| Patent application number | Description | Published |
|---|
| 20090307377 | Arrangements for I/O Control in a Virtualized System - A method for controlling input and output of a virtualized computing platform is disclosed. The method can include creating a device interface definition, assigning an identifier to a paging device and configuring commands useable by a virtual input output server. The commands can be sent to the input output server and can be converted by the input output server into paging device commands. A hypervisor can assist in facilitating the communication configuration. Other embodiments are also disclosed. | 12-10-2009 |
| 20090307396 | Hypervisor to I/O Stack Conduit in Virtual Real Memory - Provided is conduit configured such that a hypervisor does not need to include logic for communicating directly with an I/O storage device. A virtual Asynchronous Service Interface (VASI) is the interface between a Command/Response Queue (CRQ), which receives CRQ commands from the hypervisor, and a Common Data-Link Interface (CDLI) of a Forwarder. The Forwarder receives I/O commands in a format associated with the CDLI and converts the commands into a generic I/O format understood by a Virtual Block Storage Device (VBSD). The reformatted command is transmitted to the VBSD, which issues commands to the native I/O stack. The hypervisor sends a read or write (R/W) request Lo the VASI, which passes the request to the Forwarder. The Forwarder converts the request and transmits the converted request to the VBSD. The VBSD transmits the request to the block storage device and returns the response to the Forwarder. The Forwarder replies to the request from the VASI with the response from the ABSD. The VASI then responds to the hypervisor. Also provided is an operation-specific module responsible for understanding and the intelligent processing of data that is transmitted between the hypervisor and the I/O stack. | 12-10-2009 |
| 20090307435 | Distributed Computing Utilizing Virtual Memory - A method for distributed computing utilizing virtual memory is disclosed. The method can include identifying a first node to process an application, identifying paging space accessible to the first node, identifying a second node to share paged data with the first node, and transacting the paged data between the first node and the identified paging space. Thus, application processing results from the first node can be stored in paging space and a second node can retrieve the first result from the paging space such that the paging space can be shared between nodes. Other embodiments are also disclosed. | 12-10-2009 |
| 20090307444 | Systems and Methods For Virtualizing Storage For WPAR Clients Using Node Port ID Virtualization - Systems, methods and media for providing to a plurality of WPARs private access to physical storage connected to a server through a VIOS are disclosed. In one embodiment, a server is logically partitioned to form a working partition comprising a WPAR manager and individual WPARs. Each WPAR is assigned to a different virtual port. The virtual ports are created by using NPIV protocol between the WPAR and VIOS. Thereby, each WPAR has private access to the physical storage connected to the VIOS. | 12-10-2009 |
| 20090307457 | Systems and Methods for Entitlement of Virtual Real Memory for Applications - Systems, methods and media for dynamic reallocation of memory to an application, the memory from a pool of virtual real memory allocated to a virtual client that executes the application are disclosed. In one embodiment, a virtual client is allocated a pool of virtual real memory. A subset of this pool of virtual real memory is a block of memory allocated for use by an application. The allocation may be stated as a range of allocated memory with an upper and lower limit. The application calls a kernel service when it thinks it needs a new allocation of memory. The new allocation is established by a power hypervisor connected to the virtual client. Memory is exported by way of a Paging Space Partition. | 12-10-2009 |
| 20090307460 | Data Sharing Utilizing Virtual Memory - A method for sharing memory locations in a virtual memory system is disclosed. The method can include processing instructions and accessing data utilizing a virtual memory system with a paging device that is accessible by multiple clients. The method can also include configuring a first client to access the paging device, configuring a second client to access the paging device and allowing the first and second client to access the paging device via a virtual input output server. Other embodiments are also disclosed. | 12-10-2009 |
| 20090307687 | Systems and methods for application mobility using virtual real memory services - Systems, methods and media for sharing an application among multiple server systems are disclosed. In one embodiment, the application is stored on a fast disk paging device. The paging device is in communication with each of a plurality of servers so that each server may be given access to the application. Virtual real memory (VRM) is allocated to a first virtual client of the first server. A portion of this VRM is allocated to the application. The application is executed by a virtual client of a first server. During execution a condition may occur that requires taking the first server off line. In that event, VRM is allocated to a second virtual client of a second server. A portion of this VRM is allocated to the application. The application is then executed by the second virtual client of the second server. | 12-10-2009 |
| 20090307716 | Block storage interface for virtual memory - A method for interfacing block storage devices is disclosed. The method can include receiving communications from an initiator at a block storage device interface, translating the received communications, transmitting the translated communications to a native storage device driver, forwarding the translated communication to a physical adapter, and controlling physical storage devices in response to the communications received from the initiator. Other embodiments are also disclosed | 12-10-2009 |
| 20110093679 | Identifying Dynamically Changing Virtual Storage Devices - Mechanisms are provided for detecting changes in virtual storage device configurations. The mechanisms detect an event corresponding to a change in configuration of a virtual storage device. The virtual storage device is comprised of a plurality of portions of a plurality of physical storage devices. The mechanisms further, in response to detecting the event, determine if the change in configuration of the virtual storage device results in a change in the types of physical storage devices that are part of the virtual storage device. Moreover, the mechanisms further transmit a notification, in response to a determination that the change in configuration of the virtual storage device results in a change in the types of physical storage devices that are part of the virtual storage device, of the results of the change in configuration of the virtual storage device to one or more registered recipients registered to receive such notifications. | 04-21-2011 |
| 20110154133 | TECHNIQUES FOR ENHANCING FIRMWARE-ASSISTED SYSTEM DUMP IN A VIRTUALIZED COMPUTER SYSTEM EMPLOYING ACTIVE MEMORY SHARING - A technique for performing a system dump in a data processing system that implements active memory sharing includes assigning, via a hypervisor, a logical partition to a portion of a shared memory. One or more virtual block storage devices are also assigned by the hypervisor to the logical partition to facilitate active memory sharing of the shared memory. When a hypervisor-aided firmware-assisted system dump is indicated and a failure of the logical partition is detected, firmware initiates a system dump of information from the assigned portion of the shared memory to the one or more virtual block storage devices. An operating system of the logical partition is rebooted when enough of the assigned portion of the shared memory is freed to facilitate a reboot of the operating system and the hypervisor-aided firmware-assisted system dump is indicated. | 06-23-2011 |
