crpc01.gif: Goals of the Alliance
crpc02.gif: Computational Infrastructure
crpc03.gif: Memory requirements
crpc04.gif: Memory requirements (contiued)
crpc05.gif: ADM Equations
crpc06.gif: ADM Equations (continued)
crpc07.gif: ADM Equations (continued)
crpc08.gif: Causual Differencing
crpc09.gif: Causual Differencing (continued)
crpc10.gif: Apparent Horizon boundary Conditions
crpc11.gif: Computational components/modules
crpc12.gif: HPF and HPF2
crpc13.gif: DAGH
crpc14.gif: DAGH (continued)
crpc15.gif: DAGH (continued)
crpc16.gif: DAGH (continued)
crpc17.gif: Conversion of an existing Fortran 90 implementation to DAGH
crpc18.gif: F90 to DAGH: communication
crpc19.gif: F90 to DAGH: Passing data
crpc20.gif: Automatic translation
crpc21.gif: IMPLEMENTATION
crpc22.gif: IMPLEMENTATION
crpc23.gif: IMPLEMENTATION
crpc24.gif: 1. Linear waves
crpc25.gif: 2. Finding the Apparent Horizon
crpc26.gif: 3a. Black Holes (Inner Boundary Condition
crpc27.gif: Inner Boundary condition (continued)
crpc28.gif: Inner Boundary Conditions (continued)
crpc29.gif: Inner Boundary Conditions (continued)
crpc30.gif: Inner Boundary Conditions (continued)
crpc31.gif: Inner Boundary Condition.    Variable stencil size
crpc32.gif: 3b. Moving Inner Boundary (A Moving Hole)
crpc33.gif: Moving Hole (Continued)
crpc34.gif: Moving Hole (continued)
crpc35.gif: 4. Linear wave problem with matching outer boundary condition for gravitational wave extraction.
crpc36.gif: Matching interior and exterior evolution
crpc37.gif: 5. Support for (parallel) AMR