公开(公告)号：US08892924B2

公开(公告)日：2014-11-18

申请号：US13118757

申请日：2011-05-31

申请人： Srikanth Balasubramanian ,  Tessil Thomas ,  Satish Shrimali ,  Baskaran Ganesan

发明人： Srikanth Balasubramanian ,  Tessil Thomas ,  Satish Shrimali ,  Baskaran Ganesan

IPC分类号： G06F1/00 ,  G06F1/32

CPC分类号： G06F1/3293 ,  G06F1/3206 ,  G06F1/3237 ,  G06F1/324 ,  Y02D10/128 ,  Y02D50/20

摘要： In one embodiment, a multi-core processor includes multiple cores and an uncore, where the uncore includes various logic units including a cache memory, a router, and a power control unit (PCU). The PCU can clock gate at least one of the logic units and the cache memory when the multi-core processor is in a low power state to thus reduce dynamic power consumption.

公开(公告)号：US09069555B2

公开(公告)日：2015-06-30

申请号：US13422476

申请日：2012-03-16

申请人： Eric Fetzer ,  Reid J. Reidlinger ,  Don Soltis ,  William J. Bowhill ,  Satish Shrimali ,  Krishnakanth Sistla ,  Efraim Rotem ,  Rakesh Kumar ,  Vivek Garg ,  Alon Naveh ,  Lokesh Sharma

发明人： Eric Fetzer ,  Reid J. Reidlinger ,  Don Soltis ,  William J. Bowhill ,  Satish Shrimali ,  Krishnakanth Sistla ,  Efraim Rotem ,  Rakesh Kumar ,  Vivek Garg ,  Alon Naveh ,  Lokesh Sharma

IPC分类号： G06F1/26 ,  G06F1/32

CPC分类号： G06F1/3296 ,  G06F1/324 ,  Y02D10/126 ,  Y02D10/172 ,  Y02D50/20

摘要： A processor may include a core and an uncore area. The power consumed by the core area may be controlled by controlling the dynamic capacitance of the processor such that the dynamic capacitance is within an allowable dynamic capacitance value irrespective of the application being processed by the core area. The power management technique includes measuring digital activity factor (DAF), monitoring architectural and data activity levels, and controlling power consumption by throttling the instructions based on the activity levels. As a result of throttling the instructions, throttling may be implemented in 3rd droop and thermal design point (TDP). Also, the idle power consumed by the uncore area while the core area is in deep power saving states may be reduced by varying the reference voltage VR and the VP provided to the uncore area. As a result, the idle power consumed by the uncore area may be reduced.

摘要翻译： 处理器可以包括核心和无孔区域。 可以通过控制处理器的动态电容来控制核心区域消耗的功率，使得动态电容在允许的动态电容值内，而不管应用程序是否被核心区域处理。 电源管理技术包括测量数字活动因素（DAF），监控架构和数据活动级别，以及通过基于活动级别来限制指令来控制功耗。 作为节流指令的结果，节流可以在第3垂直和热设计点（TDP）中实现。 此外，通过改变提供给无孔区域的参考电压VR和VP，可以减少核心区域处于深功率节省状态时由无孔区域消耗的空闲功率。 结果，可以减少由无孔区域消耗的空闲功率。

公开(公告)号：US20120311360A1

公开(公告)日：2012-12-06

申请号：US13118757

申请日：2011-05-31

申请人： Srikanth Balasubramanian ,  Tessil Thomas ,  Satish Shrimali ,  Baskaran Ganesan

发明人： Srikanth Balasubramanian ,  Tessil Thomas ,  Satish Shrimali ,  Baskaran Ganesan

IPC分类号： G06F1/32 ,  G06F9/02 ,  G06F15/80

CPC分类号： G06F1/3293 ,  G06F1/3206 ,  G06F1/3237 ,  G06F1/324 ,  Y02D10/128 ,  Y02D50/20

摘要： In one embodiment, a multi-core processor includes multiple cores and an uncore, where the uncore includes various logic units including a cache memory, a router, and a power control unit (PCU). The PCU can clock gate at least one of the logic units and the cache memory when the multi-core processor is in a low power state to thus reduce dynamic power consumption.

摘要翻译： 在一个实施例中，多核处理器包括多个核和一个非核，其中该无孔包括包含高速缓冲存储器，路由器和功率控制单元（PCU）的各种逻辑单元。 当多核处理器处于低功率状态时，PCU可以对逻辑单元和高速缓冲存储器中的至少一个进行时钟门控，从而降低动态功耗。

公开(公告)号：US20120254643A1

公开(公告)日：2012-10-04

申请号：US13422476

申请日：2012-03-16

申请人： Eric Fetzer ,  Reid J. Reidlinger ,  Don Soltis ,  William J. Bowhill ,  Satish Shrimali ,  Krishnakanth Sistla ,  Efraim Rotem ,  Rakesh Kumar ,  Vivek Garg ,  Alon Naveh ,  Lokesh Sharma

