Jong-Yun Yun, B. Nadeau-Dostie, Martin Keim, C. Dray, E. M. Boujamaa
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eMRAM (embedded Magnetoresistive Random Access Memory) is an attractive solution in many non-volatile memory applications because of its small size, fast operation speed, and good endurance. However, due to a relatively small on/off resistance separation, it is a challenge to set an optimal reference resistance to reliably differentiate between a read memory data “1” and “0”. Several trimming circuits are described in the literature to finely adjust a reference resistance value. These circuits are controlled from chip inputs causing time-consuming tests and off-chip engineering analysis. This paper presents a fully automated on-chip trimming process leveraging existing memory BIST (Built-In Self-Test) resources. It analyzes a massive amount of array property data with a minimal number of tests and optimizes the reference trim settings on-chip without the need for any external intervention.
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