Current AMR simulations require algorithms that are highly parallelized and manage memory efficiently. As compute engines grow larger, AMR simulations will require algo-rithms that achieve new levels of efficient parallelization and memory management. We have attempted to employ new techniques to achieve both of these goals. Patch or grid based AMR often employs ghost cells to decouple the hyperbolic advances of each grid on a given refinement level. This decoupling allows each grid to be advanced independently. In AstroBEAR we utilize this independence by threading the grid advances on each level with preference going to the finer level grids. This allows for global load balancing instead of level by level load balancing and allows for gre...
Abstract—Cosmology simulations are highly communication-intensive, thus it is critical to exploit to...
Adaptive mesh refinement (AMR) is a powerful technique thatreduces the resources necessary to solve ...
Abstract—Cosmological simulations are highly complicated, and it is time-consuming to redesign and r...
Abstract. Current AMR simulations require algorithms that are highly parallelized and manage memory ...
Scientific applications are critical for solving complex problems in many areas of research, and oft...
Adaptive Mesh Refinement (AMR) is a highly effective method for simulations spanning a large range o...
Modern high-resolution numerical simulations of multiscale physical phenomena require enormous compu...
While the parallelization of blockstructured adaptive mesh refinement techniques is relatively strai...
Our goal is to develop software libraries and applications for astrophysical fluid dynamics simulati...
Adaptive mesh refinement (AMR) is a powerful technique that reduces the resources necessary to solv...
Over recent years, Adaptive Mesh Refinement (AMR) algorithms which dynamically match the local resol...
We present the newly developed code, GPU-accelerated Adaptive-MEsh-Refinement code (GAMER), which ad...
The advent of robust, reliable and accurate higher order Godunov schemes for many of the systems of ...
Abstract. High-resolution simulations often rely on the Adaptive Mesh Resolution (AMR) technique to ...
This is the final report of our NASA AISRP grant entitled 'High Performance Parallel Methods for Spa...
Abstract—Cosmology simulations are highly communication-intensive, thus it is critical to exploit to...
Adaptive mesh refinement (AMR) is a powerful technique thatreduces the resources necessary to solve ...
Abstract—Cosmological simulations are highly complicated, and it is time-consuming to redesign and r...
Abstract. Current AMR simulations require algorithms that are highly parallelized and manage memory ...
Scientific applications are critical for solving complex problems in many areas of research, and oft...
Adaptive Mesh Refinement (AMR) is a highly effective method for simulations spanning a large range o...
Modern high-resolution numerical simulations of multiscale physical phenomena require enormous compu...
While the parallelization of blockstructured adaptive mesh refinement techniques is relatively strai...
Our goal is to develop software libraries and applications for astrophysical fluid dynamics simulati...
Adaptive mesh refinement (AMR) is a powerful technique that reduces the resources necessary to solv...
Over recent years, Adaptive Mesh Refinement (AMR) algorithms which dynamically match the local resol...
We present the newly developed code, GPU-accelerated Adaptive-MEsh-Refinement code (GAMER), which ad...
The advent of robust, reliable and accurate higher order Godunov schemes for many of the systems of ...
Abstract. High-resolution simulations often rely on the Adaptive Mesh Resolution (AMR) technique to ...
This is the final report of our NASA AISRP grant entitled 'High Performance Parallel Methods for Spa...
Abstract—Cosmology simulations are highly communication-intensive, thus it is critical to exploit to...
Adaptive mesh refinement (AMR) is a powerful technique thatreduces the resources necessary to solve ...
Abstract—Cosmological simulations are highly complicated, and it is time-consuming to redesign and r...