This paper describes the configuration of a power saving and high availability server system achieved by the compound operation of a power saving server system (PSS) and a multiple server backup system (MSBS) that can operate independently. The PSS sh ifts the
system configuration to either a normal condition or a power saving condition according to server loads. In the power saving condition,
the proposed method has two server configurations. In the first, the servers providing services to clients are configured redundantly, and in
the second they are not. Furthermore, a dynamic server recovery system that manages real servers is proposed in addition to a dynamic
backup server system (DBSS) that manages a virtual server in the MSBS. Therefore, if real s ervers have trouble, recovery operations are
automatic and prevent access disruption for the client. In the compound operation, the MSBS needs status information on confi guration
changes in the server system made by the PSS, and the PSS needs to execute th e DBSS during the configuration change. Thus, a system
interface, which has the functions of bi directional control of the PSS and MSBS, is proposed to enhance the functions of the
management program in the PSS and MSBS. In addition, an experimental server system incorporating the proposed method was
constructed. In the power saving condition, the proposed system operated at 70% of power consumption of the normal condition when
virtual servers were configured redundantly, and operated at 40% when a non redu ndant configuration was used. Experiments were
conducted to reproduce several types of trouble in the virtual server or the real server in a server configuration under both normal and
power saving conditions. The proposed system is shown to have high avail ability in either condition.
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