Ultra-Efficient Nonvolatile Approximate Full-Adder with Spin-Hall-Assisted MTJ Cells for In-Memory Computing Applications
Abstract
Approximate computing aims to reduce the power consumption and design complexity of digital systems with the cost of a tolerable error. In this project, two ultra-efficient magnetic approximate full adders are presented for computing-in-memory applications. The proposed ultra-efficient full adder blocks are coupled with a memory cell based on Magnetic Tunnel Junction (MTJ) to allow for non-volatility. Therefore, they can be power-gated when required. Both the proposed full adders have simple designs and are energy efficient. Instead of introducing dedicated write-driver and read circuits, the restorer latch inverters are utilized to contribute to the read and write operations, which results in a lower complexity. The peripheral circuitries are designed based on the Gate All-Around Carbon NanoTube Field-Effect Transistor (GAA-CNTFET).
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Block Diagram
Specifications
Software Requirements:
- H-spice
- Technology files: 45nm
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 approximate adders, Magnetic Tunnel Junction (MTJ)
- Need of ultra-efficient full adder blocks are coupled with a memory cell based on Magnetic Tunnel Junction (MTJ)
- Transistors & its applications
- Types of Transistors
- Logic Gates using Transistors
- Pull Up and Pull Down networks
- Importance of Transistors
- MOS Fundamentals
- NMOS/PMOS/CMOS Technologies
- How to design circuits using Transistor logic?
- Transistor level design for approximate ultra-efficient full adder blocks are coupled with a memory cell based on Magnetic Tunnel Junction (MTJ)
- How to design low power, high speed area efficient transistor level circuits?
- Drawbacks in CMOS technology
- Scope of ultra-efficient full adder blocks are coupled with a memory cell based on Magnetic Tunnel Junction (MTJ) in today’s world
- Applications in real time
- H-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
Related Projects
Paper Publishing
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Disclaimer - Takeoff Edu Group Projects, are not associated or affiliated with IEEE, in any way. The IEEE Projects mentioned here are mentioned in the context of student projects, whose ideas are derived from IEEE publications, and not projects of or by IEEE.
