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1. 发明授权

US09038084B2 Managing utilization of physical processors of a shared processor pool in a virtualized processor environment 有权
标题翻译：管理虚拟化处理器环境中共享处理器池的物理处理器的利用率
公开(公告)号：US09038084B2
公开(公告)日：2015-05-19
申请号：US13403548
申请日：2012-02-23
申请人： Mathew Accapadi , Grover C. Davidson, II , Dirk Michel , Bret R. Olszewski
发明人： Mathew Accapadi , Grover C. Davidson, II , Dirk Michel , Bret R. Olszewski
IPC分类号： G06F9/46 , G06F9/455 , G06F15/173 , G06F9/50
CPC分类号： G06F9/5077 , G06F9/45558
摘要： Systems, methods and computer program products may provide managing utilization of one or more physical processors in a shared processor pool. A method of managing utilization of one or more physical processors in a shared processor pool may include determining a current amount of utilization of the one or more physical processors and generating an instruction message. The instruction message may be at least partially determined by the current amount of utilization. The method may further include sending the instruction message to a guest operating system, the guest operating system having a number of enabled virtual processors.
摘要翻译：系统，方法和计算机程序产品可以提供对共享处理器池中的一个或多个物理处理器的管理利用。管理共享处理器池中的一个或多个物理处理器的利用的方法可以包括确定当前的一个或多个物理处理器的利用量并生成指令消息。指令消息可以至少部分地由当前的利用量决定。该方法还可以包括将指令消息发送到客户机操作系统，客户机操作系统具有许多启用的虚拟处理器。

2. 发明授权

US08775749B2 Demand based memory management of non-pagable data storage 失效
标题翻译：基于需求的不可分析数据存储管理
公开(公告)号：US08775749B2
公开(公告)日：2014-07-08
申请号：US13927193
申请日：2013-06-26
申请人： Mathew Accapadi , Grover C. Davidson, II , Dirk Michel , Bret R. Olszewski
发明人： Mathew Accapadi , Grover C. Davidson, II , Dirk Michel , Bret R. Olszewski
IPC分类号： G06F13/00
CPC分类号： G06F12/023 , G06F12/0253
摘要： Management of a UNIX-style storage pools is enhanced by specially managing one or more memory management inodes associated with pinned and allocated pages of data storage by providing indirect access to the pinned and allocated pages by one or more user processes via a handle, while preventing direct access of the pinned and allocated pages by the user processes without use of the handles; scanning periodically hardware status bits in the inodes to determine which of the pinned and allocated pages have been recently accessed within a pre-determined period of time; requesting via a callback communication to each user process to determine which of the least-recently accessed pinned and allocated pages can be either deallocated or defragmented and compacted; and responsive to receiving one or more page indicators of pages unpinned by the user processes, compacting or deallocating one or more pages corresponding to the page indicators.
摘要翻译：通过专门管理与固定和分配的数据存储页面相关联的一个或多个存储器管理异常节点，通过一个或多个用户进程通过句柄间接访问被固定和分配的页面来增强对UNIX风格存储池的管理，同时防止用户进程直接访问固定和分配的页面，而不使用手柄; 周期性地扫描inode中的硬件状态位，以确定在预定时间段内最近访问的被固定和分配的页面中的哪一个; 通过对每个用户进程的回调通信来请求，以确定哪个最近访问的固定和分配的页面可以被解除分配或碎片整理和压缩; 并且响应于接收由用户进程解除的页面的一个或多个页面指示符，压缩或取消分配对应于页面指示符的一个或多个页面。

