摘要:
An audio touchscreen system receives microphone location data respectively corresponding to a plurality of microphones. Sonic signals corresponding to a sonic event respectively transduced by each microphone is triangulated, to determine the location of the origin of the sonic event upon the audio touchscreen, based on the sonic signals and the microphone location data. User input data is generated based on the location of the sonic event as determined by the triangulation.
摘要:
Migration of virtual machines within a computing environment is facilitated. A processor obtains a current virtual machine to host mapping in the computing environment, as well as a plurality of future virtual machine to host mappings. A current migration plan to migrate from a current state of the computing environment to another state of the computing environment is also obtained. Based on the current virtual machine to host mapping and one or more future virtual machine to host mappings of the plurality of future virtual machine to host mappings a determination is made that one or more potential alert conditions exist in the current migration plan. The current migration plan and/or one or more future virtual machine to host mappings are displayed. The current migration plan is adjusted to address at least one potential alert condition of the one or more potential alert conditions to improve processing within the computing environment.
摘要:
A method comprises receiving a first user communication, accessing a directory entry associated with the user, accessing, by a processor, a database stored in a memory that includes content designated as private that is associated with the user in the directory, determining with the processor whether the first user communication includes content designated as private that is associated with the user, generating a second user communication by removing the content designated as private that is associated with the user from the first user communication, and sending the second user communication to an electronic personal assistant.
摘要:
A modular electronic device including a master core and a plurality of communication radio modules is provided. The modular electronic device maximizes communication performance by receiving a request for network operations from a mobile operating system of the modular electronic device; polling a table to determine a capacity of each communication radio module; and assigning the network operations to a module of the communication radio modules with a highest available capacity to maximize the communication performance of the modular electronic device.
摘要:
A method for outputting content to an external device comprises receiving with a mobile device, a signal from a first external device, identifying a direction of the first external device relative to the mobile device, receiving a user input action on the mobile device that corresponds to the identified direction of the first external device relative to the mobile device, initiating a communicative connection between the mobile device and the first external device responsive to receiving the user input action that corresponds to the identified direction of the first external device relative to the mobile device, and outputting content from the mobile device to the first external device via the communicative connection.
摘要:
A method for determining a compute amount contributed by a device is provided. The method comprises receiving encrypted data from a processor of a customer system and parsing the encrypted data into a plurality of encrypted subsets. Then, the method associates a token specific to the device with an encrypted subset of the plurality of encrypted subsets to produce a packaged subset. The packaged subset is sent to the device. In response, a processed packaged subset that includes the token is received. The compute time contributed by the device is determined from the token of the processed packaged subset.
摘要:
A modular electronic device including a master core and a plurality of communication radio modules is provided. The modular electronic device maximizes communication performance by receiving a request for network operations from a mobile operating system of the modular electronic device; polling a table to determine a capacity of each communication radio module; and assigning the network operations to a module of the communication radio modules with a highest available capacity to maximize the communication performance of the modular electronic device.
摘要:
In one embodiment, a computer-implemented method includes detecting insertion of a mobile device into a cradle of a computer. The mobile device includes one or more device edges each having device coupling hardware. The cradle includes one or more cradle edges each having cradle coupling hardware. Each of the one or more device edges is configured to couple to a corresponding cradle edge of the one or more cradle edges, through connecting the device coupling hardware of the device edge with the cradle coupling hardware of the cradle edge. Communications are transmitted between a first device edge, of the one or more device edges, and a first cradle edge, of the one or more cradle edges, responsive to detecting the insertion. The communications are interpreted, by a computer processor, to utilize a touchscreen of the mobile device as a trackpad for the computer.
摘要:
A method for determining a compute amount contributed by a device is provided. The method comprises receiving encrypted data from a processor of a customer system and parsing the encrypted data into a plurality of encrypted subsets. Then, the method associates a token specific to the device with an encrypted subset of the plurality of encrypted subsets to produce a packaged subset. The packaged subset is sent to the device. In response, a processed packaged subset that includes the token is received. The compute time contributed by the device is determined from the token of the processed packaged subset.
摘要:
A method for determining allocation of virtual machines includes: at least one of generating and accessing a list of virtual machines (VMs) configured to run on a network, each VM having at least one network resource requirement, each VM in the list associated with a size of the at least one network resource requirement; selecting at least one equivalence set of VMs having a resource requirement size that is at least substantially identical; generating a plurality of meta-combinations from the at least one equivalence set of VMs, each meta-combination representing all possible combinations of a selected number of individual VMs from the equivalence set; determining a maximum resource capacity of a node in the network; and providing a meta-combination assignment to the node, the meta-combination assignment including a group of meta-combinations having a cumulative resource requirement size value that is less than or equal to the maximum resource capacity.