Difference between revisions of "Negative Numbers"
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| + | =OverView= | ||
| + | Video from 0:00 until 6.25 | ||
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| + | <youtube>https://www.youtube.com/watch?v=CglODZZm_Z4&list=PLCiOXwirraUDGCeSoEPSN-e2o9exXdOka&index=3</youtube> | ||
| + | |||
| + | https://www.youtube.com/watch?v=CglODZZm_Z4&list=PLCiOXwirraUDGCeSoEPSN-e2o9exXdOka&index=3 (0:00 - 6:25) | ||
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=Two's Complement= | =Two's Complement= | ||
Two's Complement uses a similar number system to binary except the msb or left hand bit is a negative value, meaning for 8 bit two's complement it would be -128 instead of 128 like it is in regular 8bit binary. | Two's Complement uses a similar number system to binary except the msb or left hand bit is a negative value, meaning for 8 bit two's complement it would be -128 instead of 128 like it is in regular 8bit binary. | ||
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Two's Complement can be used to convert binary numbers from positive to negative, to do this we need to: | Two's Complement can be used to convert binary numbers from positive to negative, to do this we need to: | ||
| − | 1) Write the number | + | 1) Write the number as its equivalent positive binary form |
2) Add 0's to the number to make it 8 bit | 2) Add 0's to the number to make it 8 bit | ||
3) Invert each bit, changing 0's to 1's and 1's to 0's | 3) Invert each bit, changing 0's to 1's and 1's to 0's | ||
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For example, represent -41 in two's complement form: | For example, represent -41 in two's complement form: | ||
| − | First calculate +41 in binary using your preferred method | + | First calculate +41 in binary using your preferred method: |
| − | 41= 32+0+8+0+0+1 = 101001 | + | 41 = 32+0+8+0+0+1 = 101001 |
| − | Then add 0's to make it 8 bit | + | Then add 0's to make it 8 bit: |
| − | + | 00101001 | |
| − | Then | + | Then Invert the bits: |
| − | + | 11010110 | |
| − | 11010111 = -128+64+16+4+2+1 = -41 | + | Then Add 1 to the number: |
| + | |||
| + | 11010110 | ||
| + | + 1 | ||
| + | -------- | ||
| + | 11010111 | ||
| + | -------- | ||
| + | |||
| + | To check our answer we can convert the number to denary, remembering that the msb represent -128: | ||
| + | |||
| + | 11010111 = -128+64+16+4+2+1 = -41 | ||
=Method 2= | =Method 2= | ||
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For example, represent -46 in twos complement: | For example, represent -46 in twos complement: | ||
| − | First calculate +46 in binary using your preferred method | + | First calculate +46 in binary using your preferred method: |
| + | |||
| + | 46 = 32+0+8+4+2+0 = 101110 | ||
| + | |||
| + | Then add 0's to make it up to 8bit: | ||
| + | |||
| + | 00101110 | ||
| − | + | Then find the first one and keep it: | |
| − | + | 001011'''1'''0 | |
| + | ^ | ||
| − | Then | + | Then invert the bits excluding the 1 you kept and all 0's to the right of it: |
| − | + | 11010010 | |
| − | To check our answer we can convert the number to denary, remembering that the msb represent -128 | + | To check our answer we can convert the number to denary, remembering that the msb represent -128: |
| − | -128+64+16+2= -46 | + | 11010010 = -128+64+16+2= -46 |
=Revision Questions= | =Revision Questions= | ||
<quiz display=simple> | <quiz display=simple> | ||
| − | { True or false, the biggest number we can make in twos compliment binary is 128 | + | { |
| + | True or false, the biggest number we can make in twos compliment binary is 128 | ||
| type="()" } | | type="()" } | ||
-true | -true | ||
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||We cannot make 128 in twos compliment, as the first bit is equal to -128. If we add up every bit after that, we would only be able to reach 127. | ||We cannot make 128 in twos compliment, as the first bit is equal to -128. If we add up every bit after that, we would only be able to reach 127. | ||
| − | { What is the difference between the two methods for calculating negative binary values? | + | { |
| + | What is the difference between the two methods for calculating negative binary values? | ||
| type="()" } | | type="()" } | ||
- One involves inverting the bits, one does not | - One involves inverting the bits, one does not | ||
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|| In method 1, you must invert all the bits and add 1 to the rightmost digit ; in method 2, you keep the rightmost one, and then invert the rest. | || In method 1, you must invert all the bits and add 1 to the rightmost digit ; in method 2, you keep the rightmost one, and then invert the rest. | ||
| − | { What is -34 in 8-bit | + | { |
| + | What is -34 in 8-bit two's complement binary? | ||
| type="()" } | | type="()" } | ||
