These improvements were made primarily to suit commercial users, with little attention given to the needs of science.
Babbage While Tomas of Colmar was developing the desktop calculator Charles Babbage initiated a series of very remarkable developments in computers in Cambridge, England.
Try to use them after each major point in your paper.
You may add funny commentaries to your code or use interesting problems to solve them in examples.
Built-in operations were to include everything that a modern general-purpose computer would need, even the all-important "conditional control transfer" capability, which would allow instructions to be executed in any order, not just in numerical sequence.
The analytical engine was to use punched cards (similar to those used on a Jacquard loom), which were to be read into the machine from any of several reading stations.The other side of this progress is that the information that was up to date yesterday can be history today.So choosing the topic for your research paper on Computer Science becomes a tricky matter.It will be equally interested for your audience if you give them clear practical reasons of why it is great and has to be done.As with math or physics, the research paper on Computer Science may quickly become boring and hard to understand if it will consist endless lines of code without any practical example.Artificial intelligence, virtual reality and enhancing the physical modelling of the real world are always a “little black dress” of computer science, they are always popular and there is a lot of data connected to them – but there are dozens of people writing about them and it will be really challenging to compete with them and write something completely new.You may abandon the easy way and find something that is not so popular, but is very useful for some practical reasons: for example, making the complicated calculations faster, or perfectly modelling some tricky bacteria that biologists desperately need.The prototypes built by Leibniz and Pascal were not widely used but remained curiosities until more than a century later, when Tomas of Colmar (Charles Xavier Thomas) developed (1820) the first commercially successful mechanical calculator that could add, subtract, multiply, and divide.A succession of improved "desk-top" mechanical calculators by various inventors followed, so that by about 1890 the available built-in operations included accumulation of partial results, storage and reintroduction of past results, and printing of results, each requiring manual initiation.It was designed to operate automatically, by steam power, with only one attendant. Various reasons are advanced for his failure, most frequently the lack of precision machining techniques at the time.Another conjecture is that Babbage was working on the solution of a problem that few people in 1840 urgently needed to solve.