Chen Kai Sun scite author profile

Chen Kai Sun

3Publications

57Citation Statements Received

104Citation Statements Given

How they've been cited

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102

Affiliations

National Center for High-Performance Computing, Shanghai Jiao Tong University

Publications

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The Design and Implementation of a Novel Open Source Massive Deployment System

et al. 2018

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Abstract:The hypervisor and container are emerging cloud computing and fog computing technologies, which enable rapid system deployment. However, both of the technologies depend on the operating system (OS) and applications that are installed on the host machines. System deployment is the activity to deliver and install OSs and applications onto computers. Such deployment activities are widely required in the infrastructure of cloud computing, fog computing, high-performance computing clusters, and classrooms of computer education. Albeit the concept of system deployment is not new, traditional solutions cannot support the rapid evolution of open source file systems. Furthermore, existing solutions cannot support the massive deployment of disks in a computer as well as the massive deployment in large-scale computers. To resolve the issue, the authors proposed novel system architecture as well as software that is openly available. The experiments are undertaken by deploying a Linux system to 1 to 30 Universal Serial Bus (USB) flash drives in a single machine and to 1 to 32 machines in a network using the software that is being developed in this work. The results have demonstrated the feasibility and efficiency of the proposed work. The relationships between the bus bandwidth, the writing rate of the USB flash drive, and the number of flash drives were also formulated as a govern equation. Performance evaluation and cost savings in comparing to the deployment cases adopting commercial software were also provided for demonstrating the performance enhancement and cost reduction by using the novel deployment system. In general, the proposed architecture and the developed software are highly effective from the aspects of both performance and cost.

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A Novel Massive Deployment Solution Based on the Peer-to-Peer Protocol

et al. 2019

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: The BitTorrent (BT) is a peer-to-peer (P2P) file sharing protocol that was developed approximately 20 years ago, is becoming increasingly popular, and has been widely accepted. The BT-based mass deployment system can be used to improve performance and scalability that cannot be achieved by the unicasting, broadcasting, and multicasting protocols. However, when the BT-based system is applied in massive deployments, a major issue related to insufficient temporary storage space to store the whole system image before deploying needs to be resolved. Such problems arose because the system is deployed to the disk space, meaning that it cannot be used for temporary storage. Therefore, a novel BT-based solution that can remove the limitations caused by the insufficient temporary storage issue is proposed. The BT-based mass deployment system was designed by using the file system blocks transferring (FSBT) mechanism. The receiver of the FSBT mechanism can obtain the blocks of the file system from other peers. Then, those blocks will be written directly to raw disks or partitions. The sender of the FSBT mechanism can read the blocks of file systems directly from raw disks or partitions. Then, the blocks can be sent to other peers. This approach solves the insufficient temporary storage issue. The novel BT-based mass deployment system was tested and verified for the configuration consisting of at most 32 personal computers (PCs). To demonstrate the achievable performance of the novel BT-based system, comparisons were made between the novel program and the traditional multicast solutions, as well as other solutions for mass deployment. The proposed BT solution can be much faster than the multicast solution when deploying 11 machines or more. The experimental results demonstrated the feasibility and superior performance of the proposed system. Furthermore, performance comparisons of the proposed BT-based mass deployment system versus other solutions demonstrated the feasibility and efficiency of the proposed solution. In the future, the BT parameters can be further optimized, and the simultaneous read and write features can be implemented to improve the deployment performance. In addition, the BT-based mass deployment system can serve as the basis for the development of other mass deployment systems.

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Research on IEC 61968 based message design for intelligent operation and maintenance center

Nakayama

Chen

Song

et al. 2014

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Intelligent operation and maintenance is a novel technology mode of advanced transmission and distribution equipment management that can meet the demand of online monitoring, condition-based maintenance and visual management for equipment, as well as rapid load recovery repair and advanced asset management integration requirements. It serves as one of the most significant contexts to promote the standardized level of power system and for the development of smart grid. An I EC 61968 standard and SOA architecture based information platform infrastructure for the Intelligent Operation and Maintenance Center (IOM C) of Hengqin new district is introduced in this paper. Unified interface and data interaction specifications for the information platform of the IOMC are formulated and regulated according to business needs and process of the IOMC . The defined XSD message format and three message type meet the requirement of data integration and visual display that the IOMC have on automation, production management and GIS system. Thus the enabled panoramic view that monitoring the transmission, substation and distribution system and equipment operation information of the Hengqin new district creates an innovative management mode of the operation of transmission, substation and distribution equipment, which improves the collaboration working ability and efficiency of equipment's operation, maintenance, management and that of typical production business.

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Chen Kai Sun

The Design and Implementation of a Novel Open Source Massive Deployment System

A Novel Massive Deployment Solution Based on the Peer-to-Peer Protocol

Research on IEC 61968 based message design for intelligent operation and maintenance center

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