Patent application number | Description | Published |
20090037658 | Providing an inclusive shared cache among multiple core-cache clusters - In one embodiment, the present invention includes a method for receiving requested data from a system interconnect interface in a first scalability agent of a multi-core processor including a plurality of core-cache clusters, storing the requested data in a line of a local cache of a first core-cache cluster including a requester core, and updating a cluster field and a core field in a vector of a tag array for the line. Other embodiments are described and claimed. | 02-05-2009 |
20120254643 | Managing Power Consumption In A Multi-Core Processor - 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 3 | 10-04-2012 |
20130080795 | Dynamically Adjusting Power Of Non-Core Processor Circuitry - In one embodiment, the present invention includes a multicore processor having a variable frequency domain including a plurality of cores and at least a portion of non-core circuitry of the processor. This non-core portion can include a cache memory, a cache controller, and an interconnect structure. In addition to this variable frequency domain, the processor can further have a fixed frequency domain including a power control unit (PCU). This unit may be configured to cause a frequency change to the variable frequency domain without draining the non-core portion of pending transactions. Other embodiments are described and claimed. | 03-28-2013 |
20130151569 | COMPUTING PLATFORM INTERFACE WITH MEMORY MANAGEMENT - In some embodiments, a PPM interface may be provided with functionality to facilitate to an OS memory power state management for one or more memory nodes, regardless of a particular platform hardware configuration, as long as the platform hardware is in conformance with the PPM interface. | 06-13-2013 |
20130179716 | Dynamically Adjusting Power Of Non-Core Processor Circuitry - In one embodiment, the present invention includes a multicore processor having a variable frequency domain including a plurality of cores and at least a portion of non-core circuitry of the processor. This non-core portion can include a cache memory, a cache controller, and an interconnect structure. In addition to this variable frequency domain, the processor can further have a fixed frequency domain including a power control unit (PCU). This unit may be configured to cause a frequency change to the variable frequency domain without draining the non-core portion of pending transactions. Other embodiments are described and claimed. | 07-11-2013 |
20130232368 | MANAGING POWER CONSUMPTION IN A MULTI-CORE PROCESSOR - 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 3 | 09-05-2013 |
20130254572 | OPTIMIZING POWER USAGE BY FACTORING PROCESSOR ARCHITECTURAL EVENTS TO PMU - A method and apparatus to monitor architecture events is disclosed. The architecture events are linked together via a push bus mechanism with each architectural event having a designated time slot. There is at least one branch of the push bus in each core. Each branch of the push bus may monitor one core with all the architectural events. All the data collected from the events by the push bus is then sent to a power control unit. | 09-26-2013 |
20140095905 | Computing System and Processor With Fast Power Surge Detection And Instruction Throttle Down To Provide For Low Cost Power Supply Unit - A processor is described that includes a quick signal path from an input of the processor to logic circuitry within the processor. The input is to receive a fast throttle down signal. The logic circuitry is to throttle down a rate at which the processor issues instructions for execution in response to the fast throttle down signal. The quick signal path is to impose practicably minimal propagation delay of the fast throttle down signal within the processor. | 04-03-2014 |
20140157021 | ENFORCING A POWER CONSUMPTION DUTY CYCLE IN A PROCESSOR - In an embodiment, a processor includes a plurality of cores each to independently execute instructions, a plurality of graphics engines each to independently perform graphics operations; and, a power control unit coupled to the plurality of cores to control power consumption of the processor, where the power control unit includes a power excursion control logic to limit a power consumption level of the processor from being above a defined power limit for more than a duty cycle portion of an operating period. Other embodiments are described and claimed. | 06-05-2014 |
20140164799 | OPTIMIZING POWER USAGE BY FACTORING PROCESSOR ARCHITECTURAL EVENTS TO PMU - A method and apparatus to monitor architecture events is disclosed. The architecture events are linked together via a push bus mechanism with each architectural event having a designated time slot. There is at least one branch of the push bus in each core. Each branch of the push bus may monitor one core with all the architectural events. All the data collected from the events by the push bus is then sent to a power control unit. | 06-12-2014 |
20140337646 | Adaptively Limiting A Maximum Operating Frequency In A Multicore Processor - In an embodiment, a processor includes a plurality of cores each to independently execute instructions, and a power control unit coupled to the plurality of cores to control power consumption of the processor, where the power control unit includes a control logic to reduce a maximum operating frequency of the processor if a first number of forced performance state transitions occurs in a first time period or a second number of forced performance state transitions occurs in a second time period. Other embodiments are described and claimed. | 11-13-2014 |