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[/] [funbase_ip_library/] [trunk/] [TUT/] [ip.hwp.communication/] [hibi/] [3.0/] [vhd/] [hibi_segment.vhd] - Rev 174
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-- *************************************************** -- File: hibi_segment.vhd -- Creation date: 09.04.2013 -- Creation time: 12:34:10 -- Description: -- Created by: matilail -- This file was generated with Kactus2 vhdl generator. -- *************************************************** library IEEE; library hibi; library work; use hibi.all; use work.all; use IEEE.std_logic_1164.all; entity hibi_segment is generic ( ip_mslave_0_addr_end : integer := 2; -- HIBI end address for interface 0 ip_mslave_0_addr_start : integer := 1; -- HIBI address for interface 0 ip_mslave_1_addr_end : integer := 4; -- HIBI end address for interface 1 ip_mslave_1_addr_start : integer := 3; -- HIBI address for interface 1 ip_mslave_2_addr_end : integer := 6; -- HIBI end address for interface 2 ip_mslave_2_addr_start : integer := 5; -- HIBI address for interface 2 ip_mslave_3_addr_end : integer := 8; -- HIBI end address for interface 3 ip_mslave_3_addr_start : integer := 7 -- HIBI address for interface 3 ); port ( -- Interface: clocks_0 -- Clock inputs interface for hibi wrapper_3 agent_clk : in std_logic; agent_sync_clk : in std_logic; bus_clk : in std_logic; bus_sync_clk : in std_logic; -- Interface: clocks_1 -- Clock inputs interface for hibi wrapper_3 agent_clk_1 : in std_logic; agent_sync_clk_1 : in std_logic; bus_clk_1 : in std_logic; bus_sync_clk_1 : in std_logic; -- Interface: clocks_2 -- Clock inputs interface for hibi wrapper_3 agent_clk_2 : in std_logic; agent_sync_clk_2 : in std_logic; bus_clk_2 : in std_logic; bus_sync_clk_2 : in std_logic; -- Interface: clocks_3 -- Clock inputs interface for hibi wrapper_3 agent_clk_3 : in std_logic; agent_sync_clk_3 : in std_logic; bus_clk_3 : in std_logic; bus_sync_clk_3 : in std_logic; -- Interface: ip_mMaster_0 -- HIBI ip mirrored master agent interface 0 (r4 wrapper) agent_av_in : in std_logic; agent_comm_in : in std_logic_vector(4 downto 0); agent_data_in : in std_logic_vector(31 downto 0); agent_re_in : in std_logic; agent_we_in : in std_logic; -- Interface: ip_mMaster_1 -- HIBI ip mirrored master agent interface 1 (r4 wrapper) agent_av_in_1 : in std_logic; agent_comm_in_1 : in std_logic_vector(4 downto 0); agent_data_in_1 : in std_logic_vector(31 downto 0); agent_re_in_1 : in std_logic; agent_we_in_1 : in std_logic; -- Interface: ip_mMaster_2 -- HIBI ip mirrored master agent interface 2 (r4 wrapper) agent_av_in_2 : in std_logic; agent_comm_in_2 : in std_logic_vector(4 downto 0); agent_data_in_2 : in std_logic_vector(31 downto 0); agent_re_in_2 : in std_logic; agent_we_in_2 : in std_logic; -- Interface: ip_mMaster_3 -- HIBI ip mirrored master agent interface 3 (r4 wrapper) agent_av_in_3 : in std_logic; agent_comm_in_3 : in std_logic_vector(4 downto 0); agent_data_in_3 : in std_logic_vector(31 downto 0); agent_re_in_3 : in std_logic; agent_we_in_3 : in std_logic; -- Interface: ip_mSlave_0 -- HIBI ip mirrored slave agent interface 0 (r4 wrapper) agent_av_out : out std_logic; agent_comm_out : out std_logic_vector(4 downto 0); agent_data_out : out std_logic_vector(31 downto 0); agent_empty_out : out std_logic; agent_full_out : out std_logic; agent_one_d_out : out std_logic; agent_one_p_out : out std_logic; -- Interface: ip_mSlave_1 -- HIBI ip mirrored slave agent interface 1 (r4 wrapper) agent_av_out_1 : out std_logic; agent_comm_out_1 : out std_logic_vector(4 downto 0); agent_data_out_1 : out std_logic_vector(31 downto 0); agent_empty_out_1 : out std_logic; agent_full_out_1 : out std_logic; agent_one_d_out_1 : out std_logic; agent_one_p_out_1 : out std_logic; -- Interface: ip_mSlave_2 -- HIBI ip mirrored slave agent interface 2 (r4 wrapper) agent_av_out_2 : out std_logic; agent_comm_out_2 : out std_logic_vector(4 downto 0); agent_data_out_2 : out std_logic_vector(31 downto 0); agent_empty_out_2 : out std_logic; agent_full_out_2 : out std_logic; agent_one_d_out_2 : out std_logic; agent_one_p_out_2 : out std_logic; -- Interface: ip_mSlave_3 -- HIBI ip mirrored slave agent interface_3 (r4 wrapper) agent_av_out_3 : out std_logic; agent_comm_out_3 : out std_logic_vector(4 downto 0); agent_data_out_3 : out std_logic_vector(31 downto 0); agent_empty_out_3 : out std_logic; agent_full_out_3 : out std_logic; agent_one_d_out_3 : out std_logic; agent_one_p_out_3 : out std_logic; -- Interface: rst_n -- Active low reset interface. rst_n : in std_logic ); end hibi_segment; architecture structural of hibi_segment is signal hibi_orbus_0_slave_0_to_hibi_wrapper_r4_0_bus_mSlaveAV : std_logic; signal hibi_wrapper_r4_1_bus_mSlave_to_hibi_orbus_0_slave_1AV : std_logic; signal hibi_wrapper_r4_2_bus_mSlave_to_hibi_orbus_0_slave_2AV : std_logic; signal hibi_wrapper_r4_3_bus_mSlave_to_hibi_orbus_0_slave_3AV : std_logic; signal hibi_orbus_0_master_to_hibi_wrapper_r4_0_bus_mMasterAV : std_logic; signal hibi_orbus_0_slave_0_to_hibi_wrapper_r4_0_bus_mSlaveCOMM : std_logic_vector(4 downto 0); signal hibi_wrapper_r4_1_bus_mSlave_to_hibi_orbus_0_slave_1COMM : std_logic_vector(4 downto 0); signal hibi_wrapper_r4_2_bus_mSlave_to_hibi_orbus_0_slave_2COMM : std_logic_vector(4 downto 0); signal hibi_wrapper_r4_3_bus_mSlave_to_hibi_orbus_0_slave_3COMM : std_logic_vector(4 downto 0); signal hibi_orbus_0_master_to_hibi_wrapper_r4_0_bus_mMasterCOMM : std_logic_vector(4 downto 0); signal hibi_orbus_0_slave_0_to_hibi_wrapper_r4_0_bus_mSlaveDATA : std_logic_vector(31 downto 0); signal hibi_wrapper_r4_1_bus_mSlave_to_hibi_orbus_0_slave_1DATA : std_logic_vector(31 downto 0); signal hibi_wrapper_r4_2_bus_mSlave_to_hibi_orbus_0_slave_2DATA : std_logic_vector(31 downto 0); signal hibi_wrapper_r4_3_bus_mSlave_to_hibi_orbus_0_slave_3DATA : std_logic_vector(31 downto 0); signal hibi_orbus_0_master_to_hibi_wrapper_r4_0_bus_mMasterDATA : std_logic_vector(31 downto 0); signal hibi_orbus_0_slave_0_to_hibi_wrapper_r4_0_bus_mSlaveFULL : std_logic; signal hibi_wrapper_r4_1_bus_mSlave_to_hibi_orbus_0_slave_1FULL : std_logic; signal hibi_wrapper_r4_2_bus_mSlave_to_hibi_orbus_0_slave_2FULL : std_logic; signal hibi_wrapper_r4_3_bus_mSlave_to_hibi_orbus_0_slave_3FULL : std_logic; signal hibi_orbus_0_master_to_hibi_wrapper_r4_0_bus_mMasterFULL : std_logic; signal hibi_orbus_0_slave_0_to_hibi_wrapper_r4_0_bus_mSlaveLOCK : std_logic; signal hibi_wrapper_r4_1_bus_mSlave_to_hibi_orbus_0_slave_1LOCK : std_logic; signal hibi_wrapper_r4_2_bus_mSlave_to_hibi_orbus_0_slave_2LOCK : std_logic; signal hibi_wrapper_r4_3_bus_mSlave_to_hibi_orbus_0_slave_3LOCK : std_logic; signal hibi_orbus_0_master_to_hibi_wrapper_r4_0_bus_mMasterLOCK : std_logic; component hibi_orbus_small generic ( comm_width_g : integer := 5; -- HIBI command width data_width_g : integer := 32 -- HIBI data width ); port ( -- Interface: master -- HIBI bus <---> wrapper master interface bus_av_out : out std_logic; bus_comm_out : out std_logic_vector(4 downto 0); bus_data_out : out std_logic_vector(31 downto 0); bus_full_out : out std_logic; bus_lock_out : out std_logic; -- Interface: slave_0 -- HIBI bus <---> wrapper slave interface bus_av_0_in : in std_logic; bus_comm_0_in : in std_logic_vector(4 downto 0); bus_data_0_in : in std_logic_vector(31 downto 0); bus_full_0_in : in std_logic; bus_lock_0_in : in std_logic; -- Interface: slave_1 -- HIBI bus <---> wrapper slave interface bus_av_1_in : in std_logic; bus_comm_1_in : in std_logic_vector(4 downto 0); bus_data_1_in : in std_logic_vector(31 downto 0); bus_full_1_in : in std_logic; bus_lock_1_in : in std_logic; -- Interface: slave_2 -- HIBI bus <---> wrapper slave interface bus_av_2_in : in std_logic; bus_comm_2_in : in std_logic_vector(4 downto 0); bus_data_2_in : in std_logic_vector(31 downto 0); bus_full_2_in : in std_logic; bus_lock_2_in : in std_logic; -- Interface: slave_3 -- HIBI bus <---> wrapper slave interface bus_av_3_in : in std_logic; bus_comm_3_in : in std_logic_vector(4 downto 0); bus_data_3_in : in std_logic_vector(31 downto 0); bus_full_3_in : in std_logic; bus_lock_3_in : in std_logic ); end component; -- HIBI bus wrapper, interface revision 4 component hibi_wrapper_r4 generic ( addr_g : integer := 46; -- addressing settings: unique for each wrapper addr_limit_g : integer := 0; -- Upper address boundary addr_width_g : integer := 32; -- HIBI address width arb_type_g : integer := 0; -- Arbitration type 0 round-robin, 1 priority, 2 combined, 3 DAA. Ensure that all wrappers in a segment agree on arb_type cfg_re_g : integer := 0; -- enable reading config cfg_we_g : integer := 0; -- enable writing config comm_width_g : integer := 5; -- HIBI communication width (HIBI v.2=3, v.3 = 5 bits) counter_width_g : integer := 7; -- greater than or equal (n_agents, max_send...) data_width_g : integer := 32; -- HIBI data width (less than or equal) debug_width_g : integer := 2; -- For special monitors fifo_sel_g : integer := 0; -- fifo_sel: 0 synch multiclk, 1 basic GALS, 2 Gray FIFO (depth=2^n!), 