Abstract: Embodiments of an overlay network with innovative virtual network switches and related network interface controllers are disclosed. According to one embodiment, the overlay network may comprise at least one virtual network switch (VNS), wherein each VNS is installed within a corresponding first processing endpoint which is logically above a network of virtual machines. And, the VNS may be configured to intercept data packets transmitted on a network layer logically below the network of virtual machines. The VNS may comprise: (a) a manager element configured to connect to at least one virtual network interface controller (VNIC), each VNIC being installed within a corresponding second processing endpoint which is also logically above the network of virtual machines; (b) a replicator node configured to replicate and route the data packets; and (c) a switch controller configured to control the first replicator node.

Abstract: The present disclosure describes an injectable aqueous dispersion, including an aqueous solvent, and a chemotherapeutic agent composition dispersed in the aqueous solvent to provide the injectable aqueous dispersion. The chemotherapeutic agent composition includes a combination of chemotherapeutic agents selected from: gemcitabine and paclitaxel; and venetoclax and zanubrutinib. The chemotherapeutic agent composition further includes one or more compatibilizers comprising a lipid (e.g., a lipid excipient), a lipid conjugate, or a combination thereof. The chemotherapeutic agents of the chemotherapeutic agent composition exhibit a synergistic chemotherapeutic effect.

Abstract: Described herein are combination pharmaceutical compositions including a combination of hydrophilic and hydrophobic therapeutic agents (i.e., drugs) that are assembled together with excipients under specific conditions, forming a homogeneous pharmaceutical powder with unified repetitive multi-drug motif (MDM) structure. Unlike currently available drug combination powders, which are amorphous, the combination pharmaceutical compositions (e.g.

Abstract: Drug-polymer complexes, drug-polymer particles, drug-polymer particle formulations, and methods for making and using the complexes, particles, and formulations. The drug-polymer complex is prepared by a melt-quench process in which a combination of a drug and a polymer are heated to or above the melting point of the drug and polymer and then cooled.

Abstract: A field testing system is provided that uses a personal computer tethered to an interface board. A cellular telephone plugs into the interface board during wireless field testing. The cellular telephone may include configurable multiplexer circuitry and power supply circuitry. During normal operation, the cellular telephone is configured so that its application processor is linked to its application processor and to an external bus. During field testing, the cellular telephone is configured to link the baseband unit to the external bus and the interface board. The baseband unit may support advanced communications busses (e.g., USB). To avoid consuming too many pins in the external bus between the interface board and the cellular telephone, power for the USB bus during field testing may be derived from a power management unit in the cellular telephone.

Abstract: An electronic device has wireless communications circuitry that supports communications using multiple radio access technologies. The electronic device may gather information such as data rate values, power consumption values, and other data for a currently active radio access technology and an alternative radio access technology. The electronic device may automatically switch between the currently active radio access technology and the alternative radio access technology based on a value of a data rate efficiency metric. The data rate efficiency metric may represent how efficiently each radio access technology is capable of using power to convey a given amount of data per unit time. The data rate efficiency metric may be evaluated using measured power consumption data, measured data rate values, and operating parameters such as signal strength and transmitted power parameters.

Abstract: Portable user devices are provided that communicate wirelessly with base stations. A user device may include a transceiver, a power amplifier, a voltage supply, and a global positioning system (GPS) unit. The device may transmit signals at a certain transmit power to a neighboring base station. The device may log the time spent transmitting at each power level. Each data point may be tagged with the current location of the device. The logs of each device may be aggregated by a power optimization server. The power optimization server may calculate optimum power settings for each region and for each type of device. A region may be any desirable size ranging from the size of a single cell to an entire continent. Device users may download updated optimum settings. A device may automatically detect and select the optimum transmit power setting during operation depending on its current location.

Abstract: An electronic device has wireless communications circuitry that supports communications using multiple radio access technologies. The electronic device may gather information such as data rate values, power consumption values, and other data for a currently active radio access technology and an alternative radio access technology. The electronic device may automatically switch between the currently active radio access technology and the alternative radio access technology based on a value of a data rate efficiency metric. The data rate efficiency metric may represent how efficiently each radio access technology is capable of using power to convey a given amount of data per unit time. The data rate efficiency metric may be evaluated using measured power consumption data, measured data rate values, and operating parameters such as signal strength and transmitted power parameters.

Abstract: A field testing system is provided that uses a personal computer tethered to an interface board. A cellular telephone plugs into the interface board during wireless field testing. The cellular telephone may include configurable multiplexer circuitry and power supply circuitry. During normal operation, the cellular telephone is configured so that its application processor is linked to its application processor and to an external bus. During field testing, the cellular telephone is configured to link the baseband unit to the external bus and the interface board. The baseband unit may support advanced communications busses (e.g., USB). To avoid consuming too many pins in the external bus between the interface board and the cellular telephone, power for the USB bus during field testing may be derived from a power management unit in the cellular telephone.

Abstract: Portable user devices are provided that communicate wirelessly with base stations. A user device may include a transceiver, a power amplifier, a voltage supply, and a global positioning system (GPS) unit. The device may transmit signals at a certain transmit power to a neighboring base station. The device may log the time spent transmitting at each power level. Each data point may be tagged with the current location of the device. The logs of each device may be aggregated by a power optimization server. The power optimization server may calculate optimum power settings for each region and for each type of device. A region may be any desirable size ranging from the size of a single cell to an entire continent. Device users may download updated optimum settings. A device may automatically detect and select the optimum transmit power setting during operation depending on its current location.