Citations: Andrew: A Distributed Personal Computing Environment - Morris, Satyanarayanan, Conner, Howard, Rosenthal, Smith (ResearchIndex)

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J. Morris, M. Satyanarayanan, M. Conner, J. Howard, D. Rosenthal, and F. Smith, Andrew: A distributed personal computing environment, Communications of the ACM, 29 (1986), pp. 184--201.

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Exposed versus Encapsulated Approaches to Grid Service.. - Beck, Moore, Plank (Correct)

....provides a ubiquitous communication substrate connecting its components (with routers acting as specialpurpose elements invisible in the architecture) while network servers provide all access to storage and computation. Illustrations of such servers and services are plentiful: FTP, NFS, and AFS [7] provide access to storage; Condor [8] NetSolve [9] Ninf [10] provide lightweight access to processing; HTTP provides access to both; GRAM [11] provides access to heavyweight computing resources; LDAP provides access to directory services; and so on. What is notable about these instances, and is ....

.... a single disk volume to create large files; other strong properties are sometimes implemented through aggregation at a lower level (e.g. RAID) or through modifications to the file system or additional software layers that make redundant allocations and maintain additional state (e.g. AFS, HPSS) [7, 18]. Working by analogy with the inode, we have chosen to implement a single generalized data structure, which we call an external node, or exNode, for management of aggregate allocations that can be used in implementing network storage with many different strong semantic properties. Rather than ....

J.H.Morris,M.Satyanarayan,M.H.Conner,J.H.Howard,D.S.H.Rosenthal,andF.D.Smith, "Andrew: A Distributed Personal Computing Environment," Communications of the ACM, vol. 29, no. 3, pp. 184-201, 1986.

VP/GFS: an Architecture for Virtual Private Grid File Systems - Figueiredo (2003) (Correct)

.... no assumption of a security infrastructure and is simpler to administer [13] Although other file systems have been designed specifically to wide area environments supporting cross domain authentication, encryption and performance enhancements that target high latency low bandwidth scenarios [15] [18] they are difficult to setup and administer, and are not widely deployed. Recently, efforts towards a new version of NFS (V4) that incorporates features that make it suitable for wide area applications have been formalized in a new protocol description [16] however, implementations of the ....

J. Morris, M. Satyanarayanan, M. Conner, J. Howard, D. Rosenthal and F. Smith, "Andrew: A Distributed Personal Computing Environment", Communications of the ACM, 29(3) pp184-201, March 1986

Efficient Metadata Management in Large Distributed Storage .. - Brandt, Miller, Long, Xue (2003) (2 citations) (Correct)

....is critical. We present Lazy Hybrid (LH) metadata management, a new metadata management architecture designed to provide very highperformance, scalable metadata management. Traditionally, metadata and data are managed by the same file system, on the same machine, and stored on the same device [9]. For efficiency, metadata is often stored physically close to the data it describes [7] In some modern distributed file systems, data is stored on devices that can be directly accessed through the network, while metadata is managed separately by one or more specialized metadata servers [5] We ....

....servers in existing distributed file systems. Directory subtree partitioning provides a natural way to partition the namespace among multiple servers in distributed systems. Each server manages one or more sub tree(s) also called file sets or volumes) of the hierarchy. LOCUS [15] NFS [13] AFS [9], Coda [16] and Sprite [11] partition the namespace using this technique. One advantage of directory subtree partitioning is that metadata for a file can generally be accessed by contacting relatively few metadata servers, as a particular metadata server will store some or all directories in ....

J. H. Morris, M. Satyanarayanan, M. H. Conner, J. H. Howard, D. S. H. Rosenthal, and F. D. Smith. Andrew: A distributed personal computing environment. Communications of the ACM, 29(3):184--201, Mar. 1986.

Document De Presentation - De Travaux Pour (Correct)

....personnelle, peut partager de l information et communiquer avec d autres utilisateurs, et acceder h des services gnraux trop cofiteux pour que sa station en dispose localement. On peut citer, sans vouloir tre exhaustif, diffrents services qui sont venus enrichir Unix: NFS [Sandberg 85] ou AFS [Morris 86] qui permettent d accder h des fichiers stocks sur des serveurs spcialiss ou sur d autres stations de travail; le service de spoule de gestion d imprimantes qui permet le partage des imprimantes entre les stations connectes; l appel de commande h distance qui permet d excuter une commande sur une ....

