📄 std_2c35.vhd
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--megafunction wizard: %Altera SOPC Builder%--GENERATION: STANDARD--VERSION: WM1.0--Legal Notice: (C)2006 Altera Corporation. All rights reserved. Your--use of Altera Corporation's design tools, logic functions and other--software and tools, and its AMPP partner logic functions, and any--output files any of the foregoing (including device programming or--simulation files), and any associated documentation or information are--expressly subject to the terms and conditions of the Altera Program--License Subscription Agreement or other applicable license agreement,--including, without limitation, that your use is for the sole purpose--of programming logic devices manufactured by Altera and sold by Altera--or its authorized distributors. Please refer to the applicable--agreement for further details.-- turn off superfluous VHDL processor warnings -- altera message_level Level1 -- altera message_off 10034 10035 10036 10037 10230 10240 10030 library altera;use altera.altera_europa_support_lib.all;library ieee;use ieee.std_logic_1164.all;use ieee.std_logic_arith.all;use ieee.std_logic_unsigned.all;entity button_pio_s1_arbitrator is port ( -- inputs: signal button_pio_s1_irq : IN STD_LOGIC; signal button_pio_s1_readdata : IN STD_LOGIC_VECTOR (3 DOWNTO 0); signal clk : IN STD_LOGIC; signal cpu_data_master_address_to_slave : IN STD_LOGIC_VECTOR (26 DOWNTO 0); signal cpu_data_master_read : IN STD_LOGIC; signal cpu_data_master_waitrequest : IN STD_LOGIC; signal cpu_data_master_write : IN STD_LOGIC; signal cpu_data_master_writedata : IN STD_LOGIC_VECTOR (31 DOWNTO 0); signal reset_n : IN STD_LOGIC; -- outputs: signal button_pio_s1_address : OUT STD_LOGIC_VECTOR (1 DOWNTO 0); signal button_pio_s1_chipselect : OUT STD_LOGIC; signal button_pio_s1_irq_from_sa : OUT STD_LOGIC; signal button_pio_s1_readdata_from_sa : OUT STD_LOGIC_VECTOR (3 DOWNTO 0); signal button_pio_s1_reset_n : OUT STD_LOGIC; signal button_pio_s1_write_n : OUT STD_LOGIC; signal button_pio_s1_writedata : OUT STD_LOGIC_VECTOR (3 DOWNTO 0); signal cpu_data_master_granted_button_pio_s1 : OUT STD_LOGIC; signal cpu_data_master_qualified_request_button_pio_s1 : OUT STD_LOGIC; signal cpu_data_master_read_data_valid_button_pio_s1 : OUT STD_LOGIC; signal cpu_data_master_requests_button_pio_s1 : OUT STD_LOGIC; signal d1_button_pio_s1_end_xfer : OUT STD_LOGIC );attribute auto_dissolve : boolean;attribute auto_dissolve of button_pio_s1_arbitrator : entity is FALSE;end entity button_pio_s1_arbitrator;architecture europa of button_pio_s1_arbitrator is signal button_pio_s1_allgrants : STD_LOGIC; signal button_pio_s1_allow_new_arb_cycle : STD_LOGIC; signal button_pio_s1_any_bursting_master_saved_grant : STD_LOGIC; signal button_pio_s1_any_continuerequest : STD_LOGIC; signal button_pio_s1_arb_counter_enable : STD_LOGIC; signal button_pio_s1_arb_share_counter : STD_LOGIC_VECTOR (2 DOWNTO 0); signal button_pio_s1_arb_share_counter_next_value : STD_LOGIC_VECTOR (2 DOWNTO 0); signal button_pio_s1_arb_share_set_values : STD_LOGIC_VECTOR (2 DOWNTO 0); signal button_pio_s1_beginbursttransfer_internal : STD_LOGIC; signal button_pio_s1_begins_xfer : STD_LOGIC; signal button_pio_s1_end_xfer : STD_LOGIC; signal button_pio_s1_firsttransfer : STD_LOGIC; signal button_pio_s1_grant_vector : STD_LOGIC; signal