A typical hand off from systems engineering to downstream engineering (including mechanical, electronic, and software engineering) involves the production of textual requirements. Not only is this a labor intensive, but, as with system requirements, is fraught with problems:
- Lack of precision
- Completeness Accuracy
If you're going to the trouble of building good system engineering models, you might as well construct them in such a way as to support the hand-off of models and text. Figure 1 shows the workflow in the Harmony process for the hand-off to downstream engineering.
Figure 1. Harmony workflow for the hand off from systems engineering
The two threads in this workflow specify the physical interfaces between elements. This is known as the shared model. They then create a downstream engineering model for each and every subsystem.
The shared model contains elements to share or reference by more than one subsystem. This includes interfaces between the system and the actors. It also includes interfaces between the subsystems themselves. Much of this system engineering model has specified logical interfaces. But, at this point, the subsystems must refer to the actual intended implementation of the interfaces; that is, the physical interfaces. The workflow on the left of Figure 2 translates the logical interface information into physical interface specifications, which are then configuration managed.
On the right-hand side of the first, the subsystem models first import their specifications from the system engineering model. Then the requirements are allocated to the contributing engineering disciplines (e.g. mechanical, electrical, and software) within the subsystem. Some requirements may be simply allocated to a discipline. It is common for a requirement to be realized by a combination of elements from different engineering disciplines. Those requirements must be decomposed into derived requirements which may then be allocated to a single engineering discipline. I most commonly use block diagrams for this, using stereotypes and naming conventions to identify blocks which are exclusively software, mechanical, or electronic in nature. Requirements are then easily allocated to these elements.
Figure 2. Breaking down a subsystem into elements from different engineering disciplines
It is also important to define the interfaces between elements of the different engineering disciplines, such as the software-electronic interfaces. This way, the engineers on both sides of that interface have a common set of expectations. For this, I use a feature of UML and SysML called tagged values. Tagged values allow you to define metadata important to the model. In the case of software-electronic interfaces, this includes:
- Type of interface (e.g. memory mapped, port mapped, or interrupt mapped)
- Structure of the interface
- Timing information
The specification for a software-electronic interface is shown in Figure 3.
Figure 3. Specifying a software-electronics interface
Once the model hand-off work flow is complete, true downstream engineering can begin.
- Learn more about Rational System Architect:
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- Explore the various versions, too: IBM Rational Rhapsody Architect for Software, a visual development environment for embedded systems and software
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