Abstract: A port is dynamically added to and removed from a virtual switch. The new port may be allocated when there is sufficient free memory in a pool of memory associated with the virtual switch. When an existing port is deallocated, the portion of the pool of memory allocated to that existing port is freed up. As a result, a virtual machine that requires one or more ports on the virtual switch may be provisioned on a host so long as the pool of memory is sized properly and memory usage on the host is not excessive.

Abstract: A method of configuring a plurality of logical forwarding elements (LFEs) on a physical computing device comprising virtualization software and a plurality of data compute nodes (DCNs) is provided. The method provisions a first LFE configured and managed by a network manager of a datacenter on the physical computing device, the first LFE for performing OSI L3)packet forwarding between DCNs on one or more hosts, the first LFE comprising a plurality of logical ports configured and managed by the network manager, each logical port of the first LFE for connecting a DCN to a logical network configured and managed by the network manager.

Abstract: Some embodiments provide a method for a network controller that manages a logical network implemented in a datacenter comprising forwarding elements to which the network controller does not have access. The method identifies a data compute node (DCN), that operates on a host machine in the datacenter, to attach to the logical network. The DCN has a network interface with a first network address provided by a management system of the datacenter, and executes (i) a workload application and (ii) a managed forwarding element (MFE). The method distributes configuration data for configuring the MFE to receive data packets sent from the workload application on the DCN and perform network security and forwarding processing on the data packets. The data packets sent by the workload application have a second network address as a source address when received by the MFE and are encapsulated by the MFE using the first network address.

Abstract: A computer-implemented method includes receiving, by one or more processors on a first device, a first broadcast message from a second device including a wireless-enabled device operating on a Low Energy (LE) advertising channel, the first broadcast message includes transmission power information associated with the second device, transmission data, and a destination address, determining, by the one or more processors, a Received Signal Strength Indication (RSSI) of the first device, and based on the determined RSSI of the first device and the transmission power information associated with the second device, sending, by the one or more processors, the transmission data to the destination address.

Abstract: A miniature pneumatic device includes a miniature fluid control device and a miniature valve device. The miniature fluid control device includes a gas inlet plate, a resonance plate, a piezoelectric actuator and a gas collecting plate. A first chamber is formed between the resonance plate and the piezoelectric actuator. After a gas is fed into the gas inlet plate, the gas is transferred to the first chamber through the resonance plate and then transferred downwardly. Consequently, a pressure gradient is generated to continuously push the gas. The miniature valve device includes a valve plate and a gas outlet plate. After the gas is transferred from the miniature fluid control device to the miniature valve device, the valve opening of the valve plate is correspondingly opened or closed and the gas is transferred in one direction. Consequently, a pressure-collecting operation or a pressure-releasing operation is selectively performed.

Abstract: The technology disclosed herein enables network traffic routing using a hybrid routing table. In a particular embodiment, a method provides adding a first portion of a network prefix to one or more tiers of one or more tries in the hybrid routing table. Upon reaching a lowest node of the one or more tries when adding the first portion of the network prefix, the method provides adding key information to the lowest node. The key information and at least a second portion of the network prefix comprise a key to locate a value in a hash table of the hybrid routing table. The value indicates routing information for the network prefix. Additionally, the method provides routing packets using the hybrid routing table.

Abstract: A fixing apparatus for holding a circuit board in place includes a cover plate, a base for supporting the circuit board thereon, a connecting assembly for hinge-coupling a first end of the cover plate to the base, and a latching assembly for latching a second end of the cover plate to the base. The circuit board is held in place between the base and the cover plate.

Abstract: A gesture input device for interacting with a wearable object is provided. A plurality of magnetic generators are disposed on the wearable object. The gesture input device includes a plurality of magnetic sensors and a controller. The magnetic sensors are disposed on the wearable object. The magnetic sensors are configured to sense a plurality of magnetic signals provided by the magnetic generators, and generate a plurality of voltage signals according to the magnetic signals. The controller is coupled to the magnetic sensors and configured to receive the voltage signals. When the wearable object is worn on a user's hand and the user's hand is in different gestures, the voltage signals generated by the magnetic sensors correspondingly change. The controller determines that the gesture of the user's hand according to the voltage signals.

Abstract: A 3D sensing system includes a light source, an MEMS scanning mirror, an MEMS controller, one or multiple sensors, and an MCU. The MEMS scanning mirror is arranged to reflect the light provided by the light source. The MEMS controller is configured to control the angle of the MEMS scanning mirror in order to scan a surface. The one or multiple sensors are used to record the time when detecting the light reflected by the MEMS scanning mirror. The MCU is configured to calculate the location of the one or multiple sensors based on the recorded time by the one or multiple sensors.

Abstract: Example methods are provided for a network device to perform path maximum transmission unit discovery (PMTU) in a software-defined networking (SDN) environment. One example method may comprise detecting an egress packet that includes an inner header. The method may also comprise: in response to determination that a first maximum transmission unit (MTU) associated with a path between the first node and the second node is exceeded by a total size of the egress packet and an encapsulation overhead, generating an error packet that specifies a second MTU that is configured to be less than the first MTU based on the encapsulation overhead. The error packet may be sent to the first node to cause the first node to size a subsequent egress packet to the second inner address based on the second MTU.

