Design of a full adder circuit | Blazingprojects Postgraduate Thesis
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Design of a full adder circuit

 

Table Of Contents


Chapter ONE

INTRODUCTION

  • 1.1Introduction
  • 1.2Background of Study
  • 1.3Problem Statement
  • 1.4Objective of Study
  • 1.5Limitation of Study
  • 1.6Scope of Study
  • 1.7Significance of Study
  • 1.8Structure of the Research
  • 1.9Definition of Terms

Chapter TWO

LITERATURE REVIEW

  • 2.1Overview of Full Adder Circuits
  • 2.2Historical Development of Full Adder Circuits
  • 2.3Basic Principles of Full Adder Circuits
  • 2.4Types of Full Adder Circuits
  • 2.5Applications of Full Adder Circuits
  • 2.6Advantages and Disadvantages of Full Adder Circuits
  • 2.7Comparison of Full Adder Circuits with Other Circuits
  • 2.8Recent Innovations in Full Adder Circuits
  • 2.9Challenges in Designing Full Adder Circuits
  • 2.10Future Trends in Full Adder Circuit Design

Chapter THREE

RESEARCH METHODOLOGY

  • 3.1Research Design and Methodology
  • 3.2Selection of Research Approach
  • 3.3Data Collection Methods
  • 3.4Sampling Techniques
  • 3.5Data Analysis Procedures
  • 3.6Research Instrumentation
  • 3.7Ethical Considerations
  • 3.8Validity and Reliability of Research Findings

Chapter FOUR

DATA PRESENTATION AND ANALYSIS

  • 4.1Overview of Research Findings
  • 4.2Analysis of Data Collected
  • 4.3Interpretation of Results
  • 4.4Comparison with Research Objectives
  • 4.5Discussion on Key Findings
  • 4.6Implications of Findings
  • 4.7Recommendations for Future Research
  • 4.8Practical Applications of Research Findings

Chapter FIVE

SUMMARY, CONCLUSION AND RECOMMENDATIONS

  • 5.1Summary of Findings
  • 5.2Conclusions Drawn from Research
  • 5.3Contributions to Existing Knowledge
  • 5.4Limitations of the Study
  • 5.5Suggestions for Future Research
  • 5.6Practical Implications
  • 5.7Recommendations for Stakeholders
  • 5.8Final Thoughts and Closing Remarks

Thesis Abstract

Abstract
The design of a full adder circuit is a fundamental aspect of digital electronics, essential for arithmetic operations in computers and other electronic devices. This project focuses on the detailed design and implementation of a full adder circuit using basic logic gates such as AND, OR, and XOR gates. The goal is to create an efficient and reliable circuit that can accurately perform binary addition. The full adder circuit is designed to take in three inputs two single-bit binary numbers (A and B) to be added and a carry input (Cin) from the previous stage of addition. The circuit then generates two outputs the sum (S) of the two input bits and a carry output (Cout) to be propagated to the next stage of addition. The design process involves breaking down the addition operation into smaller logical steps that can be implemented using basic logic gates. The project begins with an analysis of the truth table for a full adder, which outlines the expected outputs for all possible input combinations. Based on this analysis, the logic expressions for the sum and carry outputs are derived using Boolean algebra. These expressions are then used to create a circuit schematic using logic gates. The full adder circuit is implemented on a breadboard using standard logic gate ICs such as AND, OR, and XOR gates. Careful consideration is given to the layout of the circuit to minimize signal propagation delays and ensure reliable operation. The connections between gates are made using jumper wires, and the inputs are provided manually using binary switches. The functionality of the full adder circuit is tested by applying different input combinations and verifying that the outputs match the expected results based on the truth table. The circuit is also tested for its ability to propagate carry bits correctly between stages of addition. Overall, the design of a full adder circuit involves a systematic approach to translating binary addition into a physical circuit using basic logic gates. By understanding the underlying principles of digital logic and careful design considerations, a functional full adder circuit can be successfully implemented for use in various digital systems.

