High-Density Memristor-CMOS Ternary Logic Family

Project Code :TVMATO859

Abstract

This paper presents the first experimental demonstration of a ternary memristor-CMOS logic family. We systematically design, simulate and experimentally verify the primitive logic functions: the ternary AND, OR and NOT gates. These are then used to build combinational ternary NAND, NOR, XOR and XNOR gates, as well as data handling ternary MAX and MIN gates. Our simulations are performed using a 50-nm process which are verified with in-house fabricated indium-tin-oxide memristors, optimized for fast switching, high transconductance, and low current leakage. We obtain close to an order of magnitude improvement in data density over conventional CMOS logic, and a reduction of switching speed by a factor of 13 over prior state-of-the-art ternary memristor results. We anticipate extensions of this work can realize practical implementation where high data density is of critical importance.

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Specifications

Software Requirements

· LT-SPICE

Hardware Requirements:

· Microsoft® Windows XP

· Intel® Pentium® 4 processor or Pentium 4 equivalent with SSE support

· 512 MB RAM

· 100 MB of available disk space

Learning Outcomes

Introduction to Memristor concept.

Types of functional blocks used in memristor.
Limitations & Applications.

Introduction to ternary logic family.

Knowledge on different voltage levels as an output.
Knowledge on ternery based logic circuits

Importance of Transistors

MOS Fundamentals
NMOS/PMOS/CMOS Technologies
How to design circuits using Transistor logic?
Transistor level design for current starved ring oscillators.
How to design Proposed circuits of current starved ring oscillators.
Introduction to Analog Electronics
Importance of memristor
Scope of memristor in memory devices and IOT applications.
Applications in Real time.

LT-SPICE tool for design and simulation
Solution providing for real time problems

Project Development Skills:

Problem Analysis Skills
Problem Solving Skills
Logical Skills
Designing Skills
Testing Skills
Debugging Skills
Presentation skills
Thesis Writing Skills

Demo Video

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Front End Domains

Cadence EDA
Finite State Machines
Arithmetic Core
DSP Core
Communications
Nano Technology
Testing

Back End Domains

Nano Technology
Cadence EDA
Low Power VLSI
Core Memories
Transistor Logic

Tools

FPGA
H-Spice
Cadence EDA
QCA
Xilinx Vivado
Xilinx ISE
Tanner EDA
LT-Spice

Others

Matlab Interfacing

H-Spice

LT-Spice