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FY00 Applications Implementation Plan
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INTRODUCTION

A. APPLICATIONS

I. CODE PROJECTS

  1. Presto/Adagio – Solid Mechanics Code Development
  2. Calore – Thermal Simulation Capabilities in SIERRA
  3. Goma – Strongly Coupled Multi-Physics Transport Simulation
  4. Fuego/Syrinx
  5. Salinas
  6. SACCARA – Compressible Fluid Mechanics/Aerothermodynamics Code Development
  7. VIPAR – Parachute Performance Prediction Code Development
  8. ALEGRA
  9. EMPHASIS – ElectroMagnetic Physics Analysis System
  10. ChiliSpice – High Performance Electrical Modeling and Simulation
  11. CEPTRE/ITS
  12. Pegasus – Neutron Tube Modeling and Simulation
  13. Thor – Penetration

II. FRAMEWORK

  1. SIERRA
  2. EMPHASIS
  3. Electrical Systems

III. CROSSCUT ENABLING TECHNOLOGIES

  1. Meshing
  2. Visualization
  3. Libraries
  4. Advanced Computing Technologies

IV. TERASCALE APPLICATIONS

  1. Performance
  2. Safety
  3. Manufacturing 

V. PRODUCTION COMPUTING

  1. Finite Element I/O Subsystem
  2. SIERRA Code Management System
  3. Codes for the Complex

B. VERIFICATION & VALIDATION

I. V&V SUPPORT ELEMENTS

  1. V&V Infrastructure Activities
  2. Peer Reviewing of V&V Plans
  3. Software Quality Engineering Practices
  4. Validation Methodologies
  5. Crosscutting Verification Activities

II. CODE-SPECIFIC V&V ACTIVITIES

  1. Solid Mechanics (Adagio/Presto)
  2. Calore
  3. Goma
  4. Salinas
  5. SACCARA
  6. VIPAR
  7. ALEGRA
  8. EMPHASIS
  9. ChiliSpice
  10. CEPTRE/ITS
  11. Pegasus
  12. SIERRA

III. WEAPONS SYSTEMS

  1. Design Integration

C. MATERIALS AND PHYSICS MODELS

I. SUB-GRID PHYSICS DEVELOPMENT

  1. Sub-Grid Physics Implementation
  2. Fluid, Thermal, Aerosciences, and Reactive Processes
  3. Material, Solid, and Structural Dynamics
  4. Crosscutting Technologies
  5. Encapsulation and Electrical Devices

II. MATERIALS SIMULATION FOR RELIABILITY

  1. Aging and Failure of Stockpile Materials Exposed to Radiation
  2. Degradation of Organic Materials
  3. Microstructure-Driven Processing and Failure
  4. PZT – Microstructure-Level Simulation of Shock Response of PZT 95/5
  5. Microscopic Models for Predicting Metals Corrosion Degradation

III. WEAPON SYSTEMS MODELING

  1. Revolution in Engineering (REM)

IV. RADIATION & HIGH-PRESSURE EFFECTS