Patent application number | Description | Published |
20090158067 | SAVING POWER IN A COMPUTER SYSTEM - A power management unit (PMU) may promote a processing core from a working state to a first non-working power saving state after receiving a signal from an automatic core C-state promotion (ACCP) unit. An OS component may detect the idling of the processing core and may initiate the ACCP. The ACCP may initiate the PMU to promote the processing core to a first non-working power saving state. The ACCP may track the residency time of the processing core in the first non-working power saving state and may initiate the PMU to promote the processing core to a next non-working power saving state if residency time of the processing core in the first non-working power saving state exceeds a first value. The ACCP may initiate the PMU to demote the processing core back to the working state if a break event occurs during the residency time. | 06-18-2009 |
20090171875 | SYSTEMS, METHODS AND APPARATUSES FOR RANK COORDINATION - Embodiments of the invention are generally directed to systems, methods, and apparatuses for rank coordination. In some embodiments, a host includes rank coordination logic. The rank coordination logic may include performance measurement logic to measure a performance of a memory channel and dwell period control logic to select a length of a dwell period based, at least in part, on the performance of the memory channel. Other embodiments are described and claimed. | 07-02-2009 |
20090172423 | METHOD, SYSTEM, AND APPARATUS FOR REROUTING INTERRUPTS IN A MULTI-CORE PROCESSOR - A method, system, and apparatus may route an interrupt to a first core of a plurality of cores of a multi-core system. If the first core is in an idle or low power state, or operating in a power state at or below a threshold power state, a core in a least idle state may be found. The interrupt may be rerouted to and processed by the core in the least idle state. Cores in a multi-core system may be rated based on for example, power states or other characteristics, and interrupts may be assigned based on these ratings. Other embodiments are described and claimed. | 07-02-2009 |
20090172442 | SYSTEM AND METHOD FOR MEMORY PHASE SHEDDING - Embodiments of the invention supply power to DRAM or other memory devices with a multi-phase voltage regulator. A power controller coupled to the multi-phase voltage regulator causes one or more phases of the multi-phase voltage regulator to be activated or deactivated (shed) according to predetermined criteria. Embodiments of the invention thus improve power management by providing one or more reduced power states for the memory devices. Other embodiments are described. | 07-02-2009 |
20090172681 | SYSTEMS, METHODS AND APPARATUSES FOR CLOCK ENABLE (CKE) COORDINATION - Embodiments of the invention are generally directed to systems, methods, and apparatuses for clock enable (CKE) coordination. In some embodiments, a memory controller includes logic to predict whether a scheduled request will be issued to a rank. The memory controller may also include logic to predict whether a scheduled request will not be issued to the rank. In some embodiments, the clock enable (CKE) is asserted or de-asserted to a rank based, at least in part, on the predictions. Other embodiments are described and claimed. | 07-02-2009 |
20120331310 | Increasing Power Efficiency Of Turbo Mode Operation In A Processor - In one embodiment, a processor has multiple cores to execute threads. The processor further includes a power control logic to enable entry into a turbo mode based on a comparison between a threshold and value of a counter that stores a count of core power and performance combinations that identify turbo mode requests of at least one of the threads. In this way, turbo mode may be entered at a utilization level of the processor that provides for high power efficiency. Other embodiments are described and claimed. | 12-27-2012 |
20130007475 | EFFICIENT FREQUENCY BOOST OPERATION - Systems and methods of operating a computing system may involve identifying a plurality of state values, wherein each state value corresponds to a computing thread associated with a processor. An average value can be determined for the plurality of state values, wherein a determination may be made as to whether to grant a frequency boost request based at least in part on the average value. | 01-03-2013 |
20130179703 | Increasing Power Efficiency Of Turbo Mode Operation In A Processor - In one embodiment, a processor has multiple cores to execute threads. The processor further includes a power control logic to enable entry into a turbo mode based on a comparison between a threshold and value of a counter that stores a count of core power and performance combinations that identify turbo mode requests of at least one of the threads. In this way, turbo mode may be entered at a utilization level of the processor that provides for high power efficiency. Other embodiments are described and claimed. | 07-11-2013 |
