A key issue confronting petascale and exascale computing is the growth in probability of soft and hard faults with increasing system size. A promising approach to this problem is the use of algorithms that are inherently fault tolerant. We introduce suc
Abstract- In grid computing, resources are used outside the boundary of organizations and it becomes...
With the proliferation of parallel and distributed systems, it is an increasingly important problem ...
ELLIOTT III, JAMES JOHN. Resilient Iterative Linear Solvers Running Through Errors. (Under the direc...
AbstractA key issue confronting petascale and exascale computing is the growth in probability of sof...
A key issue confronting petascale and exascale computing is the growth in probability of soft and ha...
One of the challenges for efficiently and effectively using petascale and exascale computers is the ...
One of the challenges for efficiently and effectively using petascale and exascale computers is the ...
This paper continues to develop a fault tolerant extension of the sparse grid combination technique ...
This paper continues to develop a fault tolerant extension of the sparse grid combination technique ...
Abstract — Grid computing is a means of allocating the computational power of a large number of comp...
Ultra-large–scale simulations via solving partial differential equations (PDEs) require very large c...
Soft errors are increasing in modern computer systems. These faults can corrupt the results of nume...
International Journal of Grid Computing & Applications (IJGCA) ISSN : 0976-9404 [Online]; 2229-3949 ...
In this paper we will discuss some approaches to fault-tolerance for solving partial differential eq...
Failure in long running grid applications is arguably in- evitable and costly. Therefore, fault tole...
Abstract- In grid computing, resources are used outside the boundary of organizations and it becomes...
With the proliferation of parallel and distributed systems, it is an increasingly important problem ...
ELLIOTT III, JAMES JOHN. Resilient Iterative Linear Solvers Running Through Errors. (Under the direc...
AbstractA key issue confronting petascale and exascale computing is the growth in probability of sof...
A key issue confronting petascale and exascale computing is the growth in probability of soft and ha...
One of the challenges for efficiently and effectively using petascale and exascale computers is the ...
One of the challenges for efficiently and effectively using petascale and exascale computers is the ...
This paper continues to develop a fault tolerant extension of the sparse grid combination technique ...
This paper continues to develop a fault tolerant extension of the sparse grid combination technique ...
Abstract — Grid computing is a means of allocating the computational power of a large number of comp...
Ultra-large–scale simulations via solving partial differential equations (PDEs) require very large c...
Soft errors are increasing in modern computer systems. These faults can corrupt the results of nume...
International Journal of Grid Computing & Applications (IJGCA) ISSN : 0976-9404 [Online]; 2229-3949 ...
In this paper we will discuss some approaches to fault-tolerance for solving partial differential eq...
Failure in long running grid applications is arguably in- evitable and costly. Therefore, fault tole...
Abstract- In grid computing, resources are used outside the boundary of organizations and it becomes...
With the proliferation of parallel and distributed systems, it is an increasingly important problem ...
ELLIOTT III, JAMES JOHN. Resilient Iterative Linear Solvers Running Through Errors. (Under the direc...