This paper proposes a dynamic scheduler that supports the coexistence of guaranteed and non-guaranteed bandwidth servers to efficiently handle soft-tasks’ overloads by making additional capacity available from two sources: (i) residual capacity allocated but unused when jobs complete in less than their budgeted execution time; (ii) stealing capacity from inactive non-isolated servers used to schedule best-effort jobs. The effectiveness of the proposed approach in reducing the mean tardiness of periodic jobs is demonstrated through extensive simulations. The achieved results become even more significant when tasks’ computation times have a large variance
The proliferation of diverse Internet applications has resulted in the advent of Internet data cente...
The main goal of this paper is to derive an approximate, closed-form solution for the decentralized,...
Often hard real-time systems require results that are produced on time despite the occurrence of pro...
This paper proposes a dynamic scheduler that supports the coexistence of guaranteed and non-guarante...
A dynamic scheduler that supports the coexistence of guaranteed and non-guaranteed bandwidth servers...
This paper proposes a new strategy to integrate shared resources and precedence constraints among re...
Developing an efficient server-based real-time scheduling solution that supports dynamic task-level ...
The Bandwidth Sharing Server (BSS) is a schedul-ing strategy for multi-task real-time applications t...
Multicore platforms have transformed parallelism into a main concern. Parallel programming models a...
As real-time embedded systems get more diverse and more complicated, systems with different types of...
Developing an efficient server-based real-time scheduling solution that supports dynamic task-level ...
When hard periodic and firm aperiodic tasks are jointly scheduled in the same system, the processor ...
Abstract—In open real-time systems with a non-stationary workload, tasks can be dynamically mapped t...
A new load sharing method with state-change broadcasts (LSMSCB) is proposed to schedule aperiodic ta...
In this paper, we explore the performance tradeoffs for real-time systems with Dynamic Voltage Scali...
The proliferation of diverse Internet applications has resulted in the advent of Internet data cente...
The main goal of this paper is to derive an approximate, closed-form solution for the decentralized,...
Often hard real-time systems require results that are produced on time despite the occurrence of pro...
This paper proposes a dynamic scheduler that supports the coexistence of guaranteed and non-guarante...
A dynamic scheduler that supports the coexistence of guaranteed and non-guaranteed bandwidth servers...
This paper proposes a new strategy to integrate shared resources and precedence constraints among re...
Developing an efficient server-based real-time scheduling solution that supports dynamic task-level ...
The Bandwidth Sharing Server (BSS) is a schedul-ing strategy for multi-task real-time applications t...
Multicore platforms have transformed parallelism into a main concern. Parallel programming models a...
As real-time embedded systems get more diverse and more complicated, systems with different types of...
Developing an efficient server-based real-time scheduling solution that supports dynamic task-level ...
When hard periodic and firm aperiodic tasks are jointly scheduled in the same system, the processor ...
Abstract—In open real-time systems with a non-stationary workload, tasks can be dynamically mapped t...
A new load sharing method with state-change broadcasts (LSMSCB) is proposed to schedule aperiodic ta...
In this paper, we explore the performance tradeoffs for real-time systems with Dynamic Voltage Scali...
The proliferation of diverse Internet applications has resulted in the advent of Internet data cente...
The main goal of this paper is to derive an approximate, closed-form solution for the decentralized,...
Often hard real-time systems require results that are produced on time despite the occurrence of pro...