1. Design Space Exploration of FeRAM Bit Cell for DRAM Application
- Author
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Oh, Hyungrock, Xiang, Yang, Redondo, Fernando Garcia, Gupta, Mohit Kumar, Perumkunnil, Manu, Bardon, Marie Garcia, Dhiman, Amit, Gowda, Sathisha Nanjunde, Walke, Amey, Fantini, Andrea, Yasin, Farrukh, Kar, Gouri Sankar, Hellings, Geert, and Dehaene, Wim
- Abstract
HfOx-based ferroelectric random access memories (FeRAMs) have been proposed as a promising candidate to further dynamic random access memory (DRAM) scaling. This article presents a bitcell design space exploration of HfZrOx-based FeRAM based on a 2T1C testbench representative of a 64-kb 1T1C subarray at 40-nm CMOS technology. We first explore the impact of ferroelectric capacitor (FeCAP) sizing on the read sensing margin (SM) and speed with eight different blocks in the subarray, supported by a hardware-calibrated FeCAP compact model. We identify the capacitance ratio (
${C} _{\text {R}}$ ${C} _{\text {BL}}$ ${C} _{\text {FE}}$ ${C} _{\text {R}}$ - Published
- 2024
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