摘要:
A method of allocating workload among servers in a geographically collocated cluster of compute equipment includes calibrating causes of heat re-circulation in the cluster of compute equipment. In addition, workload is allocated among the servers to address causes of the heat re-circulation to reduce costs associated with cooling the compute equipment.
摘要:
In a method for thermally managing a data center housing at least one electronic component, the heat generated by a heat generating device of the at least one electronic component is estimated. In addition, a temperature detected by a first temperature sensor positioned to detect an interior temperature of the at least one electronic component is received. The estimated heat generated by the at least one heat generating device is substantially masked out from the temperature detected by the first temperature sensor and an inlet temperature of the at least one electronic component is determined from a difference between the substantially masked out temperature and the temperature detected by the first temperature sensor.
摘要:
A method of allocating workload among servers in a geographically collocated cluster of compute equipment includes calibrating causes of heat re-circulation in the cluster of compute equipment. In addition, workload is allocated among the servers to address causes of the heat re-circulation to reduce costs associated with cooling the compute equipment.
摘要:
In a method of allocating workload among servers based upon historical data, a requested workload profile is received and is compared with a plurality of historical workload profiles. A historical workload profile that is within a predefined range of the requested workload profile and that corresponds to a substantially minimized resource usage for power and cooling is selected. In addition, workload among the servers is allocated according to the selected historical workload profile to thereby substantially minimize resource usage for power and cooling.
摘要:
In a method for managing a data center, data for a training set of data is collected. The data includes heat loads generated by a plurality of electronic components and temperatures at multiple locations in the data center and under varying power profiles. A machine learning application is implemented to develop a model of a thermal topology of the data center using the training set of data and the model is implemented to predict heat profiles corresponding to a plurality of power profiles that are outside of the training set of data.
摘要:
A method of distributing power among servers is described includes calculating thermal multipliers of the servers, where the thermal multipliers represent recommended thermodynamic power consumption levels for the servers. In addition, the thermal multipliers of the servers are discretized to one of a plurality of server power states based upon geographic locations of the servers and one of the plurality of server power states is assigned to the servers based upon the discretization of the thermal multipliers.
摘要:
A method of distributing power among servers is described includes calculating thermal multipliers of the servers, where the thermal multipliers represent recommended thermodynamic power consumption levels for the servers. In addition, the thermal multipliers of the servers are discretized to one of a plurality of server power states based upon geographic locations of the servers and one of the plurality of server power states is assigned to the servers based upon the discretization of the thermal multipliers.
摘要:
In a method of allocating workload among servers based upon historical data, a requested workload profile is received and is compared with a plurality of historical workload profiles. A historical workload profile that is within a predefined range of the requested workload profile and that corresponds to a substantially minimized resource usage for power and cooling is selected. In addition, workload among the servers is allocated according to the selected historical workload profile to thereby substantially minimize resource usage for power and cooling.
摘要:
A mobile application is provided that provides intelligent recommendations based on the knowledge of where the user has been, and what venues the user would like to visit. Further, such an application may be capable of determining where people in a user's social network have been and what venue locations these related users would like to visit. Also, in another implementation, the application may be capable of determining where people with similar tastes have been, and where they would like to go. Some or all of this information may be used by a mobile application that provides recommendations to a user. For instance, in one implementation, a user having a mobile device such as a cell phone wishes to locate a venue to based on one or more parameters, and some or all of this information may be used to order or rank recommendations within the interface.
摘要:
A power consuming device is configured to be electrically connected to a power connection point of a power distribution system of a datacenter. The power distribution system includes a hierarchy of power supply equipment. A first label is associated with the power connection point and includes power supply information that indicates the power connection point's place in the hierarchy of power supply equipment. A second label is associated with the power consuming device and includes identification information that identifies the power consuming device. A reader is configured to read the first label to obtain the power supply information and to read the second label to obtain the identification information. An electrical connection management system is configured to receive the power supply information and the identification information obtained by the reader such that the electrical connection management system records the connection of the power consuming device to the power connection point and the power connection point's place in the hierarchy of power supply equipment.