Abstract: Disclosed embodiments are directed at systems, methods, and architecture for providing auto-documentation to APIs. The auto documentation plugin is architecturally placed between an API and a client thereof and parses API requests and responses in order to generate auto-documentation. In some embodiments, the auto-documentation plugin is used to update preexisting documentation after updates. In some embodiments, the auto-documentation plugin accesses an online documentation repository. In some embodiments, the auto-documentation plugin makes use of a machine learning model to determine how and which portions of an existing documentation file to update.

Abstract: Disclosed embodiments are directed at systems, methods, and architecture for providing microservices and a plurality of APIs to requesting clients. The architecture is a distributed cluster of gateway nodes that jointly provide microservices and the plurality of APIs. Providing the APIs includes providing a plurality of plugins that implement the APIs. As a result of a distributed architecture, the task of API management can be distributed across a cluster of gateway nodes. The gateway nodes effectively become the entry point for every API-related request. Some embodiments of the disclosed technology describe an auto-documentation plugin that can automatically generate documentation for an API by monitoring, parsing, and sniffing requests/responses to/from the API.

Abstract: Disclosed embodiments are directed at systems, methods, and architecture for providing microservices and a plurality of APIs to requesting clients. The architecture is a distributed cluster of gateway nodes that jointly provide microservices and the plurality of APIs. Providing the APIs includes providing a plurality of plugins that implement the APIs. As a result of a distributed architecture, the task of API management can be distributed across a cluster of gateway nodes. The gateway nodes effectively become the entry point for every API-related request. Some embodiments of the disclosed technology describe an auto-documentation plugin that can automatically generate documentation for an API by monitoring, parsing, and sniffing requests/responses to/from the API.

Abstract: A folding table having a table top and a support frame which includes a perimeter frame assembly and a central support/pivot assembly. The perimeter frame assembly includes first and second leg assemblies which are pivotally attached to said the central support/pivot assembly. Also a frame for a folding table.

Abstract: A charge pump for a phase-locked loop (PLL) has accurate matching of charge and discharge currents applied to the PLL's loop filter. A variable current-sink transistor has its gate-to-source voltage adjusted to match a source current from a fixed current source. An intermediate node in-between series transistors between the current source and sink is sampled by a sampling transistor that connects the intermediate node to a sampling capacitor. The sampling capacitor's voltage is the gate-to-source voltage of the variable current-sink transistor. The variable current-sink transistor has its gate and drain coupled together through the sampling transistor during calibration periods when the charge pump is otherwise idle. When the source current exactly matches the sink current, the gate-to-source voltage stored on the sampling capacitor reaches steady state. Up and down currents are balanced in driver transistors that match the series transistors.

Abstract: An automatic liquid soap dispenser includes a liquid soap container which receives liquid soap therein and which has a bottom wall that is formed with an outlet port. A tubular body is secured to a bottom surface of the bottom wall such that a through-hole at a closed rear portion of the tubular body is aligned with the outlet port. The closed rear portion of the tubular body is further formed with an upright soap outlet adjacent to the through-hole. A movable blocking member is provided adjacent to said closed rear portion and is movable to block and unblock the through-hole so as to control the flow of the liquid soap through the soap outlet. The plunger has a piston which extends fittingly and movably into the tubular body via an open front portion of the latter, and a flexible shaft portion connected to the piston. A driving unit is activated by a detecting unit upon detection of a target.

Abstract: An automatic liquid soap dispenser includes a liquid soap container which receives liquid soap therein and which has a bottom wall that is formed with an outlet port. A flow control unit includes a plunger and a tubular body secured to a bottom surface of the bottom wall such that a through-hole at a closed rear portion of the tubular body is aligned with the outlet port. The closed rear portion of the tubular body is further formed with an upright soap outlet adjacent to the through-hole. A ball valve unit controls the flow of liquid soap through the soap outlet. The plunger has a piston which extends fittingly and movably into the tubular body via an open front portion of the latter, and a flexible shaft portion connected to the piston. An actuating unit includes an infrared unit for detecting a target, a driving unit activated by the infrared unit upon detection of the target, and a driving gear driven rotatably by the driving unit.