A Cloud Controller for Performance-Based Pricing

Lucanin, Draen; Pietri, Ilia; Brandić, Ivona; Sakellariou, Rizos

doi:10.1109/cloud.2015.30

Cited by 13 publications

(11 citation statements)

References 130 publications

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“…Furthermore, an experimental study is conducted to investigate the effect of placement decisions, when several VMs are placed on same core/host or neighbouring hosts. In [25], the authors investigated several scheduling policies combined with a consolidation technique to reduce the energy cost which is based on VMs performance level. The authors proposed a performance-based pricing model to increase service revenue and decrease the system energy consumption that can be up to 32%.…”

Section: Related Workmentioning

confidence: 99%

“…It is necessary to quantitatively determine the balance between energy savings and workload performance to find the optimal number of VM migrations. Current work has explored the hardware heterogeneity and performance variation of different instance classes, however, the effect of scheduling techniques and VM migrations is not addressed, when different applications are taken into account -and with the notable exception of [24], [25], [26], this is rarely addressed.…”

Section: Related Workmentioning

confidence: 99%

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Managing energy, performance and cost in large scale heterogeneous datacenters using migrations

Zakarya

Gillam

2019

Future Generation Computer Systems

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Section: Related Workmentioning

confidence: 99%

Section: Related Workmentioning

confidence: 99%

Managing energy, performance and cost in large scale heterogeneous datacenters using migrations

Zakarya

Gillam

2019

Future Generation Computer Systems

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“…Meanwhile, since user requests are becoming necessary while providing service, some research has focused on user-demanddriven resource allocation [26], [27], [28]. Later, the costoptimized and performance-based schemes are combined to allow a resource provider to achieve a win-win objective in which resource provider obtains the maximum profit while the user receives the best experience [29], [13], [30], [31].…”

Section: Related Workmentioning

confidence: 99%

Allocating Limited Resources to Protect a Massive Number of Targets Using a Game Theoretic Model

Liu

et al. 2019

Mathematical Problems in Engineering

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Resource allocation is the process of optimizing the rare resources. In the area of security, how to allocate limited resources to protect a massive number of targets is especially challenging. This paper addresses this resource allocation issue by constructing a game theoretic model. A defender and an attacker are players and the interaction is formulated as a tradeoff between protecting targets and consuming resources. The action cost which is a necessary role of consuming resource, is considered in the proposed model. Additionally, a bounded rational behavior model (Quantal Response, QR), which simulates a human attacker of the adversarial nature, is introduced to improve the proposed model. To validate the proposed model, we compare the different utility functions and resource allocation strategies. The comparison results suggest that the proposed resource allocation strategy performs better than others in the perspective of utility and resource effectiveness.

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“…The second strategy, a complement to the first strategy, reduces the monetary costs of non-critical tasks. This algorithm shows that we can reduce monetary costs while producing a good makespan like [17] does, but without using the DVFS technique.…”

Section: Related Workmentioning

confidence: 99%

“…In [17] the authors propose a cloud controller for performancebase pricing; the cloud controller is in charge of determining actions to allocate and manage the VMs, taking into account CPU frequency scaling, pricing and geo-temporal inputs such as real-time electricity prices [18] and temperature-dependent cooling [19], the problem is balancing the trade-off between energy savings and revenue loss for performing actions by scaling CPU frequency, for creating and migrate, suspend or resume VMs that have to pay a high cost in energy. The proposed controller can determine the optimal CPU frequency between energy savings and workload performance, and can reevaluate control actions at run-time when considering geo-temporal inputs, electricity prices, and temperatures.…”

Section: Related Workmentioning

confidence: 99%

Dynamic energy-aware scheduling for parallel task-based application in cloud computing

Juarez

Ejarque

Badía

2018

Future Generation Computer Systems

180

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h i g h l i g h t s• Energy-aware run-time scheduler for task-based applications.• Model for estimating the application Energy consumption.• Methodology to automatically generate the required power consumption profile.• Multi-heuristic resource allocation algorithm to get solutions in polynomial time.• Energy saving/performance trade-off evaluation for different scenarios. a r t i c l e i n f o b s t r a c tGreen Computing is a recent trend in computer science, which tries to reduce the energy consumption and carbon footprint produced by computers on distributed platforms such as clusters, grids, and clouds. Traditional scheduling solutions attempt to minimize processing times without taking into account the energetic cost. One of the methods for reducing energy consumption is providing scheduling policies in order to allocate tasks on specific resources that impact over the processing times and energy consumption. In this paper, we propose a real-time dynamic scheduling system to execute efficiently taskbased applications on distributed computing platforms in order to minimize the energy consumption. Scheduling tasks on multiprocessors is a well known NP-hard problem and optimal solution of these problems is not feasible, we present a polynomial-time algorithm that combines a set of heuristic rules and a resource allocation technique in order to get good solutions on an affordable time scale. The proposed algorithm minimizes a multi-objective function which combines the energy-consumption and execution time according to the energy-performance importance factor provided by the resource provider or user, also taking into account sequence-dependent setup times between tasks, setup times and down times for virtual machines (VM) and energy profiles for different architectures. A prototype implementation of the scheduler has been tested with different kinds of DAG generated at random as well as on real task-based COMPSs applications. We have tested the system with different size instances and importance factors, and we have evaluated which combination provides a better solution and energy savings. Moreover, we have also evaluated the introduced overhead by measuring the time for getting the scheduling solutions for a different number of tasks, kinds of DAG, and resources, concluding that our method is suitable for run-time scheduling.

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A Cloud Controller for Performance-Based Pricing

Cited by 13 publications

References 130 publications

Managing energy, performance and cost in large scale heterogeneous datacenters using migrations

Managing energy, performance and cost in large scale heterogeneous datacenters using migrations

Allocating Limited Resources to Protect a Massive Number of Targets Using a Game Theoretic Model

Dynamic energy-aware scheduling for parallel task-based application in cloud computing

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