Nur Farhah Mat Zian scite author profile

Nur Farhah Mat Zian

4Publications

7Citation Statements Received

26Citation Statements Given

How they've been cited

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Affiliations

Universiti Malaysia Terengganu

Publications

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Survey on replication techniques for distributed system

Noor¹,

Zian²,

Bahri³

2019

IJECE

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<p>Distributed systems mainly provide access to a large amount of data and computational resources through a wide range of interfaces. Besides its dynamic nature, which means that resources may enter and leave the environment at any time, many distributed systems applications will be running in an environment where faults are more likely to occur due to their ever-increasing scales and the complexity. Due to diverse faults and failures conditions, fault tolerance has become a critical element for distributed computing in order for the system to perform its function correctly even in the present of faults. Replication techniques primarily concentrate on the two fault tolerance manners precisely masking the failures as well as reconfigure the system in response. This paper presents a brief survey on different replication techniques such as Read One Write All (ROWA), Quorum Consensus (QC), Tree Quorum (TQ) Protocol, Grid Configuration (GC) Protocol, Two-Replica Distribution Techniques (TRDT), Neighbour Replica Triangular Grid (NRTG) and Neighbour Replication Distributed Techniques (NRDT). These techniques have its own redeeming features and shortcoming which forms the subject matter of this survey.</p>

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Novelty circular neighboring technique using reactive fault tolerance method

Noor

Zian

Rahim

et al. 2019

IJECE

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The availability of the data in a distributed system can be increase by implementing fault tolerance mechanism in the system. Reactive method in fault tolerance mechanism deals with restarting the failed services, placing redundant copies of data in multiple nodes across network, in other words data replication and migrating the data for recovery. Even if the idea of data replication is solid, the challenge is to choose the right replication technique that able to provide better data availability as well as consistency that involves read and write operations on the redundant copies. Circular Neighboring Replication (CNR) technique exploits neighboring policy in replicating the data items in the system performs well with regards to lower copies needed to maintain the system availability at the highest. In a performance analysis with existing techniques, results show that CNR improves system availability by average 37% by offering only two replicas needed to maintain data availability and consistency. The study demonstrates the possibility of the proposed technique and the potential of deploying in larger and complex environment.

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Review of Replication Techniques for Distributed Systems

Noor

Zian

Deris

et al. 2015

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Circular Neighbor Replication

Noor¹,

Zian²,

Saman³

2014

Journal of Computer Science

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Distributed system rely on replication techniques to tolerate data failure and site disconnection thus ensuring flexibility of the system so as to preserve its dependability. The idea of replication is robust however practical implementation of the replication techniques is often rigid that would bring down system's dependability and performance. This study intended to evaluate existing techniques and then develop a new technique which later will be compared with the existing with the goal of to achieve better fault tolerance, dependability and performance in distributed systems. The new technique is constructed based on circular neighbor relationship and quorum-based protocol. The consistency and integrity of the replicated data that involved write and read operations on the replicas is ensured using Replica maintenance protocol. This techniques focused on synchronous solution as for its quorum execution or commitment protocol showed higher reliability and convenience to avoid conflicts compared to asynchronous solution.

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