J. H. Morris, M. Satyanarayanan, M. H. Conner, J. H. Howard, D. S. Rosenthal, F. D. Smith, Andrew: a distributed personal computing environment, Comm. of the ACM, vol. 29, n 3, Mar. 1986, pp 184- 201

Coherency Management in Ad-Hoc Group Communication - Boulkenafed, Issarny (1 citation) (Correct)

....from occurring, mechanisms for detecting and resolving inconsistency are used upon update propagation. A number of distributed systems deals with mobility. CODA [15, 25] is a replicated file system that supports mobile clients. Hence, it addresses replication and coherency concerns. Like AFS [20], CODA makes a distinction between file servers, which are physically secure, run trusted and are monitored by operational staff, and clients, which are physically dispersed, and may be mobile. Clients and servers communicate using a remote procedure call mechanism. The CODA replication model ....

James H. Morris, Mahadev Satyanarayanan, Michael H. Conner, John H. Howard, David S. H. Rosenthal, and F. Donelson Smith. Andrew: a distributed personal computing environment. Communication of the ACM, 29(3):184-2001, march 1986.

An Investigation into the use of the Tuple Space Paradigm in.. - Wade (1999) (1 citation) (Correct)

....based applications with access to files across a network. The overall architecture is based on the Andrew File System (AFS) which was developed at Carnegie Mellon University as part of the broader Andrew distributed computing environment and offers POSIX 1003.1 file system semantics [IEEE,94] Morris,86] Satyanarayanan,85] AFS supplies both the caching and management strategies while the basic file service is generally provided by Episode. The resultant file system provides a high performance, highly available, secure file repository and is tightly integrated with the DCE directory and ....

J. Morris, M. Satyanarayanan, M. H. Conner, J. H. Howard, D. S. Rosenthal and F. D. Smith, "Andrew: A Distributed Personal Computing Environment", Communications of the ACM, Volume 29, Number 3, 1986, pp 184- 201.

CITI Technical Report 93-2 - Cja Citi Umich (Correct)

.... Technology Integration University of Michigan 519 West William Street Ann Arbor, MI 48103 4943 Integrating Mass Storage and File Systems The University of Michigan has deployed a campus wide file system based on the Andrew File System, first developed by Carnegie Mellon University [1]. AFS employs a client based disk cache to reduce file traffic to remote file servers. In brief, when a process uses an AFS file, all file operations are satisfied from a local cache if possible. When an AFS file is closed, any modified blocks are written to the server. AFS employs a ....

Morris, James H., Mahadev Satyanarayanan, Michael H. Conner, John H. Howard, David S. H. Rosenthal, and F. Donelson Smith, "Andrew: A Distributed Personal Computing Environment," Communications of the ACM, Vol. 29, No. 3, pp. 184-201 (March 1986).

Operating System and File System Monitoring: A Comparison of.. - Moore (1995) (3 citations) (Correct)

....passing through the network. Without enough useful information, network monitoring may not be able to estimate satisfactorily what has occurred on a particular client. With the network based file systems in use or under development, such as NFS [87] Sprite [72] and Andrew File System (AFS) [66, 42], clients require many or all filesystem operations to be done through the network. Because the network will be carrying all file system traffic between clients and server, network monitoring can collect and interpret this data to give information on the file operations which clients are ....

Morris, J., Satyanarayanan, M., Conner, M., Howard, J., Rosenthal, D., and Smith, F. D. ANDREW: A distributed personal computing environment. Communications of the ACM 29, 3 (March 1986), 184--201.

Peer-to-Peer Resource Trading in a Reliable Distributed System - Cooper, Garcia-Molina (2002) (2 citations) (Correct)

.... [14, 23, 24] Here, we are primarily concerned about preservation (given the constraint of preserving site autonomy) In contrast, traditional replicated databases tend to trade some reliability for increased performance [20] Similarly, replicated filesystem schemes such as Coda [19] or Andrew [16] use caching to improve availability. Our goal is different: long term preservation despite failures, rather than short term preservation in the face of network partitions. Many existing peer to peer such as Freenet [1] or Gnutella [2] use trading as a model, although these systems trade ....

