TY - GEN
T1 - SSD-HDD-hybrid virtual disk in consolidated environments
AU - Jo, Heeseung
AU - Kwon, Youngjin
AU - Kim, Hwanju
AU - Seo, Euiseong
AU - Lee, Joonwon
AU - Maeng, Seungryoul
PY - 2010
Y1 - 2010
N2 - With the prevalence of multi-core processors and cloud computing, the server consolidation using virtualization has increasingly expanded its territory, and the degree of consolidation has also become higher. As a large number of virtual machines individually require their own disks, the storage capacity of a data center could be exceeded. To address this problem, copy-on-write storage systems allow virtual machines to initially share a template disk image. This paper proposes a hybrid copy-on-write storage system that combines solid-state disks and hard disk drives for consolidated environments. In order to take advantage of both devices, the proposed scheme places a read-only template disk image on a solid-state disk, while write operations are isolated to the hard disk drive. In this hybrid architecture, the disk I/O performance benefits from the fast read access of the solid-state disk, especially for random reads, precluding write operations from the degrading flash memory performance. We show that the hybrid virtual disk, in terms of performance and cost, is more effective than the pure copy-on-write disks for a highly consolidated system.
AB - With the prevalence of multi-core processors and cloud computing, the server consolidation using virtualization has increasingly expanded its territory, and the degree of consolidation has also become higher. As a large number of virtual machines individually require their own disks, the storage capacity of a data center could be exceeded. To address this problem, copy-on-write storage systems allow virtual machines to initially share a template disk image. This paper proposes a hybrid copy-on-write storage system that combines solid-state disks and hard disk drives for consolidated environments. In order to take advantage of both devices, the proposed scheme places a read-only template disk image on a solid-state disk, while write operations are isolated to the hard disk drive. In this hybrid architecture, the disk I/O performance benefits from the fast read access of the solid-state disk, especially for random reads, precluding write operations from the degrading flash memory performance. We show that the hybrid virtual disk, in terms of performance and cost, is more effective than the pure copy-on-write disks for a highly consolidated system.
KW - Consolidation
KW - Copy-on-write (CoW)
KW - Hybrid storage
KW - Virtual machine (VM)
UR - https://www.scopus.com/pages/publications/77954573772
U2 - 10.1007/978-3-642-14122-5_43
DO - 10.1007/978-3-642-14122-5_43
M3 - Conference contribution
AN - SCOPUS:77954573772
SN - 3642141218
SN - 9783642141218
T3 - Lecture Notes in Computer Science (including subseries Lecture Notes in Artificial Intelligence and Lecture Notes in Bioinformatics)
SP - 375
EP - 384
BT - Euro-Par 2009 Parallel Processing Workshops - HPPC, HeteroPar, PROPER, ROIA, UNICORE, VHPC, Workshops
T2 - Workshop on Highly Parallel Processing, Euro-Par 2009
Y2 - 25 August 2009 through 28 August 2009
ER -