A digital dynamic write margin sensor for low power read/write operations in 28nm SRAM

P Beshay, V Chandra, R Aitken… - Proceedings of the 2014 …, 2014 - dl.acm.org
Proceedings of the 2014 international symposium on Low power electronics and …, 2014dl.acm.org
The conventional guard band design approach increases the SRAM Wordline (WL) pulse
duration to operate successfully in all the process, voltage and temperature (PVT) corners.
This can significantly increase the dynamic energy. This work presents a digital circuit that is
able to track and control the WL pulse duration of the SRAM memory across PVT variations,
to minimize the dynamic energy while maintaining robust operations. The circuit is applied
on a 78kbit SRAM. The results are compared to the worst case margin approach and show a …
The conventional guard band design approach increases the SRAM Wordline (WL) pulse duration to operate successfully in all the process, voltage and temperature (PVT) corners. This can significantly increase the dynamic energy. This work presents a digital circuit that is able to track and control the WL pulse duration of the SRAM memory across PVT variations, to minimize the dynamic energy while maintaining robust operations. The circuit is applied on a 78kbit SRAM. The results are compared to the worst case margin approach and show a maximum write energy savings of 45% and 49% relative to margining voltage/temperature (VT) and process variations, respectively.
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