Abstract

Racetrack memory is an emerging non-volatile memory based on spintronic domain wall technology. It can achieve ultra-high storage density. Also, its read/write speed is comparable to that of SRAM. Due to the tape-like structure of its storage cell, a "shift" operation is introduced to access racetrack memory. Thus, prior research mainly focused on minimizing shift latency/energy of racetrack memory while leveraging its ultra-high storage density. Yet the reliability issue of a shift operation, however, is not well addressed. In fact, racetrack memory suffers from unsuccessful shift due to domain misalignment. Such a problem is called "position error" in this work. It can significantly reduce mean-time-to-failure (MTTF) of racetrack memory to an intolerable level. Even worse, conventional error correction codes (ECCs), which are designed for "bit errors", cannot protect racetrack memory from the position errors.

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