ABSTRACT Present trends in high performance computing present formidable challenges for applications code using multicore nodes possibly with accelerators and/or co-processors and reduced memory while still attaining scalability. Software frameworks that execute machineindependent applications code using a runtime system that shields users from architectural complexities offer a possible solution. The Uintah framework for example, solves a broad class of large-scale problems on structured adaptive grids using fluid-flow solvers coupled with particle-based solids methods. Uintah executes directed acyclic graphs of computational tasks with a scalable asynchronous and dynamic runtime system for CPU cores and/or accelerators/coprocessors on a n...
The Petascale Computing Enabling Technologies (PCET) project addressed challenges arising from curre...
With modern advancements in hardware and software technology scaling towards new limits, our compute...
International audienceExtreme scale parallel computing systems will have tens of thousands of option...
Abstract: Present trends in high performance computing present formidable challenges for application...
pre-printPresent trends in high performance computing present formidable challenges for applications...
Recent trends in high performance computing present larger and more diverse computers using multicor...
dissertationRecent trends in high performance computing present larger and more diverse computers us...
Abstract—The Uintah Software framework was developed to provide an environment for solving fluid-str...
pre-printAbstract-Uintah is a software framework that provides an environment for solving large-scal...
The Uintah Software framework was developed to provide an envi-ronment for solving fluid-structure i...
The Uintah Computational Framework was developed to provide an environment for solving fluid-structu...
The Uintah Computational Framework was developed to provide an environment for solving fluid-structu...
Creating a highly parallelizable code is a challenge and development for distributed memory machines...
journal articleThe Uintah Computational Framework was developed to provide an environment for solvin...
In the last decades, high-performance large-scale systems have been a fundamental tool for scientifi...
The Petascale Computing Enabling Technologies (PCET) project addressed challenges arising from curre...
With modern advancements in hardware and software technology scaling towards new limits, our compute...
International audienceExtreme scale parallel computing systems will have tens of thousands of option...
Abstract: Present trends in high performance computing present formidable challenges for application...
pre-printPresent trends in high performance computing present formidable challenges for applications...
Recent trends in high performance computing present larger and more diverse computers using multicor...
dissertationRecent trends in high performance computing present larger and more diverse computers us...
Abstract—The Uintah Software framework was developed to provide an environment for solving fluid-str...
pre-printAbstract-Uintah is a software framework that provides an environment for solving large-scal...
The Uintah Software framework was developed to provide an envi-ronment for solving fluid-structure i...
The Uintah Computational Framework was developed to provide an environment for solving fluid-structu...
The Uintah Computational Framework was developed to provide an environment for solving fluid-structu...
Creating a highly parallelizable code is a challenge and development for distributed memory machines...
journal articleThe Uintah Computational Framework was developed to provide an environment for solvin...
In the last decades, high-performance large-scale systems have been a fundamental tool for scientifi...
The Petascale Computing Enabling Technologies (PCET) project addressed challenges arising from curre...
With modern advancements in hardware and software technology scaling towards new limits, our compute...
International audienceExtreme scale parallel computing systems will have tens of thousands of option...