A method of generation of a unified view of a software development process that spans a plurality of distinct software development applications having distinct software models is provided. The method includes enhancing a software development application selected as primary to provide the unified view of the software development process, or alternatively using a data warehouse to provide the unified view of the software development process via reports and dashboards created based on a unified software model. The method provides end to end visibility, auditability, and support for calculation of one or more flow metrics, not only for the software development process, but also for a set of stages, individual stages and sub-stages of the software development process. The method also provides an ability to relate the one or more flow metrics to business outcomes.

A system provides a framework/platform for development and distribution of solutions related to vehicles. A processor is configured to render a plurality of modules in at least one terminal device based on an access request. The plurality of modules is displayable on a display interface of the at least one terminal device. The processor is further configured to execute instructions generated from the plurality of modules for development of the solutions. The instructions are generated by a user of the at least one terminal device, which is in communication with a server. The plurality of modules is accessible through an input unit of the at least one terminal device, each of the plurality of modules is usable alone and in combination. The processor stores the developed solutions in the server for distribution.

A system provides a framework/platform for development and distribution of solutions related to vehicles. A processor is configured to render a plurality of modules in at least one terminal device based on an access request. The plurality of modules is displayable on a display interface of the at least one terminal device. The processor is further configured to execute instructions generated from the plurality of modules for development of the solutions. The instructions are generated by a user of the at least one terminal device, which is in communication with a server. The plurality of modules is accessible through an input unit of the at least one terminal device, each of the plurality of modules is usable alone and in combination. The processor stores the developed solutions in the server for distribution.

Various embodiments of the present technology empower business domain experts to create “no-code” enterprise applications with a variety of features (e.g., workflow, multi-currency, etc.). By using the tools of various embodiments, the domain expert just has to know the business and not how to code in order to create enterprise applications. In some embodiments, the domain expert can access a tool that allows the domain expert to convey intent and desires instead of providing code. The intent and desire of the domain expert can then be abstracted, translated, and stored as a metadata representation. The metadata representation can then be used to automatically generate appropriate code artifacts for the applications. The code artifacts can include snippets of code written in a variety of languages. These code artifacts can then be wrapped, using a runtime engine for example, to create the application which can be distributed to the end-users.

Various embodiments of the present technology empower business domain experts to create “no-code” enterprise applications with a variety of features (e.g., workflow, multi-currency, etc.). By using the tools of various embodiments, the domain expert just has to know the business and not how to code in order to create enterprise applications. In some embodiments, the domain expert can access a tool that allows the domain expert to convey intent and desires instead of providing code. The intent and desire of the domain expert can then be abstracted, translated, and stored as a metadata representation. The metadata representation can then be used to automatically generate appropriate code artifacts for the applications. The code artifacts can include snippets of code written in a variety of languages. These code artifacts can then be wrapped, using a runtime engine for example, to create the application which can be distributed to the end-users.

A system for facilitating analysis of a software product is provided. The system includes processing circuitry that collects data logs from various technologies associated with at least one stage of a software development life cycle (SDLC) of the software product. The processing circuitry identifies entities associated with each collected data log, and standardizes the collected data logs such that each collected data log is standardized based on standard data formats associated with the identified entities. Each entity corresponds to at least one stage of the SDLC of the software product. Further, the processing circuitry updates data models associated with the entities based on the standardized data logs and generates a unified data model that is indicative of a correlation between the entities. Based on the correlation indicated by the unified data model, the processing circuitry executes an automated action.

A system for facilitating analysis of a software product is provided. The system includes processing circuitry that collects data logs from various technologies associated with at least one stage of a software development life cycle (SDLC) of the software product. The processing circuitry identifies entities associated with each collected data log, and standardizes the collected data logs such that each collected data log is standardized based on standard data formats associated with the identified entities. Each entity corresponds to at least one stage of the SDLC of the software product. Further, the processing circuitry updates data models associated with the entities based on the standardized data logs and generates a unified data model that is indicative of a correlation between the entities. Based on the correlation indicated by the unified data model, the processing circuitry executes an automated action.

An application development environment generates applications from declarative specification for the application. The declarative specification describes one or more object types and references to objects of each object type. The application development environment generates instructions (or code) from the declarative specification to generate an initial version of the application. The application development environment iteratively builds the application based on user interactions that modify the declarative specification. The application development environment modifies the instructions for the application to match the modified declarative specification. The final version of the application may be deployed on a production system.

An application development environment generates applications from declarative specification for the application. The declarative specification describes one or more object types and references to objects of each object type. The application development environment generates instructions (or code) from the declarative specification to generate an initial version of the application. The application development environment iteratively builds the application based on user interactions that modify the declarative specification. The application development environment modifies the instructions for the application to match the modified declarative specification. The final version of the application may be deployed on a production system.

Disclosed herein are system, method, and computer program product embodiments for facilitating access to and incorporation of APIs within an application during development, while ensuring that the API satisfies quality constraints. These quality constraints are controlled by the application of rules, which result in a maturity score for the API, in accordance with embodiments. These rules may be provided by a variety of sources for use in scoring the API at various stages. For example, a developer group may control access to developers within the group by applying a ruleset that restricts APIs for applications written by the developer group to a threshold score. This threshold score can limit or restrict APIs that are offered to a developer by an API exchange. Additionally, a ruleset may be applied to enforce a minimum score for submission of an API for inclusion within an API exchange.