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    • 3. 发明授权
    • Reducing power-on time by simulating operating system memory hot add
    • 通过模拟操作系统内存热添加减少上电时间
    • US07987336B2
    • 2011-07-26
    • US12120383
    • 2008-05-14
    • Joseph Allen KirschtSumeet KocharBarry Alan KrittWilliam Bradley Schwartz
    • Joseph Allen KirschtSumeet KocharBarry Alan KrittWilliam Bradley Schwartz
    • G06F12/00
    • G06F9/4406
    • This invention generally provides a method for speeding up system boot time, by initializing a subset of memory during the system firmware test/initialization, and allowing the system to boot an operating system with this subset of installed memory. While the system is completing the operating system boot with the subset of installed memory, a remainder of the installed system memory is being initialized/tested. When the initialization the remainder of system memory is completed (and after the OS has booted), the SMI handler is invoked. The SMI handler then simulates a physical memory “Hot Add” event, and reports the event to the OS. This allows much of the memory initialization/test activity to occur in parallel with the firmware initialization/test and operating system startup processes.
    • 本发明通常提供一种通过在系统固件测试/初始化期间初始化存储器子集并允许系统使用所安装的存储器的该子集来引导操作系统来加速系统启动时间的方法。 当系统正在使用已安装内存的子集完成操作系统引导时,已安装的系统内存的其余部分正在进行初始化/测试。 当系统内存的剩余部分完成初始化(OS启动后)时,调用SMI处理程序。 然后,SMI处理程序模拟物理内存“Hot Add”事件,并将事件报告给操作系统。 这允许大量的内存初始化/测试活动与固件初始化/测试和操作系统启动过程并行发生。
    • 5. 发明授权
    • Maintaining server performance in a power constrained environment
    • 在功率受限的环境中维护服务器性能
    • US07814349B2
    • 2010-10-12
    • US11760888
    • 2007-06-11
    • Aaron Eliahu MerkinWilliam Bradley Schwartz
    • Aaron Eliahu MerkinWilliam Bradley Schwartz
    • G06F1/00G06F1/26
    • G06F1/3203G06F1/3287Y02D10/171
    • A method of managing resources in a data processing configuration includes allocating system resources to an application to ensure a specified level of performance for the application. A system parameter is then modified to conserve power consumption upon detecting a condition resulting in a reduction of available system power. The original system resource allocation is then modified to maintain the specified level of performance following the modification of the system parameter. The system resources may include system CPU cycles and allocating system resources may include allocating a specified percentage of the CPU cycles to a high priority application. The reduction of available system power may be caused by an excessive ambient temperature or the failure of a power supply. Modifying the system parameter to conserve power consumption includes throttling the CPU speed and then dynamically increasing the percentage of CPU cycles allocated to the high priority application.
    • 在数据处理配置中管理资源的方法包括:将系统资源分配给应用以确保应用程序的指定级别的性能。 然后修改系统参数以在检测到导致可用系统功率降低的条件时节省功耗。 然后修改原始系统资源分配,以维护系统参数修改后的指定级别的性能。 系统资源可以包括系统CPU周期,并且分配系统资源可以包括将指定百分比的CPU周期分配给高优先级应用。 可能的系统功率的降低可能是由于环境温度过高或电源故障引起的。 修改系统参数以节省功耗包括限制CPU速度,然后动态增加分配给高优先级应用程序的CPU周期的百分比。
    • 8. 发明授权
    • Dynamic node partitioning utilizing sleep state
    • 动态节点分配利用睡眠状态
    • US07117334B2
    • 2006-10-03
    • US10845873
    • 2004-05-14
    • Jason Robert AlmeidaScott Neil DunhamEric Richard KernWilliam Bradley Schwartz
    • Jason Robert AlmeidaScott Neil DunhamEric Richard KernWilliam Bradley Schwartz
    • G06F12/00
    • G06F9/4418
    • A method and system for allowing nodes in a multi-node computer to be appropriated by a master node in the multi-node computer. The node to be appropriated is suspended into an ACPI S3 Sleep State, causing current system operations state information to be stored in a backup memory in the appropriated node. The master node then populated a primary memory in the appropriated node with OS and other information required to join a partition that includes the master node. When the master node no longer wishes to use the appropriated node, the backup memory in the appropriated node is mirrored back into the primary memory. When the appropriated node “wakes up” from the S3 state, it continues executing software commands where it left off, without knowing anything that had happened after going into the S3 state.
    • 用于允许多节点计算机中的节点由多节点计算机中的主节点占用的方法和系统。 要占用的节点被暂停到ACPI S3休眠状态,使得当前系统操作状态信息被存储在专用节点中的备份存储器中。 然后,主节点在适当的节点中填充主存储器,其中包括加入包含主节点的分区所需的OS和其他信息。 当主节点不再希望使用专用节点时,专用节点中的备份存储器将镜像回主存储器。 当专用节点从S3状态“唤醒”时,它会继续执行其中断的软件命令,而不必知道进入S3状态后发生的任何事情。