Reco
15m
Speaker
:
Frank Gaede
more information
09:15
Clustering using MAGIC
15m
Speaker
:
Chris Ainsley
transparencies
09:30
PFA and digitization simulation development at NICADD/NIU
15m
Speaker
:
Sasha Dychkant
transparencies
09:45
LCIO/ MARLIN based package for SI tracker digitization, reconstruction and analysis (status and plans)
15m
Speaker
:
Sergei Shulga
transparencies
10:00
Modern vertex reconstruction methods
15m
Speaker
:
W. Waltenberger.
transparencies
10:15
CALICE software framework
15m
Speaker
:
Roman Poeschl
transparencies
11:00
→
12:35
Detector Performance
11:00
Reconstruction cheater studies
15m
Speaker
:
Mike Ronan
transparencies
11:15
Particle Flow algorithms for GLD
15m
Speaker
:
Tamaki Yoshioka
more information
11:30
Reconstruction methods for GLD PFA
15m
Speaker
:
Tomoaki Fujikawa
more information
11:45
Particle Flow in MARLIN
20m
Speaker
:
Predrag Krstonosic
more information
12:05
A New Topological Particle Flow Algorithm
20m
Speaker
:
Mark Thomson
12:25
Low momenta muons
10m
Speaker
:
Uriel Nauenberg
more information
Wednesday 16 November
Tue 15 Nov
Wed 16 Nov
16:30
→
18:00
Software/ Reconstruction Session #2
16:30
Status of MOKKA
15m
Speaker
:
Gabriel Musat
more information
16:45
Data- Monte Carlo comparison for the CALICE ECAL
15m
Speaker
:
David Ward
more information
17:00
LumiCAL Simulation
15m
Speaker
:
Bogdan Pawlik
more information
17:15
ILC software and 64 bit architectures
15m
Speaker
:
Harald Vogt
more information
17:30
GRID for the ILC
15m
Speaker
:
Dennis Martsch
more information
17:45
The US software system (by phone/ video)
15m
Speaker
:
Norman Graf
transparencies