Caglar, FarukShekhar, ShashankGokhale, AniruddhaCucinotta, TommasoPautet, LaurentGarcía Valls, Marisol2014-11-132014-11-132011-11García Valls, M. et al. (eds.) (2014). 3rd IEEE International Workshop on Real-time and distributed computing in emerging applications. (Co-located with 35th IEEE RTSS). Rome, Italy. December 2nd, 2014. Universidad Carlos III de Madrid, 15-20.978-84-697-1736-3https://hdl.handle.net/10016/19687REACTION 2014. 3rd International Workshop on Real-time and Distributed Computing in Emerging Applications. Rome, Italy. December 2nd, 2014.It is standard practice for cloud service providers (CSPs) to overbook physical system resources to maximize the resource utilization and make their business model more profitable. Resource overbooking can lead to performance interference, however, among the virtual machines (VMs) hosted on the physical resources causing performance un-predictability for soft real-time applications hosted in the VMs, which is unacceptable to these applications. Balancing these conflicting requirements needs a careful design of the placement strategies for hosting soft real-time applications such that the performance interference effects are minimized while still allowing resource overbooking. These placement decisions cannot be made offline because workloads change at run time. Moreover, satisfying the priorities of collocated VMs may require VM migrations, which require an online solution. This paper presents a machine learning-based, online placement solution to this problem where the system is trained using a publicly available trace of a large data center owned by Google. Our approach first classifies the VMs based on their historic mean CPU and memory usage, and performance features. Subsequently, it learns the best patterns of collocating the classified VMs by employing machine learning techniques. These extracted patterns are those that provide the lowest performance interference level on the specified host machines making them amenable to hosting soft real-time applications while still allowing resource overbooking.6application/pdfeng© Copyright by the AuthorsAtribución-NoComercial-SinDerivadas 3.0 EspañaSistemas en tiempo realSistemas distribuidoscloud computingdistributed systemsReal-time computingVirtual machine placementPerformance interferenceResource overbookingApplication QoSconference proceedingsTelecomunicacionesopen access1520International Workshop on Real-Time and Distributed Computing in Emerging Applications (REACTION 2014)