A hierarchical multiprocessor bandwidth reservation scheme with timing guarantees

Leontyev, Hennadiy; Anderson, James H.

doi:10.1007/s11241-009-9076-7

Cited by 36 publications

(34 citation statements)

References 19 publications

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“…It was shown in [22] that bandwidth reservations, or containers, may be used to support soft real-time guarantees in multiprocessor systems. In a container-based system, a task set is organized into a hierarchical collection of containers.…”

Section: Container Methodsmentioning

confidence: 99%

“…Containers provide temporal isolation by hierarchically allocating execution time to contained tasks and containers. If each container schedules its contained tasks and containers using a window-constrained scheduling algorithm, 5 such as the G-EDF, then bounded tardiness can be ensured with no utilization loss [22]. The CM exploits both this and the ability to apply different schedulers to subsets of jobs.…”

Section: Container Methodsmentioning

confidence: 99%

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Globally scheduled real-time multiprocessor systems with GPUs

Elliott

Anderson

2011

Real-Time Syst

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Graphics processing units, GPUs, are powerful processors that can offer significant performance advantages over traditional CPUs. The last decade has seen rapid advancement in GPU computational power and generality. Recent technologies make it possible to use GPUs as co-processors to the CPU. The performance advantages of GPUs can be great, often outperforming traditional CPUs by orders of magnitude. While the motivations for developing systems with GPUs are clear, little research in the real-time systems field has been done to integrate GPUs into real-time multiprocessor systems. We present two real-time analysis methods, addressing realworld platform constraints, for such an integration into a soft real-time multiprocessor system and show that a GPU can be exploited to achieve greater levels of total system performance.

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Section: Container Methodsmentioning

confidence: 99%

Section: Container Methodsmentioning

confidence: 99%

Globally scheduled real-time multiprocessor systems with GPUs

Elliott

Anderson

2011

Real-Time Syst

Self Cite

View full text Add to dashboard Cite

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“…This section illustrates three of them (Leontyev and Anderson 2008;Shin et al 2008;Bini et al 2009). The interfaces are ordered by their increasing complexity and, consequently, by increasing accuracy of the guarantee test for applications running over the interface.…”

Section: Background On Multiprocessor Interfacesmentioning

confidence: 99%

“…The interfaces are ordered by their increasing complexity and, consequently, by increasing accuracy of the guarantee test for applications running over the interface. Leontyev and Anderson (2008) proposed to use only the overall bandwidth requirement w (using their original notation) as an interface for soft real-time tasks. Being Π Fig.…”

Section: Background On Multiprocessor Interfacesmentioning

confidence: 99%

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Compositional multiprocessor scheduling: the GMPR interface

2014

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Composition is a practice of key importance in software engineering. When real-time applications are composed, it is necessary that their timing properties (such as meeting the deadlines) are guaranteed. The composition is performed by establishing an interface between the application and the physical platform. Such an interface typically contains information about the amount of computing capacity needed by the application. For multiprocessor platforms, the interface should also present information about the degree of parallelism. Several interface proposals have recently been put forward in various research works. However, those interfaces are either too complex to be handled or too pessimistic. In this paper we propose the generalized multiprocessor periodic resource model (GMPR) that is strictly superior to the MPR model without requiring a too detailed description. We then derive a method to compute the interface from the application specification. This method has been implemented in Matlab routines that are publicly available.

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An energy‐aware resource provisioning scheme for real‐time applications in a cloud data center

et al. 2018

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Based on a pay-as-you-go model, cloud computing provides the possibility of hosting pervasive applications from both academic and business domains.However, data centers hosting cloud applications consume huge amounts of electrical energy, contributing to high operational costs and large carbon footprints to the environment. Energy-aware resource provisioning is an effective solution to diminish the energy consumption of cloud data centers. Recently, a growing trend has emerged, where cloud technology is used to run periodic real-time applications such as multimedia, telecommunication, video gaming, and industrial applications. In order for a real-time application to be able to use cloud services, cloud providers have to be able to provide timing guarantees. In this paper, we introduce an energy-aware resource provisioning mechanism for cloud data centers, which are capable of serving real-time periodic tasks following the Software as a Service model. The proposed method is compared against an energy-aware version of the RT-OpenStack. RT-OpenStack is a recently proposed approach to provide a time-predictable version of OpenStack. The experimental results manifest that our proposed resource provisioning method outperforms energy-aware version of the RT-OpenStack by 16.01%, 25.45%, and 25.45% in terms of energy consumption, number of used servers, and average utilization of used servers, respectively. Moreover, from the scalability perspective, the preference of the proposed method for large-scale data centers is more considerable.

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A hierarchical multiprocessor bandwidth reservation scheme with timing guarantees

Cited by 36 publications

References 19 publications

Globally scheduled real-time multiprocessor systems with GPUs

Globally scheduled real-time multiprocessor systems with GPUs

Compositional multiprocessor scheduling: the GMPR interface

An energy‐aware resource provisioning scheme for real‐time applications in a cloud data center

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