Abstract: An air-cooling heat dissipation device is provided for removing heat from an electronic component. The air-cooling heat dissipation device includes a supporting substrate, an air pump and a heat sink. The supporting substrate includes a top surface, a bottom surface, an introduction opening and a thermal conduction plate. The thermal conduction plate is located over the top surface of the supporting substrate and aligned with the introduction opening. The electronic component is disposed on the thermal conduction plate. The air pump is fixed on the bottom surface of the supporting substrate and aligned with the introduction opening. The heat sink is attached on the electronic component. When the air pump is enabled, an ambient air is introduced into the introduction opening to remove the heat from the thermal conduction plate.

Abstract: A door closer device for driving a door to a predetermined closed position includes an adjustment mechanism and a door closer which is integrated with the door. The adjustment mechanism includes a base, an adjusting plate and at least one fixing element, wherein the adjusting plate is stacked with the base and coupled with the door closer. The adjusting plate and the base respectively include at least one adjusting bore, and the adjusting bores are corresponding with each other. One of the adjusting bores includes a first limiting end and a second limiting end, and a first moving path is defined between the first and second limiting ends. The fixing element is disposed in the adjusting bores and can move along the first moving path to fix the adjusting plate on the base.

Abstract: A gas detecting module includes a carrying plate, a sensor, a compartment body and an actuator. The carrying plate has a substrate and a gas opening. The compartment body is divided into a first compartment and a second compartment by a partition plate. The first compartment has an opening. The second compartment has an outlet and accommodates the actuator. The bottom of the compartment body has an accommodation recess receiving the carrying plate, whereby the gas opening is aligned with the outlet, and the sensor packaged on the substrate is disposed within the first compartment through the opening. The partition plate has a notch. The gas detecting module is assembled in a slim-type portable device having a casing. The casing has an inlet aligned with the first compartment. As the actuator is actuated, ambient gas is inhaled into the first compartment, and the sensor detects the gas flowing therethrough.

Abstract: Various embodiments of an end-to-end visual analytics system and related method thereof are disclosed.

Abstract: A control method of a driving circuit is provided for controlling a piezoelectric actuator of a piezoelectric pump to move a fluid of a fluid reservoir. Firstly, a driving voltage is outputted from the driving circuit. Then, a first inhalation adjusting process is implemented while the piezoelectric pump performs an inhaling operation. In the first inhalation adjusting process, a fluid pressure of the fluid within the fluid reservoir is detected and the fluid pressure is adjusted to the first predetermined inhalation pressure value according to the detecting result. Then, a first exhalation adjusting process is performed while the piezoelectric pump performs an exhaling operation. In the first exhalation adjusting process, the fluid pressure is detected and the fluid pressure is adjusted to the first predetermined exhalation pressure value according to the detecting result.

Abstract: Technical solutions are described for testing a light emitting diode (LED) device. An example method includes driving, by a controller, a filter unit to filter a light from the LED device using a first filter. The method further includes, in response to a sensor not receiving a measurable signal because of the first filter, driving, by the controller, the filter unit to filter the light using a second filter. Further, in response to the sensor not receiving the measureable signal because of the second filter, the method includes outputting an indication that the LED device is rejected. Further, in response to the sensor receiving the measureable signal, the method includes outputting an indication that the LED device is of a color representative of the second filter.

Abstract: Some embodiments provide a method for distributing packets processed at multiple sockets across a team of network interface controllers (NICs) in a processing system. The method of some embodiments uses existing distribution (or selection) algorithms for distributing traffic across NICs of a NIC team (across several sockets), but augments the method to prioritize local NICs over remote NICs. When active NICs local to a socket associated with a packet are available, the method of some embodiments uses the selection algorithm to select from an array of the active local NICs. When active NICs local to the socket are not available, the method of some embodiments uses the selection algorithm to select from an array of the active NICs of other NICs on the NIC team.

Abstract: This document provides methods and materials for using butyrylcholinesterases (BChE) to treat cancer (e.g., triple negative breast cancer or prostate cancer). For example, methods and materials for using nucleic acid vectors (e.g., viral vectors) to express BChE polypeptides under conditions that reduce the number of cancer cells (e.g., triple negative breast cancer cells or prostate cancer cells) within a mammal (e.g., a human) and/or reduce the growth rate of cancer cells (e.g., triple negative breast cancer cells or prostate cancer cells) within a mammal (e.g., a human) are provided.

Abstract: A miniature fluid control device includes a gas inlet plate, a resonance plate and a piezoelectric actuator. The gas inlet plate includes at least one inlet, at least one convergence channel and a central cavity. A convergence chamber is defined by the central cavity. The resonance plate has a central aperture. The piezoelectric actuator includes a suspension plate, an outer frame and a piezoelectric ceramic plate. A gap is formed between the resonance plate and the piezoelectric actuator to define a first chamber. When the piezoelectric actuator is driven and after the gas is fed into the miniature fluid control device through the inlet of the gas inlet plate, the gas is sequentially converged to the central cavity through the convergence channel, transferred through the central aperture of the resonance plate, introduced into the first chamber, transferred downwardly through the piezoelectric actuator, and exited from the miniature fluid control device.