Is there a more appropiate "supertype" to
std_logic_vector(regarding my case)?
Is it ok to define an Input as (subtype of) Integer or is it better to define it as bitvector? (Are there any Issues with the Integer approach)
When should I use resolved or unresolved logic for the Inputs/Outputs off an Entity?
- Resolved for Bus drivers (because of the "high Z drivers") otherwise unresolved?
- Always resolved so a bus can be driven/used as input (this seems wrong, because when would I use unresolved then?)
I am declaring an entity and am wondering for the right types for the inputs and outputs. Lets assume I am constructing a dynamic width equal. It compares the first n Bits of two Inputs for equality.
The entity definition would be:
entity comparisonDynWidth is generic( width : positive; min_width : positive; -- when the tools suport vhdl2008 enough -- reason for both signed/unsigned => std_logic inputs --function compareFunc (x: in std_logic_vector; y: in std_logic_vector) return std_logic ); port ( left, right : in std_logic_vector(width-1 downto 0); widthControl: in natural range 0 to width-min_width; result : out std_logic / std_ulogic ?? );
I chose std_logic_vector as Input since I want it to look the ports like a generic
less than comparator as well, for which signedness matters and which can have
since it is easier for me to define the width as an integer I did so.