P. A. Dinda, T. Gross, R. Karrer, B. Lowekamp, N. Miller, P. Steenkiste, and D. Sutherland, "The architecture of the Remos system," in Proc. 10th IEEE Int. Symp. High Performance Distributed Computing, Aug. 2001, pp. 252--265.  Home/Search   Document Details and Download   Summary   Related Articles   Check

....the available network bandwidth and latency between the nodes, but also the heterogeneity caused by di#erent CPU clock rates and the dynamic load behavior due to other processes on the nodes. Most issues related to the discovery of network topologies have been discussed and implemented in ReMoS [5]. An algorithm for dynamically building clusters from network mapping information is given in [6] To demonstrate the feasibility of large scale and accurate distributed folding simulation in this technical report, we quantify the increase of the quality of the folding simulations due to ....

P. Dinda, T. Gross, R. Karrer, B. Lowekamp, N. Miller, P. Steenkiste, and D. Sutherland. The Architecture of the Remos System. In Proc. of the 10th IEEE Symposium on High-Performance Distributed Computing (HPDC-10),San Francisco, California, Aug 2001.

....use empirical method to get their value; see Section 3.2 for details. 2.3 Network Module We use Remos in the Network Module to monitor and predict network performance. In the following, network performance means network bandwidth available for the application. Remos (Resource Monitoring System)[3, 4, 15] is a network performance middleware service developed at CMU. It provides a scalable, exible and portable network monitoring system for applications in distributed computing environments. Remos is composed of two parts: Modeler and Collector. The Modeler implements the Remos API, which enables ....

....Remos is composed of two parts: Modeler and Collector. The Modeler implements the Remos API, which enables applications to communicate with the Collector, query the interested information, and transform the data from the Collector. The Modeler also integrates some prediction services [4], allowing history based data collected across the network to be used to generate the predictions needed by a particular user. The Collector is responsible for the network performance information collection, using SNMP[18, 19] or benchmarks. The network performance information includes network ....

Peter A. Dinda, Thomas Gross, Roger Karrer, Bruce Lowekamp, Nancy Miller, Peter Steenkiste, Dean Sutherland. The Architecture of the Remos System, Proceedings of the Tenth IEEE International Symposium on High Performance Distributed Computing, August 2001, California, USA.

....such measurements, where the number of additional probes can be limited to those paths where links are actually shared, according to the traceroute results. 4 Related Work Many researchers have found that high performance Grid applications need to be aware of the interconnection network in use [4, 8, 9, 13, 15]. Performance mon 8 Mathijs den Burger et al. das3fs.tn.tudelft.nl BR1.Delft.surf.net das0fs.cs.vu.nl AR5.Amsterdam1.surf.net charcoal.cs.ucsb.edu ipls kscy.abilene.ucaid.edu huron.cs.unh.edu ipls clev.abilene.ucaid.edu PO10 0.CR1.Amsterdam2.surf.net PO1 0.CR2.Amsterdam2.surf.net ....

....Internet related tools provide useful monitoring techniques, Grid environments have to apply them to their own sites. TopoMon integrates performance and topology information for given Grid platforms. Some systems explore the topology of LAN installations in great detail. Most prominently, Remos [4] uses SNMP to collect the necessary information. However, SNMP is not available for general Internet connections. The BGP [14] routing protocol provides global topology information, however only with the granularity of Autonomous Systems, which is insucient for our purposes. The most advanced ....

P. Dinda, T. Gross, R. Karrer, B. Lowekamp, N. Miller, P. Steenkiste, and D. Sutherland. The Architecture of the Remos System. In IEEE Symposium on High Performance Distributed Computing (HPDC10), San Francisco, CA, 2001.

....services find uses in a variety of Grid scenarios. The following examples illustrate but do not exhaust the range of applications that rely on information services, and the variety of information sources and information access and management methods that are associated with these applications [13, 30, 36, 11, 34]. A service discovery service records the identity and essential characteristics of services available to community members. Such a discovery service might enable a physicist to determine that a new university that has just joined his consortium has 100 new CPUs available for approved use. ....

