This paper examines the applications most commonly run on the supercomputers at the Numerical Aerospace Simulation (NAS) facility. It analyzes the extent to which such applications are fundamentally oriented to vector computers, and whether or not they can be efficiently implemented on hierarchical memory machines, such as systems with cache memories and highly parallel, distributed memory systems
Since the first vector supercomputers in the mid-1970’s, the largest scale applications have traditi...
One or the key objectives of the Applied Research Branch in the Numerical Aerodynamic Simulation (NA...
We present Vortex Methods implemented in massively parallel computer architectures for the Direct Nu...
This paper examines the applications most commonly run on the supercomputers at the Numerical Aerosp...
The Numerical Aerodynamic Simulation (NAS) Program, which is based at NASA Ames Research Center, is ...
The growing gap between sustained and peak performance for scientific applications has become a well...
The growing gap between sustained and peak performance for scientific applications has become a well...
https://doi.org/10.21949/14040091996PDFResearch PaperReport NAS-96-004Computer algorithmsComputer ar...
The growing gap between sustained and peak performance for scientific applications is a well-known ...
The history of the Numerical Aerodynamic Simulation Program, which is designed to provide a leading-...
The growing gap between sustained and peak performance for scientific applications is a well-known p...
A new set of benchmarks was developed for the performance evaluation of highly parallel supercompute...
In 1993, members of our team collaborated with Silicon Graphics to perform the first full-scale demo...
The Numerical Aerodynamic Simulation (NAS) program has reached a milestone with the completion of th...
The goal of the Numerical Aerodynamic Simulation (NAS) Program is to provide a powerful computationa...
Since the first vector supercomputers in the mid-1970’s, the largest scale applications have traditi...
One or the key objectives of the Applied Research Branch in the Numerical Aerodynamic Simulation (NA...
We present Vortex Methods implemented in massively parallel computer architectures for the Direct Nu...
This paper examines the applications most commonly run on the supercomputers at the Numerical Aerosp...
The Numerical Aerodynamic Simulation (NAS) Program, which is based at NASA Ames Research Center, is ...
The growing gap between sustained and peak performance for scientific applications has become a well...
The growing gap between sustained and peak performance for scientific applications has become a well...
https://doi.org/10.21949/14040091996PDFResearch PaperReport NAS-96-004Computer algorithmsComputer ar...
The growing gap between sustained and peak performance for scientific applications is a well-known ...
The history of the Numerical Aerodynamic Simulation Program, which is designed to provide a leading-...
The growing gap between sustained and peak performance for scientific applications is a well-known p...
A new set of benchmarks was developed for the performance evaluation of highly parallel supercompute...
In 1993, members of our team collaborated with Silicon Graphics to perform the first full-scale demo...
The Numerical Aerodynamic Simulation (NAS) program has reached a milestone with the completion of th...
The goal of the Numerical Aerodynamic Simulation (NAS) Program is to provide a powerful computationa...
Since the first vector supercomputers in the mid-1970’s, the largest scale applications have traditi...
One or the key objectives of the Applied Research Branch in the Numerical Aerodynamic Simulation (NA...
We present Vortex Methods implemented in massively parallel computer architectures for the Direct Nu...