3. 发明申请

US20130227549A1 MANAGING UTILIZATION OF PHYSICAL PROCESSORS IN A SHARED PROCESSOR POOL 有权
标题翻译：管理在共享处理器池中使用物理处理器
公开(公告)号：US20130227549A1
公开(公告)日：2013-08-29
申请号：US13403548
申请日：2012-02-23
申请人： Mathew Accapadi , Grover C. Davidson, II , Dirk Michel , Bret R. Olszewski
发明人： Mathew Accapadi , Grover C. Davidson, II , Dirk Michel , Bret R. Olszewski
IPC分类号： G06F9/44 , G06F9/455
CPC分类号： G06F9/5077 , G06F9/45558
摘要： Systems, methods and computer program products may provide managing utilization of one or more physical processors in a shared processor pool. A method of managing utilization of one or more physical processors in a shared processor pool may include determining a current amount of utilization of the one or more physical processors and generating an instruction message. The instruction message may be at least partially determined by the current amount of utilization. The method may further include sending the instruction message to a guest operating system, the guest operating system having a number of enabled virtual processors.
摘要翻译：系统，方法和计算机程序产品可以提供对共享处理器池中的一个或多个物理处理器的管理利用。管理共享处理器池中的一个或多个物理处理器的利用的方法可以包括确定当前的一个或多个物理处理器的利用量并生成指令消息。指令消息可以至少部分地由当前的利用量决定。该方法还可以包括向客户机操作系统发送指令消息，客户机操作系统具有许多启用的虚拟处理器。

4. 发明申请

US20120005448A1 Demand-Based Memory Management of Non-pagable Data Storage 失效
标题翻译：基于需求的不可分析数据存储管理
公开(公告)号：US20120005448A1
公开(公告)日：2012-01-05
申请号：US12827063
申请日：2010-06-30
申请人： Mathew Accapadi , Grover C. Davidson, II , Dirk Michel , Bret R. Olszewski
发明人： Mathew Accapadi , Grover C. Davidson, II , Dirk Michel , Bret R. Olszewski
IPC分类号： G06F12/02 , G06F12/10 , G06F12/00
CPC分类号： G06F12/023 , G06F12/0253
摘要： Management of a UNIX-style storage pools is enhanced by specially managing one or more memory management inodes associated with pinned and allocated pages of data storage by providing indirect access to the pinned and allocated pages by one or more user processes via a handle, while preventing direct access of the pinned and allocated pages by the user processes without use of the handles; scanning periodically hardware status bits in the inodes to determine which of the pinned and allocated pages have been recently accessed within a pre-determined period of time; requesting via a callback communication to each user process to determine which of the least-recently accessed pinned and allocated pages can be either deallocated or defragmented and compacted; and responsive to receiving one or more page indicators of pages unpinned by the user processes, compacting or deallocating one or more pages corresponding to the page indicators.
摘要翻译：通过专门管理与固定和分配的数据存储页面相关联的一个或多个存储器管理异常节点，通过一个或多个用户进程通过句柄间接访问被固定和分配的页面来增强对UNIX风格存储池的管理，同时防止用户进程直接访问固定和分配的页面，而不使用手柄; 周期性地扫描inode中的硬件状态位，以确定在预定时间段内最近访问的被固定和分配的页面中的哪一个; 通过对每个用户进程的回调通信来请求，以确定哪个最近访问的固定和分配的页面可以被解除分配或碎片整理和压缩; 并且响应于接收由用户进程解除的页面的一个或多个页面指示符，压缩或取消分配对应于页面指示符的一个或多个页面。