....multiple information sources, but otherwise inherit the quality of their database engine. Service discovery services [9, 39, 29, 31] rely on multicast to scope requests, which is inappropriate when virtual and physical organizational structures do not correspond. Monitoring and event systems [36, 30, 11, 6] support information delivery, using disparate protocols, but not the scalable discovery of information sources. Our architecture supports extensions for special purpose (e.g. high data rate) transfer protocols, and so can serve as an integrating framework for monitoring systems, as envisioned in ....

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P. Dinda, T. Gross, R. Karrer, B. Lowekamp, N. Miller, P. Steenkiste, and D. Sutherland. The architecture of the Remos system. In Proc. 10th IEEE Symp. on High Performance Distributed Computing, 2001. (to appear).

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P. A. Dinda, T. Gross, R. Karrer, B. Lowekamp, N. Miller, P. Steenkiste, and D. Sutherland, "The architecture of the Remos system," in Proc. 10th IEEE Int. Symp. High Performance Distributed Computing, Aug. 2001, pp. 252--265.

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P. Dinda, T. Gross, R. Karrer, B. Lowekamp, N. Miller, P. Steenkiste, and D. Sutherland, "The Architecture of the Remos System," in Proc. 10th IEEE Symp. on High-Perf. Dist. Comp. (HPDC'01), (San Francisco), pp. 252--65, Aug. 2001.

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P. Dinda, T. Gross, R. Karrer, B. Lowekamp, N. Miller, P. Steenkiste, and D. Sutherland. The Architecture of the Remos System. In Proc. 10th IEEE Symp. High-Performance Distr. Comp., San Francisco, CA, August 2001. IEEE CS Press.

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P. Dinda, T. Gross, R. Karrer, B. Lowekamp, N. Miller, P. Steenkiste, and D. Sutherland. The architecture of the Remos system. In Proceedings of the 10th IEEE International Symposium on High Performance Distributed Computing (HPDC-10), pages 252--265, San Francisco, CA, August 2001.

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P. Dinda, T. Gross, R. Karrer, B. Lowekamp, N. Miller, P. Steenkiste, and D. Sutherland. The architecture of the Remos system. In Proceedings of HPDC-10, San Francisco, CA, August 2001.

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P. Dinda, T. Gross, R. Karrer, B. Lowekamp, N. Miller, P. Steenkiste, and D. Sutherland, "The Architecture of the Remos System," in Proc. 10th IEEE Symp. on High-Perf. Dist. Comp. (HPDC'01), (San Francisco), pp. 252--65, Aug. 2001.

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DINDA,P.,GROSS,T.,KARRER, R., LOWEKAMP, B., MILLER, N., STEENKISTE,P.,AND MILLER, N. The architecture of the remos system. In Proceedings of the 10th IEEE International Symposium on High Performance Distributed Computing (HPDC 2001.

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DINDA, P., GROSS, T., KARRER, R., LOWEKAMP, B., MILLER, N., STEENKISTE, P., AND MILLER, N. The architecture of the remos system. In Proceedings of the 10th IEEE International Symposium on High Performance Distributed Computing (HPDC 2001.

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DINDA, P., GROSS, T., KARRER, R., LOWEKAMP, B., MILLER, N., STEENKISTE, P., AND MILLER, N. The architecture of the remos system. In Proceedings of the 10th IEEE International Symposium on High Performance Distributed Computing (HPDC 2001.

