A switch device is configured to communicate with a plurality of hosts and a solid state drive (SSD). The plurality of hosts includes a first host and a second host. The switch device receives a first memory access command from the SSD, the first memory access command including an indication of the first host to indicate the first memory access command is intended for the first host. The switch device uses the indication of the first host in the first memory access command to route the first memory access command to the first host. The switch device removes the indication of the first host from the first memory access command prior to sending the first memory access command to the first host via a peripheral computer interface express (PCIe) interface of the switch device.

Techniques are provided for orchestrating operations between a storage environment and a computing environment hosting virtual machines. A virtual machine proxy, associated with a computing environment hosting a virtual machine, is accessed by an orchestrator to identify the virtual machine and properties of the virtual machine. A storage proxy, associated with a storage environment comprising a volume within which snapshots of the virtual machine are to be stored, is accessed by the orchestrator to initialize a backup procedure. The orchestrator utilizes the virtual machine proxy to create a snapshot of the virtual machine. The orchestrator utilizes the storage proxy to back up the snapshot to the volume using the backup procedure.

A virtualized system includes a nonvolatile memory device, a processing circuitry configured to provide a virtualization environment, implement a plurality of virtual units and implement a virtual unit manager. The virtual units operate independently of each other in the virtualization environment and perform a flash translation layer operation inside the virtual units. The flash translation layer operation includes converting a logical block address associated with a storage access operation of the nonvolatile memory device to a physical block address of the nonvolatile memory device. The virtual unit manager controls the virtual units in the virtualization environment.

An in-place data recovery method and system include receiving a user request to restore a virtual machine to a version corresponding to a first point in time, identifying a first snapshot of the virtual machine based on the user request, generating a second snapshot of the virtual machine, identifying a second data block in the second snapshot that includes modified data derived from data content of a first data block in the first snapshot, generating reverse incremental backup data including the first data block, and restoring the virtual machine in-place based on the reverse incremental backup data.

In one embodiment, a system for managing a virtualization environment includes a plurality of host machines, wherein each of the host machines comprises a hypervisor and one or more user virtual machines (user VMs), and a virtual machine controller, one or more virtual disks comprising a plurality of storage devices, a virtualized file server (VFS) comprising a plurality of file server virtual machines (FSVMs), wherein each of the FSVMs is running on one of the host machines. The VFS may be configured to receive a request for storage system information from a user and generate and send a response to the request, wherein the response is customized according to configuration information of the VFS that is specific to the user. The storage system information requested may include a total size of storage available to the user, and the user may have an associated storage quota limit.

A Random Read Miss (RRM) distribution process monitors execution parameters of first, second, and third emulations of a storage engine, and distributes newly received read operations between the emulations. The RRM distribution process assigns newly received read operations to the first emulation, unless the CPU thread usage of the first emulation or the response time of the first emulation meet a first set of criteria. The RRM distribution process secondarily assigns newly received read operations to the second emulation, unless the CPU thread usage of the second emulation or the response time of the second emulation meet a second set of criteria. The RRM distribution process assigns all other newly received newly received read operations, that are not assigned to the first emulation or to the second emulation, to the third emulation. Distribution of read IOs between the emulations enables the storage engine to increase IOPs while minimizing response time.

The present disclosure is related to methods, systems, and machine-readable media for force provisioning virtual objects in degraded stretched clusters. A request to provision a virtual object by a stretched cluster according to a storage policy specified as part of the request can be received by a software defined data center (SDDC). The cluster can include a plurality of sites. An insufficiency of storage policy resources to satisfy the storage policy specified for the virtual object can be determined. The virtual object can be force provisioned responsive to determining storage policy resources sufficient to satisfy the storage policy at one of the plurality of sites.

An information handling system includes a virtual network access module configured to access a virtual network drive that has a first partition in a local storage resource and a second partition in a remote storage resource. In response to detection of an exception, a processor may trigger an exception handler that directs a service processor to initialize a network stack. The processor initializes a mailbox to transmit a mailbox request to retrieve network configuration settings to be used in the initialization of the network stack. The service processor transmits a request to the processor to initialize the mailbox, and initializes the network stack based on the network configuration settings. Subsequent to the initialization of the network stack, a universal network device interface request may be sent to mount and secure communication with the virtual network drive.

One embodiment relates to a memory structure that includes a bank group and a port emulation circuit module. The bank group includes a plurality of memory banks, each memory bank having one read port and one write port. The port emulation circuit module provides a group read/write port and a group read port for the bank group. Another embodiment relates to a port emulation circuit module. The port emulation circuit module includes a port emulation control circuit that receives control signals including a first address for a group read/write port and a second address for a group read port, a first data path circuit for the group read/write port, and a second data path circuit for the group read port, wherein the second data path circuit outputs a second read data. Other embodiments and features are also disclosed.

A method and apparatus in a virtualization system may include using a storage policy that defines a storage characteristic to specify a datastore. The storage policy may be used to identify candidate datastores. A datastore may be selected from the candidates. The datastore can therefore be identified without the user having to identify the datastore directly, but rather indirectly by way of a storage characteristic defined by a storage policy.