SLAC's Advanced Computations Department (ACD) has developed the parallel 3D electromagnetic time-domain code T3P for simulations of wakefields and transients in complex accelerator structures. T3P is based on state-of-the-art Finite Element methods on unstructured grids and features unconditional stability, quadratic surface approximation and up to 6th-order vector basis functions for unprecedented simulation accuracy. Optimized for large-scale parallel processing on leadership supercomputing facilities, T3P allows simulations of realistic 3D structures with fast turn-around times, aiding the design of the next generation of accelerator facilities. Applications include simulations of the proposed two-beam accelerator structures for the Comp...
The Compact Linear Collider (CLIC) PETS is required to produce about 0.5 GW RF power per metre in th...
The MAFIA group of fully three dimensional computer codes for the solution of Maxwell´s equations is...
Over the past years, SLAC's Advanced Computations Department (ACD) has developed the parallel finite...
In recent years, SLAC's Advanced Computations Department (ACD) has developed the parallel 3D Finite ...
The Compact Linear Collider (CLIC) provides a path to a multi-TeV accelerator to explore the energy ...
Under the DOE SciDAC project on Accelerator Science and Technology, a suite of electromagnetic codes...
Over a decade of concerted effort in code development for accelerator applications has resulted in a...
SLAC's Advanced Computations Department (ACD) has developed the parallel 3D Finite Element electroma...
Over a decade of concerted effort in code development for accelerator applications has resulted in a...
We discuss the use of 3-D finite-difference time-domain (FDTD) electromagnetic codes for modeling ac...
The Compact Linear Collider (CLIC) provides a path to a multi-TeV accelerator to explore the energy ...
SLAC's Advanced Computations Department (ACD) has developed the first parallel Finite Element 3D Par...
Future high-energy accelerators such as the Next Linear Collider (NLC) will accelerate multi-bunch b...
The PSI RF group currently uses the electromagnetic sol-vers of the commercial codes MAFIA and ANSYS...
The SciDAC2 accelerator project at SLAC aims to simulate an entire three-cryomodule radio frequency ...
The Compact Linear Collider (CLIC) PETS is required to produce about 0.5 GW RF power per metre in th...
The MAFIA group of fully three dimensional computer codes for the solution of Maxwell´s equations is...
Over the past years, SLAC's Advanced Computations Department (ACD) has developed the parallel finite...
In recent years, SLAC's Advanced Computations Department (ACD) has developed the parallel 3D Finite ...
The Compact Linear Collider (CLIC) provides a path to a multi-TeV accelerator to explore the energy ...
Under the DOE SciDAC project on Accelerator Science and Technology, a suite of electromagnetic codes...
Over a decade of concerted effort in code development for accelerator applications has resulted in a...
SLAC's Advanced Computations Department (ACD) has developed the parallel 3D Finite Element electroma...
Over a decade of concerted effort in code development for accelerator applications has resulted in a...
We discuss the use of 3-D finite-difference time-domain (FDTD) electromagnetic codes for modeling ac...
The Compact Linear Collider (CLIC) provides a path to a multi-TeV accelerator to explore the energy ...
SLAC's Advanced Computations Department (ACD) has developed the first parallel Finite Element 3D Par...
Future high-energy accelerators such as the Next Linear Collider (NLC) will accelerate multi-bunch b...
The PSI RF group currently uses the electromagnetic sol-vers of the commercial codes MAFIA and ANSYS...
The SciDAC2 accelerator project at SLAC aims to simulate an entire three-cryomodule radio frequency ...
The Compact Linear Collider (CLIC) PETS is required to produce about 0.5 GW RF power per metre in th...
The MAFIA group of fully three dimensional computer codes for the solution of Maxwell´s equations is...
Over the past years, SLAC's Advanced Computations Department (ACD) has developed the parallel finite...