Read Bitline Sensing and Fast Local Write-Back Techniques in Hierarchical Bitline Architecture for Ultralow-Voltage SRAMs

摘要

Voltage scalable decoupled SRAMs operating at a subthreshold region have various challenges, such as deteriorated read bitline (RBL) swing resulting in read sensing failure and degraded cell stability due to the half-select write. This paper proposes an equalized bitline scheme to eliminate the leakage dependence on data pattern and thus improves RBL sensing and its resilience against process, voltage, and temperature variations. In addition, we propose a fast local write-back (WB) technique to implement a half-select-free write operation. With hierarchical bitline architecture, it facilitates a local read and a subsequent fast WB action to secure the original data without performance degradation. A 16-kb SRAM test chip has been fabricated in a 65-nm CMOS technology and achieved the minimum operating voltage of 0.24 V with a read access time of 4.88 μs.