The model of flexibility hypothesized was tested through various algebraic manipulations and derivations and found to be rationally agreeing with value cores and characteristics of a system. A wave is everything we see, hear, sense, or touch in space-time. A wave is sound, light, heat, and unseen thrust or abstract in line with the "wave-particle duality theory".
This model of flexibility 'muv' was used to better understand Amdahl's and Gustafson-Basis's "theoretical system speedup latency" theories. The muv is an expression for value as v ≤ u + s - b, where n is “trials” (frequency, also, efficiency) to enhance a system, v is value, u is a valuable (good, service, or entity), b is a basic (a fundamental medium), and s is a flexibility (i.e. innovation influence, or a highly creative faculty). In fact, there is seemingly numerous approaches to establishing the “mechanics” of value.
Further research on value and its sensitivity based on this research would be done in further studies to establish a link between Einstein's general relativity and quantum field theories. Studying anything rather by means of value and trends allows a common platform to interrelate systems, entities, and objects through quantum field and space-time.
Inhaltsverzeichnis (Table of Contents)
- ABSTRACT REVIEWED.
- Key words
- DEDICATION
- ACKNOWLEDGEMENT.
- CHAPTER 1
- INTRODUCTION
- "LITERATURE REVIEW".
- 1.0 INTRODUCTION TO VALUE AS A UNIVERSAL TERM WITH RESPECT TO THE MUV.
- 1.1 THE HUMAN LEVEL ATTAINED
- 1.2 PERFORMANCE MEASUREMENT (VALUE EVALUATION).
- 1.3 VALUE
- 1.4 BASICS.
- 1.5 VALUABLE
- 1.6 SLACK..
- 1.7 A Few Conventional Constants:
- 1.8 Brief History about General Relativity and Quantum Field Theory
- CHAPTER 2
- METHODOLOGY.
- 2.0 INTRODUCTION [IN THE CONTEXT OF THIS PROJECT WORK: WHY IS THE MODEL OF THE UNIVERSE OF VALUES (MUV) IMPORTANT AND NEEDED?]
- 2.1 FLUID POINT OF TRANSITION FOR [VTPU] ...
- 2.2 COMPARING AMDAHL'S LAW AND GUSTAFSON'S LAW WITH THE MODEL OF THE UNIVERSE OF
VALUES, ALSO, LITTLE'S LAW.
- 2.2.0 INTRODUCTION
- 2.2.1 AMDAHL'S LAW:.
- 2.2.2 DERIVATION OF THE AMDAHL'S LAW
- 2.2.3 GUSTAFSON'S LAW [i.e. GUSTAFSON BARSIS'S LAW.
- 2.2.4 DERIVATION OF THE GUSTAFSON'S LAW:.
- 2.2.5 LITTLE'S LAW:
- 2.3 EXPERIMENTAL DESIGN WITH THE MODEL OF THE UNIVERSE OF VALUES "MUV" AND FURTHER DERIVATION WITH RESPECT TO IT AND LINING UP WITH AMDAHL'S, GUSTAFSON'S, AND LITTLE'S LAWS [WHICH POSITION IS IT PLACED?] ..
- 2.4 DERIVATION OF THE “1/(1 - n)\" AND THE \"n\" OF THE MODEL OF UNIVERSE OF VALUES..\n
- 2.4.0 FRAME I
- 2.4.1 With Gustafson's Law
- 2.4.2 FRAME II..
- 2.4.3 VERTICAL AND HORIZONTAL, WHAT DO THESE MEAN?
- 2.4.4 FRAME III.
- 2.4.5 FRAME IV
- 2.4.6 BEFORE SYSTEM IS ENHANCED
- 2.4.7 AFTER SYSTEM IS ENHANCED
- 2.4.8 CONCLUDED THEORY
- 2.4.9 B'ABSOLUTE FOR A SYSTEM
- 2.4.10 AXIOM 1
- 2.4.11 AXIOM 2
- 2.4.12 AXIOM 3
- 2.4.13 THE EFFICIENCY OF A SYSTEM
- 2.4.14 CONCLUDED THEORY
- 2.4.15 THE \"n\" OF THE MODEL OF THE UNIVERSE OF VALUES (MUV), “p” OF AMDAHL'S LAW, \"s\" OF AMDAHL'S LAW, “b” OF THE MUV, AND THE “s” OF MUV IN A SIMPLE SYSTEM AND IN A COMPLICATED SYSTEM
- 2.4.16 NOTE: “VALUE AS FLUID MEDIATOR”
- 2.4.17 Deduction.
