This paper describes an algorithm for the scheduling of time-critical rendering and computation tasks on single- and multiple-processor architectures, with minimal pipelining. It was developed to manage scientific visualization scenes consisting of hundreds of objects, each of which can be computed and displayed at thousands of possible resolution levels. The algorithm generates the time-critical schedule using progressive-refinement techniques; it always returns a feasible schedule and, when allowed to run to completion, produces a near-optimal schedule which takes advantage of almost the entire multiple-processor system
AbstractIn the classical scheduling theory it is widely assumed that any task requires for its proce...
We consider optimal real-time scheduling of periodic tasks on multiprocessors—i.e., satisfying all t...
The emergence of high-resolution simulation, where simulation outputs have grown to terascale levels...
This paper describes an algorithm for the scheduling of time-critical rendering and computation task...
This paper describes time management and time critical computing for a near-real-time interactive un...
A new model is presented to describe dataflow algorithms implemented in a multiprocessing system. Ca...
Although real-time operating systems provide many of the task control services necessary to process ...
While traditional real-time systems analysis requires single pessimistic estimates to represent syst...
Imprecise computation and parallel processing are two techniques for avoiding timing faults and tole...
Anytime algorithms offer a tradeoff between computation time and the quality of the result returned....
114 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 1987.Increases in high speed hardw...
This PhD project is motivated by the need to develop and achieve better and energy efficient computi...
Scientists at CRS4, the Center for Advanced Studies, Research and Development in Cagliari, Sardinia,...
Many real world scientific computing problems are irregular and dynamic, which pose great challenge ...
Real-time schedulers are widely used in many safety-critical applications such as avionics, automoti...
AbstractIn the classical scheduling theory it is widely assumed that any task requires for its proce...
We consider optimal real-time scheduling of periodic tasks on multiprocessors—i.e., satisfying all t...
The emergence of high-resolution simulation, where simulation outputs have grown to terascale levels...
This paper describes an algorithm for the scheduling of time-critical rendering and computation task...
This paper describes time management and time critical computing for a near-real-time interactive un...
A new model is presented to describe dataflow algorithms implemented in a multiprocessing system. Ca...
Although real-time operating systems provide many of the task control services necessary to process ...
While traditional real-time systems analysis requires single pessimistic estimates to represent syst...
Imprecise computation and parallel processing are two techniques for avoiding timing faults and tole...
Anytime algorithms offer a tradeoff between computation time and the quality of the result returned....
114 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 1987.Increases in high speed hardw...
This PhD project is motivated by the need to develop and achieve better and energy efficient computi...
Scientists at CRS4, the Center for Advanced Studies, Research and Development in Cagliari, Sardinia,...
Many real world scientific computing problems are irregular and dynamic, which pose great challenge ...
Real-time schedulers are widely used in many safety-critical applications such as avionics, automoti...
AbstractIn the classical scheduling theory it is widely assumed that any task requires for its proce...
We consider optimal real-time scheduling of periodic tasks on multiprocessors—i.e., satisfying all t...
The emergence of high-resolution simulation, where simulation outputs have grown to terascale levels...