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microwatt/countbits.vhdl

138 lines
4.4 KiB
VHDL

library ieee;
use ieee.std_logic_1164.all;
use ieee.numeric_std.all;
library work;
use work.helpers.all;
entity bit_counter is
port (
clk : in std_logic;
rs : in std_ulogic_vector(63 downto 0);
stall : in std_ulogic;
count_right : in std_ulogic;
do_popcnt : in std_ulogic;
is_32bit : in std_ulogic;
datalen : in std_ulogic_vector(3 downto 0);
result : out std_ulogic_vector(63 downto 0)
);
end entity bit_counter;
architecture behaviour of bit_counter is
-- signals for count-leading/trailing-zeroes
signal inp : std_ulogic_vector(63 downto 0);
signal inp_r : std_ulogic_vector(63 downto 0);
signal sum : std_ulogic_vector(64 downto 0);
signal sum_r : std_ulogic_vector(64 downto 0);
signal onehot : std_ulogic_vector(63 downto 0);
signal edge : std_ulogic_vector(63 downto 0);
signal bitnum : std_ulogic_vector(5 downto 0);
signal cntz : std_ulogic_vector(63 downto 0);
-- signals for popcnt
signal dlen_r : std_ulogic_vector(3 downto 0);
signal pcnt_r : std_ulogic;
subtype twobit is unsigned(1 downto 0);
type twobit32 is array(0 to 31) of twobit;
signal pc2 : twobit32;
subtype threebit is unsigned(2 downto 0);
type threebit16 is array(0 to 15) of threebit;
signal pc4 : threebit16;
subtype fourbit is unsigned(3 downto 0);
type fourbit8 is array(0 to 7) of fourbit;
signal pc8 : fourbit8;
signal pc8_r : fourbit8;
subtype sixbit is unsigned(5 downto 0);
type sixbit2 is array(0 to 1) of sixbit;
signal pc32 : sixbit2;
signal popcnt : std_ulogic_vector(63 downto 0);
begin
countzero_r: process(clk)
begin
if rising_edge(clk) and stall = '0' then
inp_r <= inp;
sum_r <= sum;
end if;
end process;
countzero: process(all)
variable bitnum_e, bitnum_o : std_ulogic_vector(5 downto 0);
begin
if is_32bit = '0' then
if count_right = '0' then
inp <= bit_reverse(rs);
else
inp <= rs;
end if;
else
inp(63 downto 32) <= x"FFFFFFFF";
if count_right = '0' then
inp(31 downto 0) <= bit_reverse(rs(31 downto 0));
else
inp(31 downto 0) <= rs(31 downto 0);
end if;
end if;
sum <= std_ulogic_vector(unsigned('0' & not inp) + 1);
-- The following occurs after a clock edge
edge <= sum_r(63 downto 0) or inp_r;
bitnum_e := edgelocation(edge, 6);
onehot <= sum_r(63 downto 0) and inp_r;
bitnum_o := bit_number(onehot);
bitnum(5 downto 2) <= bitnum_e(5 downto 2);
bitnum(1 downto 0) <= bitnum_o(1 downto 0);
cntz <= 57x"0" & sum_r(64) & bitnum;
end process;
popcnt_r: process(clk)
begin
if rising_edge(clk) and stall = '0' then
for i in 0 to 7 loop
pc8_r(i) <= pc8(i);
end loop;
dlen_r <= datalen;
pcnt_r <= do_popcnt;
end if;
end process;
popcnt_a: process(all)
begin
for i in 0 to 31 loop
pc2(i) <= unsigned("0" & rs(i * 2 downto i * 2)) + unsigned("0" & rs(i * 2 + 1 downto i * 2 + 1));
end loop;
for i in 0 to 15 loop
pc4(i) <= ('0' & pc2(i * 2)) + ('0' & pc2(i * 2 + 1));
end loop;
for i in 0 to 7 loop
pc8(i) <= ('0' & pc4(i * 2)) + ('0' & pc4(i * 2 + 1));
end loop;
-- after a clock edge
for i in 0 to 1 loop
pc32(i) <= ("00" & pc8_r(i * 4)) + ("00" & pc8_r(i * 4 + 1)) +
("00" & pc8_r(i * 4 + 2)) + ("00" & pc8_r(i * 4 + 3));
end loop;
popcnt <= (others => '0');
if dlen_r(3 downto 2) = "00" then
-- popcntb
for i in 0 to 7 loop
popcnt(i * 8 + 3 downto i * 8) <= std_ulogic_vector(pc8_r(i));
end loop;
elsif dlen_r(3) = '0' then
-- popcntw
for i in 0 to 1 loop
popcnt(i * 32 + 5 downto i * 32) <= std_ulogic_vector(pc32(i));
end loop;
else
popcnt(6 downto 0) <= std_ulogic_vector(('0' & pc32(0)) + ('0' & pc32(1)));
end if;
end process;
result <= cntz when pcnt_r = '0' else popcnt;
end behaviour;