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# how can i determine successive (logic'1') bits in a std_logic_vector

i am pretty a new vhdl user and i am trying to solve a problem,which is difficult for me nowadays . I have two std_logic_vectors.First one has 5 bits,which must have (11111).Second one has 2040 bits,which is arbitral and i must divide up 2040 bits to 24 outputs that means each output must have 85 bits .First i must determine by using a small vector(5bits) the place of successive 5 bits(11111) in a std_logic_vector,which has 2040 bits.After determing if there are (11111) in a 2040bits vector ,the output should be '1' which is responsible 85 bits where there is (11111) .

to summarize

for example i have 24 outputs each control 85 bits of std_logic-vector(2040bits) if there is a 11111 in first 85 bits then output1 should be '1'
if there is a 11111 in 86 to 170 bits then output2 should be '1'
if there is a 11111 in 172 to 255 bits then output3 should be '1' so on...

(11111) is the minimum value .it can be bigger to make an output logic '1' Does someone have any idea about it??... and ((if 2040bits are massive then i can reduce the number of bits))

Thanks

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do you want tho have that synthesized? what speed are you targetting for? – baldyHDL Apr 10 '13 at 6:52

I suspect you mean to search for the first vector in the second, however if you know that they will all be '1's, then the and_reduce macro works nicely. Otherwise replace that with a comparison.

The general principal is to break it into two loops, the outside is for each output result, and the inside is for each possible 5 bit group. The process can be done in serial or in parallel like below.

the way you've described the problem if 81 to 86 = "11111" there will be no pattern match. if that should return a 1, then the array bounds will need to be altered slightly.

``````type slvArray is array (natural range <>) of standard_logic_vector;
subtype outputRange is natural range 0 to 23;
subtype partitionRange is natural range 0 to 84;

proc:process(clock)
variable andResult : slvArray(outputRange)(partitionRange);
begin
if rising_edge(clock) then
for olc in outputRange loop
for ilc in partitonRange'low to partitionRange'high-4 loop
andResult(olc)(ilc) <= and_reduce(slv2(olc*partitionRange'length + ilc to olc*partitionRange'length+ ilc + 4);
end loop;
output(olc) <= or_reduce(andResult);
end loop;
end if;
end process;
``````
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Thank you very much voider i consider it – dogan öztürk Apr 14 '13 at 11:16