Utopia: A load sharing facility for large, heterogeneous distributed computer systems

This paper proposes the InstantGrid framework for on-demand construction of grid points. The framework comprises the following components: (1) a centralized model of software management using an application-centric software grouping scheme; (2) proactive configuration of grid middleware, which shortens the time in composing and switching between execution environments; (3) performance optimization techniques using I/O caching and discriminative file sharing mechanisms; and (4) an in-memory execution mode that enables a machine to participate in grid without affecting the OS/data stored in the permanent storage. Compared with traditional approaches, this new framework is designed to substantially simplify software management in grid systems, and is capable to instantly turn any computer (be it a cluster node or a desktop PC) into a grid-ready platform with the desired execution environment. The advanced features also facilitate ad-hoc formation of grid platforms in computers having idle resources. We describe a reference implementation of InstantGrid for constructing Linux-based grid points. Experimental results demonstrate that a 256-node grid point with commodity grid middleware can be constructed in 5 minutes from scratch.

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“…Job schedulers (e.g., [3], [20], [21], etc.) have been a widely adopted approach to aggregate and share distributed resources.…”

Section: Related Workmentioning

confidence: 99%

InstantGrid: A Framework for On-Demand Grid Point Construction

Yin

Lee

et al. 2004

Lecture Notes in Computer Science

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“…However, their aim is to reach the net maximum e ciency, rather than o ering a speci®c support for parallel programming, which is possible, but not privileged. It is worth mentioning UTOPIA [12] as well, a load sharing facility implemented on top of Unix for very large and heterogeneous systems. As well as LSF it is a general purpose user transparent system, which supports remote execution only at job initiation time.…”

Section: Related Workmentioning

confidence: 99%

“…As discussed in [12], three kinds of heterogeneity can be considered, that is: · Con®guration: hosts have the same architecture but di erent con®guration, · Architectural: executable ®les cannot be exchanged, and · Operating System heterogeneity.…”

Section: Pinco Architecturementioning

confidence: 99%

Efficient use of parallel libraries on heterogeneous Networks of Workstations

Clematis

Dodero²,

Gianuzzi³

2000

Journal of Systems Architecture

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“…Desktop grid applications such as Platform LSF (Zhou, 1992) The practice of CSP-based simulation can widely benefit from Grid computing (Taylor et al, 2004;Mustafee, 2007). By means of two case studies, done in conjunction with a major automobile manufacturing company (the Ford Motor Company) and a leading European investment bank respectively, we investigate how a desktop grid implemented with our system WinGrid can increase the performance of both discrete event and Monte Carlo simulation experimentation.…”

Section: Introductionmentioning

confidence: 99%

“…Internet computing seeks to provide resource virtualization through aggregation of idle CPU cycles of the PCs connected over the Internet and the Local Area Network (LAN). When this form of computing is confined to an enterprise and the purpose of resource virtualization is to support the execution of enterprises' applications then we use the term enterprise desktop grids (Chien et al, 2003).Desktop grid applications such as Platform LSF (Zhou, 1992) The practice of CSP-based simulation can widely benefit from Grid computing (Taylor et al, 2004;Mustafee, 2007). By means of two case studies, done in conjunction with a major automobile manufacturing company (the Ford Motor Company) and a leading European investment bank respectively, we investigate how a desktop grid implemented with our system WinGrid can increase the performance of both discrete event and Monte Carlo simulation experimentation.…”

mentioning

confidence: 99%

Speeding up simulation applications using WinGrid

Mustafee

Taylor

2009

Concurrency and Computation

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Abstract. The vision of grid computing is to make computational power, storage capacity, data and applications available to users as readily as electricity and other utilities. Grid infrastructures and applications have traditionally been geared towards dedicated, centralized, high performance clusters running on UNIX "flavour" operating systems (commonly referred to as cluster-based grid computing). This can be contrasted with desktopbased grid computing which refers to the aggregation of non-dedicated, de-centralized, commodity PCs connected through a network and running (mostly) the Microsoft Windows operating system. Large scale adoption of such Windows-based grid infrastructure may be facilitated via grid-enabling existing Windows applications. This paper presents the WinGrid approach to grid enabling existing Windows-based Commercial-Off-The-Shelf (COTS) simulation packages (CSPs). Through the use of two case studies developed in conjunction with a major automotive company and a leading investment bank respectively, the contribution of this paper is the demonstration of how experimentation with the CSP Witness (Lanner Group) and the CSP Analytics (SunGard Corporation) can achieve speedup when using WinGrid middleware on both dedicated and non-dedicated grid nodes. It is hoped that this research would facilitate wider acceptance of desktop grid computing among enterprises interested in a low-intervention technological solution to speeding up their existing simulations.Keywords. Grid computing, desktop grids, grid middleware, commercial-off-the-shelf simulation packages, discrete-event simulation, Monte Carlo simulation. IntroductionGrids are sharing environments implemented via the deployment of a persistent, standardsbased service infrastructure that supports the creation of distributed communities and sharing of resources like computers, storage space, sensors, software applications and data between them (Foster and Iamnitchi, 2003). These distributed communities, frequently referred to as virtual organizations, or virtual enterprises, comprise of a group of individuals and/or institutions engaged in some joint work who share resources based on strict sharing policies that define what is shared, who is allowed to share and the conditions under which such sharing occurs (Foster et al., 2002).Computer simulation has the potential to benefit from sharing access to computing resources, storage capacities and research equipments provided by grid computing. Examples of large scale grid-based simulation projects include the Earth Grid System (Bernholdt et al., 2005) and NEESgrid (Spencer et al., 2004). The creation of such applications typically requires the installation of complex supporting software (like Globus) and an in-depth knowledge of how this complex supporting software works (Jaesun et al., 2003).The exponential growth of global computer ownership, local networks and Internet connectivity, coupled with the fact that desktop PCs in corporate and home environments are heavily under utilized, has given r...

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Utopia: A load sharing facility for large, heterogeneous distributed computer systems

Cited by 263 publications

References 21 publications

InstantGrid: A Framework for On-Demand Grid Point Construction

InstantGrid: A Framework for On-Demand Grid Point Construction

Efficient use of parallel libraries on heterogeneous Networks of Workstations

Speeding up simulation applications using WinGrid

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