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 such an algorithm for the solution of partial differential equations, based on the sparse grid approach. Here, the solution of multiple component grids are efficiently combined to achieve a solution on a full grid. The technique also lends itself to a (modified) MapReduce framework on a cluster of processors, with the map stage corresponding to allocating each component grid for solution over a subset of the processors, and the reduce stage corresponding to their combination. We describe how the...
Many large scale scientific simulations involve the time evolution of systems modelled as Partial Di...
Solving a large and sparse system of linear equations is a ubiquitous problem in scientific computin...
Large scale simulations are used in a variety of application areas in science and engineering to hel...
AbstractA key issue confronting petascale and exascale computing is the growth in probability of sof...
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 ...
A key issue confronting petascale and exascale computing is the growth in probability of soft and ha...
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 ...
Many petascale and exascale scientific simulations involve the time evolution of systems modelled as...
In this paper we will discuss some approaches to fault-tolerance for solving partial differential eq...
The data volume of Partial Differential Equation (PDE) based ultra-large-scale scientific simul...
Ultra-large–scale simulations via solving partial differential equations (PDEs) require very large c...
In previous works, approaches for fault tolerant computation of PDEs were described which utilise fl...
Many petascale and exascale scientific simulations involve the time evolution of systems modelled as...
Many large scale scientific simulations involve the time evolution of systems modelled as Partial Di...
Solving a large and sparse system of linear equations is a ubiquitous problem in scientific computin...
Large scale simulations are used in a variety of application areas in science and engineering to hel...
AbstractA key issue confronting petascale and exascale computing is the growth in probability of sof...
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 ...
A key issue confronting petascale and exascale computing is the growth in probability of soft and ha...
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 ...
Many petascale and exascale scientific simulations involve the time evolution of systems modelled as...
In this paper we will discuss some approaches to fault-tolerance for solving partial differential eq...
The data volume of Partial Differential Equation (PDE) based ultra-large-scale scientific simul...
Ultra-large–scale simulations via solving partial differential equations (PDEs) require very large c...
In previous works, approaches for fault tolerant computation of PDEs were described which utilise fl...
Many petascale and exascale scientific simulations involve the time evolution of systems modelled as...
Many large scale scientific simulations involve the time evolution of systems modelled as Partial Di...
Solving a large and sparse system of linear equations is a ubiquitous problem in scientific computin...
Large scale simulations are used in a variety of application areas in science and engineering to hel...