Apart from performance and power efficiency, security is another critical concern in the modern memory sub-system design. SRAM, which is routinely used as a data preservation component, has now been developed into an effective primitive known as Physical Unclonable Function (PUF) for cryptographic key generation to protect the sensitive local information. Considering the constraints of hardware resource on embedded systems, it is desirable to have an SRAM used both as a regular memory and a PUF to save the overheads of having these two functions implemented independently. Unfortunately, while process variations are the entropy sources for secure key generation, it impacts failure rates in memory-mode operations. This paper presents a statistical analysis on SRAM and provides an insight into how the SRAM cell geometry can be optimized to qualify it for both modes of operation simultaneously.
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