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    • 1. 发明授权
    • Power supply apparatus with system controller
    • 带系统控制器的电源设备
    • US08051304B2
    • 2011-11-01
    • US12064303
    • 2006-04-24
    • Iwao TakiguchiKazuaki MitsuiTetsuji TamuraAtsuhiko Imai
    • Iwao TakiguchiKazuaki MitsuiTetsuji TamuraAtsuhiko Imai
    • G06F1/00B23K11/24B63H23/24G01R21/00H04M1/00
    • G06F1/26
    • In a power supply apparatus for supplying a target power supply voltage to a microprocessor, a system controller sets the target power supply voltage to be supplied to the microprocessor based on a voltage configuration signal outputted from the microprocessor and outputs a voltage setting signal corresponding to the target power supply voltage. The regulator circuit generates the target power supply voltage set by the system controller based on the voltage setting signal outputted from the system controller and supplies the voltage to the microprocessor 10. The system controller acquires the conditions of the microprocessor, such as the operating time and temperature of the microprocessor and the amount of computation in the microprocessor, and reflects the acquired conditions on the setting of the power supply voltage.
    • 在用于向微处理器提供目标电源电压的电源装置中,系统控制器基于从微处理器输出的电压配置信号设置要提供给微处理器的目标电源电压,并输出对应于 目标电源电压。 调节器电路基于从系统控制器输出的电压设定信号,生成由系统控制器设定的目标电源电压,并将电压提供给微处理器10.系统控制器获取微处理器的状态,如操作时间和 微处理器的温度和微处理器中的计算量,并反映了获取的条件对电源电压的设置。
    • 2. 发明申请
    • Power Supply Apparatus with System Controller
    • 带系统控制器的电源设备
    • US20090037752A1
    • 2009-02-05
    • US12064303
    • 2006-04-24
    • Iwao TakiguchiKazuaki MitsuiTetsuji TamuraAtsuhiko Imai
    • Iwao TakiguchiKazuaki MitsuiTetsuji TamuraAtsuhiko Imai
    • G06F1/26
    • G06F1/26
    • In a power supply apparatus for supplying a target power supply voltage to a microprocessor, a system controller sets the target power supply voltage to be supplied to the microprocessor based on a voltage configuration signal outputted from the microprocessor and outputs a voltage setting signal corresponding to the target power supply voltage. The regulator circuit generates the target power supply voltage set by the system controller based on the voltage setting signal outputted from the system controller and supplies the voltage to the microprocessor 10. The system controller acquires the conditions of the microprocessor, such as the operating time and temperature of the microprocessor and the amount of computation in the microprocessor, and reflects the acquired conditions on the setting of the power supply voltage.
    • 在用于向微处理器提供目标电源电压的电源装置中,系统控制器基于从微处理器输出的电压配置信号设置要提供给微处理器的目标电源电压,并输出对应于 目标电源电压。 调节器电路基于从系统控制器输出的电压设定信号,生成由系统控制器设定的目标电源电压,并将电压提供给微处理器10.系统控制器获取微处理器的状态,如操作时间和 微处理器的温度和微处理器中的计算量,并反映了获取的条件对电源电压的设置。
    • 8. 发明申请
    • Processor, multiprocessor system, processor system, information processing apparatus, and temperature control method
    • 处理器,多处理器系统,处理器系统,信息处理装置和温度控制方法
    • US20070198134A1
    • 2007-08-23
    • US10589380
    • 2004-12-22
    • Kenichi AdachiKazuaki YazawaIwao TakiguchiAtsuhiko ImaiTetsuji Tamura
    • Kenichi AdachiKazuaki YazawaIwao TakiguchiAtsuhiko ImaiTetsuji Tamura
    • G05D23/00
    • G06F1/206G06F1/3203G06F1/329G06F9/3836G06F9/3869G06F9/4881G06F9/505Y02D10/126Y02D10/24
    • An instruction decoder identifies, for each instruction, an operational block involved in the execution of the instruction and an associated heat release coefficient. The instruction decoder stores identified information in a heat release coefficient profile. An instruction scheduler schedules the instructions in accordance with the dependence of the instructions on data. A heat release frequency adder cumulatively adds the heat release coefficient to the heat release frequency of the operational block held in the operational block heat release frequency register as the execution of the scheduled instructions proceeds. A heat release frequency subtractor subtracts from the heat release frequency of the operational blocks in the operational block heat release frequency register in accordance with heat discharge that occurs with time. A hot spot detector detects an operational block with its heat release frequency, held in the operational block heat release frequency register, exceeding a predetermined threshold value as a hot spot. The instruction scheduler delays the execution of the instruction involving for its execution the operational block identified as a hot spot.