3 mixed clock pausible ( use 0 for synchronous systems) id_g : integer := 5; -- used instead of addr in recfg id_max_g : integer := 0; -- Only for bridges+cfg, zero for others! id_min_g : integer := 0; -- Only for bridges+cfg, zero for others! id_width_g : integer := 4; -- gte(log2(id_g)) inv_addr_en_g : integer := 0; -- Only for bridges keep_slot_g : integer := 0; -- for TDMA max_send_g : integer := 50; -- in words. Max_send can be wrapper-specific. n_agents_g : integer := 4; -- Number of agents within one segment. Ensure that all wrappers in a segment agree on n_agents n_cfg_pages_g : integer := 1; -- Having multiple pages allows fast reconfig. Note that cfg memory initialization is done with separate package if you have many time slots or configuration pages n_extra_params_g : integer := 0; -- app-specific registers n_time_slots_g : integer := 0; -- TDMA is enabled by setting n_time_slots > 0 prior_g : integer := 2; -- lte n_agents rel_agent_freq_g : integer := 1; -- Synch_multiclk FIFOs must know the ratio of frequencies rel_bus_freq_g : integer := 1; -- Synch_multiclk FIFOs must know the ratio of frequencies rx_fifo_depth_g : integer := 5; -- All FIFO depths are given in words. Allowed values 0,2,3... words. rx_msg_fifo_depth_g : integer := 5; -- All FIFO depths are given in words. Allowed values 0,2,3... words.Prefix msg refers to hi-prior data separate_addr_g : integer := 0; -- Transmits addr in parallel with data tx_fifo_depth_g : integer := 5; -- All FIFO depths are given in words. Allowed values 0,2,3... words. tx_msg_fifo_depth_g : integer := 5 -- All FIFO depths are given in words. Allowed values 0,2,3... words.Prefix msg refers to hi-prior data ); port ( -- Interface: bus_mMaster -- HIBI bus interface bus_av_in : in std_logic; bus_comm_in : in std_logic_vector(4 downto 0); bus_data_in : in std_logic_vector(31 downto 0); bus_full_in : in std_logic; bus_lock_in : in std_logic; -- Interface: bus_mSlave bus_av_out : out std_logic; bus_comm_out : out std_logic_vector(4 downto 0); bus_data_out : out std_logic_vector(31 downto 0); bus_full_out : out std_logic; bus_lock_out : out std_logic; -- Interface: clocks -- HIBI clock input agent_clk : in std_logic; agent_sync_clk : in std_logic; bus_clk : in std_logic; bus_sync_clk : in std_logic; -- Interface: ip_mMaster -- HIBI IP mirrored master interface revision 4. agent_av_in : in std_logic; agent_comm_in : in std_logic_vector(4 downto 0); agent_data_in : in std_logic_vector(31 downto 0); agent_re_in : in std_logic; agent_we_in : in std_logic; -- Interface: ip_mSlave -- HIBI IP mirrored slave interface revision 4. agent_av_out : out std_logic; agent_comm_out : out std_logic_vector(4 downto 0); agent_data_out : out std_logic_vector(31 downto 0); agent_empty_out : out std_logic; agent_full_out : out std_logic; agent_one_d_out : out std_logic; agent_one_p_out : out std_logic; -- These ports are not in any interface -- debug_out : out std_logic_vector(0 downto 0); -- Interface: rst_n rst_n : in std_logic ); end