Data Storage Solution: Hardware & OS (Part 2 of 3)

Overview
This entry covers the technical details of the implementation.

I approached this by breaking down the stack into individual steps and then I conduct performance, security and data management reviews.

The Physical Stack

  • Storage Devices
  • Storage Controller
  • Server
  • Network
  • Site
  • User

Resecuring Democracy

I think democracy is losing ground in America. I'm not very optimistic about the prospects because it was imperfect to begin with and the last couple years it has lost some ground. Some of these seem out of reach altogether.

Self-Respect

An actionable definition of self-respect is sorely missing from the general public, academic and religious literature, philosophy, everywhere. By this I mean a useful understanding of what self-respect is, how it can be obtained and the positive consequences and advantage of having it. In addition literature often confuses self-esteem and self-respect without properly distinguishing between the two.

Linear Algebra in Engineering: Summary (Part 7 of 7)

Preface
This series is aimed at providing tools for an electrical engineer to analyze data and solve problems in design. The focus is on applying linear algebra to systems of equations or large sets of matrix data.

Introduction
This article will attempt to organize the previous series of articles into a decision tree allowing you to quickly choose the best method for a particular problem.

Procedure
First, ask yourself some questions about your data and the type of answer you need.

Linear Algebra in Engineering: Analyzing Dynamic Systems with Markov Chains (Part 6 of 7)

Preface
This series is aimed at providing tools for an electrical engineer to analyze data and solve problems in design. The focus is on applying linear algebra to systems of equations or large sets of matrix data.

Introduction
This article will demonstrate the use of Markov Chains. This can be used to analyze models with cyclic or or repeated outcomes.

Linear Algebra in Engineering: Macroeconomics with Leontief Input-Output Model (Part 5 of 7)

Preface
This series is aimed at providing tools for an electrical engineer to analyze data and solve problems in design. The focus is on applying linear algebra to systems of equations or large sets of matrix data.

Introduction
This article will demonstrate the use of Leontief Input-Output Models. This can be used to analyze macroeconomic models of production.

Linear Algebra in Engineering: Analyzing Networks with Adjacency Matrices (Part 4 of 7)

Preface
This series is aimed at providing tools for an electrical engineer to analyze data and solve problems in design. The focus is on applying linear algebra to systems of equations or large sets of matrix data.

Introduction
This article will demonstrate the use of adjacency matrices to analyze interconnected vertices (for example map or network data).

Linear Algebra in Engineering: Trend Analysis with Polynomial Interpolation (Part 3 of 7)

Preface
This series is aimed at providing tools for an electrical engineer to analyze data and solve problems in design. The focus is on applying linear algebra to systems of equations or large sets of matrix data.

Introduction
This article will demonstrate the use polynomial interpolation.

Linear Algebra in Engineering: Trend Analysis with Polynomial Least Squares (Part 2 of 7)

Preface
This series is aimed at providing tools for an electrical engineer to analyze data and solve problems in design. The focus is on applying linear algebra to systems of equations or large sets of matrix data.

Introduction
This article will demonstrate the use of least squares fit real data to a polynomial.

Linear Algebra in Engineering: Equilibrium in Linear Systems (Part 1 of 7)

Preface
This series is aimed at providing tools for an electrical engineer to analyze data and solve problems in design. The focus is on applying linear algebra to systems of equations or large sets of matrix data.

Introduction
This article will demonstrate the use of matrix algebra to solve for equilibrium in systems. This is common in network flow, economics and electrical circuits (current and voltage analysis). We will apply exact and least squares solutions.

Pages

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