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|| Next, we should calculate what +38 is in binary. This would be 00100010. We can invert the bits to get 11011110 | || Next, we should calculate what +38 is in binary. This would be 00100010. We can invert the bits to get 11011110 | ||
| − | { What is the Number range of 8 bit | + | { |
| + | What is the Number range of 8 bit two's compliment in denary? | ||
| type="()" } | | type="()" } | ||
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{ | { | ||
| − | |type="{}"} | + | | type="{}"} |
| − | What is the 8-bit | + | What is the 8-bit two's compliment number 10010110 in denary? |
{ -106 } | { -106 } | ||
|| Firstly, we can invert the numbers to get the positive denary value. The inverted binary would be 01101010. | || Firstly, we can invert the numbers to get the positive denary value. The inverted binary would be 01101010. | ||
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{ | { | ||
| − | |type="{}"} | + | | type="{}"} |
| − | What is the 8-bit | + | What is the 8-bit two's compliment number 01110101 in denary? |
{ 117 } | { 117 } | ||
|| We can identify here that the answer will be a positive number, as the first bit is a 0 | || We can identify here that the answer will be a positive number, as the first bit is a 0 | ||
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{ | { | ||
| − | |type="{}"} | + | | type="{}"} |
| − | What does 'msb' stand for? Please format your answer | + | What does 'msb' stand for? Please format your answer in lowercase, and check your spelling. |
{ most significant bit } | { most significant bit } | ||
| − | { Which position does the msb hold? | + | { |
| + | Which position does the msb hold? | ||
| type="()"} | | type="()"} | ||
- The middle | - The middle | ||
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|| The msb is the leftmost bit in a sequence. | || The msb is the leftmost bit in a sequence. | ||
| + | { | ||
| + | | type="{}"} | ||
| + | What is the 8-bit two's compliment number 10011101 in denary? | ||
| + | { -99 } | ||
| + | || When there is a 1 in the -128 column, the number will always be negative. | ||
| + | |||
| + | { | ||
| + | | type="{}"} | ||
| + | What is the 8-bit two's compliment binary number 11111111 in denary? | ||
| + | { -1 } | ||
| + | || In this question we can assume the answer to be -1 as the first digit (-128) + every other number (127) would be -1. | ||
</quiz> | </quiz> | ||
Latest revision as of 08:25, 25 September 2020
OverView
Video from 0:00 until 6.25
https://www.youtube.com/watch?v=CglODZZm_Z4&list=PLCiOXwirraUDGCeSoEPSN-e2o9exXdOka&index=3 (0:00 - 6:25)
Two's Complement
Two's Complement uses a similar number system to binary except the msb or left hand bit is a negative value, meaning for 8 bit two's complement it would be -128 instead of 128 like it is in regular 8bit binary.
-128 64 32 16 8 4 2 1
We can see that a 1 in the msb position, or the position of -128 would result in the binary number being negative as the other bits 64-1 only total 127. This means that even if there was a 1 in every position a two's complement number of 11111111 in binary would equal -1.
this means that in two's complement if the msb is a 0 the number is positive and if it is a 1 the number is negative.
Therefore we know that the smallest possible value in 8bit two's complement binary is 10000000 = -128 and the largest value is 01111111 = +127.
Method 1
Two's Complement can be used to convert binary numbers from positive to negative, to do this we need to:
1) Write the number as its equivalent positive binary form 2) Add 0's to the number to make it 8 bit 3) Invert each bit, changing 0's to 1's and 1's to 0's 4) Add 1 to the number to make it a two's complement number
For example, represent -41 in two's complement form:
First calculate +41 in binary using your preferred method:
41 = 32+0+8+0+0+1 = 101001
Then add 0's to make it 8 bit:
00101001
Then Invert the bits:
11010110
Then Add 1 to the number:
11010110 + 1 -------- 11010111 --------
To check our answer we can convert the number to denary, remembering that the msb represent -128:
11010111 = -128+64+16+4+2+1 = -41
Method 2
There is one other method for representing numbers in two's complement form, without using calculations. To do this we need to:
1) Write the number is its equivalent positive binary form 2) Add 0's to the number to make it 8 bit 3) Starting from the right and going left find the first 1 and keep it 4) Invert each bit after, changing 0's to 1's and 1's to 0's, but don't invert the 1 you kept or any 0's to the right of it
For example, represent -46 in twos complement:
First calculate +46 in binary using your preferred method:
46 = 32+0+8+4+2+0 = 101110
Then add 0's to make it up to 8bit:
00101110
Then find the first one and keep it:
00101110
^
Then invert the bits excluding the 1 you kept and all 0's to the right of it:
11010010
To check our answer we can convert the number to denary, remembering that the msb represent -128:
11010010 = -128+64+16+2= -46