- 2.4.18 Deduction.
- 2.4.19 Deduction.
- 2.4.20 DIFFERENCE BETWEEN THE TRIPLE POINT AND THE CRITICAL POINT
- 2.4.21 BRIEF LITERATURE REVIEW ON SUBLIMATION.
- 2.5 MECHANICS OF VALUE OF A SYSTEM: [COMPUTING THE \"n\" OF THE MODEL OF UNIVERSE OF VALUES (MOU = MUV), “p” OF AMDAHL'S LAW, \"s\" OF AMDAHL'S LAW, \"b\" OF THE MOU, AND THE \"s\" OF MOU IN A SIMPLE SYSTEM AND IN A COMPLICATED SYSTEM]
- 2.5.0 INTRODUCTION.
- 2.5.1 Premise.........
- 2.5.2 Deductions/solution….....
- 2.5.3 INTEGRATION.
- CHAPTER 3
- DATA COLLECTION AND ANALYSIS
- 3.0 INTRODUCTION
- 3.1 ANALYSIS
- 3.1.0 In appendix section 7.0
- 3.1.1 The graphs in appendix sections 7.1 and 7.2
- 3.1.2 The graphs in appendix section 7.3 and 7.4.
- 3.1.3 The graphs in appendix sections 7.5 and 7.6
- 3.1.4 The graphs in appendix sections 7.7 and 7.8
- CHAPTER 4
- RECOMMENDATION AND CONCLUSION
- 4.0 INTRODUCTION
- 4.1 With v = 1/ (1 - n) = 1/ (1 – b/ u).
- 4.2 CONCLUSION
- BIBLIOGRAPHY.
- APPENDIX.
- 7.0 INTRODUCTION: DATA OBTAINED AND PROCESSED, VS GRAPHS.
- 7.1 FIRST GRAPH.
- 7.2 SECOND GRAPH
- 7.3 THIRD GRAPH
- 7.4 FOURTH GRAPH.
- 7.5 FIFTH GRAPH.
- 7.6 SIXTH GRAPH.
- 7.7 SEVENTH GRAPH
- 7.8 EIGHTH GRAPH
- 7.9 NINTH GRAPH
- 7.10
Zielsetzung und Themenschwerpunkte (Objectives and Key Themes)
This dissertation seeks to establish a model for understanding the mechanics of value, termed the "Model of the Universe of Values (MUV)." The MUV proposes a framework for calculating and quantifying value based on the relationship between "basics" (fundamental resources), "valuables" (goods, services, or entities), and "flexibility" (innovation or creative influence).
- The MUV as a framework for understanding value mechanics.
- The relationship between basics, valuables, and flexibility in determining value.
- The application of the MUV to understand Amdahl's and Gustafson-Basis's theoretical system speedup latency theories.
- The potential for future research to establish a link between Einstein's general relativity and quantum field theories through the lens of value mechanics.
- The use of value and trends as a common platform for interrelating systems, entities, and objects.
Zusammenfassung der Kapitel (Chapter Summaries)
- Chapter 1 introduces the concept of value as a universal term and lays the groundwork for the MUV. It explores key components like performance measurement, basics, valuables, and slack, setting the stage for the model's development.
- Chapter 2 delves into the methodology of the dissertation, outlining the importance and rationale behind the MUV. It explores the model's relationship to established theories like Amdahl's and Gustafson-Basis's laws, along with Little's Law. The chapter further examines the derivation of the MUV's core components, including the "n" value, and its relationship to various systems and their performance.
- Chapter 3 focuses on data collection and analysis, providing insights into how the MUV's principles were tested and validated. The chapter refers to appendix sections containing graphs that illustrate the findings and support the conclusions.
- Chapter 4 presents recommendations and conclusions, highlighting the key findings of the dissertation. It further discusses the potential implications of the MUV and its applicability to future research.
Schlüsselwörter (Keywords)
Key terms and concepts explored in this dissertation include the Model of the Universe of Values (MUV), value mechanics, basics, valuables, flexibility, Amdahl's Law, Gustafson-Basis's Law, system speedup latency, quantum field theory, Einstein's general relativity, and the relationship between value and trends in interrelating systems.
- Quote paper
- Wisdom Yao Dornyo (Author), 2016, Forerunning value mechanics. The model of the universe of values, Munich, GRIN Verlag, https://www.grin.com/document/519906