Patent application number | Description | Published |
20120011501 | TRACKING LOADING AND UNLOADING OF KERNEL EXTENSIONS IN ISOLATED VIRTUAL SPACE - Some embodiments of the inventive subject matter are directed to receiving a request from a first instance of an operating system (e.g., a virtual operating system) to load a kernel extension that extends functionality of a kernel, where the kernel and the first instance of the operating system are managed by a second instance of the operating system (e.g., a global operating system), and where the first and second instances of the operating system share the kernel. Some embodiments are further directed to recording an indicator that indicates that the first of the plurality of the instances of the operating system requested to load the kernel extension, where the indicator is accessible only to the second instance of the operating system. In some embodiments, the method is further directed to loading the kernel extension, where loading the kernel extension extends functionality of the kernel. In some embodiments, the method is further directed to receiving a request by the first instance of the operating system to remove the functionality from the kernel and determining, based on the indicator, that the first instance of the operating system had previously requested to load the kernel extension. In some embodiments, the method is further directed to removing the functionality from the kernel in response to the determining, based on the indicator, that the first instance of the operating system had previously requested to load the kernel extension. | 01-12-2012 |
20120011502 | MANAGING UNIQUE ELECTRONIC IDENTIFICATION FOR KERNEL EXTENSIONS IN ISOLATED VIRTUAL SPACE - Some embodiments of the inventive subject matter are directed to detecting a file that a first instance of an operating system is configured to load where the file is configured to extend functionality of a kernel when loaded. In some embodiments, the first instance of the operating system is managed by a second instance of the operating system (e.g., the first instance of the operating system is a virtual operating system and the second instance is a global operating system). The first and second instances of the operating system share the kernel. Some embodiments are further directed to generating a unique electronic identifier based on properties of the file. The unique electronic identifier uniquely identifies the file. Some embodiments are further directed to providing a copy of the file to the first instance of the operating system, and some time later, receiving a request from the first instances of the operating system to load the copy of the file. Some embodiments are further directed to determining, using the unique electronic identifier, that the copy of the file from the first instance of the operating system is equivalent to the file. Some embodiments are further directed to loading the copy of the file in response to determining, using the unique electronic identifier, that the copy of the file is equivalent to the file. The loading extends the functionality of the kernel. | 01-12-2012 |
20120011503 | MANAGING LOADING AND UNLOADING OF SHARED KERNEL EXTENSIONS IN ISOLATED VIRTUAL SPACE - Some embodiments of the inventive subject matter are directed to receiving a request from a first instance of an operating system (e.g., a virtual operating system) to load a kernel extension that extends functionality of a kernel, where the kernel and the first instance of the operating system are managed by a second instance of the operating system (e.g., a global operating system), and where the first and second instances of the operating system share the kernel. Some embodiments are further directed to loading the kernel extension as a shared kernel extension. Some embodiments are further directed to receiving a request by the first instances of the operating system to unload the kernel extension and determining that a third instance of the operating system (e.g., another virtual operating system also managed by the global operating system) requires the kernel extension to remain loaded. Some embodiments are further directed to notifying the first instance of the operating system that the kernel extension was unloaded while leaving the kernel extension loaded in the kernel. | 01-12-2012 |
20140040609 | TRACKING LOADING AND UNLOADING OF KERNEL EXTENSIONS IN ISOLATED VIRTUAL SPACE - Some embodiments of the inventive subject matter are directed to receiving a request from a first instance of an operating system (e.g., a virtual operating system) to load a kernel extension that extends functionality of a kernel, where the kernel extension may be shared by a second instance of the operating system. An indicator accessible only to the second instance of the operating system records an indication that the first instance of the operating system requested to load the kernel extension. The kernel extension is loaded. A request is received by the first instance of the operating system to remove the functionality from the kernel. The functionality is removed from the kernel in response to determining, based on the indicator, that the first instance of the operating system had previously requested to load the kernel extension. | 02-06-2014 |
20140129716 | MOBILITY OPERATION RESOURCE ALLOCATION - According to one aspect of the present disclosure, a method and technique for mobility operation resource allocation is disclosed. The method includes: receiving a request to migrate a running application from a first machine to a second machine; displaying an adjustable resource allocation mobility setting interface indicating a plurality of mobility settings comprising at least one performance-based mobility setting and at least one concurrency-based mobility setting; receiving, via the interface, a selection of a mobility setting defining a resource allocation to utilize for the migration; and migrating the running application from the first machine to the second machine utilizing resources as set by the selected mobility setting. | 05-08-2014 |
