Advait Madhavan scite author profile

Recent progress in artificial intelligence is largely attributed to the rapid development of machine learning, especially in the algorithm and neural network models. However, it is the performance of the hardware, in particular the energy efficiency of a computing system that sets the fundamental limit of the capability of machine learning. Data-centric computing requires a revolution in hardware systems, since traditional digital computers based on transistors and the von Neumann architecture were not purposely designed for neuromorphic computing. A hardware platform based on emerging devices and new architecture is the hope for future computing with dramatically improved throughput and energy efficiency. Building such a system, nevertheless, faces a number of challenges, ranging from materials selection, device optimization, circuit fabrication, and system integration, to name a few. The aim of this Roadmap is to present a snapshot of emerging hardware technologies that are potentially beneficial for machine learning, providing the Nanotechnology readers with a perspective of challenges and opportunities in this burgeoning field.

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A multiply-add engine with monolithically integrated 3D memristor crossbar/CMOS hybrid circuit

Chakrabarti

Lastras-Montaño

Adam

et al. 2017

Sci Rep

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Silicon (Si) based complementary metal-oxide semiconductor (CMOS) technology has been the driving force of the information-technology revolution. However, scaling of CMOS technology as per Moore’s law has reached a serious bottleneck. Among the emerging technologies memristive devices can be promising for both memory as well as computing applications. Hybrid CMOS/memristor circuits with CMOL (CMOS + “Molecular”) architecture have been proposed to combine the extremely high density of the memristive devices with the robustness of CMOS technology, leading to terabit-scale memory and extremely efficient computing paradigm. In this work, we demonstrate a hybrid 3D CMOL circuit with 2 layers of memristive crossbars monolithically integrated on a pre-fabricated CMOS substrate. The integrated crossbars can be fully operated through the underlying CMOS circuitry. The memristive devices in both layers exhibit analog switching behavior with controlled tunability and stable multi-level operation. We perform dot-product operations with the 2D and 3D memristive crossbars to demonstrate the applicability of such 3D CMOL hybrid circuits as a multiply-add engine. To the best of our knowledge this is the first demonstration of a functional 3D CMOL hybrid circuit.

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Advait Madhavan

A 10nm high performance and low-power CMOS technology featuring 3^rd generation FinFET transistors, Self-Aligned Quad Patterning, contact over active gate and cobalt local interconnects

Roadmap on emerging hardware and technology for machine learning

A multiply-add engine with monolithically integrated 3D memristor crossbar/CMOS hybrid circuit

Contact Info

Product

Resources

About

Advait Madhavan

A 10nm high performance and low-power CMOS technology featuring 3rd generation FinFET transistors, Self-Aligned Quad Patterning, contact over active gate and cobalt local interconnects

Roadmap on emerging hardware and technology for machine learning

A multiply-add engine with monolithically integrated 3D memristor crossbar/CMOS hybrid circuit

Contact Info

Product

Resources

About

A 10nm high performance and low-power CMOS technology featuring 3^rd generation FinFET transistors, Self-Aligned Quad Patterning, contact over active gate and cobalt local interconnects