computer science experts

computer science experts

The Evolution of Computer Science: From Pioneers to Modern Innovations

1. Introduction: The Historical Foundations of Computer Science

The field of computer science has made numerous groundbreaking advancements since its close association with electronic digital computers following World War II. While today’s students and computer scientists are typically educated on the latest advancements or inventions, it is less common to learn about the historical context of computer science’s pioneers. Without understanding the work of prior pioneers, one’s understanding of computer science may be incomplete or worse yet, incredibly biased.

This chapter provides a high-level historical overview of the evolution of computer science. This includes a brief synopsis of ancient technologies and methods, advances made during the premodern and early modern periods, and foundational work performed in modern times that led to the establishment of the field. The modern history of computer science is subdivided into several early and pre-modern precursors from Europe. These periods roughly correspond to the study’s time span from ancient to modern times. Key people and their contributions to theory, practice, teaching, and industry during these periods are discussed. The chapter concludes with a modern summary of the diverse, applied, and innovative field of computer science that we know today.

2. Key Figures and Milestones in Computer Science

Modern computer science, as it is known today, has its roots in the development of the first electronic digital computer in the mid-20th century and the first practical implementation of an algorithm or method suited to machine computation. While these advances had just begun in the 19th century, the theoretical study of computing and methods to efficient problem-solving were in place. Here are some of the key figures and milestones in the evolution of computer science from its mathematical and scientific forebears.

One of computer science’s founding figures is English mathematician Charles Babbage, who at the beginning of the 19th century outlined theories of computing. He made significant contributions to the field of differentials and also created plans for an analytical engine, a type of mechanical device that could perform polynomial functions in differential calculus.

Major contributions to these theories and the analytical engine were made by Ada Lovelace, who is generally known as the first computer programmer. While her work was never practically adopted, she presented several methods of producing numbers, tables, and sequences, and explained the engine could be stopped and set by external switches on its front. Although Babbage’s machine was not built during his lifetime, many of his concepts are embodied in modern electronic digital computers.

As early as the 1930s, a group of Dutch computer pioneers led by mathematician and electrical engineer Hendrick Lenstra, Sr. developed one of the first known technologies for electronic digital computers. Their computer, which utilized binary tape and triode vacuum tubes as its principal design, was the first to use a non-decimal system for representing floating-point numbers. Be that as it may, the modern worldwide implementation of electronic digital computers only came about during World War II, when the British built a number of Colossus machines which used parallel processing and massive numbers of vacuum tubes for their operational requirements, and were built specifically to crack messages encrypted by the Enigma machine.

3. Emerging Technologies and Future Trends

The fact that computer science will keep on evolving does not suggest that we can have no intuitions about what such future will be. Ideas about such future are indeed being developed for some time now. However, contrary to previous claims about decreasing margins for improving a set of technologies, these proposals generally refer to systems and tools that are either incipient or nonexistent. Consequently, historical trends in complexity and computing strongly suggest asymmetric possibilities for solving many old problems – e.g. cryptography, presently at the historical level of simplicity where information theory was three decades ago; the use of knowledge about general problem classes increased with the appearance of computability; the creation of new situation-specific artificial intelligence improved as more insights, from new paradigms and from old ideas being reformulated into new predictors of complexity behavior, were obtained. Intuition about the near phase of these apparently asymmetric trends could help in concentrating funding efforts and giving students better motivations in choosing computer science as a career.

3-D integration is one such innovation, now at a very early stage, with some simple tools being available for helping design exploration or early evaluation. The technology may represent a clean break from current processor evolution, by means of instituting an instantiation of the Von Neumann bottleneck remedy believed to be present in some brain designs, and accelerating parameter/behavior trade-offs for components made of high-performance materials, like electronic components and quantum computers. A few possibly large similarities with the early electronic industry are appearing, despite the maturity differences between sister enabling technologies.

4. The Impact of Computer Science on Society

The field of computer science has an extensive and profound impact on society. Its positive effect was at first modest, often focused on improving computing ability. As computer science matured, its impact grew vastly more significant. Now we address questions like: what kind of life is better lived with computing, and what kind of society is better shaped by computing? It expands from efficiency, reliability, and performance to completely new problems and possibilities on the frontiers of computing.

At the present time, we as a society are faced with many urgent questions around computing. For example, how can we address problems at the frontier level, such as the immense challenge in creating intelligent systems capable of human-level interaction? And how do we stay ahead in efficient and secure execution against the accelerating threats against our computing infrastructure?

In addressing these and other such issues, we should note a substantial difference in the impact of computer science on society and in the impact of other sciences on society. This difference is due to the combination of breadth and influence of computer science. The enormous reach of computer science is a direct implication of the fact that computer science is a science in a quite special sense. Such as the sciences of molecular biology and neuroscience address the detailed techniques of life science, and that industrial sciences like materials engineering and chemical engineering are concerned with complex things like computing.

On the one hand, experts possess a detailed understanding of science and regard its usage in a particular area of study in a particular way. Such as a biological scientist can select sequences of DNA and edit them. This is a powerful approach, but they see their efforts as reactions to the existence of science. In computer science, computer scientists themselves take the initiative to develop and apply computational discoveries, often addressing problems beyond Cambridge to train experts in practical applications.

Place Your Order
(275 Words)

Approximate Price: $26

Calculate the price of your order

275 Words
We'll send you the first draft for approval by September 11, 2018 at 10:52 AM
Total Price:
$31
The price is based on these factors:
Academic Level
Number of Pages
Urgency
Principle features
  • Free cover page and Reference List
  • Plagiarism-free Work
  • 24/7 support
  • Affordable Prices
  • Unlimited Editing
Upon-Request options
  • List of used sources
  • Anytime delivery
  • Part-by-part delivery
  • Writer’s sample papers
  • Professional guidance
Paper formatting
  • Double spaced paging
  • Any citation style (APA, MLA, Chicago/Turabian, Harvard)
  • 275 words/page
  • Font 12 Arial/Times New Roman

•Unique Samples

We offer essay help by crafting highly customized papers for our customers. Our expert essay writers do not take content from their previous work and always strive to guarantee 100% original texts. Furthermore, they carry out extensive investigations and research on the topic. We never craft two identical papers as all our work is unique.

•All Types of Paper

Our capable essay writers can help you rewrite, update, proofread, and write any academic paper. Whether you need help writing a speech, research paper, thesis paper, personal statement, case study, or term paper, Homework-aider.com essay writing service is ready to help you.

•Strict Deadlines

You can order custom essay writing with the confidence that we will work round the clock to deliver your paper as soon as possible. If you have an urgent order, our custom essay writing company finishes them within a few hours (1 page) to ease your anxiety. Do not be anxious about short deadlines; remember to indicate your deadline when placing your order for a custom essay.

•Free Revisions and Preview

To establish that your online custom essay writer possesses the skill and style you require, ask them to give you a short preview of their work. When the writing expert begins writing your essay, you can use our chat feature to ask for an update or give an opinion on specific text sections.

A Remarkable Student Essay Writing Service

Our essay writing service is designed for students at all academic levels. Whether high school, undergraduate or graduate, or studying for your doctoral qualification or master’s degree, we make it a reality.