# Unit Conversions! Ghz - ns - MHz - cycles

I am preparing for a units quiz and there are two kinds of conversions that have me stumped.

Type one: What is length (in ns) of one cycle on a XXX computer? - In this case, XXX can be some MHz or Ghz, randomly. I am having trouble converting the cyles times. Example:

What is length (in ns) of one cycle on a 50 MegaHertz (MHz) computer?

The second type of conversion I have trouble with: If the average instruction on a XXX computer requires ZZ cycles, how long (in ns) does the average instruction take to execute? - Like the previous case, the XXX will either be some MHz or Ghz. For example:

If the average instruction on a 2.0 GigaHertz (GHz) computer requires 2.0 cycles, how long (in ns) does the average instruction take to execute?

I don't understand what I am doing wrong in these conversions but I keep getting them wrong. Any help would be great!

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I hope to have my math correct, I'll give it a try.

One Hertz is defined as one cycle per second, so a 1 Hz computer has a 10^9 ns cycle length (because nano is 10^-9).

50 Mega = 50 * 10^6, so 50MHz yields a (10^9 ns / (50 * 10^6)) = 20 ns cycle length.

2 Giga = 2 * 10^9, so 2GHz yields a (10^9 ns / (2 * 10^9)) = 0.5 ns cycle length. Two cycles here take 1 ns.

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Thanks, I will work with this a bit and come back if for some reason I still can't figure it out. Thanks :) – Corey Aug 31 '10 at 7:50

The unit for frequency is `Hz` which is the same as `1/s` or `s^-1`. To convert from frequency to length (really time) you have to compute the reciprocal value: `length = 1/frequency`.

What is length (in ns) of one cycle on a 50 MegaHertz (MHz) computer?

`1/(50*10^6 Hz) = 2*10^-8 s = 20*10^-9 s = 20 ns`

If the average instruction on a 2.0 GigaHertz (GHz) computer requires 2.0 cycles, how long (in ns) does the average instruction take to execute?

One cycle: `1/(2*10^9 Hz) = 0.5*10^-9 s = 0.5 ns`

Two cycles: 1 ns

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