20140129958 | MOBILITY OPERATION RESOURCE ALLOCATION - According to one aspect of the present disclosure a system and technique for mobility operation resource allocation is disclosed. The system includes a first machine having a running application, and a management console operable to manage migrating the running application from the first machine to a second machine. The management console is operable to: display an interface indicating a plurality of selectable mobility settings, each mobility setting corresponding to a desired resource allocation to utilize for the migration; receive via the interface, a selection of a mobility setting to apply for migrating the running application; and initiate migration of the running application from the first machine to the second machine utilizing resources as set by the selected mobility setting. | 05-08-2014 |
20140281310 | Transforming a Shared Virtualized Space to an Enclosed Space - Provided are techniques for allocating disk space for a virtualized file space; designating files within a global disk space as files to be privatized with respect to the virtualized file space; copying the designated files to the allocated disk space; storing an indicator specifying that the designated files have been copied; and in response to a startup of the virtualized file space subsequent to the allocating, designating and copying, detecting the indicator; and in response to detecting the indicator, redirect references in the virtualized file space to the designated files to the copied. | 09-18-2014 |
20140331220 | LIVE APPLICATION MOBILITY FROM ONE OPERATING SYSTEM LEVEL TO AN UPDATED OPERATING SYSTEM LEVEL - Provided are techniques for comparing a first fileset associated with a first operating system (OS) with a second fileset associated with a second OS; determining, based upon the comparing, that the second OS is a more current version of the first OS; in response to the determining that the second OS is a more current version of the first OS, moving, in conjunction with live application mobility, a virtual machine (VM) workload partition (WPAR) on the first LPAR to a second LPAR, the moving comprising determining a set of overlays associated with the WPAR corresponding to the second OS; removing from the WPAR any overlays associated with the first OS; applying to the WPAR a set of overlays corresponding to the second OS; check pointing processes associated with the WAPR; and copying live data associated with the LPAR from the first LPAR to the second LPAR. | 11-06-2014 |
20140331228 | LIVE APPLICATION MOBILITY FROM ONE OPERATING SYSTEM LEVEL TO AN UPDATED OPERATING SYSTEM LEVEL - Provided are techniques for comparing a first fileset associated with a first operating system (OS) with a second fileset associated with a second OS; determining, based upon the comparing, that the second OS is a more current version of the first OS; in response to the determining that the second OS is a more current version of the first OS, moving, in conjunction with live application mobility, a virtual machine (VM) workload partition (WPAR) on the first LPAR to a second LPAR, the moving comprising determining a set of overlays associated with the WPAR corresponding to the second OS; removing from the W PAR any overlays associated with the first OS; applying to the WPAR a set of overlays corresponding to the second OS; check pointing processes associated with the WAPR; and copying live data associated with the LPAR from the first LPAR to the second LPAR. | 11-06-2014 |
20150040126 | Utilizing Multiple Memory Pools During Mobility Operations - A mechanism is provided in a data processing system for performing a logical partition migration utilizing multiple paths. Responsive to a virtual machine monitor initiating a logical partition migration operation to move a logical partition from a source system to a destination system, the mechanism allocates a plurality of memory pools and a plurality of threads from a mover service partition to the virtual machine monitor. The virtual machine monitor performs the logical partition migration operation utilizing each of the plurality of threads to transfer a corresponding one of the plurality of memory pools from the source system to the destination system to effect the logical partition migration operation. | 02-05-2015 |
20150040128 | Utilizing Multiple Memory Pools During Mobility Operations - A mechanism is provided in a data processing system for performing a logical partition migration utilizing multiple paths. Responsive to a virtual machine monitor initiating a logical partition migration operation to move a logical partition from a source system to a destination system, the mechanism allocates a plurality of memory pools and a plurality of threads from a mover service partition to the virtual machine monitor. The virtual machine monitor performs the logical partition migration operation utilizing each of the plurality of threads to transfer a corresponding one of the plurality of memory pools from the source system to the destination system to effect the logical partition migration operation. | 02-05-2015 |
20150046589 | Utilizing Multiple Mobile Service Partitions During Mobility Operations - A mechanism is provided in a data processing system for performing a logical partition migration utilizing multiple mover service partition pairs. Responsive to a virtual machine monitor initiating a logical partition migration operation to move a logical partition from a source system to a destination system, the mechanism establishes a plurality of input/output paths between a plurality of mover service partition pairs. The virtual machine monitor performs the logical partition migration operation using the plurality of mover service partition pairs to transfer a memory image of the logical partition from the source system to the destination system to effect the logical partition migration operation. | 02-12-2015 |