F. Tobagi, J. Pang, R. Baird, and M. Gang, "Streaming raid: a disk array management system for video files," in Proc. ACM Multimedia, Anaheim, CA, Aug. 1993. Home/Search Document Not in Database Summary Related Articles Check |
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Controlled Buffer Sharing in Continuous Media Servers - Shi, Ghandeharizadeh (2002) (Correct)
....that monitors and controls available resources. When resources (memory and disk bandwidth) are exhausted, it queues newly arrived requests in order to prevent hiccups. A number of studies have outlined the design and implementation of such a component [GM98, GZS 97, YCK93, OBRS94, WSY95, TPBG93] This section begins with and how to derive its optimal value in order to minimize system cost. Next, we present BMDT, followed by a discussion of the configuration planner. For each, we describe the impact of the VCR operations. The configuration planner and BMDT are designed to complement ....
F.A. Tobagi, J. Pang, R. Baird, and M. Gang. Streaming RAID-A Disk Array Management System for Video Files. In First ACM Conference on Multimedia, August 1993.
Highly Available and Heterogeneous Continuous Media.. - Zimmermann.. (Correct)
.... the previous technique, this technique constructs a collection of subservers consisting of homogeneous disks, however, it stripes a file across the subservers in order to distribute the load of a sequential retrieval across all subservers, see Figure l(b) This is an extension of Streaming RAID [11] to a heterogeneous collection of subservers. When compared with technique 1, this strategy prevents the formation of bottlenecks and no longer replicates read only data. However, its MTTSL is inferior due to data dependence among the subservers. 3. Disk merging [12] This technique constructs a ....
F.A. Tobagi, J. Pang, R. Baird, and M. Gang, "Streaming RAID-A Disk Array Management System for Video Files," in Proceedings of the First ACM Conference on Multimedia, Anaheim, CA, August 1993, pp. 393-400.
Enabling Protocols Algorithms for Multicast Oriented Applications - Anker (Correct)
....degradation due to skipped frames was not noticeable to human observers. single server by using sophisticated scheduling, caching, and file structuring. The fault tolerance issues typically being addressed concern possible disk and file failures [BGM95, VVC96, HS96, Lee98, MNO 97, SGRV98, TPBG93] but do not address server failures or network partitions (with the exception of the Microsoft Tiger video server [BBD 96, BFD97] cf. Section 2.9) Furthermore, current methods seldom address the issue of client migration and smooth provision of service while migration occurs. The concept ....
....bandwidth cost associated with more pre fetching and the memory cost for larger buffer sizes in order to increase the service resilience to increased loads. Current research in the area of VoD often focuses either on improving the performance of a single server [BGM95, VVC96, MNO 97, SGRV98, TPBG93] or on parallel servers with dedicated hardware [HS96, Lee98] The improved performance of a single server is achieved by techniques such as sophisticated file organization [BGM95, 97, SGRV98] novel QoS aware disk scheduling algorithms [VVC96, SGRV98, TPBG93] data fault tolerance [BGM95, ....
[Article contains additional citation context not shown here]
F.A Tobagi, J. Pang, R Baird, and M. Gang. Streaming RAID-a disk array management system for video files. In ACM Multimedia, pages 393--400, August 2--6 1993.
Computing in the RAIN: A Reliable Array of Independent.. - Bohossian, Fan.. (1998) (2 citations) (Correct)
....a distributed checkpointing system (RAINCheck) 5.1 High Availability Video Server There has been considerable research in the area of fault tolerant Internet and multimedia servers. Examples are the SunSCALR project at Sun Microsystems [46] as well as papers by Elnozahy [24] and Tobagi et al. [51]. For our RAINVideo application, a collection of videos are encoded and written to all n nodes in the system with distributed store operations. Each node runs a client application that attempts to display a video, as well as a server application that supplies encoded video data. For each block of ....
F.A. Tobagi, J. Pang, R. Baird and M. Gang, \Streaming RAID: A Disk Array Management System for Video Files," Proceedings of the ACM Conference on Multimedia, pp. 393-400, 1993.
High Performance Digital Video Servers: Storage and retrieval.. - Paek, Chang (Correct)
....disk bandwidths have alredy been reserved for its retrieval. However, if video y was not being retrieved, then there may not be enough disk bandwidth available for its retrieval when a disk failure occurs. The Streaming RAID (Redundant Array of Independent Disks) scheme was first proposed in [30]. For fault tolerance, disks are grouped into fixed sized clusters of C disks, each with C Gamma 1 disks and one parity disk. The set of data blocks, one per data disk, and a parity block on the parity disk form a parity group. The parity block is the bitwise exlcusive or of the data blocks. Each ....
Fouad A. Tobagi, Joseph Pang, Randall Baird, Mark Gang (Starworks). Streaming RAID- A Disk Array Management System for Video Files. Proceedings of ACM Multimedia 93. 1993.
Quality of Service Based Incremental Retrieval of Continuous .. - Kenchammana-Hosekote (Correct)
....Such a disk stores stream instances of a single type, e.g. MPEG 1 compressed video streams. Such configurations will be popular for Video On Demand applications where different video stream instances will be stored in a uniform compression standard which would include playback at similar rates [Tobagi et al. 1993], Chang et al. 1994] Bolosky et al. 1996] When configured to store dissimilar streams, the disk must store streams compressed using different standards and playback rates. In such a case the schedule due to Lemma 3 will neither guarantee feasibility nor optimality for BUFMIN DPCC. Previous ....
