BCCC Disjoint Path Construction Algorithm and Fault-Tolerant Routing Algorithm under Restricted Connectivity

Lu, Jialiang; Du, Xiaoyu; Li, Huiping; Han, Zhijie

doi:10.3390/a15120481

Algorithms

2022

DOI: 10.3390/a15120481

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BCCC Disjoint Path Construction Algorithm and Fault-Tolerant Routing Algorithm under Restricted Connectivity

Jialiang Lu

Xiaoyu Du

Huiping Li

et al.

Abstract: Connectivity in large-scale data center networks is a critical indicator to evaluate network state. A feasible and performance-guaranteed algorithm enables us to find disjoint paths between network vertices to ensure effective data transfer and to maintain the normal operation of network in case of faulty nodes. As an important data center network, BCube Connected Crossbars (BCCC) has many excellent properties that have been widely studied. In this paper, we first propose a vertex disjoint path algorithm with … Show more

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2024

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Cited by 2 publications

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Disjoint paths construction algorithm in the data center network DPCell

Dong,

Wang,

et al. 2024

The Computer Journal

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With the development of the fourth industrial revolution, the importance of data centers has significantly increased. Data centers are widely used in many fields due to their ability to provide efficient, secure, and reliable data storage and processing services. However, with the increasing amount of data, traditional data center networks (DCNs) are currently facing various challenges, prompting academia and industry to propose new DCN architectures. As a dual-port server-based DCN, DPCell has excellent scalability and bisection width, enabling it to meet the demands of large-scale data storage, processing, and computation in the digital revolution. In order to ensure the secure and reliable data communication in the DPCell, this paper designs a disjoint paths communication scheme based on the actual DCN routing requirements. This scheme constructs the optimal number of disjoint paths in DPCell, with a maximum path length of $2^{k}+3$, where $k$ represents the dimension of the DPCell. Furthermore, experiments have verified that the time complexity of this scheme is sublinear, making it more efficient than the current optimal maximum flow algorithm. To a certain extent, this scheme provides DPCell with the required high bandwidth, fault tolerance, and security for data communication.

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Disjoint paths construction algorithm in the data center network DPCell

Dong,

Wang,

et al. 2024

The Computer Journal

View full text Add to dashboard Cite

show abstract

Fault-Tolerant Communication in HSDC: Ensuring Reliable Data Transmission in Smart Cities

Dong,

Lv,

Fan

2024

IEEE Trans. Rel.

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BCCC Disjoint Path Construction Algorithm and Fault-Tolerant Routing Algorithm under Restricted Connectivity

Cited by 2 publications

References 24 publications

Disjoint paths construction algorithm in the data center network DPCell

Disjoint paths construction algorithm in the data center network DPCell

Fault-Tolerant Communication in HSDC: Ensuring Reliable Data Transmission in Smart Cities

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