ECC-Aware Fast and Reliable Pattern Matching Redundancy Analysis for Highly Reliable Memory

Advanced capacity and density of memory have resulted in an increase in the probability of memory faults. The in-memory Error Correction Code (ECC), which solves this problem, is a widely used technology to improve the yield of highly integrated memory. However, the use of in-memory ECC causes problems that have not been considered in memory repair algorithms. Redundancy analysis is effective for repairing memory with redundant memory and in-memory ECC. In this paper, an ECC-aware fast and reliable pattern matching redundancy analysis algorithm for memory using both spare memory and in-memory ECC is proposed. This algorithm simplifies large-scale fault groups using in-memory ECC and includes an early termination method that can determine whether a memory that cannot be repaired with line spares can be repaired considering in-memory ECC. Experimental results show that the proposed pattern matching redundancy analysis algorithm achieves a similar yield but 14.6% less RA time and 8.6 times higher reliability compared to the existing redundancy analysis algorithms.