Various methods and systems for documenting interactive graphical design are provided. An exemplary graphical design environment stored on a non-transitory computer-readable medium comprises a documentation element in an interactive graphical design. The design environment also comprises a design element that displays a plurality of states in a rendering of the interactive graphical design in an external player. The documentation element: (i) is enabled to receive a selection from the user of a state in the plurality of states; and (ii) displays a representation of the design element in the state in response to receiving the selection from the user. The documentation element and design element are both instantiated by a processor operating in combination with the non-transitory computer-readable medium.

Various methods and systems for documenting interactive graphical design are provided. An exemplary graphical design environment stored on a non-transitory computer-readable medium comprises a documentation element in an interactive graphical design. The design environment also comprises a design element that displays a plurality of states in a rendering of the interactive graphical design in an external player. The documentation element: (i) is enabled to receive a selection from the user of a state in the plurality of states; and (ii) displays a representation of the design element in the state in response to receiving the selection from the user. The documentation element and design element are both instantiated by a processor operating in combination with the non-transitory computer-readable medium.

The present invention provides an information processing device comprising: a memory and a processor coupled to the memory and the processor configured to: store a shared module shared by a plurality of software and unique modules unique to each of the respective software; and read out a shared module and a unique module required by designated software from the program storing portion. Also, an information processing device comprising: a memory and a processor coupled to the memory and the processor configured to: store a plurality of modules for structuring software including a self-recovery function; identify a faulty module that has a fault from among modules stored; and perform recovery processing through mutually differing recovery procedures, depending on the faulty module identified.

Examples include a computing system having an input/output (I/O) device including a plurality of counters, each counter operating as one of a completion counter and a trigger counter, a processing device; and a memory device. The memory device stores instructions that, in response to execution by the processing device, cause the processing device to represent a plurality of triggered operations of collective communication for high-performance computing executable by the I/O device as a directed acyclic graph stored in the memory device, with triggered operations represented as vertices of the directed acyclic graph and dependencies between triggered operations represented as edges of the directed acyclic graph; traverse the directed acyclic graph using a first process to identify and mark vertices that can share a completion counter; and traverse the directed acyclic graph using a second process to assign a completion counter and a trigger counter for each vertex.

An adaptive content platform includes one or more content-enabled, dependent applications, each of which includes a user interface and business logic. A services layer, which is interfaced with the dependent applications and a software infrastructure, provides one or more services that are usable by the dependent applications.

An adaptive content platform includes one or more content-enabled, dependent applications, each of which includes a user interface and business logic. A services layer, which is interfaced with the dependent applications and a software infrastructure, provides one or more services that are usable by the dependent applications.

The present disclosure generally relates to systems and methods for designing webpage and, more particularly, to systems and methods for designing artifacts associated with a webpage in a web development environment. In one embodiment, a system for designing artifacts associated with a webpage is provided. The system may identify a style pattern based on an HTML pattern of the webpage and one or more boundary conditions. The system may also determine one or more editing operations to be performed on the artifacts based on one or more style specifications. The system may further perform the one or more determined editing operations on the artifacts based a value associated with one or more of the artifacts, the style pattern, and the boundary conditions, and render design of the artifacts based on the performance of the editing operations.

The present disclosure generally relates to systems and methods for designing webpage and, more particularly, to systems and methods for designing artifacts associated with a webpage in a web development environment. In one embodiment, a system for designing artifacts associated with a webpage is provided. The system may identify a style pattern based on an HTML pattern of the webpage and one or more boundary conditions. The system may also determine one or more editing operations to be performed on the artifacts based on one or more style specifications. The system may further perform the one or more determined editing operations on the artifacts based a value associated with one or more of the artifacts, the style pattern, and the boundary conditions, and render design of the artifacts based on the performance of the editing operations.

Techniques of category-based fence are described. A category-based fence can correspond to a group of signal sources instead of a point location fixed to latitude and longitude coordinates. The group of signal sources can represent a category of entities, e.g., a particular business chain. The signal sources can be distributed to multiple discrete locations. A category-based fence associated with the group, accordingly, can correspond to multiple locations instead of a single point location and a radius. Each signal source in the group can be associated with a category identifier unique to the group and uniform among signal sources in the group. The category identifier can be programmed into each signal source. A mobile device can enter the category-based fence by entering any of the discrete locations when the mobile device detects the signal identifier. The mobile device can then execute an application program associated with the category-based fence.

Techniques of category-based fence are described. A category-based fence can correspond to a group of signal sources instead of a point location fixed to latitude and longitude coordinates. The group of signal sources can represent a category of entities, e.g., a particular business chain. The signal sources can be distributed to multiple discrete locations. A category-based fence associated with the group, accordingly, can correspond to multiple locations instead of a single point location and a radius. Each signal source in the group can be associated with a category identifier unique to the group and uniform among signal sources in the group. The category identifier can be programmed into each signal source. A mobile device can enter the category-based fence by entering any of the discrete locations when the mobile device detects the signal identifier. The mobile device can then execute an application program associated with the category-based fence.