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Bao Qifan,Wu Peng
Strategic Study of CAE 2006, Volume 8, Issue 2, Pages 7-17
Keywords: Shanghai Port Waigaoqiao Port Area container termina integrated innovation design engineering
Fully automatic container terminals of Shanghai Yangshan Port phase IV
Jack Xunjie LUO
Frontiers of Engineering Management 2019, Volume 6, Issue 3, Pages 457-462 doi: 10.1007/s42524-019-0053-0
Engineering Owner: Construction Headquarters of Yangshan Deep-water Port Phase IV Project of Shanghai International Shipping Center
Keywords: Yangshan Port automated equipment intelligent system container terminals port engineering
Container Port Development in Shenzhen
Wen Keqin
Strategic Study of CAE 2003, Volume 5, Issue 10, Pages 20-26
This paper gives an introduction about the facilities, production and sea routes connecting containerinterdependent relationship between ports in Shenzhen and Hong Kong, and describes the future development of container
Keywords: Shenzhen container port current situation future development
Research on Rubber Tired Gantry Crane Scheduling of Port Container Terminal
Wei Zhong,Shen Jinsheng,Xiao Rongna,Zhang Zhiwen,Shi Dinghuan
Strategic Study of CAE 2007, Volume 9, Issue 8, Pages 47-51
With the coming of trade globalization, container transportation Port container terminal is much more emphasized than before as a node of container transportation At container terminal, rubber tired gantry crane has already been a bottleneck of terminal This paper studies the rubber tired gantry crane scheduling of port container terminal in the quantitative
Keywords: container terminal yard rubber tired gantry crane (RTGC) scheduling
He Yegang,Zhou Yuan
Strategic Study of CAE 2013, Volume 15, Issue 6, Pages 99-107
This article predicts the trends of container throughputs in Shanghai
Keywords: the Hengsha deepwater newport container throughputs Shanghai Port
Research and application of the containersense system based on IoT
Bao Qifan
Strategic Study of CAE 2011, Volume 13, Issue 3, Pages 19-23
Keywords: container logistics perceive IoT RFID
Discussion on the development orientation of Shanghai International Shipping Center
Che Jun,Ji Lan,Tang Lianbang
Strategic Study of CAE 2013, Volume 15, Issue 6, Pages 66-73
Keywords: Shanghai International Shipping Centre container hub port hard strength of port
The development formulation and reflection of ISO 18186 and some thinking
Bao Qifan
Strategic Study of CAE 2012, Volume 14, Issue 10, Pages 23-26
Keywords: international standard development container RFID(radio frequency identification)
3D Printing of Cell-Container-Like Scaffolds for Multicell Tissue Engineering Article
Xiaoya Wang, Meng Zhang, Jingge Ma, Mengchi Xu, Jiang Chang, Michael Gelinsky, Chengtie Wu
Engineering 2020, Volume 6, Issue 11, Pages 1276-1284 doi: 10.1016/j.eng.2020.08.001
Keywords: 3D cell containers Non-contact multicellular coculture Interactions Angiogenesis Osteogenesis
TEES: topology-aware execution environment service for fast and agile application deployment in HPC Research Article
Mingtian SHAO, Kai LU, Wanqing CHI, Ruibo WANG, Yiqin DAI, Wenzhe ZHANG
Frontiers of Information Technology & Electronic Engineering 2022, Volume 23, Issue 11, Pages 1631-1645 doi: 10.1631/FITEE.2100284
systems are about to reach a new height: exascale. is becoming an increasingly prominent problem. technology solves the problems of encapsulation and migration of applications and their . However, the image is too large, and deploying the image to a large number of compute nodes is time-consuming. Although the approach brings higher transmission efficiency, it introduces larger network load. All of these issues lead to high startup latency of the application. To solve these problems, we propose the topology-aware service (TEES) for fast and agile on HPC systems. TEES creates a more lightweight for users, and uses a more efficient topology-aware P2P approach to reduce deployment time. Combined with a split-step transport and launch-in-advance mechanism, TEES reduces application startup latency. In the Tianhe HPC system, TEES realizes the deployment and startup of a typical application on 17 560 compute nodes within 3 s. Compared to -based , the speed is increased by 12-fold, and the network load is reduced by 85%.
Keywords: Execution environment Application deployment High-performance computing (HPC) Container Peer-to-peer
Title Author Date Type Operation
Research on the Integrated Innovative Technology for the Modern Container Terminals of Shanghai Waigaoqiao
Bao Qifan,Wu Peng
Journal Article
Fully automatic container terminals of Shanghai Yangshan Port phase IV
Jack Xunjie LUO
Journal Article
Research on Rubber Tired Gantry Crane Scheduling of Port Container Terminal
Wei Zhong,Shen Jinsheng,Xiao Rongna,Zhang Zhiwen,Shi Dinghuan
Journal Article
The Hengsha deepwater newport is an important and basic facility to ensure the growth in container throughput
He Yegang,Zhou Yuan
Journal Article
Discussion on the development orientation of Shanghai International Shipping Center
Che Jun,Ji Lan,Tang Lianbang
Journal Article
3D Printing of Cell-Container-Like Scaffolds for Multicell Tissue Engineering
Xiaoya Wang, Meng Zhang, Jingge Ma, Mengchi Xu, Jiang Chang, Michael Gelinsky, Chengtie Wu
Journal Article