Enhancing the L1 Data Cache Design to Mitigate HCI
IEEE Computer Architecture Letters
Faculty of Computer Science and Technology, University of Cambridge
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Valero, A., Miralaei, N., Petit, S., Sahuquillo, J., & Jones, T. M. (2015). Enhancing the L1 Data Cache Design to Mitigate HCI. IEEE Computer Architecture Letters https://doi.org/10.1109/LCA.2015.2460736
Over the lifetime of a microprocessor, the Hot Carrier Injection (HCI) phenomenon degrades the threshold voltage, which causes slower transistor switching and eventually results in timing violations and faulty operation. This effect appears when the memory cell contents flip from logic ‘0’ to ‘1’ and vice versa. In caches, the majority of cell flips are concentrated into only a few of the total memory cells that make up each data word. In addition, other researchers have noted that zero is the most commonly-stored data value in a cache, and have taken advantage of this behavior to propose data compression and power reduction techniques. Contrary to these works, we use this information to extend the lifetime of the caches by introducing two microarchitectural techniques that spread and reduce the number of flips across the first-level (L1) data cache cells. Experimental results show that, compared to the conventional approach, the proposed mechanisms reduce the highest cell flip peak up to 65.8%, whereas the threshold voltage degradation savings range from 32.0% to 79.9% depending on the application.
Cache memories, cell flip peaks, Hot Carrier Injection, threshold voltage degradation
This work has been supported by the Spanish Ministerio de Econom´ıa y Competitividad (MINECO), by FEDER funds through Grant TIN2012-38341-C04-01, by the Intel Early Career Faculty Honor Program Award, by a HiPEAC Collaboration Grant funded by the FP7 HiPEAC Network of Excellence under grant agreement 287759, and by the Engineering and Physical Sciences Research Council (EPSRC) through Grants EP/K026399/1 and EP/J016284/1.
External DOI: https://doi.org/10.1109/LCA.2015.2460736
This record's URL: https://www.repository.cam.ac.uk/handle/1810/249106