Patent application number | Description | Published |
20090309243 | MULTI-CORE INTEGRATED CIRCUITS HAVING ASYMMETRIC PERFORMANCE BETWEEN CORES - An integrated circuit in one embodiment includes asymmetric cores and an asymmetric core control circuit. At least one of the asymmetric cores is a different implementation of substantially the same function or subset of functionality as another core. The asymmetric core control circuit determines a performance parameter of an integrated circuit. The performance parameter may be the workload, the operating frequency, power consumption, quality of service, operating temperature or the like of the integrated circuit or a given portion of the integrated circuit. If the performance parameter is within a first range, the asymmetric core control circuit utilizes a first core to perform a function of the integrated circuit and idles a second core that is a different implementation of substantially the same function. If the performance parameter is within a second range, the core control circuit utilizes the second core to perform the function and idles the first core. | 12-17-2009 |
20110213947 | System and Method for Power Optimization - A technique for reducing the power consumption required to execute processing operations. A processing complex, such as a CPU or a GPU, includes a first set of cores comprising one or more fast cores and second set of cores comprising one or more slow cores. A processing mode of the processing complex can switch between a first mode of operation and a second mode of operation based on one or more of the workload characteristics, performance characteristics of the first and second sets of cores, power characteristics of the first and second sets of cores, and operating conditions of the processing complex. A controller causes the processing operations to be executed by either the first set of cores or the second set of cores to achieve the lowest total power consumption. | 09-01-2011 |
20110213950 | System and Method for Power Optimization - A technique for reducing the power consumption required to execute processing operations. A processing complex, such as a CPU or a GPU, includes a first set of cores comprising one or more fast cores and second set of cores comprising one or more slow cores. A processing mode of the processing complex can switch between a first mode of operation and a second mode of operation based on one or more of the workload characteristics, performance characteristics of the first and second sets of cores, power characteristics of the first and second sets of cores, and operating conditions of the processing complex. A controller causes the processing operations to be executed by either the first set of cores or the second set of cores to achieve the lowest total power consumption. | 09-01-2011 |
20110213998 | System and Method for Power Optimization - A technique for reducing the power consumption required to execute processing operations. A processing complex, such as a CPU or a GPU, includes a first set of cores comprising one or more fast cores and second set of cores comprising one or more slow cores. A processing mode of the processing complex can switch between a first mode of operation and a second mode of operation based on one or more of the workload characteristics, performance characteristics of the first and second sets of cores, power characteristics of the first and second sets of cores, and operating conditions of the processing complex. A controller causes the processing operations to be executed by either the first set of cores or the second set of cores to achieve the lowest total power consumption. | 09-01-2011 |
20120331275 | SYSTEM AND METHOD FOR POWER OPTIMIZATION - A technique for reducing the power consumption required to execute processing operations. A processing complex, such as a CPU or a GPU, includes a first set of cores comprising one or more fast cores and second set of cores comprising one or more slow cores. A processing mode of the processing complex can switch between a first mode of operation and a second mode of operation based on one or more of the workload characteristics, performance characteristics of the first and second sets of cores, power characteristics of the first and second sets of cores, and operating conditions of the processing complex. A controller causes the processing operations to be executed by either the first set of cores or the second set of cores to achieve the lowest total power consumption. | 12-27-2012 |
20120331319 | SYSTEM AND METHOD FOR POWER OPTIMIZATION - A technique for reducing the power consumption required to execute processing operations. A processing complex, such as a CPU or a GPU, includes a first set of cores comprising one or more fast cores and second set of cores comprising one or more slow cores. A processing mode of the processing complex can switch between a first mode of operation and a second mode of operation based on one or more of the workload characteristics, performance characteristics of the first and second sets of cores, power characteristics of the first and second sets of cores, and operating conditions of the processing complex. A controller causes the processing operations to be executed by either the first set of cores or the second set of cores to achieve the lowest total power consumption. | 12-27-2012 |
Patent application number | Description | Published |
20120254090 | RULES EXECUTION PLATFORM SYSTEM AND METHOD - Methods, mediums, and systems are described for providing a platform coupled to one or more rules engines. The platform may provide runtime rule services to one or more applications. Different rules engines may be used for different types of rules, such as calculations, decisions, process control, transformation, and validation. Rules engines can be added, removed, and reassigned to the platform. When the platform receives a request for services from an application, the platform selects one of the rules engines to handle the request and instructs the selected rules engine to execute the rule. The rules engine may be selected automatically. The platform may be implemented through a service-oriented architecture. | 10-04-2012 |
20150161510 | RULES EXECUTION PLATFORM SYSTEM AND METHOD - Methods, mediums, and systems are described for providing a platform coupled to one or more rules engines. The platform may provide runtime rule services to one or more applications. Different rules engines may be used for different types of rules, such as calculations, decisions, process control, transformation, and validation. Rules engines can be added, removed, and reassigned to the platform. When the platform receives a request for services from an application, the platform selects one of the rules engines to handle the request and instructs the selected rules engine to execute the rule. The rules engine may be selected automatically. The platform may be implemented through a service-oriented architecture. | 06-11-2015 |