3 research outputs found
Towards Multidimensional Verification: Where Functional Meets Non-Functional
Trends in advanced electronic systems' design have a notable impact on design
verification technologies. The recent paradigms of Internet-of-Things (IoT) and
Cyber-Physical Systems (CPS) assume devices immersed in physical environments,
significantly constrained in resources and expected to provide levels of
security, privacy, reliability, performance and low power features. In recent
years, numerous extra-functional aspects of electronic systems were brought to
the front and imply verification of hardware design models in multidimensional
space along with the functional concerns of the target system. However,
different from the software domain such a holistic approach remains
underdeveloped. The contributions of this paper are a taxonomy for
multidimensional hardware verification aspects, a state-of-the-art survey of
related research works and trends towards the multidimensional verification
concept. The concept is motivated by an example for the functional and power
verification dimensions.Comment: 2018 IEEE Nordic Circuits and Systems Conference (NORCAS): NORCHIP
and International Symposium of System-on-Chip (SoC
Understanding multidimensional verification: Where functional meets non-functional
Abstract Advancements in electronic systems' design have a notable impact on design verification technologies. The recent paradigms of Internet-of-Things (IoT) and Cyber-Physical Systems (CPS) assume devices immersed in physical environments, significantly constrained in resources and expected to provide levels of security, privacy, reliability, performance and low-power features. In recent years, numerous extra-functional aspects of electronic systems were brought to the front and imply verification of hardware design models in multidimensional space along with the functional concerns of the target system. However, different from the software domain such a holistic approach remains underdeveloped. The contributions of this paper are a taxonomy for multidimensional hardware verification aspects, a state-of-the-art survey of related research works and trends enabling the multidimensional verification concept. Further, an initial approach to perform multidimensional verification based on machine learning techniques is evaluated. The importance and challenge of performing multidimensional verification is illustrated by an example case study