Abstract: A method and a system for simultaneously mirroring of one or many data objects from one or many local storage devices (SDL) to one or many remote storage devices (SDRx). The one or many data objects may be used during mirroring. A mirroring functionality includes the application of a succession of freeze and copy procedures repeated sequentially in successive mirroring cycles. Only the last local updated mirrored version is saved in the remote storage device(s). Each new updated version overwrites the previous version. Mirroring is performed asynchronously in the background by freezing and copying successive discrete blocks of data. The mirroring functionality is operable to perform more than one mirroring operation simultaneously as well as simultaneous cross-mirroring.

Abstract: A distributed architecture for the virtualization of storage capacity in a Storage Area Network (SAN) and for the management of virtual and physical memory is described. There is provided a virtualization software computer program consisting of two portions, namely virtualization and translation, each portion residing in a different location but both portions operating interactively. A SAN coupling an array of hosts (1) via a Network Switch (2) to an array of storage devices (4) is equipped with a Storage Virtualization Manager (3). The SVM operating the virtualization computer software handles physical storage capacity virtualization and metadata management. The Network Switch routes storage I/O operations between the hosts and the storage devices, while the translation software resides in a processor, in either a host or elsewhere on the Network Switch SAN.

Abstract: A method for the binary zoning of a Storage Area Network (SAN) for security is disclosed, for a SAN with physical devices consisting of a first array of hosts (1) and a second array of storage devices (4), and a SAN Switch (2, 2A) coupled intermediate the hosts and the storage devices. The SAN Switch routes I/O commands and accepts zoning commands. The method is based on starting operation of the SAN with mutually isolated physical devices and accepting zoning commands only after running security verification procedures requiring that hosts be authenticated and that storage devices be identified. Zoning is dynamically controlled from a workstation (8) operated by a System Administrator entering meta-zoning instructions which are used to automatically program the zoning of the SAN Switch for legitimate physical devices. The method is implemented for security and booting of a SAN.

Abstract: A distributed architecture for the virtualization of storage capacity in a Storage Area Network (SAN) and for the management of virtual and physical memory is described. There is provided a virtualization software computer program consisting of two portions, namely virtualization and translation, each portion residing in a different location but both portions operating interactively. A SAN coupling an array of hosts (1) via a Network Switch (2) to an array of storage devices (4) is equipped with a Storage Virtualization Manager (3). The SVM operating the virtualization computer software handles physical storage capacity virtualization and metadata management. The Network Switch routes storage I/O operations between the hosts and the storage devices, while the translation software resides in a processor, in either a host or elsewhere on the Network Switch SAN.