Print Email Facebook Twitter BTI in SRAM Title BTI in SRAM: Mitigation for BTI ageing in SRAM memories Author Hamburger, Rens (TU Delft Electrical Engineering, Mathematics and Computer Science) Contributor Hamdioui, S. (mentor) Degree granting institution Delft University of Technology Date 2020-11-25 Abstract The aggressive downscaling of the transistor has led to gigantic improvements in the performance and func- tionality of electronics. As a result, electronics have become a significant part in our daily lives whose absence would be difficult to imagine. Our cars, for example, now consist of many sensors and small computers each controlling certain parts of the car. A downside of the aggressive downscaling of transistor sizes is that it nega- tively impacts the reliability and accelerated ageing, and thus a reduced lifetime, of electronics. Nevertheless, to ensure the reliable operation of electronics, it has therefore become essential to assess the reliability of any of its embedded components accurately. Conventionally, to combat ageing, designers use guardbanded design; adding design margins. These margins, however, lead to a penalty in area, power, and speed. Al- ternatively, one may investigate mitigation schemes that aim at reducing the impact of ageing to extend the reliability and lifetime. These mitigation schemes may lead to a higher performance compared with the con- ventional guardbanded design. This work focuses on an ageing mitigation scheme for SRAMs. SRAMs typi- cally have the highest contribution to the total area of integrated circuits. Therefore, they are highly optimised (i.e. their integration density is the lowest). This also makes them one of the most susceptible components to ageing. Hence, providing appropriate ageing mitigation schemes for SRAMs is essential for the overall reliability of ICs. Whereas prior work has mainly investigated hardware-based ageing mitigation schemes for SRAMs, this thesis investigates the possibility of mitigating the ageing through software. The advantages of this approach include that it does not require circuit changes (and, thus applicable to existing circuits) and it comes at zero area overhead. This study’s proposed software-based scheme is based on periodically running a mitigation routine. This mitigation scheme flips the contents of the memory cells to put the transistors into relaxation from BTI stress, the most crucial ageing mechanism in deeply scaled CMOS process. The results show that the software-based scheme can significantly reduce the ageing of the memory at a low overhead. For example, the degradation of the hold SNM metric of the memory cell is reduced with up to 40% at a runtime overhead of only 1.4%. Moreover, the scheme also mitigates the ageing of other components of the memory. For example, the degradation of the offset voltage of the sense amplifier is reduced by nearly 50%. This thesis shows that it is possible to use software to mitigate the ageing effects in the memory components and it is worthwhile to consider implementing it. Subject btisramhardware mitigationSoftware mitigationageing To reference this document use: http://resolver.tudelft.nl/uuid:b837d6b4-896e-41c0-91e6-b9737249c545 Part of collection Student theses Document type master thesis Rights © 2020 Rens Hamburger Files PDF Thesis_Rens_Hamburger_4292936.pdf 2.65 MB Close viewer /islandora/object/uuid:b837d6b4-896e-41c0-91e6-b9737249c545/datastream/OBJ/view