A Low Area Built-In Self-Repair Using Hybrid Fault Address Memory for HBM
A Low Area Built-In Self-Repair Using Hybrid Fault Address Memory for HBM
Abstract:
The massive computational requirements of large language model (LLMs) have increased the need for high-bandwidth memory (HBM), which involves high-volume data transfers. The high cell capacity of HBM results in extended test and repair times, leading to increased manufacturing costs. To reduce test time, a built-in self-repair (BISR) circuit, integrated into the HBM base die to detect and repair faults, tests multiple banks in parallel. Conventional BISR approaches adopt content-addressable memory (CAM) for fault classification to reduce repair time. However, dedicated CAM on each bank leads to substantial area overhead associated with its comparison logic. To address these issues, a novel BISR architecture that decouples fault classification and storage is proposed in this article. By introducing a linked CAM design with low area and sharing it across banks for fault classification, while small-area first-in first-out (FIFO) memories allocated to each bank store the classified fault information, the proposed architecture substantially reduces overall area overhead. Furthermore, the proposed architecture reorders the repair solution search sequence toward the most promising candidates by swapping fault entries during test idle periods, thereby significantly reducing repair time. Experimental results demonstrate that the proposed BISR architecture achieves low area overhead and fast repair time for high-density HBM.
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A Low Area Built-In Self-Repair Using Hybrid Fault Address Memory for HBM
