会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 3. 发明授权
    • Information processing system
    • 信息处理系统
    • US5875120A
    • 1999-02-23
    • US676580
    • 1996-07-01
    • Shinji MatsushimaSeiichi KawanoMasayoshi NakanoTakashi Inui
    • Shinji MatsushimaSeiichi KawanoMasayoshi NakanoTakashi Inui
    • G06F1/04G06F1/32G06F3/06G06F1/00
    • G06F1/3215
    • An information processing system which has (a) a CPU that is operated in a normal mode during which the CPU is driven at a relatively fast operating clock rate, and a power saving mode during which the operating clock has a lower rate or is halted; (b) at least one peripheral device; (c) a bus for performing communication between the CPU and the peripheral device; (d) a termination detector detecting a completion of a predetermined transaction between the CPU and the peripheral device; (e) a time counter measuring a predetermined period of time after the completion of the predetermined transaction; and (f) a power saving control causing the CPU enter the power saving mode until the time counted by the time counting means reaches the predetermined period of time.
    • 一种信息处理系统,其具有(a)以正常模式操作的CPU,其中以相对较快的操作时钟速率驱动CPU,以及操作时钟具有较低速率或停止的功率节省模式; (b)至少一个外围设备; (c)用于执行CPU和外围设备之间的通信的总线; (d)检测CPU和外围设备之间的预定交易的完成的终止检测器; (e)在预定交易完成之后测量预定时间段的时间计数器; 以及(f)省电控制,使得CPU进入省电模式,直到由计时装置计数的时间达到预定时间段。
    • 4. 发明授权
    • Method and system for improved power management in information
processing system
    • 信息处理系统电源管理改进方法与系统
    • US06000035A
    • 1999-12-07
    • US676579
    • 1996-07-01
    • Shinji MatsushimaSeiichi KawanoMasayoshi NakanoTakashi Inui
    • Shinji MatsushimaSeiichi KawanoMasayoshi NakanoTakashi Inui
    • G06F1/04G06F1/32G06F1/00
    • G06F1/3215
    • An information processing system that can reduce the operating frequency of a CPU, or halt the operation of the CPU, at an adequate timing, even when the system is engaged in exchanging data with another independent apparatus (e.g., another PC) via a communication port (a serial port or a parallel port), or when a communication application is being executed. The system has (a) a CPU that operates in a normal mode, in a power saving mode in which less power is consumed than is required in a normal mode, or in a stop mode in which operation is completely halted; (b) at least one peripheral device; (c) a bus employed for communication between the CPU and the peripheral device; (d) a communication port, physically connected to another independent apparatus, for performing data transfer; (e) a bus cycle detector monitoring a bus cycle on the bus; (f) a state detector determining an operational mode of the CPU in response to a detection by the bus cycle of access of the communication port; (g) a signal generator providing, when the state detector ascertains that the operational mode is to be the power saving mode, a control signal to the CPU to set the CPU to the power saving mode; and (h) a CPU operation halting signal completely halting an operation of the CPU when the state determination means ascertains that the operational mode is to be the stop mode.
    • 一种信息处理系统,即使在系统通过通信端口与另一独立设备(例如,另一个PC)交换数据时,可以在适当的定时降低CPU的工作频率或停止CPU的操作 (串行端口或并行端口),或正在执行通信应用程序时。 该系统具有(a)在正常模式下操作的CPU,其中消耗的功率比正常模式中所需的功率更少,或者在完全停止操作的停止模式中操作的CPU; (b)至少一个外围设备; (c)用于CPU与外围设备之间通信的总线; (d)物理地连接到另一独立设备的用于执行数据传送的通信端口; (e)总线周期检测器,监测总线上的总线周期; (f)状态检测器,响应于通过所述通信端口的总线周期的检测来确定所述CPU的操作模式; (g)信号发生器,当状态检测器确定操作模式是功率节省模式时,提供控制信号给CPU以将CPU设置为省电模式; 以及(h)当状态确定装置确定操作模式是停止模式时,CPU操作停止信号完全停止CPU的操作。
    • 6. 发明授权
    • Information processor, program, storage medium, and control method
    • 信息处理器,程序,存储介质和控制方法
    • US07225346B2
    • 2007-05-29
    • US10731903
    • 2003-12-10
    • Seiichi KawanoShinji Matsushima
    • Seiichi KawanoShinji Matsushima
    • G06F1/00G06F1/26G06F1/32
    • G06F1/3243G06F1/3203G06F1/3296Y02D10/126Y02D10/152Y02D10/172
    • There is provided an information processor including a central processing unit that includes an instruction execution module and has a normal mode for operating the instruction execution module and an execution halt mode for halting the instruction execution module. The information processor comprises a voltage controlling module for causing the instruction execution module to execute a voltage reduction instruction for placing the central processing unit into a low-voltage operation mode in which the operating voltage of the central processing unit is lowered from the operating voltage in the normal mode when the central processing unit switches from the normal mode to the execution halt mode; and a mode controlling module for placing the central processing unit into a low-voltage halt mode in which the instruction execution module is halted under the operating voltage for the low-voltage operation mode when the voltage controlling module places the central processing unit into the low-voltage operation mode.
