VirtualLogix SA Patent applications |
Patent application number | Title | Published |
20110119422 | SCHEDULING SYSTEM - The present invention provides a scheduling method for a data processing system comprising at least one physical CPU, and one or more virtual machines each assigned to one or more virtual CPUs, the method comprising: a first scheduling step in which one of said virtual machines is elected to run on said physical CPU; and a second scheduling step in which at least one of the virtual CPUs assigned to the elected virtual machine is elected to run on said physical CPU. The second scheduling step is applied to the virtual machine only. When a virtual machine instance is elected to run on a given CPU, the second level scheduling determines the virtual CPU instance to run. The second level scheduling is global and can cause a virtual CPU migration from one physical CPU to another. In order to ensure correct task scheduling at guest level, virtually equivalent (in terms of calculation power) virtual CPUs should be provided to the scheduler. This is achieved by the second level scheduler using a virtual CPU election criteria based on time statistics. | 05-19-2011 |
20100162242 | Virtual Machine Monitor - A method for managing virtual machines, the method comprising providing a virtual Advanced Configuration and Power Interface, ACPI, arranged to interact with the virtual machines, and interacting with a real ACPI based on interaction between the virtual ACPI and the plurality of virtual machines. (FIG. | 06-24-2010 |
20100088757 | VIRTUALIZED SECURE NETWORKING - The invention provides a data processing system for the support of secure networking on a single, virtualized hardware platform. The data processing system comprises a Network Interface Controller NIC to control access to a physical network; a first operating system comprising an NIC driver to manage the NIC, and a first Virtual Network Interface Controller VNIC driver. The system further comprises at least one second operating system comprising at least one second VNIC driver associated with a networking stack; and a Virtual Machine Monitor VMM to enable concurrent operation of the first and second operating systems, and to emulate a virtual network, the VMM comprising first and second VNICs to provide access to the virtual network by the first and second operating systems through the first and second VNIC drivers, respectively. The first operating system further comprises a bridge driver in between the NIC driver and the first VNIC driver to manage the connection between the physical network and the virtual network. | 04-08-2010 |
20100031325 | SYSTEM FOR ENABLING MULTIPLE EXECUTION ENVIRONMENTS TO SHARE A DEVICE - According to the present invention, there is provided a data processing system comprising: a dedicated physical device for access by a single client only; a shared physical device for shared access by multiple clients; a partition of a first type associated with the dedicated physical device, the first type partition comprising said single client and a first device driver for accessing the dedicated physical device; a partition of a second type associated with the shared physical device, the second type partition comprising a second device driver for accessing the shared physical device, and a back end driver for accessing the second device driver; and multiple partitions of the third type each comprising a respective one of said multiple clients and a front end driver for accessing the shared physical device via the second type partition. There is also provided a method of operating the data processing system comprising: executing a user application in the standard domain; and executing in the trusted domain, one or more predetermined operations, services and/or functions relating to the user application. | 02-04-2010 |
20080320489 | LOAD BALANCING - In a preferred embodiment, the present invention provides a method of load balancing in a data processing system comprising a plurality of physical CPUs and a plurality of virtual CPUs, the method comprising: mapping one or more virtual CPUs to each of said physical OPUs; and dynamically adapting the mapping depending on the load of said physical CPUs. | 12-25-2008 |