High performance fault-Tolerance for clouds

Dimosthenis Kyriazis; Vasileios Anagnostopoulos; Andrea Arcangeli; David Gilbert; Dimitrios Kalogeras; Ronen Kat; Cristian Klein; Panagiotis Kokkinos; Yossi Kuperman; Joel Nider; Petter Svard; Luis Tomas; Emmanuel Varvarigos; Theodora Varvarigou

doi:10.1109/ISCC.2015.7405524

High performance fault-Tolerance for clouds

Dimosthenis Kyriazis, Vasileios Anagnostopoulos, Andrea Arcangeli, David Gilbert, Dimitrios Kalogeras, Ronen Kat, Cristian Klein, Panagiotis Kokkinos, Yossi Kuperman, Joel Nider, Petter Svard, Luis Tomas, Emmanuel Varvarigos, Theodora Varvarigou

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

3 Scopus citations

Abstract

Cloud computing and virtualized infrastructures are currently the baseline environments for the provision of services in different application domains. While the number of service consumers increasingly grows, service providers aim at exploiting infrastructures that enable non-disruptive service provisioning, thus minimizing or even eliminating downtime. Nonetheless, to achieve the latter current approaches are either application-specific or cost inefficient, requiring the use of dedicated hardware. In this paper we present the reference architecture of a fault-Tolerance scheme, which not only enhances cloud environments with the aforementioned capabilities but also achieves high-performance as required by mission critical every day applications. To realize the proposed approach, a new paradigm for memory and I/O externalization and consolidation is introduced, while current implementation references are also provided.

Original language	English
Title of host publication	20th IEEE Symposium on Computers and Communication, ISCC 2015
Publisher	Institute of Electrical and Electronics Engineers
Pages	251-257
Number of pages	7
ISBN (Electronic)	9781467371940
DOIs	https://doi.org/10.1109/ISCC.2015.7405524
State	Published - 11 Feb 2016
Externally published	Yes
Event	20th IEEE Symposium on Computers and Communication, ISCC 2015 - Larnaca, Cyprus Duration: 6 Jul 2015 → 9 Jul 2015

Publication series

Name	Proceedings - IEEE Symposium on Computers and Communications
Volume	2016-February
ISSN (Print)	1530-1346

Conference

Conference	20th IEEE Symposium on Computers and Communication, ISCC 2015
Country/Territory	Cyprus
City	Larnaca
Period	6/07/15 → 9/07/15

Keywords

cloud computing
fault-Tolerance
high-performance
live-migration
resource consolidation

ASJC Scopus subject areas

Software
Signal Processing
General Mathematics
Computer Science Applications
Computer Networks and Communications

Access to Document

10.1109/ISCC.2015.7405524

Cite this

Kyriazis, D., Anagnostopoulos, V., Arcangeli, A., Gilbert, D., Kalogeras, D., Kat, R., Klein, C., Kokkinos, P., Kuperman, Y., Nider, J., Svard, P., Tomas, L., Varvarigos, E., & Varvarigou, T. (2016). High performance fault-Tolerance for clouds. In 20th IEEE Symposium on Computers and Communication, ISCC 2015 (pp. 251-257). Article 7405524 (Proceedings - IEEE Symposium on Computers and Communications; Vol. 2016-February). Institute of Electrical and Electronics Engineers. https://doi.org/10.1109/ISCC.2015.7405524

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title = "High performance fault-Tolerance for clouds",

abstract = "Cloud computing and virtualized infrastructures are currently the baseline environments for the provision of services in different application domains. While the number of service consumers increasingly grows, service providers aim at exploiting infrastructures that enable non-disruptive service provisioning, thus minimizing or even eliminating downtime. Nonetheless, to achieve the latter current approaches are either application-specific or cost inefficient, requiring the use of dedicated hardware. In this paper we present the reference architecture of a fault-Tolerance scheme, which not only enhances cloud environments with the aforementioned capabilities but also achieves high-performance as required by mission critical every day applications. To realize the proposed approach, a new paradigm for memory and I/O externalization and consolidation is introduced, while current implementation references are also provided.",

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author = "Dimosthenis Kyriazis and Vasileios Anagnostopoulos and Andrea Arcangeli and David Gilbert and Dimitrios Kalogeras and Ronen Kat and Cristian Klein and Panagiotis Kokkinos and Yossi Kuperman and Joel Nider and Petter Svard and Luis Tomas and Emmanuel Varvarigos and Theodora Varvarigou",

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doi = "10.1109/ISCC.2015.7405524",

language = "English",

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Kyriazis, D, Anagnostopoulos, V, Arcangeli, A, Gilbert, D, Kalogeras, D, Kat, R, Klein, C, Kokkinos, P, Kuperman, Y, Nider, J, Svard, P, Tomas, L, Varvarigos, E & Varvarigou, T 2016, High performance fault-Tolerance for clouds. in 20th IEEE Symposium on Computers and Communication, ISCC 2015., 7405524, Proceedings - IEEE Symposium on Computers and Communications, vol. 2016-February, Institute of Electrical and Electronics Engineers, pp. 251-257, 20th IEEE Symposium on Computers and Communication, ISCC 2015, Larnaca, Cyprus, 6/07/15. https://doi.org/10.1109/ISCC.2015.7405524

High performance fault-Tolerance for clouds. / Kyriazis, Dimosthenis; Anagnostopoulos, Vasileios; Arcangeli, Andrea et al.
20th IEEE Symposium on Computers and Communication, ISCC 2015. Institute of Electrical and Electronics Engineers, 2016. p. 251-257 7405524 (Proceedings - IEEE Symposium on Computers and Communications; Vol. 2016-February).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

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AU - Kalogeras, Dimitrios

AU - Kat, Ronen

AU - Klein, Cristian

AU - Kokkinos, Panagiotis

AU - Kuperman, Yossi

AU - Nider, Joel

AU - Svard, Petter

AU - Tomas, Luis

AU - Varvarigos, Emmanuel

AU - Varvarigou, Theodora

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AB - Cloud computing and virtualized infrastructures are currently the baseline environments for the provision of services in different application domains. While the number of service consumers increasingly grows, service providers aim at exploiting infrastructures that enable non-disruptive service provisioning, thus minimizing or even eliminating downtime. Nonetheless, to achieve the latter current approaches are either application-specific or cost inefficient, requiring the use of dedicated hardware. In this paper we present the reference architecture of a fault-Tolerance scheme, which not only enhances cloud environments with the aforementioned capabilities but also achieves high-performance as required by mission critical every day applications. To realize the proposed approach, a new paradigm for memory and I/O externalization and consolidation is introduced, while current implementation references are also provided.

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ER -

High performance fault-Tolerance for clouds

Abstract

Publication series

Conference

Keywords

ASJC Scopus subject areas

Access to Document

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