component; -- You can write vhdl code after this tag and it is saved through the generator. -- ##KACTUS2_BLACK_BOX_DECLARATIONS_BEGIN## -- ##KACTUS2_BLACK_BOX_DECLARATIONS_END## -- Stop writing your code after this tag. begin -- You can write vhdl code after this tag and it is saved through the generator. -- ##KACTUS2_BLACK_BOX_ASSIGNMENTS_BEGIN## -- ##KACTUS2_BLACK_BOX_ASSIGNMENTS_END## -- Stop writing your code after this tag. hibi_orbus_0 : hibi_orbus_small port map ( bus_av_0_in => hibi_orbus_0_slave_0_to_hibi_wrapper_r4_0_bus_mSlaveAV, bus_av_1_in => hibi_wrapper_r4_1_bus_mSlave_to_hibi_orbus_0_slave_1AV, bus_av_2_in => hibi_wrapper_r4_2_bus_mSlave_to_hibi_orbus_0_slave_2AV, bus_av_3_in => hibi_wrapper_r4_3_bus_mSlave_to_hibi_orbus_0_slave_3AV, bus_av_out => hibi_orbus_0_master_to_hibi_wrapper_r4_0_bus_mMasterAV, bus_comm_0_in(4 downto 0) => hibi_orbus_0_slave_0_to_hibi_wrapper_r4_0_bus_mSlaveCOMM(4 downto 0), bus_comm_1_in(4 downto 0) => hibi_wrapper_r4_1_bus_mSlave_to_hibi_orbus_0_slave_1COMM(4 downto 0), bus_comm_2_in(4 downto 0) => hibi_wrapper_r4_2_bus_mSlave_to_hibi_orbus_0_slave_2COMM(4 downto 0), bus_comm_3_in(4 downto 0) => hibi_wrapper_r4_3_bus_mSlave_to_hibi_orbus_0_slave_3COMM(4 downto 0), bus_comm_out(4 downto 0) => hibi_orbus_0_master_to_hibi_wrapper_r4_0_bus_mMasterCOMM(4 downto 0), bus_data_0_in(31 downto 0) => hibi_orbus_0_slave_0_to_hibi_wrapper_r4_0_bus_mSlaveDATA(31 downto 0), bus_data_1_in(31 downto 0) => hibi_wrapper_r4_1_bus_mSlave_to_hibi_orbus_0_slave_1DATA(31 downto 0), bus_data_2_in(31 downto 0) => hibi_wrapper_r4_2_bus_mSlave_to_hibi_orbus_0_slave_2DATA(31 downto 0), bus_data_3_in(31 downto 0) => hibi_wrapper_r4_3_bus_mSlave_to_hibi_orbus_0_slave_3DATA(31 downto 0), bus_data_out(31 downto 0) => hibi_orbus_0_master_to_hibi_wrapper_r4_0_bus_mMasterDATA(31 downto 0), bus_full_0_in => hibi_orbus_0_slave_0_to_hibi_wrapper_r4_0_bus_mSlaveFULL, bus_full_1_in => hibi_wrapper_r4_1_bus_mSlave_to_hibi_orbus_0_slave_1FULL, bus_full_2_in => hibi_wrapper_r4_2_bus_mSlave_to_hibi_orbus_0_slave_2FULL, bus_full_3_in => hibi_wrapper_r4_3_bus_mSlave_to_hibi_orbus_0_slave_3FULL, bus_full_out => hibi_orbus_0_master_to_hibi_wrapper_r4_0_bus_mMasterFULL, bus_lock_0_in => hibi_orbus_0_slave_0_to_hibi_wrapper_r4_0_bus_mSlaveLOCK, bus_lock_1_in => hibi_wrapper_r4_1_bus_mSlave_to_hibi_orbus_0_slave_1LOCK, bus_lock_2_in => hibi_wrapper_r4_2_bus_mSlave_to_hibi_orbus_0_slave_2LOCK, bus_lock_3_in => hibi_wrapper_r4_3_bus_mSlave_to_hibi_orbus_0_slave_3LOCK, bus_lock_out => hibi_orbus_0_master_to_hibi_wrapper_r4_0_bus_mMasterLOCK ); hibi_wrapper_r4_0 : hibi_wrapper_r4 generic map ( addr_g => ip_mSlave_0_addr_start, addr_limit_g => ip_mSlave_0_addr_end, prior_g => 1 ) port map ( agent_av_in => agent_av_in, agent_av_out => agent_av_out, agent_clk => agent_clk, agent_comm_in(4 downto 0) => agent_comm_in(4 downto 0), agent_comm_out(4 downto 0) => agent_comm_out(4 downto 0), agent_data_in(31 downto 0) => agent_data_in(31 downto 0), agent_data_out(31 downto 