....and Vin, 1993a] and [Anderson et al. 1992] discuss safe state transition algorithms to handle this set of operations. How ever, they do not try to minimize response time of such operations. The observation of maintaining finite slack time in a cycle to handle VCR operations has been made 69 in [Tobagi et al. 1993]. They discuss the relationship between slack and the response time of concurrency set operations, which they denote as start up latency. A key difference between our work and [Tobagi et al. 1993] is that our strategy provides playback guarantee at all time besides supporting an extended suite of ....
[Article contains additional citation context not shown here]
F. Tobagi, J. Pang, R. Baird, and M. Gang. Streaming RAID A disk array management system for video files. In A CM Multimedia, pages 393 400. ACM, 1993.
Maximizing Throughput in Replicated Disk Striping of.. - Anastasiadis, Sevcik.. (2002) (Correct)
....issue creates a strong case for storage of variable bit rate streams, and makes the results of the present paper indispensable part of our previous published work. The related work from media server research is mostly focused on fault tolerance techniques when striping constant bit rate streams [5, 6, 32]. Disks are grouped into clusters, and data blocks from separate disks in each cluster are combined with a parity block to form parity groups. The blocks of a parity group are considered to be retrieved and transmitted in one or multiple rounds, and the parity blocks are stored on data disks or ....
Tobagi, F. A., Pang, J., Baird, R., and Gang, M. Streaming RAID - A Disk Array Management System for Video Files. In ACM Multimedia Conference (Anaheim, CA, Aug. 1993), pp. 393--400.
Continuous Data Block Placement in and Elevation from.. - Triantafillou, Papadakis (2001) (3 citations) (Correct)
....choice for the SS medium. Researchers in multimedia and video storage servers then started paying attention to the placement of multimedia data on SS devices in such a way so to increase the system s performance by effectively utilizing the available SS bandwidth of the system [RV93,LS93,GR,Tea93,BMGJ94,KK95, ORS96,TF98] Another thread concentrated on developing techniques to reduce the number of required secondary storage I O s by exploiting main memory buffer caches and the characteristics of several emerging applications (such as video on demand servers) Through buffer and data ....
F.A. Tobagi and et al. Streaming raid -- a disk array management system for video files. In Proceedings of ACM Multimedia, pages 393--400, 1993.
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F. Tobagi, J. Pang, R. Baird, and M. Gang, "Streaming raid: a disk array management system for video files," in Proc. ACM Multimedia, Anaheim, CA, Aug. 1993.
Increasing the capacity of RAID5 by online gradual assimilation - Gonzalez, Cortes (Correct)
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Tobagi, F.A.; Pang, J.; Baird, R.; Gang, M. "Streaming RAID-a disk array management system for video files," Proceedings of ACM Multimedia 93, p. 393-400, Anaheim, CA, USA, 2-6 Aug. 1993.
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F. Tobagi, J. Pang, R. Baird, and M. Gang, "Streaming RAID - A disk array management system for video files," Proc. ACM Multimedia 93, Anaheim, CA, Aug 23, p. 393.
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F. Tobagi, J. Pang, R. Baird, M. Gang, "Streaming RAID - A Disk Array Management System for Video Files," Proceedings ACM Multimedia 93, Anaheim, CA, p. 393.
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Tobagi, F.A., et. al. "Streaming RAID: A Disk Array Management System for Video Files", In Proceedings of the ACM Conference on Multimedia, August 1993.
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F. Tobagi, J. Pang, R. Baird, and M. Gang. Streaming RAID: A disk array management system for video files. In Proc. ACM Multimedia'93, pages 393--400, 1993.
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F. A. Tobagi, J. Pang, R. Baird, and M. Gang. Streaming RAID - A Disk Array Management System For Video Files. ACM Multimedia Conference, pages 393--399, 1993.
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F. Tobagi, J. Pang, R. Baird, and M. Gang. Streaming RAID-A Disk Array Management System for Video Files. In Proceedings of the First ACM Multimedia Conference, August 1993.
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F.A. Tobagi, J. Pang, R. Baird, and M. Gang. Streaming RAID-A Disk Array Management System for Video Files. In First ACM Conference on Multimedia, August 1993.
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F. Tobagi, J. Pang, R. Baird, and M. Gang. Streaming RAID-A disk array management system for video files. First ACM Conference on Multimedia, August 1993.
Preemptive RAID Scheduling - Zoran Dimitrijevi Zoran (Correct)
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F. Tobagi, J. Pang, R. Baird, and M. Gang. Streaming raid-a disk array management system for video files. First ACM Conference on Multimedia, August 1993.
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F A. Tobagi, J Pang, R Baird, and M Gang. Streaming RAID -- A Disk Array Management System For Video Files. In Proceedings of ACM Multimedia '93, Anaheim, CA, pages 393--400, 1993.
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F. Tobagi, J. Pang, R. Baird, and M. Gang. Streaming RAID-A Disk Array Management System for Video Files. In Proceedings of the First ACM Conference on Multimedia, August 1993.
Supporting Server-Level Fault Tolerance in Concurrent-Push-Based.. - Lee (2001) (Correct)
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F. A. Tobagi, J. Pang, R. Baird, and M. Gang, "Streaming RAID - A Disk Array Management System for Video Files," in ACM Multimedia Conf., pp. 393--400, (Anaheim,CA), Aug. 1993.
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