20130346772 | DYNAMIC LINK WIDTH MODULATION - Described herein are embodiments of an apparatus configured for dynamic link width modulation, a system including an apparatus configured for dynamic link width modulation, a method for dynamic link width modulation, and computer-readable media having instructions that, if executed by one or more processors, cause an apparatus to perform a dynamic link width modulation method. An apparatus configured for dynamic link width modulation may include a first counter for determining a length of a queue of packets at a source of a link, a second counter for determining a rate of utilization of the link, and a power control unit configured to modify a width of the link based at least in part on the length of the queue and the rate of utilization. Other embodiments may be described and/or claimed. | 12-26-2013 |
20140006761 | MECHANISM TO PROVIDE WORKLOAD AND CONFIGURATION-AWARE DETERMINISTIC PERFORMANCE FOR MICROPROCESSORS | 01-02-2014 |
20140019654 | DYNAMIC LINK WIDTH ADJUSTMENT - Embodiments help dynamically configure the width of PCIe links and also determine how to best configure the appropriate link width. This helps avoid situations where PCIe links are almost always active even at very low traffic rates. Embodiments achieve these benefits based on, for example, run-time monitoring of bandwidth requirement for integrated and non-integrated ports located downstream for the PCIe controller. This provides power savings with little impact on performance. Other embodiments are discussed herein. | 01-16-2014 |
20140095801 | SYSTEM AND METHOD FOR RETAINING COHERENT CACHE CONTENTS DURING DEEP POWER-DOWN OPERATIONS - A system, method, and computer program product for retaining coherent cache contents during deep power-down operations, and reducing the low-power state entry and exit overhead to improve processor energy efficiency and performance. The embodiments flush or clean the Modified-state lines from the cache before entering a deep low-power state, and then implement a deferred snoop strategy while in the powered-down state. Upon existing the powered-down state, the embodiments process the deferred snoops. A small additional cache and a snoop filter (or other cache-tracking structure) may be used along with additional logic to retain cache contents coherently through deep power-down operations, which may span multiple low-power states. | 04-03-2014 |
20140101468 | APPARATUS, SYSTEM AND METHOD FOR GATED POWER DELIVERY TO AN I/O INTERFACE - Techniques and mechanisms for managing a delivery of power to a resource of an input/output (I/O) interface. In an embodiment, a first link of a plurality of communication links is monitored. Of the plurality of links, a first set of resources of the I/O interface is to support communication only via the first link. One or more other resources of the I/O interface are for supporting communications of another link of the plurality of links. In another embodiment, a resource of the first set of resources is decoupled from a power supply in response to detecting a total number of active lanes of the first link, decoupling. | 04-10-2014 |
20140149774 | INCREASING POWER EFFICIENCY OF TURBO MODE OPERATION IN A PROCESSOR - In one embodiment, a processor has multiple cores to execute threads. The processor further includes a power control logic to enable entry into a turbo mode based on a comparison between a threshold and value of a counter that stores a count of core power and performance combinations that identify turbo mode requests of at least one of the threads. In this way, turbo mode may be entered at a utilization level of the processor that provides for high power efficiency. Other embodiments are described and claimed. | 05-29-2014 |
20140181555 | MANAGING A POWER STATE OF A PROCESSOR - A method and system for managing a power state of a processor are described herein. The method includes receiving, at the processor, a signal indicating that an interrupt is to be sent to the processor. The method also includes transitioning the processor from the deep idle state to the shallow idle state in response to receiving the signal and transitioning the processor from the shallow idle state to an active state in response to receiving the interrupt. | 06-26-2014 |
20140281647 | MANAGING THE OPERATION OF A COMPUTING SYSTEM - A method and system for managing the operation of a computing system are described herein. The method includes determining a number of workloads on the computing system. The method also includes determining a number of performance-power states for each workload and a corresponding performance range and power consumption range for each performance-power state. The method further includes managing performance and power consumption of the computing system based on the performance-power states. | 09-18-2014 |