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DINDA, P., GROSS, T., KARRER, R., LOWEKAMP, B., MILLER, N., STEENKISTE, P., AND SUTHERLAND, D. The architecture of the remos system. In 10th IEEE Symp. on High Performance Distributed Computing (2001). 13

....of TCP, a single TCP flow and multiple parallel TCP flows are not equivalent. On the other hand, our approach does model the way applications will typically use probing tools, so our approach captures the accuracy that applications will perceive. Our experience with tools such as Remos [20] shows that applications in general only require rough estimates of path properties. The implementation of the IGI and PTR algorithms needs accurate timestamp measurement. As a result, we would expect the best results with kernel support, such as libpcap [21] However, for most of the end hosts ....

P. A. Dinda, T. Gross, R. Karrer, B. Lowekamp, N. Miller, P. Steenkiste, and D. Sutherland, "The architecture of the Remos system," in Proc. 10th IEEE Int. Symp. High Performance Distributed Computing, Aug. 2001, pp. 252--265.

....Middleware such as Globus [10] and Legion [13] simplify using remote resources within a computational grid. To help users find resources, these systems typically provide some form of a grid information service (GIS) such as Globus MDS [4] Resource monitoring tools such as NWS [23] Remos [5], or RPS [7] can be used to gauge the dynamic availability of found resources. Designing and evaluating such grid middleware demands realistic workloads. For example, we are in the process of designing and building a grid information service based Effort sponsored by the National Science ....

P. Dinda, T. Gross, R. Karrer, B. Lowekamp, N. Miller, P. Steenkiste, and D. Sutherland. The architecture of the remos system. In 10th IEEE Symp. on High Performance Distributed Computing, 2001.

....signal an application receives is in effect an appropriately low pass filtered version of the original signal. How close the filter is to an ideal low pass depends on the nature of the wavelet basis function that is used. Interestingly, in currently available network monitoring systems like Remos [13] and the Network Weather Service [36] an analogous filtering step occurs in the form of binning. The signal is smoothed by reducing it to averages over non overlapping bins, producing what we refer to as a binning approximation signal. For example, Remos s SNMP collector periodically queries a ....

DINDA,P.,GROSS,T.,KARRER, R., LOWEKAMP, B., MILLER, N., STEENKISTE,P.,AND MILLER, N. The architecture of the remos system. In Proceedings of the 10th IEEE International Symposium on High Performance Distributed Computing (HPDC 2001.

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P. Dinda et al., "The Architecture of the Remos System," 10th IEEE Symp. High Performance Distributed Computing, IEEE Press, Piscataway, N.J., 2001, pp. 383--394.

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P. Dinda, T. Gross, R. Karrer, B Lowekamp, N. Miller, P. Steenkiste, and D. Sutherland. The architecture of the remos system. In 10th IEEE International Symposium on High Performance Distributed Computing (HPDC-10), August 2001.

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P. Dinda, T. Gross, R. Karrer, B. Lowekamp, N. Miller, P. Steenkiste, and D. Sutherland. The architecture of the Remos system. In Proceedings of the 10th IEEE Symposium on High-Performance Distributed Computing (HPDC'01), Aug 2001.

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Peter Dinda, Thomas Gross, Roger Karrer, Bruce Lowekamp, Nancy Miller, Peter Steenkiste, and Dean Sutherland. The architecture of the Remos system. In 10th IEEE Symposium on High-Performance Distributed Computing (HPDC'10), San Francisco, August 2001. IEEE.

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DINDA, P., GROSS, T., KARRER, R., LOWEKAMP, B., MILLER, N., STEENKISTE, P., AND MILLER, N. The architecture of the remos system. In Proceedings of the 10th IEEE International Symposium on High Performance Distributed Computing (HPDC 2001.

No context found.

P. Dinda et al., "The Architecture of the Remos System," 10th IEEE Symp. High Performance Distributed Computing, IEEE Press, Piscataway, N.J., 2001, pp. 383--394.

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P. Dinda, T. Gross, R. Karrer, B Lowekamp, N. Miller, P. Steenkiste, and D. Sutherland. The architecture of the remos system. In 10th IEEE International Symposium on High Performance Distributed Computing (HPDC-10), August 2001.

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