A Cyber Laboratory for Device Dependent Hardware Experiments in a Hybrid Cloud

Nobuhiko Koike

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Paper

A Cyber Laboratory for Device Dependent Hardware Experiments in a Hybrid Cloud

Topics: Cloud-Based Learning and Assessment; e-Learning Hardware and Software; Virtual Labs and Virtual Classrooms

In Proceedings of the 6th International Conference on Computer Supported Education - Volume 2: CSEDU, 440-445, 2014 , Barcelona, Spain

Author: Nobuhiko Koike

Affiliation: Hosei University, Japan

Keyword(s): Remote Laboratory, Hardware Logic Design, Cloud Computing.

Related Ontology Subjects/Areas/Topics: Cloud-Based Learning and Assessment ; Computer-Supported Education ; e-Learning ; e-Learning Hardware and Software ; Ubiquitous Learning ; Virtual Labs and Virtual Classrooms

Abstract: The paper proposes a cyber laboratory in the form of a hybrid cloud, where the actual laboratory and the remote laboratory are combined. At the existing physical experiment laboratory, the limitation of the number of experimental devices for FPGA hardware design course resulted in platform usage congestions and extended laboratory hours. Migration to the cloud should be the natural solution. However, existing devices such as FPGA evaluation devices and Logic analyzers became obstacles to migrate to public clouds. The proposed system combines an On-Premise private cloud organized by laboratory platforms to perform device dependent services, and a public cloud where remaining design, development and evaluation stages, are carried out in the form of a PaaS (Platform as a Service). The design and experiment tasks should be modified accordingly to accommodate CAD tools in the set of the Web Services. Existing faculty database server and educational support system combine the private cloud , the public cloud and the faculty servers, in a seamless way. Students can migrate to and from laboratories at any design stages. As the device dependent tasks have been implemented in the Web Services, efficient sharing of platforms can be achieved in space and time sharing fashions. The public cloud ensures a scalable increase and decrease in server machines according to the student usages and seasonal load changes. The laboratory managing software takes care of the allocation and migration of student Virtual-Machines between the On-Premise private cloud and the public cloud. It can also accommodate the BYOD (Bring Your Own Device) style student usage, by preparing three different access methods: student side BYOD applications, the Web accesses and remote desktop connections. The hybrid cloud approach achieves a scalable realization of the cyber laboratory suitable for the BYOD style experiments, where efficient sharing of On-Premise laboratory platforms can be realized in the mixed use of actual and remote laboratories. (More)

The paper proposes a cyber laboratory in the form of a hybrid cloud, where the actual laboratory and the remote laboratory are combined. At the existing physical experiment laboratory, the limitation of the number of experimental devices for FPGA hardware design course resulted in platform usage congestions and extended laboratory hours. Migration to the cloud should be the natural solution. However, existing devices such as FPGA evaluation devices and Logic analyzers became obstacles to migrate to public clouds. The proposed system combines an On-Premise private cloud organized by laboratory platforms to perform device dependent services, and a public cloud where remaining design, development and evaluation stages, are carried out in the form of a PaaS (Platform as a Service). The design and experiment tasks should be modified accordingly to accommodate CAD tools in the set of the Web Services. Existing faculty database server and educational support system combine the private cloud, the public cloud and the faculty servers, in a seamless way. Students can migrate to and from laboratories at any design stages. As the device dependent tasks have been implemented in the Web Services, efficient sharing of platforms can be achieved in space and time sharing fashions. The public cloud ensures a scalable increase and decrease in server machines according to the student usages and seasonal load changes. The laboratory managing software takes care of the allocation and migration of student Virtual-Machines between the On-Premise private cloud and the public cloud. It can also accommodate the BYOD (Bring Your Own Device) style student usage, by preparing three different access methods: student side BYOD applications, the Web accesses and remote desktop connections. The hybrid cloud approach achieves a scalable realization of the cyber laboratory suitable for the BYOD style experiments, where efficient sharing of On-Premise laboratory platforms can be realized in the mixed use of actual and remote laboratories.

CC BY-NC-ND 4.0

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Paper citation in several formats:

Koike, N. (2014). A Cyber Laboratory for Device Dependent Hardware Experiments in a Hybrid Cloud. In Proceedings of the 6th International Conference on Computer Supported Education - Volume 2: CSEDU; ISBN 978-989-758-020-8; ISSN 2184-5026, SciTePress, pages 440-445. DOI: 10.5220/0004942504400445

@conference{csedu14,
author={Nobuhiko Koike.},
title={A Cyber Laboratory for Device Dependent Hardware Experiments in a Hybrid Cloud},
booktitle={Proceedings of the 6th International Conference on Computer Supported Education - Volume 2: CSEDU},
year={2014},
pages={440-445},
publisher={SciTePress},
organization={INSTICC},
doi={10.5220/0004942504400445},
isbn={978-989-758-020-8},
issn={2184-5026},
}

TY - CONF

JO - Proceedings of the 6th International Conference on Computer Supported Education - Volume 2: CSEDU
TI - A Cyber Laboratory for Device Dependent Hardware Experiments in a Hybrid Cloud
SN - 978-989-758-020-8
IS - 2184-5026
AU - Koike, N.
PY - 2014
SP - 440
EP - 445
DO - 10.5220/0004942504400445
PB - SciTePress