Po-Hao Tseng scite author profile

A high performance physically unclonable function (PUF) implemented with WO3 resistive random access memory (ReRAM) is presented in this paper. This robust ReRAM-PUF can eliminated bit flipping problem at very high temperature (up to 250 °C) due to plentiful read margin by using initial resistance state and set resistance state. It is also promised 10 years retention at the temperature range of 210 °C. These two stable resistance states enable stable operation at automotive environments from −40 to 125 °C without need of temperature compensation circuit. The high uniqueness of PUF can be achieved by implementing a proposed identification (ID)-generation method. Optimized forming condition can move 50% of the cells to low resistance state and the remaining 50% remain at initial high resistance state. The inter- and intra-PUF evaluations with unlimited separation of hamming distance (HD) are successfully demonstrated even under the corner condition. The number of reproduction was measured to exceed 107 times with 0% bit error rate (BER) at read voltage from 0.4 to 0.7 V.

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Po-Hao Tseng

An ultra high endurance and thermally stable selector based on TeAsGeSiSe chalcogenides compatible with BEOL IC Integration for cross-point PCM

ReRAM-Based Pseudo-True Random Number Generator With High Throughput and Unpredictability Characteristics

The Impact of Forming Temperature and Voltage on the Reliability of Filamentary RRAM

A comprehensive study of 3-stage high resistance state retention behavior for TMO ReRAMs from single cells to a large array

Error free physically unclonable function with programmed resistive random access memory using reliable resistance states by specific identification-generation method

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