Conference proceedings article
Evaluation and analysis of an on-chip safety system architecture
Publication Details
Authors: | Hayek, A.; Börcsök, J. |
Editor: | IEEE |
Publisher: | Curran Associates, Inc. |
Place: | Red Hook, NY |
Publication year: | 2014 |
Pages range : | 1-6 |
Book title: | 11th International Multi-Conference on Systems, Signals Devices (SSD14) |
ISBN: | 9781479938674 |
DOI-Link der Erstveröffentlichung: |
Abstract
Due to the continuing development of semiconductor structures, it can be allowed nowadays to integrate faster and more efficient systems into a very small area of silicon. In such system-on-chip, all individual components of a target control system can be integrated into a single silicon die at lowest level, which in turn contributes in saving the substantial space and reduces power consumption and production costs. With the consideration of the miniaturization of safety-related systems into system-on-chips, where usually complete redundant architectures along with memories and interfaces are integrated into small silicon structures, many advantages can be taken into account. These advantages extend to all levels of the development cycle. In the present paper, a concept for on-chip safety system architecture is presented briefly. Primarily, a qualitative evaluation and analysis of the presented architecture is explicitly focused and discussed. The evaluation and analysis is based on a comparison to a similar conventional discrete safety-related architecture.
Due to the continuing development of semiconductor structures, it can be allowed nowadays to integrate faster and more efficient systems into a very small area of silicon. In such system-on-chip, all individual components of a target control system can be integrated into a single silicon die at lowest level, which in turn contributes in saving the substantial space and reduces power consumption and production costs. With the consideration of the miniaturization of safety-related systems into system-on-chips, where usually complete redundant architectures along with memories and interfaces are integrated into small silicon structures, many advantages can be taken into account. These advantages extend to all levels of the development cycle. In the present paper, a concept for on-chip safety system architecture is presented briefly. Primarily, a qualitative evaluation and analysis of the presented architecture is explicitly focused and discussed. The evaluation and analysis is based on a comparison to a similar conventional discrete safety-related architecture.
