This paper describes an implementation of the proposed MPI-IO standard for parallel I/O. Our system uses third-party transfer to move data over an external network between the processors where it is used and the I/O devices where it resides. Data travels directly from source to destination, without the need for shuffling it among processors or funneling it through a central node. Our distributed server model lets multiple compute nodes share the burden of coordinating data transfers. The system is built on the High Performance Storage System (HPSS), and a prototype version runs on a Meiko CS-2 parallel computer
High performance scientific applications are frequently multiphysics codes composed from single-phys...
The Message Passing Interface (MPI) has been extremely successful as a portable way to program high...
MPI (Message Passing Interface) is a proposed message passing standard for development of efficient ...
This paper describes an implementation of the proposed MPI-IO (Message Passing Interface - Input/Out...
Datasets up to terabyte size and petabyte capacities have created a serious imbalance between I/O an...
Parallel IO (PIO) support for larger scale computing is becoming more important as application deve...
The purpose of this report is to investigate parallel I/O on HPCx, to compare its performance with s...
We discuss the issues involved in implementing MPI-IO portably on multiple machines and file systems...
The MPI-IO standard creates a huge opportunity to break out of the traditional file system I/O metho...
We discuss the issues involved in implementing MPI-IO portably on multiple machines and file systems...
MPI-IO/GPFS is a prototype implementation of the I/O chapter of the Message Passing Interface (MPI) ...
. We present ViMPIOS, a novel MPI-IO implementation based on ViPIOS, the Vienna Parallel Input Outp...
This paper describes the experiences of porting a scientific application to the hybrid MPI/STARSS pa...
The Message-Passing Interface (MPI) is a widely-used standard library for programming parallel appli...
The Message Passing Interface (MPI) is one of the most portable high-performance computing (HPC) pro...
High performance scientific applications are frequently multiphysics codes composed from single-phys...
The Message Passing Interface (MPI) has been extremely successful as a portable way to program high...
MPI (Message Passing Interface) is a proposed message passing standard for development of efficient ...
This paper describes an implementation of the proposed MPI-IO (Message Passing Interface - Input/Out...
Datasets up to terabyte size and petabyte capacities have created a serious imbalance between I/O an...
Parallel IO (PIO) support for larger scale computing is becoming more important as application deve...
The purpose of this report is to investigate parallel I/O on HPCx, to compare its performance with s...
We discuss the issues involved in implementing MPI-IO portably on multiple machines and file systems...
The MPI-IO standard creates a huge opportunity to break out of the traditional file system I/O metho...
We discuss the issues involved in implementing MPI-IO portably on multiple machines and file systems...
MPI-IO/GPFS is a prototype implementation of the I/O chapter of the Message Passing Interface (MPI) ...
. We present ViMPIOS, a novel MPI-IO implementation based on ViPIOS, the Vienna Parallel Input Outp...
This paper describes the experiences of porting a scientific application to the hybrid MPI/STARSS pa...
The Message-Passing Interface (MPI) is a widely-used standard library for programming parallel appli...
The Message Passing Interface (MPI) is one of the most portable high-performance computing (HPC) pro...
High performance scientific applications are frequently multiphysics codes composed from single-phys...
The Message Passing Interface (MPI) has been extremely successful as a portable way to program high...
MPI (Message Passing Interface) is a proposed message passing standard for development of efficient ...