UNI.701, UNI.712, UNI.720Applicability Important for all systems to some extent; more
important for longer- lived and more widely used
systems. IoT systems are expected, as an emerging
technology, to be highly affected by evolution and
interoperability issues.Activities Characterize the evolution needs
Assess the current ease of evolution
Consider the evolution trade-offs
Rework the architectureTactics Contain change
Create extensible interfaces
Apply design techniques that facilitate change
Apply metamodel-based architectural styles
Build variation points into the software
Use standard extension points
Achieve reliable change
Preserve development environments
Table 5 : Evolution and Interoperability (adopted from [Rozanski 2005]), extended
with IoT specific aspects4.3.2 Performance and scalability
This perspective addresses two quality properties that are closely related:
Performance and Scalability. Both are, compared to traditional information
systems, even harder to cope with in a highly distributed scenario as we have it
in IoT.
Desired Quality The ability of the system to predictably execute within
its mandated performance profile and to handle
increased processing volumes in the future if requiredIoT-A Requirements UNI.008, UNI.026, UNI.027, UNI.028, UNI.066,
UNI.089, UNI.101, UNI.102, UNI.234, UNI.511,
UNI.512, UNI.615, UNI.706, UNI.708, UNI.711,
UNI.716, UNI.717Applicability Any system with complex, unclear, or ambitious
performance requirements; systems whose architecture
includes elements whose performance is unknown; and
systems where future expansion is likely to be
significant. IoT systems are very likely to have unclear
performance characteristics, due to their heterogeneity
and high connectivity of devices.Activities Capture the performance requirements
Create the performance models