Memory-centric scheduling attempts to guarantee temporal predictability on commercial-off-the-shelf (COTS) multiprocessor systems to exploit their high performance for real-time applications. Several solutions proposed in the real-time literature have hardware requirements that are not easily satisfied by modern COTS platforms, like hardware support for strict memory partitioning or the presence of scratchpads. However, even without said hardware support, it is possible to design an efficient memory-centric scheduler. In this article, we design, implement, and analyze a memory-centric scheduler for deterministic memory management on COTS multiprocessor platforms without any hardware support. Our approach uses fixed-priority scheduling and p...
Known algorithms capable of scheduling implicit-deadline sporadic tasks over identical processors at...
Preemptive schedulers have been widely adopted in single processor real-time systems to avoid the bl...
During the past decades of research in Real-Time systems, non-preemptive scheduling and fully preemp...
Memory-centric scheduling attempts to guarantee temporal predictability on commercial-off-the-shelf ...
International audienceCommercial-off-the-shelf (COTS) platforms feature several cores that share and...
The demands for high performance computing with a low cost and low power consumption are driving a t...
International audienceReal-time embedded systems are increasingly being built using commercial-off-t...
The demands for high performance computing with a low cost and low power consumption are driving a t...
A major obstacle towards the adoption of multi-core platforms for real-time systems is given by the ...
While multiprocessor platforms have been widely adopted by the embedded systems industry in the past...
Traditional multiprocessor real-time scheduling partitions a task set and applies uniprocessor sched...
This thesis presents slot scheduling, a approach to general-purpose CPU scheduling for multiprocesso...
AbstractIn Dynamic Data-Driven Application Systems, applications must dynamically adapt their behavi...
This chapter presents main results for partitioned and global scheduling of multiprocessor systems. ...
Many applications require both high performance and predictable timing. High-performance can be prov...
Known algorithms capable of scheduling implicit-deadline sporadic tasks over identical processors at...
Preemptive schedulers have been widely adopted in single processor real-time systems to avoid the bl...
During the past decades of research in Real-Time systems, non-preemptive scheduling and fully preemp...
Memory-centric scheduling attempts to guarantee temporal predictability on commercial-off-the-shelf ...
International audienceCommercial-off-the-shelf (COTS) platforms feature several cores that share and...
The demands for high performance computing with a low cost and low power consumption are driving a t...
International audienceReal-time embedded systems are increasingly being built using commercial-off-t...
The demands for high performance computing with a low cost and low power consumption are driving a t...
A major obstacle towards the adoption of multi-core platforms for real-time systems is given by the ...
While multiprocessor platforms have been widely adopted by the embedded systems industry in the past...
Traditional multiprocessor real-time scheduling partitions a task set and applies uniprocessor sched...
This thesis presents slot scheduling, a approach to general-purpose CPU scheduling for multiprocesso...
AbstractIn Dynamic Data-Driven Application Systems, applications must dynamically adapt their behavi...
This chapter presents main results for partitioned and global scheduling of multiprocessor systems. ...
Many applications require both high performance and predictable timing. High-performance can be prov...
Known algorithms capable of scheduling implicit-deadline sporadic tasks over identical processors at...
Preemptive schedulers have been widely adopted in single processor real-time systems to avoid the bl...
During the past decades of research in Real-Time systems, non-preemptive scheduling and fully preemp...