A system-on-chip includes a first intellectual property (IP) generating a plurality of request packets; and a second IP generating a plurality of response packets based on the plurality of request packets, wherein the second IP includes a plurality of processing elements processing the plurality of request packets and generating the plurality of response packets; a distributer, when the plurality of request packets are input from the first IP, determining a scheduling policy based on a packet type of the plurality of request packets and distributing the plurality of request packets to the plurality of processing elements according to the determined scheduling policy; and an aggregator, when the plurality of response packets are received from each of the plurality of processing elements, aggregating the plurality of response packets according to the determined scheduling policy.

In one example, a method may include receiving a wireless signal from a device. The device may be within an environment. The method may also include identifying the device. The device may be identified based on at least one of data and metadata included in the wireless signal. In addition, the method may include determining a location of the device within the environment. The location of the device within the environment may be determined based on the data included the wireless signal. Further, the method may include displaying an augmented environment representative of the environment and a symbol representative of the device within the augmented environment. The symbol may be displayed in a location within the augmented environment corresponding to the location of the device within the environment.

In one example, a method may include receiving a wireless signal from a device. The device may be within an environment. The method may also include identifying the device. The device may be identified based on at least one of data and metadata included in the wireless signal. In addition, the method may include determining a location of the device within the environment. The location of the device within the environment may be determined based on the data included the wireless signal. Further, the method may include displaying an augmented environment representative of the environment and a symbol representative of the device within the augmented environment. The symbol may be displayed in a location within the augmented environment corresponding to the location of the device within the environment.

A BMS managing apparatus including a master BMS and a plurality of slave BMSs, and includes: a master BMS for sending an NV (non-volatile) value confirmation request to the plurality of slave BMSs, and sending a uniformization request to the plurality of slave BMSs based on whether a source ID is set, when a response to the NV value confirmation request is received from the plurality of slave BMSs; and a plurality of slave BMSs for sending each NV value to the master BMS when the NV value confirmation request is received from the master BMS, setting a representative BMS and a target BMS based on the plurality of NV values, setting the representative BMS or a slave BMS corresponding to the source ID as a source BMS according to the uniformization request received from the master BMS, and updating an NV value of the target BMS according to an NV value of the source BMS.

A BMS managing apparatus including a master BMS and a plurality of slave BMSs, and includes: a master BMS for sending an NV (non-volatile) value confirmation request to the plurality of slave BMSs, and sending a uniformization request to the plurality of slave BMSs based on whether a source ID is set, when a response to the NV value confirmation request is received from the plurality of slave BMSs; and a plurality of slave BMSs for sending each NV value to the master BMS when the NV value confirmation request is received from the master BMS, setting a representative BMS and a target BMS based on the plurality of NV values, setting the representative BMS or a slave BMS corresponding to the source ID as a source BMS according to the uniformization request received from the master BMS, and updating an NV value of the target BMS according to an NV value of the source BMS.

A message limit value to be used in enqueuing one or more messages on a queue of a device of the computing environment is obtained. The message limit value indicates whether an extended maximum message length is supported by the device. The extended maximum message length is different from a default maximum message length supported by the device. Based on determining that the extended maximum message length is supported and that the obtained message limit value has a defined relationship with a select value, at least one message of an extended length is enqueued on the queue of the device.

A computing system may implement a method for creating a first subdomain by configuring one of a first plurality of slave nodes as a first subdomain master node and configuring one or more other slave nodes of the first plurality of slave nodes as first subdomain slave nodes to the first subdomain master node.

Systems, methods, and/or apparatuses may be operative to perform a dialysis process that includes a displacer infusion process. The dialysis machine may include at least one processor and a memory coupled to the at least one processor, the memory comprising instructions that, when executed by the processor, may cause the at least one processor to access dialysis information for a dialysis process performed by a dialysis machine, the dialysis information indicating a target substance to be displaced from a binding compound by a displacer, and determine an infusion profile for infusing the displacer into a patient during a displacer infusion process of the dialysis process, the infusion profile determined based on the dialysis information and an infusion constraint. Other embodiments are described.

Systems, methods, and/or apparatuses may be operative to perform a dialysis process that includes a displacer infusion process. The dialysis machine may include at least one processor and a memory coupled to the at least one processor, the memory comprising instructions that, when executed by the processor, may cause the at least one processor to access dialysis information for a dialysis process performed by a dialysis machine, the dialysis information indicating a target substance to be displaced from a binding compound by a displacer, and determine an infusion profile for infusing the displacer into a patient during a displacer infusion process of the dialysis process, the infusion profile determined based on the dialysis information and an infusion constraint. Other embodiments are described.

An electronic device, according to various embodiments, comprises: one or more image sensors; a first processor electrically connected to at least one of the one or more sensors via a first interface and including a first functional processing circuit and a second functional processing circuit capable of processing first output information of the first functional processing circuit; a second processor electrically connected to at least one of the one or more image sensors via a second interface; a third interface for connecting the first functional processing circuit and the second processor to transfer the first output information of the first functional processing circuit to the second processor; and a fourth interface for connecting the second functional processing circuit and the second processor to transfer second output information of the second processor to the second functional processing circuit. Various other embodiments are possible.