Next:
Introduction
Introduction
Trends in Network Modeling and Simulation
Sequential Simulation Technologies
Parallel Simulation Technologies
Flow/Fluid-based Modeling Methodologies
Previous Work in Reverse Computation
What is Time-Proportionate Reverse Computation (TiPRC)?
Application Properties
Performance
Related Results from NSF Funded Research
Related Work
Research Thrusts for Reverse Computation
What is Perfect Reverse Computation (PRC)?
Design and Implementation of PRC Algorithms
What is the minimum state needed to support PRC?
How to support the reversible, symmetric flow of control on a collection non-PRC processors?
What are the implications on event list management?
How does event scheduling and rollback work under PRC?
How to support the reverse execution of floating-point operations?
New Modeling Techniques
Comparison and Contrast of Performance
Linkages between PRC, Quantum Computations and Classical Parallel Computations
Design of Experiments
Research Action Plan
Peering-Webphone-Akamai Testbed Scenario
Leveraging Existing Network Research Collaborations
Division of Labor
Impact of Proposed Research
Education Plan
Accomplishments
Undergraduate Curriculum Development
Graduate Program Development
Advancement for Minorities and Women
Rensselaer's Undergraduate Research Program
Planned Activities
Course Development
More Research for Undergraduates
Department Service and Undergraduate Advising
Reverse Computing Workshop
Bibliography
About this document ...
Christopher D. Carothers 2002-03-07
