LOGIC Menu

 

 

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Description



Logical bit-by-bit "AND" of two arguments.

 

For example: AND(1100b,1010b)=1000b



Logical bit-by-bit "XOR" of two arguments.

 

For example: XOR(1101b,1011b)=110b



Logical bit-by-bit "OR" of two arguments.

 

For example: OR(1100b,1010b)=1110b



Returns the one's complement of the argument. Each bit in

 

the result is the complement of the corresponding bit in the

 

argument.

 

For example: NOT(1011b)=

 

111111111111111111111111111111110100b



Logical bit-by-bit "NAND" of two arguments.

 

For example:

 

NAND(1100b,1010b)=11111111111111111111111

 

1111111110111b



Logical bit-by-bit "NOR" of two arguments.

 

For example: NOR(1100b,1010b)=

 

111111111111111111111111111111110001b

 

 

The “AND”, “OR”, “XOR”, “NOT”, “NAND”, “NOR” can be used as logic functions. Fraction, complex, vector arguments will be seen as an " " in logic function.

Arithmetic in Bases 2, 8, and 16

You can perform arithmetic operations using , , , and in any base. The only function keys that are actually deactivated in HEX mode are , , , , , and . However, you should realize that most operations other than arithmetic will not produce meaningful results since the fractional parts of numbers are truncated.

Arithmetic in bases 2, 8, and 16 is in 2's complement form and uses integers only:

If a number has a fractional part, only the integer part is used for an arithmetic calculation.