The problem of scheduling divisible loads in a single-level tree network is considered. All the earlier studies in divisible load scheduling consider the blocking mode of communication. In this paper, the nonblocking mode of communication is considered. Closed-form expression for the processing time in the nonblocking mode of communication is derived. Using this closed-form expression, this paper analytically proves a number of significant results on load sequencing and processor-link arrangement in a single-level tree network. It is shown that the performance measures of interest such as the processing time, idle time, and utilization of processors are better in the nonblocking mode of communication than in the blocking mode of communicati...
Closed form solutions for optimal finish time and job allocation are largely obtained only for netwo...
In this paper divisible load scheduling theory is used to examine monetary cost and energy use optim...
Applications in many scientific and engineering domains are structured in large numbers of independe...
AbstractThe problem of scheduling divisible loads in a single-level tree network is considered. All ...
Scheduling divisible loads in nonblocking mode of communication in a single-level tree network is co...
AbstractScheduling divisible loads in nonblocking mode of communication in a single-level tree netwo...
There is extensive literature concerning the divisible load theory. Based on the divisible load theo...
To date solutions for optimal finish time and job allocation in divisible load theory are largely ob...
AbstractTo date closed form solutions for optimal finish time and job allocation are largely obtaine...
The problem of obtaining optimal processing time in a distributed computing system consisting of (N+...
Many applications in scientific and engineering domains are structured as large numbers of independe...
(eng) Applications in many scientific and engineering domains are structured in large numbers of ind...
Abstract-The problem of obtaining optimal processing time in a distributed computing system consisti...
In this paper, divisible load scheduling in a linear network of processors is presented. The cases o...
The Divisible Load Theory (DLT) is a paradigm in the area of parallel and distributed computing. Ba...
Closed form solutions for optimal finish time and job allocation are largely obtained only for netwo...
In this paper divisible load scheduling theory is used to examine monetary cost and energy use optim...
Applications in many scientific and engineering domains are structured in large numbers of independe...
AbstractThe problem of scheduling divisible loads in a single-level tree network is considered. All ...
Scheduling divisible loads in nonblocking mode of communication in a single-level tree network is co...
AbstractScheduling divisible loads in nonblocking mode of communication in a single-level tree netwo...
There is extensive literature concerning the divisible load theory. Based on the divisible load theo...
To date solutions for optimal finish time and job allocation in divisible load theory are largely ob...
AbstractTo date closed form solutions for optimal finish time and job allocation are largely obtaine...
The problem of obtaining optimal processing time in a distributed computing system consisting of (N+...
Many applications in scientific and engineering domains are structured as large numbers of independe...
(eng) Applications in many scientific and engineering domains are structured in large numbers of ind...
Abstract-The problem of obtaining optimal processing time in a distributed computing system consisti...
In this paper, divisible load scheduling in a linear network of processors is presented. The cases o...
The Divisible Load Theory (DLT) is a paradigm in the area of parallel and distributed computing. Ba...
Closed form solutions for optimal finish time and job allocation are largely obtained only for netwo...
In this paper divisible load scheduling theory is used to examine monetary cost and energy use optim...
Applications in many scientific and engineering domains are structured in large numbers of independe...