What is the difference between $size
and $bits
operator in verilog.?
if I've variables, [9:0]a
,[6:0]b
,[31:0]c
.
c <= [($size(a)+$size(b)-1]-:$bits(b)];
What will be the output at 'c' from the above expression?
What is the difference between $size
and $bits
operator in verilog.?
if I've variables, [9:0]a
,[6:0]b
,[31:0]c
.
c <= [($size(a)+$size(b)-1]-:$bits(b)];
What will be the output at 'c' from the above expression?
$size()
gives the number of bits for a single dimension. $bits()
gives the number of bits to completely represent the variable.
For example:
reg [9:0] a;
reg [9:0] b [5:0];
initial begin
$display("a Size ", $size(a));
$display("a Bits ", $bits(a));
$display("b Size ", $size(b));
$display("b Bits ", $bits(b)) ;
end
Gives :
a Size 10
a Bits 10
b Size 6 // Depth of memory
b Bits 60 // Width * Depth
In your case you just have 1 dimensional arrays, not memories or structs so $size()
and $bits()
would be the same thing.
$size
shall return the number of elements in the dimension, which is equivalent to $high - $low + 1
. It is relative to the dimension, not only bit counts. If the type is 1D packed array or integral type, it is equal to $bits
.
$bits
system function returns the number of bits required to hold an expression as a bit stream.
$bits ( [expression|type_identifier] )
It returns 0 when called with a dynamically sized type that is currently empty. It is an error to use the $bits
system function directly with a dynamically sized type identifier.
I have no idea about your question, c <= [($size(a)+$size(b)-1]-:$bits(b)];
. Is it a valid expression in RHS? Are you talking about the array range expression, [n +: m]
or [n -: m]
?
$size(a)
= 10, $size(b) = 7
, $bits(b)
= 7: c <= x[17-1-:7]
These are all standard types so $bits
and $size
would be the same.
c <= [17+7-1]-:7];
[n +: m]
or [n -: m]
, n
is the starting index, +:
or -:
is the incremental or decremental direction. m
is how many elements to count up/down. For example [4+:4]
== [4:7]
, [3-:4]
== [3:0]