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Among the different types of dynamic random-access memories (DRAMs), gain-cell embedded DRAM (GC-eDRAM) is a compact, low-power, and CMOS-compatible alternative to conventional static random-access memory (SRAM). GC-eDRAM achieves high memory density, as it relies on a storage cell that can be implemented with as few as two transistors and that can be fabricated without additional process steps. However, since the performance of GC-eDRAMs relies on many interdependent variables, the optimization of the performance of these memories for the integration into their hosting system, as well as the design investigation of future GC-eDRAMs, proves to be highly complex tasks. In this context, modeling tools of memories are key enablers for the exploration of this large design space in a short amount of time. In this article, we present GC-eDRAM modeling tool (GEMTOO), the first modeling tool that estimates timing, memory availability, bandwidth, and area of GC-eDRAMs. The tool considers parameters related to technology, circuits, and memory architecture, and it enables the evaluation of architectural transformations as well as advanced transistor-level effects, such as the increase in the access delay due to the deterioration of the stored data. The timing is estimated with a maximum deviation of 15% from postlayout simulations in a 28-nm FD-SOI technology for different memory sizes and architectures. Moreover, the measured random cycle frequency of a GC-eDRAM fabricated in a 28-nm CMOS bulk process is estimated with a 9% deviation when considering 6-sigma random process variations of the bitcells. The proposed GEMTOO modeling tool is used to show the intricacies in design optimization of GC-eDRAMs, and based on the results, optimal design practices are derived.
Andreas Peter Burg, Robert Giterman, Halil Andac Yigit, Emmanuel Nieto Casarrubias
Adam Shmuel Teman, Robert Giterman
Andreas Peter Burg, Reza Ghanaatian Jahromi