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Introduction – AI for Digital Threads and Integrated Digital Engineering Welcome to our new blog series – Artificial Intelligence (AI) for Digital Threads and Integrated Digital Engineering. Our goal in this new blog series is to share real, practical examples of leveraging AI/ML for digital threads and accelerating integrated digital engineering for complex cyber-physical systems.

Syndeia may be best considered as a set of services with their own open REST API embedded in your integrated design environment, plus a set of user interfaces (UI), each of which can execute a particular set of those services. It can be difficult to keep track of which UIs call which services to support

Syndeia has developed as a set of network-enabled services embedded in an integrated design environment, plus a set of user interfaces (UI), each of which can execute a particular set of those services. At it has developed, features introduced in its earliest versions can raise questions for newer users. This blog series tries to give

Syndeia may be best considered as a set of services with their own open REST API embedded in your integrated design environment, plus a set of user interfaces (UIs), each of which can execute a particular set of those services. It can be difficult to keep track of which UIs call which services to support

Intercax supports Syndeia, the digital thread platform, with an extensive on-line repository of user guides and tutorials, as well as regular live training courses and webinars. Given the volume of material, more than 200 videos and hands-on exercises covering more than 30 integrations, it is not surprising that certain basic questions and answers can get

In this series, we’ve looked at many of the new user features in Syndeia 3.6. We’ll end the series with some important changes to the infrastructure and a brief look at the future. API Extensions All the Digital Thread Project capabilities presented on the web and plugin clients are backed by dedicated endpoints for working