syndeia

Syndeia is a digital thread platform, part of the infrastructure of an integrated system development environment. While its capabilities are available through user interfaces we provide, such as the SysML plugins and the Syndeia Web Dashboard, the full power is realized as a set of “ready-to-integrate” services for building custom interfaces and dashboards. This involves

As Intercax prepares to roll out Syndeia release 3.5, we’re giving our blog followers an advance look at new features. First is the Generic RESTful API integration applied to Vitech GENESYS in the accompanying video. One important aspect of the Digital Thread is the ability to access all the system data, distributed over many models

In the first post in this series, we considered the relationship between Data Science and the Digital Thread. In this post, we will discuss what need to put these ideas into practice. First, obviously, is data. We want all the data about the system and a way to get to it. For that, I’m going

Intercax has released Syndeia 3.2, a major advance in “breaking the silos”, that is, breaking down the barriers between domain engineering tools and their users to make complex systems development faster and more efficient. We talk about MBE (Model-Based Engineering) rather than MBSE (Model-Based Systems Engineering) which can too easily become one more silo in

Part 1 and Part 2 of this blog series have focused on the SysML models of energy systems (and system-of-systems). In this part (Part 3), we will describe the MBE graphs created when the SysML-based architecture model is connected with discipline-specific models such as CAD models, simulation models, PLM models, requirements model of energy system

In Part 1 and Part 2 of this series, we focused entirely on possible visualizations of inter-model connections, i.e. connections created by Syndeia between elements in different tools. But many use-cases require us to trace connections across the system model where the sequences include both inter-model and intra-model connections. Syndeia 3.0 can show many of these,

Consider a healthcare facility with independent software systems for each department. A system engineer is tasked with developing a message exchange system between the departments based on the HL7 Version 2 standards. She begins by describing the interfaces and content exchanged between departments based on SysML interface blocks. The flow properties of these interface blocks are typed

In Part 1 of the blog series on Syndeia-JIRA interface, we described how Syndeia can connect to and browse JIRA repositories, and generate and connect SysML blocks from JIRA issues so that the block’s value properties mirror the issue characteristics like status, last update, etc. In Part 2, we showed how a multi-level SysML structure (e.g.

In Part 1 of this series, we connected individual requirements in DOORS NG to requirements and other elements in SysML. Greater challenges arise when we need to map requirement structure and organization between tools, because different tools organize requirements in significantly different ways. SysML tends to organize requirements in simple tree hierarchies using containment relationships.

Of all the use cases potentially supported by Syndeia, links between systems engineering and project management are among the most intriguing. With Syndeia 3.0, a new interface to JIRA’s issue tracking repository offers a window into some of these possibilities. JIRA, widely used in agile software development, is organized by project and issue. As well as