Design an Area Efficient Kogge Stone Adder using Pass Transistor Logic
Also Available Domains Low Power VLSI
Objective
The Kogge Stone adder is a widely used high-speed parallel adder, and the proposed design aims to reduce its area overhead while maintaining its performance characteristics.
Abstract
The paper "Design an Area Efficient Kogge Stone Adder using Pass Transistor Logic" proposes a new approach for designing Kogge Stone adders using pass transistor logic. The Kogge Stone adder is a widely used high-speed parallel adder, and the proposed design aims to reduce its area overhead while maintaining its performance characteristics.
The paper presents a detailed analysis of the pass transistor logic-based Kogge Stone adder, including its circuit design, area estimation, and delay analysis. The proposed design is compared with other Kogge Stone adders, including the conventional Kogge Stone adder and the carry look ahead adder.
Therefore, the proposed design can be a good alternative for high-speed arithmetic operations in digital signal processing and other related applications.
NOTE: Without the concern of our team, please don't submit to the college. This Abstract varies based on student requirements.
Block Diagram
Specifications
Software Requirements:
· Tanner EDA
· 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 Digital electronics
- Knowledge on combinational circuits
- Learning of different types of adder.
- Parallel Prefix adders
- Different configurations of Schematic.
- CMOS Logic
- PTL
- Transistors & its applications
o Types of Transistors
o Logic Gates using Transistors
o Pull Up and Pull Down networks
o Importance of Transistors
- MOS Fundamentals
- NMOS/PMOS/CMOS Technologies
- How to design circuits using Transistor logic?
- Transistor level design for comparators
- How to design low power, high speed full adder?
- Drawbacks in CMOS technology
- Scope of Kogge stone adder Technique in today’s world
- Applications in real time
- Tanner EDA for design and simulation
- Solution providing for real time problems
· Project Development Skills:
o Problem Analysis Skills
o Problem Solving Skills
o Logical Skills
o Designing Skills
o Testing Skills
o Debugging Skills
o Presentation skills
o Thesis Writing Skills
Paper Publishing
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