5. 发明申请

US20130290666A1 Demand-Based Memory Management of Non-pagable Data Storage 失效
标题翻译：基于需求的不可分析数据存储管理
公开(公告)号：US20130290666A1
公开(公告)日：2013-10-31
申请号：US13927193
申请日：2013-06-26
申请人： Mathew Accapadi , Grover C. Davidson, II , Dirk Michel , Bret R. Olszewski
发明人： Mathew Accapadi , Grover C. Davidson, II , Dirk Michel , Bret R. Olszewski
IPC分类号： G06F12/02
CPC分类号： G06F12/023 , G06F12/0253
摘要： Management of a UNIX-style storage pools is enhanced by specially managing one or more memory management inodes associated with pinned and allocated pages of data storage by providing indirect access to the pinned and allocated pages by one or more user processes via a handle, while preventing direct access of the pinned and allocated pages by the user processes without use of the handles; scanning periodically hardware status bits in the inodes to determine which of the pinned and allocated pages have been recently accessed within a pre-determined period of time; requesting via a callback communication to each user process to determine which of the least-recently accessed pinned and allocated pages can be either deallocated or defragmented and compacted; and responsive to receiving one or more page indicators of pages unpinned by the user processes, compacting or deallocating one or more pages corresponding to the page indicators.
摘要翻译：通过专门管理与固定和分配的数据存储页面相关联的一个或多个存储器管理异常节点，通过一个或多个用户进程通过句柄间接访问被固定和分配的页面来增强对UNIX风格存储池的管理，同时防止用户进程直接访问固定和分配的页面，而不使用手柄; 周期性地扫描inode中的硬件状态位，以确定在预定时间段内最近访问的被固定和分配的页面中的哪一个; 通过对每个用户进程的回调通信来请求，以确定哪个最近访问的固定和分配的页面可以被解除分配或碎片整理和压缩; 并且响应于接收由用户进程解除的页面的一个或多个页面指示符，压缩或取消分配对应于页面指示符的一个或多个页面。

6. 发明申请

US20110246800A1 OPTIMIZING POWER MANAGEMENT IN MULTICORE VIRTUAL MACHINE PLATFORMS BY DYNAMICALLY VARIABLE DELAY BEFORE SWITCHING PROCESSOR CORES INTO A LOW POWER STATE 失效
标题翻译：在切换处理器电源到低功耗状态之前，通过动态可变延迟优化虚拟机平台中的优化电源管理
公开(公告)号：US20110246800A1
公开(公告)日：2011-10-06
申请号：US12751227
申请日：2010-03-31
申请人： Mathew Accpadi , Grover C. Davidson, II , Dirk Michel , Bret R. Olszewski
发明人： Mathew Accpadi , Grover C. Davidson, II , Dirk Michel , Bret R. Olszewski
IPC分类号： G06F1/00
CPC分类号： G06F1/3228 , G06F1/3287 , G06F1/329 , G06F9/5094 , Y02D10/171 , Y02D10/22 , Y02D10/24
摘要： Distributing a thread for running on a physical processor and enabling the physical processor to be switched into a low power snooze state when said running thread is IDLE. However, this switching into said low power state is enabled to be delayed by a delay time from an IDLE dispatch from said running thread; such delay is determined by tracking the rate of the number of said IDLE dispatches per processor clock interval and dynamically varying said delay time wherein the delay time is decreased when said rate of IDLE dispatches increases and the delay time is increased when said rate of IDLE dispatches decreases.
摘要翻译：分配线程以在物理处理器上运行，并使所述运行的线程为空闲时将物理处理器切换到低功耗打盹状态。然而，切换到所述低功率状态的能力可以延迟来自所述运行线程的IDLE分派的延迟时间; 这样的延迟通过跟踪每个处理器时钟间隔的所述IDLE调度的数量的速率来确定，并且动态地改变所述延迟时间，其中当所述IDLE调度的速率增加时延迟时间减小并且当所述IDLE调度速率增加时延迟时间增加减少