0) => agent_data_out(31 downto 0), agent_empty_out => agent_empty_out, agent_full_out => agent_full_out, agent_one_d_out => agent_one_d_out, agent_one_p_out => agent_one_p_out, agent_re_in => agent_re_in, agent_sync_clk => agent_sync_clk, agent_we_in => agent_we_in, bus_av_in => hibi_orbus_0_master_to_hibi_wrapper_r4_0_bus_mMasterAV, bus_av_out => hibi_orbus_0_slave_0_to_hibi_wrapper_r4_0_bus_mSlaveAV, bus_clk => bus_clk, bus_comm_in(4 downto 0) => hibi_orbus_0_master_to_hibi_wrapper_r4_0_bus_mMasterCOMM(4 downto 0), bus_comm_out(4 downto 0) => hibi_orbus_0_slave_0_to_hibi_wrapper_r4_0_bus_mSlaveCOMM(4 downto 0), bus_data_in(31 downto 0) => hibi_orbus_0_master_to_hibi_wrapper_r4_0_bus_mMasterDATA(31 downto 0), bus_data_out(31 downto 0) => hibi_orbus_0_slave_0_to_hibi_wrapper_r4_0_bus_mSlaveDATA(31 downto 0), bus_full_in => hibi_orbus_0_master_to_hibi_wrapper_r4_0_bus_mMasterFULL, bus_full_out => hibi_orbus_0_slave_0_to_hibi_wrapper_r4_0_bus_mSlaveFULL, bus_lock_in => hibi_orbus_0_master_to_hibi_wrapper_r4_0_bus_mMasterLOCK, bus_lock_out => hibi_orbus_0_slave_0_to_hibi_wrapper_r4_0_bus_mSlaveLOCK, bus_sync_clk => bus_sync_clk, rst_n => rst_n ); hibi_wrapper_r4_1 : hibi_wrapper_r4 generic map ( addr_g => ip_mSlave_1_addr_start, addr_limit_g => ip_mSlave_1_addr_end, prior_g => 2 ) port map ( agent_av_in => agent_av_in_1, agent_av_out => agent_av_out_1, agent_clk => agent_clk_1, agent_comm_in(4 downto 0) => agent_comm_in_1(4 downto 0), agent_comm_out(4 downto 0) => agent_comm_out_1(4 downto 0), agent_data_in(31 downto 0) => agent_data_in_1(31 downto 0), agent_data_out(31 downto 0) => agent_data_out_1(31 downto 0), agent_empty_out => agent_empty_out_1, agent_full_out => agent_full_out_1, agent_one_d_out => agent_one_d_out_1, agent_one_p_out => agent_one_p_out_1, agent_re_in => agent_re_in_1, agent_sync_clk => agent_sync_clk_1, agent_we_in => agent_we_in_1, bus_av_in => hibi_orbus_0_master_to_hibi_wrapper_r4_0_bus_mMasterAV, bus_av_out => hibi_wrapper_r4_1_bus_mSlave_to_hibi_orbus_0_slave_1AV, bus_clk => bus_clk_1, bus_comm_in(4 downto 0) => hibi_orbus_0_master_to_hibi_wrapper_r4_0_bus_mMasterCOMM(4 downto 0), bus_comm_out(4 downto 0) => hibi_wrapper_r4_1_bus_mSlave_to_hibi_orbus_0_slave_1COMM(4 downto 0), bus_data_in(31 downto 0) => hibi_orbus_0_master_to_hibi_wrapper_r4_0_bus_mMasterDATA(31 downto 0), bus_data_out(31 downto 0) => hibi_wrapper_r4_1_bus_mSlave_to_hibi_orbus_0_slave_1DATA(31 downto 0), bus_full_in => hibi_orbus_0_master_to_hibi_wrapper_r4_0_bus_mMasterFULL, bus_full_out => hibi_wrapper_r4_1_bus_mSlave_to_hibi_orbus_0_slave_1FULL, bus_lock_in => hibi_orbus_0_master_to_hibi_wrapper_r4_0_bus_mMasterLOCK, bus_lock_out => hibi_wrapper_r4_1_bus_mSlave_to_hibi_orbus_0_slave_1LOCK, bus_sync_clk => bus_sync_clk_1, rst_n => rst_n ); hibi_wrapper_r4_2 : hibi_wrapper_r4 generic map ( addr_g => ip_mSlave_2_addr_start, addr_limit_g => ip_mSlave_2_addr_end, prior_g => 3 ) port map ( agent_av_in => agent_av_in_2, agent_av_out => agent_av_out_2, agent_clk => agent_clk_2, agent_comm_in(4 