Moore\'s law describes a trend in the history of computer hardware. the number o

Question

Moore's law describes a trend in the history of computer hardware. the number of transistors that can be inexpensively placed on an integrated circuit is increasing exponentially, doubling approximatelly every two years. the trend was first observed by Intel co-founder Gordon E. Moore in a 1965 paper. it has continued for half a century and is not expected to stop for another decade at least and perhaps much longer. almost eery measure of the capabilities of digital electronic devices is linked to Moores law, processing speed, memory capacit, even the resolution of digital cameras. all of these are improving at (roughly) exponential rates as well. this has dramatically increased the usefulness of digital electronics in nearly every segment of the world economy. moore lasw describes this driving force of technological and social change in the late 20th and early 21st centuries."

more legally , the law is applied to capabilities of electronic devices, even if they do not specifically rely on the density of transistors, like hard-disks capacity etc.

write a program that reads in a number that measures a capability of an electronic device, a number of months, and outputs the capability of such a device in this many months. try your program on several devices that you own or wish to ow and with different duratios into future.

Explanation / Answer

>I do not know how to start the program!!

I always start with this:

#include <iostream>

int main()

{

}

>When it says "exponentially" then what formula should I use for the output?

The description says to double approximately every 24 months. Using that as the baseline, you can calculate the percent of total for the months entered versus the baseline and then calculate that percentage of the capability. Add the percentage of the capability to the base capability and you're done.

For example, you have a device that measures capability in flumpits. The starting flumpits come to 8, so in 24 months you can expect 16 flumpits because of the 24 month doubling. If you actually want to know the flumpits in some different span, like 18 months, you get the percentage of 18 in 24:

18 / 24 = .75 * 100 = 75%

Then add 75% of 8 flumpits to the current total:

8 * .74 = 6

8 + 6 = 14

So the growth of flumpits in 18 months would reach approximately 14 flumpits. What if you want to know the flumpits in 30 months?

30 / 24 = 1.25 = 125%

8 * 1.25 = 10

8 + 10 = 18

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