7. 发明申请

US20100171601A1 RESETTING A TARGET DEVICE 失效
标题翻译：重新设置目标设备
公开(公告)号：US20100171601A1
公开(公告)日：2010-07-08
申请号：US12348038
申请日：2009-01-02
申请人： Grover C. Davidson, II
发明人： Grover C. Davidson, II
IPC分类号： G08B1/00
CPC分类号： G04G15/006 , Y10T307/951 , Y10T307/957
摘要： A power reset module may reset an automatic shut-off module of a target device by momentarily disrupting power to the automatic shut-off module at a determined interval and automatically restoring power after a time period of up to two minutes. In multiple embodiments, the power reset module comprises an activation switch with an activation switch output coupled to a frequency module. The frequency module may output a frequency module signal on a determined interval via a frequency module output coupled with a reset module. The reset module momentarily transitions a reset switch to a reset state periodically at the determined interval for up to two minutes prior to automatically transitioning the reset switch to a non-reset state. Transitioning the reset switch to the reset state disrupts power to the automatic shut-off module and automatically transitioning the reset switch from the reset state to a non-reset state restores power to the automatic shut-off module thus resetting a state of the automatic shut-off module. In several embodiments, a cash register incorporates a programmable power reset device for disrupting and restoring power to an automatic shutoff circuit to reset the automatic shutoff circuit allowing a user to access the cash register.
摘要翻译：电源复位模块可以通过以确定的间隔瞬间中断自动关闭模块的电源来重置目标设备的自动切断模块，并且在长达两分钟的时间段之后自动恢复电力。在多个实施例中，功率复位模块包括具有耦合到频率模块的激活开关输出的激活开关。频率模块可以通过与复位模块耦合的频率模块输出以确定的间隔输出频率模块信号。在将复位开关自动转换到非复位状态之前，复位模块会以确定的间隔周期性地将复位开关转换到复位状态长达两分钟。将复位开关转换到复位状态会中断自动关闭模块的电源并自动将复位开关从复位状态转换到非复位状态，恢复自动关闭模块的电源，从而重置自动关闭状态 -off模块。在几个实施例中，收银机包括可编程功率复位装置，用于中断和恢复自动关闭电路的电力，以重置允许用户访问收银机的自动关闭电路。

8. 发明授权

US08102246B2 Resetting a target device 失效
标题翻译：重置目标设备
公开(公告)号：US08102246B2
公开(公告)日：2012-01-24
申请号：US12348038
申请日：2009-01-02
申请人： Grover C. Davidson, II
发明人： Grover C. Davidson, II
IPC分类号： G08B1/00 , H01H7/00 , H01H43/00 , H01H3/34 , H01H33/35 , G04F8/00 , G04F10/00
CPC分类号： G04G15/006 , Y10T307/951 , Y10T307/957
摘要： A power reset module may reset an automatic shut-off module of a target device by momentarily disrupting power to the automatic shut-off module at a determined interval and automatically restoring power after a time period of up to two minutes. In multiple embodiments, the power reset module comprises an activation switch with an activation switch output coupled to a frequency module. The frequency module may output a frequency module signal on a determined interval via a frequency module output coupled with a reset module. The reset module momentarily transitions a reset switch to a reset state periodically at the determined interval for up to two minutes prior to automatically transitioning the reset switch to a non-reset state. Transitioning the reset switch to the reset state disrupts power to the automatic shut-off module and automatically transitioning the reset switch from the reset state to a non-reset state restores power to the automatic shut-off module thus resetting a state of the automatic shut-off module. In several embodiments, a cash register incorporates a programmable power reset device for disrupting and restoring power to an automatic shutoff circuit to reset the automatic shutoff circuit allowing a user to access the cash register.
摘要翻译：电源复位模块可以通过以确定的间隔瞬间中断自动关闭模块的电源来重置目标设备的自动切断模块，并且在长达两分钟的时间段之后自动恢复电力。在多个实施例中，功率复位模块包括具有耦合到频率模块的激活开关输出的激活开关。频率模块可以通过与复位模块耦合的频率模块输出以确定的间隔输出频率模块信号。在将复位开关自动转换到非复位状态之前，复位模块会以确定的间隔周期性地将复位开关转换到复位状态长达两分钟。将复位开关转换到复位状态会中断自动关闭模块的电源并自动将复位开关从复位状态转换到非复位状态，恢复自动关闭模块的电源，从而重置自动关闭状态 -off模块。在几个实施例中，收银机包括可编程功率复位装置，用于中断和恢复自动关闭电路的电力，以重置允许用户访问收银机的自动关闭电路。

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