RAID system having channel capacity unaffected by any single component failure
First Claim
1. The process of maintaining the channel capacity of a RAID system having storage array controllers which control direct access storage devices (DASD) and which generate a binary signal termed a heartbeat when the storage array controllers are operational when an active storage array controller fails comprising the steps of:
- a. ceasing the emission of the heartbeat by a defective active storage array controller, b. detecting the cessation of the heartbeat by a defective active storage array controller and emission of an activation signal by a reporter active storage array controller, c. detecting the activation signal by a passive storage array controller and assuming the identity of the defective active storage array controller by the passive storage array controller, d. identifying the DASD of the defective storage array controller by the passive storage controller using a table on each DASD, e. assuming control of the DASD of the defective storage array controller by the passive storage controller.
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Accused Products
Abstract
The RAID system of this invention is able to function with undiminished capacity despite the failure of any one DASD, connector, or storage array controller. A signal is produced when any component fails, thereby alerting the operator of the need to replace the failed component. The reliability of this RAID system is achieved by using two connectors for each connection, by using a spare DASD for each channel of DASD, and by providing a passive storage array controller able to assume the identify of and take over the control of the DASD controlled by a failed storage array controller. This is a reliable, inexpensive system for achieving unprecedented reliability in the storage and delivery of data.
51 Citations
2 Claims
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1. The process of maintaining the channel capacity of a RAID system having storage array controllers which control direct access storage devices (DASD) and which generate a binary signal termed a heartbeat when the storage array controllers are operational when an active storage array controller fails comprising the steps of:
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a. ceasing the emission of the heartbeat by a defective active storage array controller, b. detecting the cessation of the heartbeat by a defective active storage array controller and emission of an activation signal by a reporter active storage array controller, c. detecting the activation signal by a passive storage array controller and assuming the identity of the defective active storage array controller by the passive storage array controller, d. identifying the DASD of the defective storage array controller by the passive storage controller using a table on each DASD, e. assuming control of the DASD of the defective storage array controller by the passive storage controller. - View Dependent Claims (2)
f. emitting a defective storage array controller signal by the reporter storage array controller or the passive storage array controller.
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Specification