    • 指令解码器针对每个指令识别涉及执行指令的操作块和相关的放热系数。 指令解码器将识别的信息存储在放热系数分布中。 指令调度器根据指令对数据的依赖性来调度指令。 随着调度指令的执行进行,放热频率加法器将放热系数累积地加到保持在操作块放热频率寄存器中的操作块的放热频率。 热释放频率减法器根据随时间发生的放热量从操作块放热频率寄存器中的操作块的放热频率中减去。 热点检测器以其热释放频率检测到操作块放热频率寄存器中的操作块超过预定阈值作为热点。 指令调度器延迟涉及其执行的指令的执行被识别为热点的操作块。
    • 9. 发明授权
    • Processor, processor system, temperature estimation device, information processing device, and temperature estimation method
    • 处理器,处理器系统,温度估计装置,信息处理装置和温度估计方法
    • US07520669B2
    • 2009-04-21
    • US10591080
    • 2005-04-26
    • Kazuaki YazawaIwao TakiguchiAtsuhiko ImaiTetsuji TamuraKenichi Adachi
    • Kazuaki YazawaIwao TakiguchiAtsuhiko ImaiTetsuji TamuraKenichi Adachi
    • G01K1/00G01K7/00G06F19/00
    • G06F1/324G06F1/206G06F1/3203Y02D10/126
    • A temperature sensor measures a temperature of a certain location inside a processor. An overall heat amount measurement unit measures the overall amount of heat of the processor. A temperature estimation unit estimates the temperatures of a plurality of hot spots occurring in the processor based on the temperature of the certain location detected by the temperature sensor, and determines the maximum temperature of the processor. The temperature estimation unit switches between maximum load temperature estimation coefficients and individual load temperature estimation coefficients stored in a storing unit for reference, depending on the overall amount of heat of the processor, and applies them to a temperature estimation function(s) for converting the sensor temperature into the temperatures of the hot spots. An operating frequency control unit exercises control for lowering the operating frequency of the processor when the maximum temperature of the processor estimated by the temperature estimation unit exceeds a predetermined limit temperature.
    • 温度传感器测量处理器内某一位置的温度。 总热量测量单元测量处理器的总体热量。 温度估计单元基于由温度传感器检测到的特定位置的温度来估计处理器中出现的多个热点的温度,并且确定处理器的最高温度。 温度估计单元根据处理器的总体热量,在存储在存储单元中的最大负载温度估计系数和各个负载温度估计系数之间切换,并将其应用于温度估计功能,以将 传感器温度进入热点温度。 当由温度估计单元估计的处理器的最高温度超过预定极限温度时,操作频率控制单元执行用于降低处理器的工作频率的控制。
    • 10. 发明申请
    • Processor, Processor System, Temperature Estimation Device, Information Processing Device, And Temperature Estimation Method
    • 处理器,处理器系统,温度估计装置,信息处理装置和温度估计方法
    • US20080043807A1
    • 2008-02-21
    • US10591080
    • 2005-04-26
    • Kazuaki YazawaIwao TakiguchiAtsuhiko ImaiTetsuji TamuraKenichi Adachi
    • Kazuaki YazawaIwao TakiguchiAtsuhiko ImaiTetsuji TamuraKenichi Adachi
    • G01K1/00
    • G06F1/324G06F1/206G06F1/3203Y02D10/126
    • A temperature sensor measures a temperature of a certain location inside a processor. An overall heat amount measurement unit measures the overall amount of heat of the processor. A temperature estimation unit estimates the temperatures of a plurality of hot spots occurring in the processor based on the temperature of the certain location detected by the temperature sensor, and determines the maximum temperature of the processor. The temperature estimation unit switches between maximum load temperature estimation coefficients and individual load temperature estimation coefficients stored in a storing unit for reference, depending on the overall amount of heat of the processor, and applies them to a temperature estimation function(s) for converting the sensor temperature into the temperatures of the hot spots. An operating frequency control unit exercises control for lowering the operating frequency of the processor when the maximum temperature of the processor estimated by the temperature estimation unit exceeds a predetermined limit temperature.
    • 温度传感器测量处理器内某一位置的温度。 总热量测量单元测量处理器的总体热量。 温度估计单元基于由温度传感器检测到的特定位置的温度来估计处理器中出现的多个热点的温度,并且确定处理器的最高温度。 温度估计单元根据处理器的总热量,在存储在存储单元中的最大负载温度估计系数和各个负载温度估计系数之间切换,并将其应用于温度估计功能,以将 传感器温度进入热点温度。 当由温度估计单元估计的处理器的最高温度超过预定极限温度时,操作频率控制单元执行用于降低处理器的工作频率的控制。