Apparatus and method for failover detection
First Claim
1. A method for automatic failover from a master component on a first adapter in a computer peripheral enclosure to a redundant component on a second adapter in the computer peripheral enclosure, the method comprising:
- detecting a failure of the master component on the first adapter;
enabling the redundant component on the second adapter in response to the detecting step; and
selectively activating one or more repeaters, each repeater selectively linking one of a plurality of connectors to at least one of the adapters.
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Accused Products
Abstract
A device and method for a peripheral adapter of a dual SCSI bus enclosure is described. An adapter can operate alone or in pairs to provide different modes of operation, including simplex, duplex, and cluster. When used in pairs, two adapters interconnect internally to the enclosure through internal cross-coupling bus repeaters that can be selectively enabled or disabled. The adapters are hot-swappable and have the ability to automatically self configure. In the cluster mode, the adapter supports failover capability from a master adapter to a redundant adapter.
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Citations
18 Claims
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1. A method for automatic failover from a master component on a first adapter in a computer peripheral enclosure to a redundant component on a second adapter in the computer peripheral enclosure, the method comprising:
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detecting a failure of the master component on the first adapter;
enabling the redundant component on the second adapter in response to the detecting step; and
selectively activating one or more repeaters, each repeater selectively linking one of a plurality of connectors to at least one of the adapters. - View Dependent Claims (2)
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3. A computer peripheral adapter for use in a computer peripheral enclosure containing a plurality of internal buses, the adapter containing:
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a host connector that is capable of connecting externally to external computer equipment;
a plurality of peripheral connectors, each peripheral connector capable of connecting internally to one of the plurality of internal buses in the enclosure, wherein each peripheral connector is linked to the host connector; and
selectively activating one or more peripheral repeaters, each peripheral repeater selectively linking one of a plurality of connectors to the host connector. - View Dependent Claims (4, 5, 6, 7, 8)
a host repeater connected to the host connector and linking the host connector to the plurality of peripheral connectors.
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7. The adapter of claim 3 wherein the adapter is an adapter board.
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8. The adapter of claim 3 wherein the adapter is hot-swappable.
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9. A computer peripheral enclosure comprising:
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a plurality of internal buses;
a first adapter comprising; and
a first external connector that is capable of connecting externally to external computer equipment; and
a plurality of first peripheral connectors, each first peripheral connector capable of connecting internally to one of the plurality of internal buses in the enclosure, wherein each first peripheral connector is linked to the first external connector;
selectively activating one or more peripheral repeaters, each peripheral repeater selectively linking one of a plurality of first peripheral connectors to the first external connector. - View Dependent Claims (10, 11, 12, 13, 14, 15, 16, 17, 18)
a plurality of peripherals, each peripheral connected to one of the plurality of internal buses.
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12. The enclosure of claim 11 wherein the plurality of peripherals comprises a disk drive.
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13. The enclosure of claim 9 wherein the first adapter further comprises a host repeater connected to the first external connector and linking the first external connector to the plurality of first peripheral connectors.
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14. The enclosure of claim 9 further comprising:
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a second adapter comprising;
a second external connector that is capable of connecting externally to external computer equipment; and
a plurality of second peripheral connectors, each second peripheral connector capable of connecting internally to one of the plurality of internal buses in the enclosure, wherein each second peripheral connector is linked to the second external connector.
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15. The enclosure of claim 14 wherein the first adapter comprises a master component and the second adapter comprises a redundant component.
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16. The enclosure of claim 14 wherein a first subset of the plurality of internal buses is connected to a respective subset of the first peripheral connectors on the first adapter, and a second subset of the plurality of internal buses is connected to a respective subset of the second peripheral connectors on the second adapter.
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17. The enclosure of claim 16 wherein the first subset and the second subset are intersecting.
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18. The enclosure of claim 14 further comprising:
a communication channel between the first adapter and the second adapter.
Specification