Tutorials
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Tutorial
notes due: September 30
Tutorials will be held Sunday, November 17 and Monday November
18, 2002
The tutorials
at the SC conferences are one of the highlights of the technical
program and a key reason for many people to attend the conference.
The tutorials provide attendees with opportunities to learn from,
and interact with, internationally recognized experts on topics
related to high performance computing ranging across technological
trends, theory, and practice.
The goal of the Tutorials Program is to provide a broad range
of technically enriching courses to SC2002 conference attendees.
As such, proposals are being solicited, ranging from introductory
to advanced levels, in topics related to high performance computing
and communications.
Tutorials
Schedule at a Glance
|
| SUNDAY,
FULL DAY (8:30-5:00) |
| S1 |
Intermediate
MPI-1: A Practical Approach for Programmers |
| S2 |
Tools
and Methods for Performance Modeling and Prediction |
| S3 |
Component
Software for High-Performance Computing: Using the Common
Compenent Architecture |
| S4 |
Cluster
Computing the OSCAR Way |
| S5 |
Java
for High Performance Computing: Performance and Parallelisation |
| S6 |
InfiniBand
Architecture and what does it bring to high performance computing |
| S7 |
Applied
CFD Techniques |
| S8 |
Opportunities
and Challenges in Computational Biology |
| SUNDAY,
HALF DAY AM (8:30-12:00) |
| S9 |
Intro
to Grid Computing |
| S10 |
The
Storage Resource Broker |
| S11 |
Requirements
Analysis for Scientific Apps |
| S12 |
Dual-Level
Parallelism Techniques |
| SUNDAY,
HALF DAY PM (1:30-5:00) |
| S13 |
Open
Grid Services Architecture
|
| S14 |
DoD
Sensor Processing: Applications and Supporting Software Technologies |
| S15 |
An
Introduction to the Totalview Debugger |
| S16 |
Scalable
Performance Optimizations for Dynamic Applications |
| MONDAY,
FULL DAY (8:30-5:00) |
| M1 |
Using
MPI-2: Advanced Features of the Message Passing Interface |
| M2 |
A Tutorial
Introduction to Infrastructure for the Analysis and Mining
of Globally Distributed Data
|
| M3 |
Developing
HPC Scientific and Engineering Applications: From the Laptop
to the Grid
|
| M4 |
Reconfigurable
Supercomputing |
| M5 |
Performance
Programming: Theory, Practice, and Case Studies |
| M6 |
Supercomputing:
The Rewards and the Reality |
| M7 |
Trends
in Computer Security for Open Scientific Facilities |
| M9 |
High-Performance
Visualization of Large and Complex Scientific Datasets |
| MONDAY,
HALF DAY AM (8:30-12:00) |
| M10 |
Performance
Tools 101: Build Your Own Tools! |
| M11 |
Introduction to Parallel Programming with OpenMP |
| M12 |
High
Performance Networking |
| MONDAY,
HALF DAY PM (1:30-5:00) |
| M13 |
Cluster
Design Rules:Effective Cluster Design with Commodity Parts |
| M14 |
Advanced
Topics in OpenMP |
| M15 |
Optical
Technologies & GRID Networking |
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SC2002
Tutorials Committee
Jeff Kuehn, National Center for Atmospheric Research, Chair
Richard Barrett, Los Alamos National Laboratory, Deputy Chair
Victor Bandy, TRW
Virginia Bedford, Arctic Region Supercomputing Center
Mary-Kay Bunde, Etnus, LLC
Candy Culhane, Department of Defense
Eric Greenwade, Idaho National Engineering and Environment Laboratory
Marty Itzkowitz, Sun Microsystems, Inc
Gabriele Jost, NASA Ames/Computer Sciences Corporation
Elizabeth Jurrus, Pacific Northwest National Laboratory
Charles Koelbel, Rice University
Glenn Luecke, Iowa State University
Robert Sinkovits, San Diego Supercomputer Center
Lauren Smith, National Security Agency
John Sopka, Sun Microsystems, Inc.
Leslie Southern, Ohio Supercomputer Center
Alan Sussman, University of Maryland
Timothy
Toole, Sandia National Laboratories
Jim Tuccillo, IBM
James White III, Oak Ridge National Laboratory
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