downto 0) => agent_comm_in_2(4 downto 0), agent_comm_out(4 downto 0) => agent_comm_out_2(4 downto 0), agent_data_in(31 downto 0) => agent_data_in_2(31 downto 0), agent_data_out(31 downto 0) => agent_data_out_2(31 downto 0), agent_empty_out => agent_empty_out_2, agent_full_out => agent_full_out_2, agent_one_d_out => agent_one_d_out_2, agent_one_p_out => agent_one_p_out_2, agent_re_in => agent_re_in_2, agent_sync_clk => agent_sync_clk_2, agent_we_in => agent_we_in_2, bus_av_in => hibi_orbus_0_master_to_hibi_wrapper_r4_0_bus_mMasterAV, bus_av_out => hibi_wrapper_r4_2_bus_mSlave_to_hibi_orbus_0_slave_2AV, bus_clk => bus_clk_2, bus_comm_in(4 downto 0) => hibi_orbus_0_master_to_hibi_wrapper_r4_0_bus_mMasterCOMM(4 downto 0), bus_comm_out(4 downto 0) => hibi_wrapper_r4_2_bus_mSlave_to_hibi_orbus_0_slave_2COMM(4 downto 0), bus_data_in(31 downto 0) => hibi_orbus_0_master_to_hibi_wrapper_r4_0_bus_mMasterDATA(31 downto 0), bus_data_out(31 downto 0) => hibi_wrapper_r4_2_bus_mSlave_to_hibi_orbus_0_slave_2DATA(31 downto 0), bus_full_in => hibi_orbus_0_master_to_hibi_wrapper_r4_0_bus_mMasterFULL, bus_full_out => hibi_wrapper_r4_2_bus_mSlave_to_hibi_orbus_0_slave_2FULL, bus_lock_in => hibi_orbus_0_master_to_hibi_wrapper_r4_0_bus_mMasterLOCK, bus_lock_out => hibi_wrapper_r4_2_bus_mSlave_to_hibi_orbus_0_slave_2LOCK, bus_sync_clk => bus_sync_clk_2, rst_n => rst_n ); hibi_wrapper_r4_3 : hibi_wrapper_r4 generic map ( addr_g => ip_mSlave_3_addr_start, addr_limit_g => ip_mSlave_3_addr_end, prior_g => 4 ) port map ( agent_av_in => agent_av_in_3, agent_av_out => agent_av_out_3, agent_clk => agent_clk_3, agent_comm_in(4 downto 0) => agent_comm_in_3(4 downto 0), agent_comm_out(4 downto 0) => agent_comm_out_3(4 downto 0), agent_data_in(31 downto 0) => agent_data_in_3(31 downto 0), agent_data_out(31 downto 0) => agent_data_out_3(31 downto 0), agent_empty_out => agent_empty_out_3, agent_full_out => agent_full_out_3, agent_one_d_out => agent_one_d_out_3, agent_one_p_out => agent_one_p_out_3, agent_re_in => agent_re_in_3, agent_sync_clk => agent_sync_clk_3, agent_we_in => agent_we_in_3, bus_av_in => hibi_orbus_0_master_to_hibi_wrapper_r4_0_bus_mMasterAV, bus_av_out => hibi_wrapper_r4_3_bus_mSlave_to_hibi_orbus_0_slave_3AV, bus_clk => bus_clk_3, bus_comm_in(4 downto 0) => hibi_orbus_0_master_to_hibi_wrapper_r4_0_bus_mMasterCOMM(4 downto 0), bus_comm_out(4 downto 0) => hibi_wrapper_r4_3_bus_mSlave_to_hibi_orbus_0_slave_3COMM(4 downto 0), bus_data_in(31 downto 0) => hibi_orbus_0_master_to_hibi_wrapper_r4_0_bus_mMasterDATA(31 downto 0), bus_data_out(31 downto 0) => hibi_wrapper_r4_3_bus_mSlave_to_hibi_orbus_0_slave_3DATA(31 downto 0), bus_full_in => hibi_orbus_0_master_to_hibi_wrapper_r4_0_bus_mMasterFULL, bus_full_out => hibi_wrapper_r4_3_bus_mSlave_to_hibi_orbus_0_slave_3FULL, bus_lock_in => hibi_orbus_0_master_to_hibi_wrapper_r4_0_bus_mMasterLOCK, bus_lock_out => hibi_wrapper_r4_3_bus_mSlave_to_hibi_orbus_0_slave_3LOCK, bus_sync_clk => bus_sync_clk_3, rst_n => rst_n ); end structural;