A Physical Design Framework For Creating Fine-Grained Multi-Tier SRAM Arrays
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Iyer, Aditya Sridharan
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Abstract
This study presents a novel approach to address the challenges of scaling limitations and high read/write latencies inherent in conventional 2D SRAM designs through the development of a novel 15nm FinFET-based standalone 3D SRAM Array. Utilizing Monolithic Intertier Vias, our two-tiered implementation effectively mitigates these limitations along both X and Y axes. We introduce two distinct design methodologies for 3D SRAM arrays - Wordline and Bitline folding. Through post-layout simulations conducted on arrays with capacities of 2kB (256WLx64BL) and 8kB (512WLx128BL), our 3D designs exhibit superior performance metrics. Notably, the 3D Wordline-Folded design achieves a remarkable 57.54% average reduction in footprint compared to the 2D baseline across both array sizes. Furthermore, the 3D Bitline-Folded configuration demonstrates consistent superiority in speed, with an average read latency improvement of 17.16% and a notable 54.2% enhancement in write latency. Conversely, the 3D Wordline-Folded array emerges as the most energy-efficient option, boasting an average reduction of 15.3% in read energy and over 21% in write energy compared to the 2D baseline.
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2024-04-29
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