@inproceedings{bar-kar-luw-sal-hed-olb-rad-sch-12-aa-robcirc,
  author = {Barke, Martin and K{\"a}rgel, Michel and Lu, W. and Salfelder, F. and Hedrich, L. and Olbrich, Markus and Radetzki, M. and Schlichtmann, U.},
  title = {Robustness Validation of Integrated Circuits and Systems},
  booktitle = {Proceedings of the 2012 4th Asia Symposium on Quality Electronic Design (ASQED)},
  year = 2012,
  month = jul,
  pages = {145-154},
  doi = {10.1109/ACQED.2012.6320491},
  comment = {Uses AA to study robustness of analog and mixed signal circuits.},
  abstract = {Robust system design is becoming increasingly important, because of the ongoing miniaturization of integrated circuits, the increasing effects of aging mechanisms, and the effects of parasitic elements, both intrinsic and external. For safety reasons, particular emphasis is placed on robust system design in the automotive and aerospace sectors. Until now, the term robustness has been applied very intuitively and there has been no proper way to actually measure robustness. However, the complexity of contemporary systems makes it difficult to fulfill tight specifications. For this reason, robustness must be integrated into a partially automated design flow. In this paper, a new approach to robustness modeling is presented, in addition to new ways to quantify or assess the robustness of a design. To demonstrate the flexibility of the proposed approach, it is adapted and applied to several different scenarios. These include the robustness evaluation of digital circuits under aging effects, such as NBTI; the robustness modeling of analog and mixed signal circuits using affine arithmetic; and the robustness study of software algorithms on a high system level.}
}