# How many Bits were used?

Assume a simple machine uses 4 bits to represent it instruction set. How many different instruction can this machine have? How many instruction could it have if eight bit are used? How many if 16 bits are used?

Sorry with the homework theory.. I didnt know how else to put it.. thanks

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How many marks would you get if 2 answers were posted? How many if 4 answers were posted? How many would you get if you did your homework yourself? –  Jon Skeet Jan 19 '11 at 17:12
What does this have to do with Visual Basic? –  Reed Copsey Jan 19 '11 at 17:12
Jon you don't have to be so negative.I am new to .net and i needed a little bit of help. –  norris1023 Jan 19 '11 at 17:24
Reed i have a Visual Basic .net book and that is what it has in it. –  norris1023 Jan 19 '11 at 17:25

It's 2 to the power "bits". So

• 4 bits = 16 instructions
• 8 bits = 256 instructions
• 16 bits = 65536 instructions
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ok so you just always use the 2 power –  norris1023 Jan 19 '11 at 17:13

A bit can have two values: 0 or 1.

How many unique values are there of no bits? Just one. I'd show it here, but I don't know how to show no bits.

How many unique values are there of one bit? Two: 0 1

How many unique values are there of two bits? Four: 00 01 10 11

How many unique values are there of three bits? Eight: 000 001 010 011 100 101 110 111

Notice anything? Each time you add another bit, you double the number of values. You can represent that with this recursive formula:

``````unique_values(0) -> 1
unique_values(Bits) -> 2 * unique_values(Bits - 1)
``````

This happens to be a recursive definition of "two to the power of," which can also be represented in this non-recursive formula:

``````unique_values = 2 ^ bits    # ^ is exponentiation
``````

Now you can compute the number of unique values that can be held by any number of bits, without having to count them all out. How many unique values can four bits hold? Two to the fourth power, which is 2 * 2 * 2 * 2 which is 16.

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Here's a good article describing your problem: Powers Of Two

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I don't think the OP even understands why it's Powers of Two (see answer from Sean) –  KevinDTimm Jan 19 '11 at 17:22

You can have 2 raised to the power of the number of bits (since each bit can be 1 or zero). E.g. for the 4 bit computer: 2^4 = 16.

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ty for explaining.. –  norris1023 Jan 19 '11 at 17:29