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    • 2. 发明授权
    • On-line replacement and changing of virtualization software
    • 虚拟化软件的在线更换和更换
    • US08316374B2
    • 2012-11-20
    • US12897464
    • 2010-10-04
    • Beng-Hong LimKinshuk Govil
    • Beng-Hong LimKinshuk Govil
    • G06F9/46G06F9/455G06F11/00
    • G06F9/45558G06F8/656G06F9/5077G06F2009/4557
    • In a virtualized system running one or more virtual machines on a first hypervisor, a second hypervisor is installed and control of the hardware resources of the physical computer supporting the virtualized system is migrated from the first hypervisor to the second hypervisor without interrupting the operation of the first hypervisor and the virtual machines. Initially a minimal set of hardware resources is hot-removed from control by the first hypervisor, and the second hypervisor is launched on the minimal set of hardware resources. Both the remaining hardware resources and the virtual machines are then migrated from the first hypervisor to the second hypervisor until all the virtual machines have been migrated over to the second hypervisor, while the virtual machines and the first hypervisor continue running largely unaffected by the migration process.
    • 在运行第一管理程序上的一个或多个虚拟机的虚拟化系统中,安装第二管理程序,并且支持虚拟化系统的物理计算机的硬件资源的控制从第一管理程序迁移到第二管理程序,而不中断 第一个虚拟机管理程序和虚拟机。 最初,由第一虚拟机管理程序的控制热删除最少的一组硬件资源,并且在最小的硬件资源集上启动第二管理程序。 然后,剩余的硬件资源和虚拟机都从第一个虚拟机管理程序迁移到第二个虚拟机管理程序,直到所有的虚拟机已经迁移到第二个虚拟机管理程序,而虚拟机和第一个虚拟机监控程序继续运行在很大程度上不受迁移进程的影响 。
    • 5. 发明授权
    • Method of improving uniformity of brightness between pixels in electron emission panel
    • 改善电子发射面板像素之间亮度均匀性的方法
    • US07863823B2
    • 2011-01-04
    • US11385732
    • 2006-03-22
    • Ji-Hong Lim
    • Ji-Hong Lim
    • G09G3/10
    • G09G3/22G09G3/2014G09G2300/06G09G2310/0267G09G2310/0275G09G2320/0233G09G2360/147H01J31/127
    • A method of improving uniformity of brightness between pixels in an electron emission panel includes respectively applying a scan driving voltage and a data driving voltage to a scan electrode and a data electrode of each of a plurality of pixels, wherein one of the scan driving voltage and the data driving voltage is higher than the other; measuring a brightness of each of the pixels; and respectively applying a scan adjustment voltage and a data adjustment voltage to the scan electrode and the data electrode of each of the pixels based on the measured brightness of a respective one of the pixels, wherein a higher one of the scan adjustment voltage and the data adjustment voltage is applied to a same one of the scan electrode and the data electrode to which a lower one of the scan driving voltage and the data driving voltage is applied.
    • 一种改善电子发射面板中的像素之间的亮度均匀性的方法包括分别向扫描电极和数据电极施加扫描驱动电压和数据驱动电压,其中扫描驱动电压和 数据驱动电压高于另一个; 测量每个像素的亮度; 并且基于相应的一个像素的测量亮度,分别将扫描调整电压和数据调整电压施加到每个像素的扫描电极和数据电极,其中扫描调整电压和数据中的较高者 调整电压被施加到扫描电极和数据电极中相同的扫描驱动电压和数据驱动电压之一上。
    • 10. 发明授权
    • System software displacement in a virtual computer system
    • 虚拟计算机系统中的系统软件位移
    • US07412702B1
    • 2008-08-12
    • US11240091
    • 2005-09-30
    • Michael NelsonScott W. DevineBeng-Hong Lim
    • Michael NelsonScott W. DevineBeng-Hong Lim
    • G06F9/455G06F9/46G06F3/00G06F9/44G06F13/00G06F13/12
    • G06F9/45533G06F9/4401
    • A computer architecture includes a first operating system (COS), which may be a commodity operating system, and a kernel, which acts as a second operating system. The COS is used to boot the system as a whole. After booting, the kernel is loaded and displaces the COS from the system level, meaning that the kernel itself directly accesses predetermined physical resources of the computer. All requests for use of system resources then pass via the kernel. System resources are divided into those that, in order to maximize speed, are controlled exclusively by the kernel, those that the kernel allows the COS to handle exclusively, and those for which control is shared by the kernel and COS. In the preferred embodiment of the invention, at least one virtual machine (VM) runs via a virtual machine monitor, which is installed to run on the kernel. Each VM, the COS, and even each processor in a multiprocessor embodiment, are treated as separately schedulable entities that are scheduled by the kernel. Mechanisms for high-speed I/O between VM's and I/O devices are also included.
    • 计算机体系结构包括可以是商品操作系统的第一操作系统(COS)和用作第二操作系统的内核。 COS用于整个系统引导。 引导后,内核被加载并从系统级别替换COS,这意味着内核本身直接访问计算机的预定物理资源。 然后,所有使用系统资源的请求都将通过内核传递。 系统资源被分为那些为了最大化速度而被内核控制的内核,那些内核允许COS专门处理的内容,以及由内核和COS共享控制的那些资源。 本发明中,至少一个虚拟机(VM)经由安装在内核上运行的虚拟机监视器运行。 多处理器实施例中的每个VM,COS以及每个处理器被视为由内核调度的可单独调度的实体。 还包括VM和I / O设备之间的高速I / O机制。