Partitioned Global Address Space (PGAS) models, typified by such languages as Unified Parallel C (UPC) and Co-Array Fortran, expose one-sided communication as a key building block for High Performance Computing (HPC) applications. Architectural trends in supercomputing make such programming models increasingly attractive, and newer, more sophisticated models such as UPC++, Legion and Chapel that rely upon similar communication paradigms are gaining popularity. GASNet-EX is a portable, open-source, high-performance communication library designed to efficiently support the networking requirements of PGAS runtime systems and other alternative models in future exascale machines. The library is an evolution of the popular GASNet communication s...
Significant progress has been made in the development of programming languages and tools that are su...
Technology trends suggest that future machines will rely on parallelism to meet increasing performan...
Optimized collective operations are a crucial performance factor for many scientific applications. T...
Partitioned Global Address Space (PGAS) models, typified by such languages as Unified Parallel C (UP...
Partitioned Global Address Space (PGAS) programming models, typified by systems such as Unified Para...
There is an emerging need for adaptive, lightweight communication in irregular HPC applications at e...
Partitioned Global Address Space (PGAS) Languages are an emerging alternative to MPI for ...
GASNet-EX is a portable, open-source, high-performance communication library designed to efficiently...
GASNet is a language-independent, low-level networking layer that provides network-independent, high...
Partitioned Global Address Space (PGAS) languages combine the programming convenience of shared memo...
Partitioned Global Address Space (PGAS) languages offer programmers the convenience of a shared memo...
We describe UPC++ V1.0, a C++11 library that supports APGAS programming. UPC++ targets distributed d...
PGAS languages aim to enhance productivity for large scale systems. The IBM Asynchronous PGAS runtim...
In earlier work, we showed that the one-sided communication model found in PGAS languages (such as U...
We are presenting THeGASNet, a framework to provide remote memory communication and synchronization ...
Significant progress has been made in the development of programming languages and tools that are su...
Technology trends suggest that future machines will rely on parallelism to meet increasing performan...
Optimized collective operations are a crucial performance factor for many scientific applications. T...
Partitioned Global Address Space (PGAS) models, typified by such languages as Unified Parallel C (UP...
Partitioned Global Address Space (PGAS) programming models, typified by systems such as Unified Para...
There is an emerging need for adaptive, lightweight communication in irregular HPC applications at e...
Partitioned Global Address Space (PGAS) Languages are an emerging alternative to MPI for ...
GASNet-EX is a portable, open-source, high-performance communication library designed to efficiently...
GASNet is a language-independent, low-level networking layer that provides network-independent, high...
Partitioned Global Address Space (PGAS) languages combine the programming convenience of shared memo...
Partitioned Global Address Space (PGAS) languages offer programmers the convenience of a shared memo...
We describe UPC++ V1.0, a C++11 library that supports APGAS programming. UPC++ targets distributed d...
PGAS languages aim to enhance productivity for large scale systems. The IBM Asynchronous PGAS runtim...
In earlier work, we showed that the one-sided communication model found in PGAS languages (such as U...
We are presenting THeGASNet, a framework to provide remote memory communication and synchronization ...
Significant progress has been made in the development of programming languages and tools that are su...
Technology trends suggest that future machines will rely on parallelism to meet increasing performan...
Optimized collective operations are a crucial performance factor for many scientific applications. T...