Towards on-line estimation of BTI/HCI-induced frequency degradation
| Auteurs | Altieri M., Lesecq S., Beigne E., Heron O. |
| Year | 2017-0257 |
| Source-Title | IEEE International Reliability Physics Symposium Proceedings |
| Affiliations | Univ Grenoble Alpes, CEA, Leti, Grenoble, France, CEA, List, Université Paris-Saclay, Gif sur Yvette, France |
| Abstract | This work proposes a new bottom-up approach for on-line estimation of circuit performance loss due to BTI/HCI effects. Built on the top of device-level models, it takes into account all factors that impact global circuit aging, namely, process, topology, workload, voltage and temperature variations. The proposed model is fed by voltage and temperature monitors that on-line track dynamic variations. This allows an accurate assessment of the evolution of the circuit critical path delays during its operation. Its accuracy is evaluated here on two circuits implemented in 28nm FD-SOI technology. © 2017 IEEE. |
| Author-Keywords | BTI, Circuit-level model, HCI |
| Index-Keywords | Dispensers, Frequency estimation, Human computer interaction, Integrated circuit testing, Bottom up approach, Circuit performance, Circuit-level models, Critical path delays, Global circuit, On-line estimation, Temperature monitor, Temperature variation, Delay circuits |
| ISSN | 15417026 |
| Lien vers article | Link |