    • 提供了一种信息处理器,包括:中央处理单元,包括指令执行模块,具有用于操作指令执行模块的正常模式和用于停止指令执行模块的执行停止模式。 信息处理器包括电压控制模块,用于使指令执行模块执行降压指令,以将中央处理单元放置在低电压操作模式中,其中中央处理单元的工作电压从工作电压降低 当中央处理单元从正常模式切换到执行停止模式时的正常模式; 以及模式控制模块,用于将中央处理单元置于低电压停止模式,其中当电压控制模块将中央处理单元置于低电平时,指令执行模块在低电压操作模式的工作电压下停止 电压运行模式。
    • 7. 发明申请
    • Controlling power usage of computing device components in holistic manner
    • 以整体方式控制计算设备组件的电力使用
    • US20060190745A1
    • 2006-08-24
    • US11062147
    • 2005-02-18
    • Shinji MatsushimaYasumichi TsukamotoMitsuhiro YamazakiSeiichi Kawano
    • Shinji MatsushimaYasumichi TsukamotoMitsuhiro YamazakiSeiichi Kawano
    • G06F1/26
    • G06F1/3287G06F1/3203Y02D10/171
    • Power usage of computing device components is controlled in a holistic manner. The projected total power consumption for the computing device to satisfy a power consumption policy for the device is determined. Power usage of each component of the computing device is controlled in a holistic manner—i.e., balancing the power usage of the component against the power usage of other components—so that the total power usage of the computing device falls within the projected total power consumption needed to satisfy the power consumption policy. How the user is currently utilizing the computing device may be periodically detected, based at least on a power consumption distribution of the components of the computing device. A current usage model is determined based on how the user is currently utilizing the computing device. The power usage of each component of the computing device is controlled based on the current usage model.
    • 计算设备组件的功率使用以整体方式进行控制。 确定计算设备满足设备的功耗策略的预计总功耗。 计算设备的每个组件的功率使用以整体方式进行控制,即,将组件的功率使用与其他组件的功率使用进行平衡,使得计算设备的总功率消耗落入预计的总功耗 需要满足电力消费政策。 至少基于计算设备的组件的功耗分布,可以周期性地检测用户当前正在使用计算设备的方式。 当前使用模型基于用户当前如何使用计算设备来确定。 基于当前的使用模式来控制计算设备的每个组件的功率使用。
    • 8. 发明授权
    • Controlling power usage of computing device components in holistic manner
    • 以整体方式控制计算设备组件的电力使用
    • US07383451B2
    • 2008-06-03
    • US11062147
    • 2005-02-18
    • Shinji MatsushimaYasumichi TsukamotoMitsuhiro YamazakiSeiichi Kawano
    • Shinji MatsushimaYasumichi TsukamotoMitsuhiro YamazakiSeiichi Kawano
    • G06F1/26
    • G06F1/3287G06F1/3203Y02D10/171
    • Power usage of computing device components is controlled in a holistic manner. The projected total power consumption for the computing device to satisfy a power consumption policy for the device is determined. Power usage of each component of the computing device is controlled in a holistic manner—i.e., balancing the power usage of the component against the power usage of other components—so that the total power usage of the computing device falls within the projected total power consumption needed to satisfy the power consumption policy. How the user is currently utilizing the computing device may be periodically detected, based at least on a power consumption distribution of the components of the computing device. A current usage model is determined based on how the user is currently utilizing the computing device. The power usage of each component of the computing device is controlled based on the current usage model.
    • 计算设备组件的功率使用以整体方式进行控制。 确定计算设备满足设备的功耗策略的预计总功耗。 计算设备的每个组件的功率使用以整体方式进行控制,即,将组件的功率使用与其他组件的功率使用进行平衡,使得计算设备的总功率消耗落入预计的总功耗 需要满足电力消费政策。 至少基于计算设备的组件的功耗分布,可以周期性地检测用户当前正在使用计算设备的方式。 当前使用模型基于用户当前如何使用计算设备来确定。 基于当前使用模型来控制计算设备的每个组件的功率使用。