Thesis Overview

<p> </p><p><strong>INTRODUCTION</strong></p><p>According to the novel by Mehdi Ghasemi, Mohammad Hussein Moaiyeri, Keivan Navi, published on Jan 10, 2012. Due to high power consumption and difficulties with minimizing the CMOS transistor size, molecular electronics has been introduced as an emerging technology. Further, there have been noticeable advances in fabrication of molecular wires and switches and also molecular diodes can be used for designing different logic circuits.</p><p>Considering their technology novel, they use molecules as the active components of the circuit, for transporting electric charge. They presented a full adder circuit based on molecular electronics. This full adder is consisted of resonant tunneling diodes and transistors which are implemented via molecular electronics. The area occupied by this kind of full adder would be much times smaller than the conventional designs and it can be used as the building block of more complex molecular arithmetic circuits.</p><p>Ramya Menon C. and Vinod Pangracious 16 Jan 2012 published a novel which declares that; in a multiprocessor system on chip (MPSOC) IC the processor is one of the highest heat dissipating devices. The temperature generated in an IC may vary with floor plan of the chip. The novel proposes an integration and thermal analysis methodology to extract the peak temperature and temperature distribution of 2-dimensional and 3-dimensional multiprocessor system-on-chip. As we know the peak temperature of chip increases in 3-dimensional structures compared to 2-dimensional ones due to the reduced space in intra-layer and inter-layer components.</p><p>In sub-nanometer scale technologies, it is inevitable to analyze the heat developed in individual chip to extract the temperature distribution of the entire chip. With the technology scaling in new generation ICs more and more components are integrated to a smaller area. Along with the other parameters threshold voltage is also scaled down which results in exponential increase in leakage current. This has resulted in rise in hotspot temperature value due to increase in leakage power. They analyzed the temperature developed in an IC with four identical processors at 2.4 GHz in different floor plans. The analysis has been done for both 2D and 3D arrangements. In the 3D arrangement, a three layered structure has been considered with two Silicon layers and a thermal interface material (TIM) in between them. Based on experimental results they propose a methodology to reduce the peak temperature developed in 2D and 3D integrated circuits.</p><p><strong>&nbsp; HISTORY</strong></p><p>Until the late 1970’s, most minicomputer did not have a multiple instruction, and so programmers used a “multiply routine” which repeatedly shifts and accumulates partial results, often written using loop unwinding. Mainframe computers had multiply instructions. The Motorola 6809, introduced in 1978, was one of the earliest microprocessors with a dedicated hardware multiplying instruction. It did the same sorts of shifts and adds as a “multiply routine”, but implemented in the microcode of the MUL instruction [citation needed].</p><p>As more transistors per chip became available due to Larger Scale Integration (LSI), it become possible to put enough adders on a single chip to sum all the partial products at once, rather than reuse a single adder to handle each partial product one at a time. Because common digital signal processing algorithms spend most of their time on multiplying, digital signal processor designers sacrifice a lot of chip area in order to make the multiply-accumulate unit often used up most of the chip area of early DSPs.</p><p><strong>&nbsp; &nbsp; &nbsp;RESEARCH METHODOLOGY</strong></p><p><strong>&nbsp; &nbsp; &nbsp;SIMILAR WORKS BASED ON FULL ADDER CIRCUITS</strong></p><p>Some designs of adder cells can be found in the figures 1 to 6. These six different adder cells are simulated in 0.18 µm CMOS technology and tested separately. All these cells are optimum in power dissipation and Power delay product (PDP). The conventional adder shown in figure 1 is implemented with 28 Transistors in CMOS technology. Conventional adder circuits do not function well below one volt supply. Figure 2 shows the Complementary Pass-transistor Logic (CPL) adder. Among the pass transistor logic styles, CPL has the best performance and the lowest power delay product.</p><p>The Transmission Function full Adder (TFA), which is shown in figure 3, uses 16 transistors. Pull-up and pull-down logic is used to drive the load the same as the complementary pass logic. Figure 4 shows the Transmission Gate full adder (TG). TG adder includes 20 transistors, and generates a+b and its complement to produce the sum and carry signals. It uses complementary input signals (a, b, c) as the complementary CMOS full adder. This full adder uses only 14 transistors to make the adder function. The circuit occupies less area in comparison with other CMOS full adder cells. At end, another full adder with 26 transistors is presented in figure 6.</p> <br><p></p>

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