Efficient Shared Memory Message Passing for Inter-VM Communications

Diakhaté, François; Pérache, Marc; Namyst, Raymond; Jourdren, Hervé

doi:10.1007/978-3-642-00955-6_7

Cited by 22 publications

(19 citation statements)

References 7 publications

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“…Although we use the virtio driver which generally achieves about 70% of the native hardware bandwidth, the performance degradation is large (up to 16 times) when increasing the number of VMs. Many other [28], [12], [19], [5] research activities tried to address communication problems in virtualized environments but we did not find any mature and usable solution for efficient communication between VMs using loopback.…”

Section: P E R C E N T a G E I N C R E A S E I N E X E C U T I O N T mentioning

confidence: 94%

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Characterizing the Performance of Parallel Applications on Multi-socket Virtual Machines

Ibrahim

Hofmeyr

Iancu

2011

2011 11th IEEE/ACM International Symposium on Cluster, Cloud and Grid Computing

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Abstract-In this paper we characterize the behavior with respect to memory locality management of scientific computing applications running in virtualized environments. NUMA locality on current solutions (KVM and Xen) is enforced by pinning virtual machines to CPUs and providing NUMA aware allocation in hypervisors. Our analysis shows that due to two-level memory management and lack of integration with page reclamation mechanisms, applications running on warm VMs suffer from a "leakage" of page locality. Our results using MPI, UPC and OpenMP implementations of the NAS Parallel Benchmarks, running on Intel and AMD NUMA systems, indicate that applications observe an overall average performance degradation of 55% when compared to native. Runs on "cold" VMs suffer an average performance degradation of 27%, while subsequent runs are roughly 30% slower than the cold runs. We quantify the impact of locality improvement techniques designed for full virtualization environments: hypervisor level page remapping and partitioning the NUMA domains between multiple virtual machines. Our analysis shows that hypervisor only schemes have little or no potential for performance improvement. When the programming model allows it, system partitioning with proper VM and runtime support is able to re-produce native performance: in a partitioned system with one virtual machine per socket the average workload performance is 5% better than native.

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Section: P E R C E N T a G E I N C R E A S E I N E X E C U T I O N T mentioning

confidence: 94%

“…In contrast, Xen-based virtualization [4] allows sharing pages between only two VMs [28], [5], [12] using the Grant- Table and it imposes severe restrictions on the amount of memory allowed. We have also modified Xen to provide multi-VM sharing and increase the amount of memory shared.…”

Section: A Inter-vm Communication Using Shared Memorymentioning

confidence: 99%

Characterizing the Performance of Parallel Applications on Multi-socket Virtual Machines

Ibrahim

Hofmeyr

Iancu

2011

2011 11th IEEE/ACM International Symposium on Cluster, Cloud and Grid Computing

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“…This is because the abstraction of VMs supported by VMM technology does not differentiate whether the data request is coming from co-resident VMs or not. Several research projects [2][3][4][5][6][7][8][9][10][11] have demonstrated that. Linux guest domain shows lower network performance than native Linux [12], when an application running on a VM communicates with another VM.…”

Section: Introductionmentioning

confidence: 99%

“…Related work such as IVC [2], XenSocket [3], XWAY [4], XenLoop [5], MMNet [6] above Fido [7] and XenVMC [8] are on Xen platform. While all KVM-based efforts, such as VMPI [9], Socket-outsourcing [10] and Nahanni [11] In this paper, we provide an in-depth overview of the design choices and techniques for optimizing the performance of the co-resident inter-VM communication, with dual objectives. First, we describe the core design guidelines and key issues for optimizing inter-VM communication using shared memory based mechanisms.…”

Section: Introductionmentioning

confidence: 99%

Residency-Aware Virtual Machine Communication Optimization: Design Choices and Techniques

Ren

Liu

Zhang

et al. 2013

2013 IEEE Sixth International Conference on Cloud Computing

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Abstract-Network I/O workloads are dominating in many data centers and cloud computing environments today. One way to improve inter Virtual Machine (VM) communication efficiency is to support co-resident VM communication by using shared memory based approaches and to resort to the traditional TCP/IP for inter-VM communications between VMs that are located on different physical hosts. Although a number of independent efforts are dedicated to improving communication efficiency between co-resident VMs, they differ from one another in terms of how the inter-VM communication optimization is carried out and where in the software stack the shared memory channel is established. In this paper, we provide an in-depth overview of the design choices and techniques for optimizing the performance of the co-resident inter-VM communication, with dual objectives. First, we describe the core design guidelines and key issues for optimizing inter-VM communication by using shared memory based mechanisms. Typical issues include choices of implementation layer in the software stack, seamless agility for VM live migration and VM dynamic deployment support, multilevel transparency. Second, we conduct a comprehensive analysis of representative state-of-the-art research efforts and implementation techniques based on the core design guidelines. We also give an analysis of future requirements in advanced features such as reliability, security and stability. The research reported in this paper not only provides the reference for developing the next generation of inter-VM communication optimization mechanisms, but also offers opportunities for both cloud infrastructure providers and cloud service consumers to improve inter-VM communication efficiency in virtualized platforms.

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“…Unfortunately, in the cloud context, I/O-intensive applications suffer from poor performance [22,33,40], due to various intermediate layers that abstract away the physical characteristics of the underlying hardware and multiplex the application's access to I/O resources. This limitation is one of the most important reasons that HPC applications are not widely deployed in virtualized environments [35].Numerous studies both in native [8,16] and virtualized environments [5,6,18,20,22,23,24,25,26,40] explore the implications of alternative data-paths that increase the system's I/O throughput, helping applications overcome significant bottlenecks in data retrieval from storage or network devices. However, near-native I/O performance for Virtual Machines (VMs) in a generic cloud environment, built from offthe-shelf components, is still far from being achieved.…”

mentioning

confidence: 99%