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I am new to VHDL and digital logic, currently taking Comp Architecture course.

"Student's guide to VHDL", chapter 2 discusses std_logic type in VHDL. Could someone explain to me the purpose of this enumerated type. Thanks !

'U': uninitialized. This signal hasn't been set yet.
'X': unknown. Impossible to determine this value/result.
'0': logic 0
'1': logic 1
'Z': High Impedance
'W': Weak signal, can't tell if it should be 0 or 1.
'L': Weak signal that should probably go to 0
'H': Weak signal that should probably go to 1
'-': Don't care. 
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5 Answers 5

up vote 6 down vote accepted

std_logic is basically a single wire or bit. You can use logical operators (and, or, xor, etc.) on them. When simulating a design I believe I have only seen 'X', '0', or '1'. Obviously you want '0' or '1'. An 'X' indicates that the value is unknown (possibly not connected to anything or there is a glitch in the signal). Also, std_logic_vector can be used for signals that need to be more than 1 bit wide. I'm not sure if this answers your question...

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  • 'X' usually is caused by two statements driving the same signal in opposite directions,i.e., '0' and '1'
  • 'Z' is used to build a tri stated output/input
  • 'L' and 'H' are used to model a pulldown or pullup respectively
  • '-' is used in comparisons when you don't care about certain bits in a vector
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The std_logic type was introduced by the IEEE-1164 standard as an accurate representative of a single wire or bit. The VHDL language itself does not provide a single-bit type that is robust enough to represent "real" logic. That is, to represent all the possible states of modelable and synthesizable logic in a modern programmable logic device.

Early in the history of VHDL, different developers were essentially authoring their own versions of std_logic out of the need to represent real-world signals. IEEE-1164 introduced this standardized logic type in an effort to enhance interoperability of code written by different developers for different architectures.

The wikipedia article for the standard provides a succinct description:

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In addition to the answers that have already been provided, I think that it is worth mentioning that STD_LOGIC is what is called a resolved type, that means that there is a priority to the signal. For example, 1 and 0 have a higher priority to H or L so if a signal was driven with an L and a 1 simultaneously, the output would be high (logic 1) because 1 has a higher priority than L.

It just so happens that the order you have listed the values in, in your question is the order of the priority, the one caveat is that some values have equal priority and so if you drive them with both of those signals there is no clear "winner" so the result is the next "unknown" state ('X' or 'W') up the hierarchy, a simple example is if a signal is driven with an 'H' and an 'L', the result will be 'W'.

The resolution table for STD_LOGIC looks something like this:

--      ---------------------------------------------------------
--      |  U    X    0    1    Z    W    L    H    -        |   |  
--      ---------------------------------------------------------
        ( 'U', 'U', 'U', 'U', 'U', 'U', 'U', 'U', 'U' ), -- | U |
        ( 'U', 'X', 'X', 'X', 'X', 'X', 'X', 'X', 'X' ), -- | X |
        ( 'U', 'X', '0', 'X', '0', '0', '0', '0', 'X' ), -- | 0 |
        ( 'U', 'X', 'X', '1', '1', '1', '1', '1', 'X' ), -- | 1 |
        ( 'U', 'X', '0', '1', 'Z', 'W', 'L', 'H', 'X' ), -- | Z |
        ( 'U', 'X', '0', '1', 'W', 'W', 'W', 'W', 'X' ), -- | W |
        ( 'U', 'X', '0', '1', 'L', 'W', 'L', 'W', 'X' ), -- | L |
        ( 'U', 'X', '0', '1', 'H', 'W', 'W', 'H', 'X' ), -- | H |
        ( 'U', 'X', 'X', 'X', 'X', 'X', 'X', 'X', 'X' )  -- | - |  
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I've observed this behavior in Xilinx's simulator ISim:

  • 'U' - is the default state of all signals that are not explicitly set with a default value. I recommend setting a default value for every signal.
  • 'X' - is assigned when the signal is driven by two or more drivers with different values
  • 'Z' - is the explicitly high Z state. Keep in mind this can only be realized in hardware with elements that support tri-state. I recommend using this for IO pins only, since these resources are rare in the fabric.
  • '0' and '1' are the normal states.
  • I've never seen any of the other states, and I would suggest ignoring them.

It's not possible to examine variables in ISim, but I assume the same rules apply.

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