Accession Number : ADA461165


Title :   A Practical Approach to Replication of Abstract Data Objects


Descriptive Note : Doctoral thesis


Corporate Author : CARNEGIE-MELLON UNIV PITTSBURGH PA SCHOOL OF COMPUTER SCIENCE


Personal Author(s) : Bloch, Joshua J


Full Text : https://apps.dtic.mil/dtic/tr/fulltext/u2/a461165.pdf


Report Date : May 1990


Pagination or Media Count : 178


Abstract : There is a great need for computer systems that remain available with high probability at all times. Highly available systems can be implemented on networks of general purpose computers by replicating data: storing the data redundantly at two or more of the nodes comprising the system. Some replication protocol is necessary to control access to the replicas. In essence, the replication protocol orchestrates the replicas to form a single distributed data object. If a replicated data object is to be used in an application where data consistency is required, the replicated object must display the same semantics as its serially accessed, single-site counterpart. It is difficult to design replication protocols that combine one-copy serializability with high performance. This dissertation describes an architecture that provides efficient, easy-to-use replicated implementations for a wide variety of useful data types, including directories, record files with secondary indices on selected fields, and priority queues. The data objects display single-copy serial semantics and provide high availability and concurrency. The architecture is relatively easy to implement as it derives its recovery and concurrency control properties from the support of an underlying distributed transaction system. A fairly complete prototype implementation of the architecture was built on top of the Camelot system. Experiments were performed to evaluate its performance. The heart of the architecture is a family of efficient replication protocols that implement a class of table-like data objects called replicated sparse memories or RSMs. The replication protocols are based on Gifford's weighted voting technique. An underlying structural property of the RSM that allows efficient implementation of all its operations is proven. Simulation results are presented that suggest RSMs are time and space efficient in a wide variety of configurations. A Markov model of the RSM is constructed and analyzed.


Descriptors :   *DISTRIBUTED DATA PROCESSING , *NETWORKS , *CONSISTENCY , ALGORITHMS , SIMULATION , EFFICIENCY , PROTOTYPES , COMMUNICATIONS PROTOCOLS , MARKOV PROCESSES , ABSTRACTS , THESES , SEMANTICS , MODELS , QUEUEING THEORY


Subject Categories : Operations Research
      Computer Programming and Software
      Statistics and Probability


Distribution Statement : APPROVED FOR PUBLIC RELEASE