A Compact 8-bit Adder Design using In-Memory Memristive Computing: Towards Solving the Feynman Grand Prize Challenge

A Compact 8-bit Adder Design using In-Memory Memristive Computing: Towards Solving the Feynman Grand Prize Challenge Conference

Chakraborty, Dwaipayan, Raj, Sunny, Jha, Sumit Kumar. (2017). A Compact 8-bit Adder Design using In-Memory Memristive Computing: Towards Solving the Feynman Grand Prize Challenge . PROCEEDINGS OF THE IEEE/ACM INTERNATIONAL SYMPOSIUM ON NANOSCALE ARCHITECTURES (NANOARCH 2017), 67-72.

cited authors

Chakraborty, Dwaipayan; Raj, Sunny; Jha, Sumit Kumar

authors

Jha, Sumit Kumar

date/time interval

July 25, 2017 -

publication date

January 1, 2017

published in

PROCEEDINGS OF THE IEEE/ACM INTERNATIONAL SYMPOSIUM ON NANOSCALE ARCHITECTURES (NANOARCH 2017) Journal

keywords

Computer Science
Computer Science, Hardware & Architecture
Engineering
Engineering, Electrical & Electronic
Science & Technology
Technology

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A Compact 8-bit Adder Design using In-Memory Memristive Computing: Towards Solving the Feynman Grand Prize Challenge Conference

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