发明人： Eric Fetzer ,  Reid J. Reidlinger ,  Don Soltis ,  William J. Bowhill ,  Satish Shrimali ,  Krishnakanth Sistla ,  Efraim Rotem ,  Rakesh Kumar ,  Vivek Garg ,  Alon Naveh ,  Lokesh Sharma

IPC分类号： G06F1/32

CPC分类号： G06F1/3296 ,  G06F1/324 ,  Y02D10/126 ,  Y02D10/172 ,  Y02D50/20

摘要： A processor may include a core and an uncore area. The power consumed by the core area may be controlled by controlling the Cdyn of the processor such that the Cdyn is within an allowable Cdyn value irrespective of the application being processed by the core area. The power management technique includes measuring digital activity factor (DAF), monitoring architectural and data activity levels, and controlling power consumption by throttling the instructions based on the activity levels. As a result of throttling the instructions, throttling may be implemented in 3rd droop and thermal design point (TDP). Also, the idle power consumed by the uncore area while the core area is in deep power saving states may be reduced by varying the reference voltage VR and the VP provided to the uncore area. As a result, the idle power consumed by the uncore area may be reduced.

摘要翻译： 处理器可以包括核心和无孔区域。 可以通过控制处理器的Cdyn来控制核心区域消耗的功率，使得Cdyn处于可允许的Cdyn值内，而不管应用程序是否被核心区域处理。 电源管理技术包括测量数字活动因素（DAF），监控架构和数据活动级别，以及通过基于活动级别来限制指令来控制功耗。 作为节流指令的结果，节流可以在第3垂直和热设计点（TDP）中实现。 此外，通过改变提供给无孔区域的参考电压VR和VP，可以减少核心区域处于深功率节省状态时由无孔区域消耗的空闲功率。 结果，可以减少由无孔区域消耗的空闲功率。

公开(公告)号：US20130232368A1

公开(公告)日：2013-09-05

申请号：US13782492

申请日：2013-03-01

申请人： ERIC FETZER ,  REID RIEDLINGER ,  DON SOLTIS ,  WILLIAM BOWHILL ,  SATISH SHRIMALI ,  KRISHNAKANTH SISTLA ,  EFRAIM ROTEM ,  RAKESH KUMAR ,  VIVEK GARG ,  ALON NAVEH ,  LOKESH SHARMA

发明人： ERIC FETZER ,  REID RIEDLINGER ,  DON SOLTIS ,  WILLIAM BOWHILL ,  SATISH SHRIMALI ,  KRISHNAKANTH SISTLA ,  EFRAIM ROTEM ,  RAKESH KUMAR ,  VIVEK GARG ,  ALON NAVEH ,  LOKESH SHARMA

IPC分类号： G06F1/32

CPC分类号： G06F1/3296 ,  G06F1/324 ,  Y02D10/126 ,  Y02D10/172 ,  Y02D50/20

摘要： A processor may include a core and an uncore area. The power consumed by the core area may be controlled by controlling the Cdyn of the processor such that the Cdyn is within an allowable Cdyn value irrespective of the application being processed by the core area. The power management technique includes measuring digital activity factor (DAF), monitoring architectural and data activity levels, and controlling power consumption by throttling the instructions based on the activity levels. As a result of throttling the instructions, throttling may be implemented in 3rd droop and thermal design point (TDP). Also, the idle power consumed by the uncore area while the core area is in deep power saving states may be reduced by varying the reference voltage VR and the VP provided to the uncore area. As a result, the idle power consumed by the uncore area may be reduced.

摘要翻译： 处理器可以包括核心和无孔区域。 可以通过控制处理器的Cdyn来控制核心区域消耗的功率，使得Cdyn处于可允许的Cdyn值内，而不管应用程序是否被核心区域处理。 电源管理技术包括测量数字活动因素（DAF），监控架构和数据活动级别，以及通过基于活动级别来限制指令来控制功耗。 作为节流指令的结果，节流可以在第3垂直和热设计点（TDP）中实现。 此外，通过改变提供给无孔区域的参考电压VR和VP，可以减少核心区域处于深功率节省状态时由无孔区域消耗的空闲功率。 结果，可以减少由无孔区域消耗的空闲功率。

公开(公告)号：US20130179713A1

公开(公告)日：2013-07-11

申请号：US13780103

申请日：2013-02-28

申请人： SRIKANTH BALASUBRAMANIAN ,  Tessil Thomas ,  SATISH SHRIMALI ,  BASKARAN GANESAN

发明人： SRIKANTH BALASUBRAMANIAN ,  Tessil Thomas ,  SATISH SHRIMALI ,  BASKARAN GANESAN

IPC分类号： G06F1/32

CPC分类号： G06F1/3293 ,  G06F1/3206 ,  G06F1/3237 ,  G06F1/324 ,  Y02D10/128 ,  Y02D50/20

摘要： In one embodiment, a multi-core processor includes multiple cores and an uncore, where the uncore includes various logic units including a cache memory, a router, and a power control unit (PCU). The PCU can clock gate at least one of the logic units and the cache memory when the multi-core processor is in a low power state to thus reduce dynamic power consumption.