J. H. Morris et al. Andrew: A distributed personal computing environment. CACM, 29(3):184-- 201, March 1986.

A Computational Framework for Telemedicine - Foster, von Laszewski.. (1998) (Correct)

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J. Morris, M. Satyanarayanan, M. Conner, J. Howard, D. Rosenthal, and F. Smith, Andrew: A distributed personal computing environment, Communications of the ACM, 29 (1986), pp. 184--201.

Demand-based Document Dissemination for the World-Wide Web - Bestavros (1995) (11 citations) (Correct)

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J.H. Morris, M. Satyanarayanan, M.H. Conner, J.H. Howard, D.S.H. Rosenthal, and F.D. Smith. Andrew: a distributed personal computing environment. Comm. ACM, 29(3):184--201, Mar. 1986.

OBFS: A File System for Object-based Storage Devices - Feng Wang Scott (2003) (Correct)

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J. H. Morris, M. Satyanarayanan, M. H. Conner, J. H. Howard, D. S. H. Rosenthal, and F. D. Smith. Andrew: A distributed personal computing environment. Communications of the ACM, 29(3):184--201, Mar. 1986.

Dynamic Metadata Management for Petabyte-scale File Systems - Weil, Pollack, Brandt.. (Correct)

Implementation of Distributed Process Management Protocol Server.. - Agarwal (2000) (5 citations) (Correct)

No context found.

J. Morris, M. Satyanarayan, M. H. Conner, J. H. Howard, D. S. Rosenthal, and F. D. Smith. Andrew: A Distributed Personal Computing Environment. Communications of the ACM, 29(3), March 1986.

Data Placement For Copy-On-Write Using Virtual Contiguity - Peterson (2002) (Correct)

OBFS: A File System for Object-based Storage Devices - Feng Wang Scott (2003) (Correct)

OBFS: A File System for Object-based Storage Devices - Feng Wang Scott (2004) (Correct)

Naming and Sharing Resources across Administrative Boundaries - Howell (2000) (Correct)

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James H. Morris, Mahadev Satyanarayanan, Michael H. Conner, John H. Howard, David S. H. Rosenthal, and F. Donelson Smith. Andrew: A distributed personal computing environment. Communications of the ACM, 29(3):184--201, March 1986.

Performance and Policy Issues in a Process Migration System - Gupta (2001) (Correct)

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James H. Morris, Mahadev Satyanarayanan, Michael H. Conner, John H. Howard, David S. Rosenthal, and F. Donelson Smith. Andrew: A Distributed Personal Computing Environment. Communications of the ACM, 29(3):184 201, 1986.

Implementation of Distributed Process Management Protocol Client.. - Agrawal (2000) (Correct)

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Morris J. H., Satyanarayanan M, Comer M. H., Howard J. H., Rosenthal D. S. H, and Smith F. D. Andrew: A Distributed Personal Computing Environment. Communications of the ACM, 29(3):184-201, March 1986.

Ext3cow: The Design, Implementation, and Analysis of Metadata .. - Peterson, Burns (2003) (Correct)

A Computational Framework for Telemedicine - von Laszewski, al. (1998) (Correct)

Parallel IO support for Meta-Computing Applications.. - Fagg, Gabriel.. (2001) (Correct)

No context found.

J. Morris, M. Satyanarayanan, M. Conner, J. Howard, D. Rosenthal and F. Smith. "Andrew: A distributed personal computing environment", Communications of the ACM, 29(3):184-201, 1986.

Scalable Sharing of Wide Area Storage Resources - Micah Beck Terry (2002) (1 citation) (Correct)

The Internet Backplane Protocol: A Study in Resource Sharing - This Work Is (Correct)

No context found.

J. H. Morris, M. Satyanarayan, M. H. Conner, J. H. Howard, D. S. H. Rosenthal, and F. D. Smith, "Andrew: A Distributed Personal Computing Environment," Communications of the ACM, vol. 29, no. 3, pp. 184-201, 1986.

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