A method is provided in one example embodiment and includes receiving by a network element a request from a network device connected to the network element to update a shared resource maintained by the network element; subsequent to the receipt, identifying a Base Address Register Resource Table (“BRT”) element assigned to a Peripheral Component Interconnect (“PCI”) adapter of the network element associated with the network device, wherein the BRT points to the shared resource; changing an attribute of the identified BRT from read-only to read/write to enable the identified BRT to be written by the network device; and notifying the network device that the attribute of the identified BRT has been changed, thereby enabling the network device to update the shared resource via a Base Address Register (“BAR”) comprising the identified BRT.

Aspects of the embodiments are directed to receiving an address resolution protocol (ARP) request message from a requesting virtual machine, the ARP request message comprising a request for a destination address for a destination virtual machine, wherein the destination address comprises one or both of a destination hardware address or a destination media access control address; augmenting the ARP request message with a network service header (NSH), the NSH identifying an ARP service function; and forwarding the augmented ARP request to the ARP service function.

A method for de-duplicating updates in virtual machines (VMs) is provided that may be executed on a host computer using a hypervisor. Client VMs are derived from a base image, and the method includes: creating a temporary virtual machine, updating the temporary virtual machine, identifying modified blocks of the updated temporary virtual machine, and identifying files associated with the modified blocks. Moreover, the method includes determining block identifiers of matching files of a VM corresponding to identified files of the updated temporary VM, moving block content of blocks relating to the determined block identifiers from its initial location to a free location within the client VM if the block content and the matching files are not identical in the client virtual machine and the temporary VM, and de-duplicating content within the client VM, generating a complete bootable image, and replacing the base image by the temporary VM.

One example method includes chunking a respective disk of each of a plurality of virtual machines (VM) to create a respective plurality of chunks associated with each of the VMs, creating, based on the chunking process, a cluster comprising one or more of the VMs, creating a VM template whose data and disk structure match respective data and disk structures of each of the VMs in the cluster, and in response to a file operation involving a first one of the VM disks, defragmenting the first VM disk so that a disk structure of the first VM disk is the same as a disk structure of the VM template.

A vehicle control device that: judges a state of a vehicle; structures a plurality of VMs that control equipment installed in the vehicle; and in accordance with the state of the vehicle, switches an order of carrying out activation or stoppage of the plurality of VMs.

Systems, apparatuses, and methods related to a virtual machine register in a computer processor are described. For example, a memory coupled to the computer processor can store instructions of routines of predefined, non-hierarchical domains. The computer processor can store, in the virtual machine register, an identifier of a virtual machine for which the processor is currently executing instructions in a current domain in the set of domains. For example, the processor can implement resource restriction/mapping and/or perform address translation for the virtual machine based on the identifier stored in the virtual machine register.

Systems and methods for ensuring that data received from a virtual device is random are provided. A processing device may be used to generate, by a virtual device executing on a hypervisor, data intended for a virtual machine (VM) having a guest memory that includes one or more encrypted pages and one or more unencrypted pages. Data written to an encrypted page of the guest memory by the VM is encrypted using an encryption key assigned to the VM and information read from the encrypted page by the VM is decrypted using the encryption key. The hypervisor may write the data to the encrypted page, wherein the data is not encrypted by the encryption key assigned to the VM because it is written by the hypervisor. The VM reads the data from the encrypted page as randomized data because it cannot be properly decrypted by the encryption key.

Provided are a method, apparatus, and device for generating a bare metal server Linux system image, and a memory medium. The method includes: analyzing a received bare metal server Linux system image generation request so as to obtain a target configuration parameter of a target bare metal server Linux system image to be generated and a target operating system model; selecting, from a redundant array of independent disks driver library, a target redundant array of independent disks driver that matches the target configuration parameter and the target operating system model; adding the target redundant array of independent disks driver to a boot file of a virtual machine to generate a target boot file; and exporting, from the virtual machine, a virtual machine disk image file containing the target boot file, as the target bare metal server Linux system image.

Systems, apparatuses, and methods for performing efficient translation lookaside buffer (TLB) invalidation operations for splintered pages are described. When a TLB receives an invalidation request for a specified translation context, and the invalidation request maps to an entry with a relatively large page size, the TLB does not know if there are multiple translation entries stored in the TLB for smaller splintered pages of the relatively large page. The TLB tracks whether or not splintered pages for each translation context have been installed. If a TLB invalidate (TLBI) request is received, and splintered pages have not been installed, no searches are needed for splintered pages. To refresh the sticky bits, whenever a full TLB search is performed, the TLB rescans for splintered pages for other translation contexts. If no splintered pages are found, the sticky bit can be cleared and the number of full TLBI searches is reduced.

In one embodiment, a method of selectively reserving portions of a last level cache (LLC) for a multi-core processor, the method comprising: allocating, by an executive system, plural classes of service to the portions of the LLC, wherein the portions comprise ways, and wherein each of the plural classes of service are allocated to one or more of the ways; assigning, by the executive system, one of the plural classes of service to an application as a default class of service, wherein the assignment controls which of the ways the application can allocate into; and overriding, by the application, the default class of service to enable allocation by the application to the one or more of the ways associated with a non-default class of service.