library ieee; use ieee.std_logic_1164.all; use ieee.numeric_std.all; -- "work" denotes the curent library. Similar to this in C++, C# etc... use work.axi3intercon_pkg.all; use work.axi_aw_router_pkg.all; entity axi3intercon is port( aclk : in std_logic; aresetn : in std_logic; masters_in : out axi_masters_in_t(0 to MASTER_COUNT - 1); masters_out : in axi_masters_out_t(0 to MASTER_COUNT - 1); slaves_in : out axi_slaves_in_t(0 to SLAVE_COUNT - 1); slaves_out : in axi_slaves_out_t(0 to SLAVE_COUNT - 1) ); end entity axi3intercon; architecture RTL of axi3intercon is signal rst : std_logic; signal write_locks : write_locks_t(0 to MASTER_COUNT - 1); signal write_releases : write_release_t; signal aw_masters_out : axi_aw_masters_out_t(0 to MASTER_COUNT - 1); signal aw_masters_in : axi_aw_masters_in_t(0 to MASTER_COUNT - 1); signal aw_slaves_out : axi_aw_slaves_out_t(0 to SLAVE_COUNT - 1); signal aw_slaves_in : axi_aw_slaves_in_t(0 to SLAVE_COUNT - 1); begin reset_sync : process(aclk, aresetn) is begin if aresetn = '0' then rst <= '1'; elsif rising_edge(aclk) then rst <= '0'; end if; end process reset_sync; axi3intercon_aw_router_inst : entity work.axi3intercon_aw_router port map( aclk => aclk, rst => rst, masters_out => aw_masters_out, masters_in => aw_masters_in, slaves_out => aw_slaves_out, slaves_in => aw_slaves_in, write_locks => write_locks, write_releases => write_releases ); aw_master_connect : for i in 0 to MASTER_COUNT - 1 generate aw_masters_out(i) <= masters_out(i).aw; masters_in(i).aw <= aw_masters_in(i); end generate aw_master_connect; aw_slave_connect : for i in 0 to SLAVE_COUNT - 1 generate aw_slaves_out(i) <= slaves_out(i).aw; slaves_in(i).aw <= aw_slaves_in(i); end generate aw_slave_connect; end architecture RTL;