Mustafa Altay Karamuftuoglu scite author profile

Superconductor electronics (SCE) is a promising complementary and beyond CMOS technology. However, despite its practical benefits, the realization of SCE logic faces a significant challenge due to the absence of dense and scalable nonvolatile memory designs. While various nonvolatile memory technologies, including Non-destructive readout, vortex transitional memory (VTM), and magnetic memory, have been explored, achieving a superconductor random-access memory (RAM) crossbar array remains challenging. This paper introduces a novel, nonvolatile, high-density, and scalable VTM cell design for SCE applications. Our proposed design addresses scaling issues while boasting zero static power consumption characteristics. Our design leverages current summation, enabling analog multiply-accumulate operations -an essential feature for many in-memory computational tasks. We demonstrate the efficacy of our approach with a 32×32 superconductor memory array operating at 20 GHz. This design effectively addresses scaling issues and utilizes current summation that can be used for analog multiply-accumulate operations. Additionally, we showcase the accumulation property of the memory through analog simulations conducted on an 8×8 superconductor crossbar array.

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Margin and Yield Optimization of Single Flux Quantum Logic Cells Using Swarm Optimization Techniques

Karamuftuoglu

Shahsavani

Pedram

2023

IEEE Trans. Appl. Supercond.

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Implementation of Neuro-Inspired Arithmetic and Logic Circuits

Karamuftuoglu

Bozbey

Özbayoğlu

2023

IEEE Trans. Appl. Supercond.

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