button_pio_s1_in_a_read_cycle : STD_LOGIC; signal button_pio_s1_in_a_write_cycle : STD_LOGIC; signal button_pio_s1_master_qreq_vector : STD_LOGIC; signal button_pio_s1_non_bursting_master_requests : STD_LOGIC; signal button_pio_s1_slavearbiterlockenable : STD_LOGIC; signal button_pio_s1_slavearbiterlockenable2 : STD_LOGIC; signal button_pio_s1_waits_for_read : STD_LOGIC; signal button_pio_s1_waits_for_write : STD_LOGIC; signal cpu_data_master_arbiterlock : STD_LOGIC; signal cpu_data_master_arbiterlock2 : STD_LOGIC; signal cpu_data_master_continuerequest : STD_LOGIC; signal cpu_data_master_saved_grant_button_pio_s1 : STD_LOGIC; signal d1_reasons_to_wait : STD_LOGIC; signal end_xfer_arb_share_counter_term_button_pio_s1 : STD_LOGIC; signal in_a_read_cycle : STD_LOGIC; signal in_a_write_cycle : STD_LOGIC; signal internal_cpu_data_master_granted_button_pio_s1 : STD_LOGIC; signal internal_cpu_data_master_qualified_request_button_pio_s1 : STD_LOGIC; signal internal_cpu_data_master_requests_button_pio_s1 : STD_LOGIC; signal shifted_address_to_button_pio_s1_from_cpu_data_master : STD_LOGIC_VECTOR (26 DOWNTO 0); signal wait_for_button_pio_s1_counter : STD_LOGIC;begin process (clk, reset_n) begin if reset_n = '0' then d1_reasons_to_wait <= std_logic'('0'); elsif clk'event and clk = '1' then if (std_logic_vector'("00000000000000000000000000000001")) /= std_logic_vector'("00000000000000000000000000000000") then d1_reasons_to_wait <= NOT button_pio_s1_end_xfer; end if; end if; end process; button_pio_s1_begins_xfer <= NOT d1_reasons_to_wait AND (internal_cpu_data_master_qualified_request_button_pio_s1); --assign button_pio_s1_readdata_from_sa = button_pio_s1_readdata so that symbol knows where to group signals which may go to master only, which is an e_assign button_pio_s1_readdata_from_sa <= button_pio_s1_readdata; internal_cpu_data_master_requests_button_pio_s1 <= to_std_logic(((Std_Logic_Vector'(cpu_data_master_address_to_slave(26 DOWNTO 4) & std_logic_vector'("0000")) = std_logic_vector'("010001000100000100001100000")))) AND ((cpu_data_master_read OR cpu_data_master_write)); --button_pio_s1_arb_share_counter set values, which is an e_mux button_pio_s1_arb_share_set_values <= std_logic_vector'("001"); --button_pio_s1_non_bursting_master_requests mux, which is an e_mux button_pio_s1_non_bursting_master_requests <= internal_cpu_data_master_requests_button_pio_s1; --button_pio_s1_any_bursting_master_saved_grant mux, which is an e_mux button_pio_s1_any_bursting_master_saved_grant <= std_logic'('0'); --button_pio_s1_arb_share_counter_next_value assignment, which is an e_assign button_pio_s1_arb_share_counter_next_value <= A_EXT (A_WE_StdLogicVector((std_logic'(button_pio_s1_firsttransfer) = '1'), (((std_logic_vector'("000000000000000000000000000000") & (button_pio_s1_arb_share_set_values)) - std_logic_vector'("000000000000000000000000000000001"))), A_WE_StdLogicVector((std_logic'(or_reduce(button_pio_s1_arb_share_counter)) = '1'), (((std_logic_vector'("000000000000000000000000000000") & (button_pio_s1_arb_share_counter)) - std_logic_vector'("000000000000000000000000000000001"))), std_logic_vector'("000000000000000000000000000000000"))), 3); --button_pio_s1_allgrants all slave grants, which is an e_mux button_pio_s1_allgrants <= button_pio_s1_grant_vector; --button_pio_s1_end_xfer assignment, which is an e_assign button_pio_s1_end_xfer <= NOT ((button_pio_s1_waits_for_read OR button_pio_s1_waits_for_write)); --end_xfer_arb_share_counter_term_button_pio_s1 arb share counter enable term, which is an e_assign end_xfer_arb_share_counter_term_button_pio_s1 <= button_pio_s1_end_xfer AND (((NOT button_pio_s1_any_bursting_master_saved_grant OR in_a_read_cycle) OR in_a_write_cycle)); --button_pio_s1_arb_share_counter arbitration counter enable, which is an e_assign button_pio_s1_arb_counter_enable <= ((end_xfer_arb_share_counter_term_button_pio_s1 AND button_pio_s1_allgrants)) OR ((end_xfer_arb_share_counter_term_button_pio_s1 AND NOT button_pio_s1_non_bursting_master_requests)); --button_pio_s1_arb_share_counter counter, which is an e_register process (clk, reset_n) begin if reset_n = '0' then button_pio_s1_arb_share_counter <= std_logic_vector'("000"); elsif clk'event and clk = '1' then if std_logic'(button_pio_s1_arb_counter_enable) = '1' then button_pio_s1_arb_share_counter <= button_pio_s1_arb_share_counter_next_value; end if; end if; end process; --button_pio_s1_slavearbiterlockenable slave enables arbiterlock, which is an e_register process (clk, reset_n) begin if reset_n = '0' then button_pio_s1_slavearbiterlockenable <= std_logic'('0'); elsif clk'event and clk = '1' then if std_logic'((((button_pio_s1_master_qreq_vector AND end_xfer_arb_share_counter_term_button_pio_s1)) OR ((end_xfer_arb_share_counter_term_button_pio_s1 AND NOT button_pio_s1_non_bursting_master_requests)))) = '1' then button_pio_s1_slavearbiterlockenable <= or_reduce(button_pio_s1_arb_share_counter_next_value); end if; end if; end process; --cpu/data_master button_pio/s1 arbiterlock, which is an e_assign cpu_data_master_arbiterlock <= button_pio_s1_slavearbiterlockenable AND cpu_data_master_continuerequest; --button_pio_s1_slavearbiterlockenable2 slave enables arbiterlock2, which is an e_assign button_pio_s1_slavearbiterlockenable2 <= or_reduce(button_pio_s1_arb_share_counter_next_value); --cpu/data_master button_pio/s1 arbiterlock2, which is an e_assign cpu_data_master_arbiterlock2 <= button_pio_s1_slavearbiterlockenable2 AND cpu_data_master_continuerequest; --button_pio_s1_any_continuerequest at least one master continues requesting, which is an e_assign button_pio_s1_any_continuerequest <= std_logic'('1'); --cpu_data_master_continuerequest continued request, which is an e_assign cpu_data_master_continuerequest <= std_logic'('1'); internal_cpu_data_master_qualified_request_button_pio_s1 <= internal_cpu_data_master_requests_button_pio_s1 AND NOT (((NOT cpu_data_master_waitrequest) AND cpu_data_master_write)); --button_pio_s1_writedata mux, which is an e_mux button_pio_s1_writedata <= cpu_data_master_writedata (3 DOWNTO 0); --master is always granted when requested internal_cpu_data_master_granted_button_pio_s1 <= internal_cpu_data_master_qualified_request_button_pio_s1; --cpu/data_master saved-grant button_pio/s1, which is an e_assign cpu_data_master_saved_grant_button_pio_s1 <= internal_cpu_data_master_requests_button_pio_s1; --allow new arb cycle for button_pio/s1, which is an e_assign button_pio_s1_allow_new_arb_cycle <= std_logic'('1'); --placeholder chosen master button_pio_s1_grant_vector <= std_logic'('1'); --placeholder vector of master qualified-requests button_pio_s1_master_qreq_vector <= std_logic'('1'); --button_pio_s1_reset_n assignment, which is an e_assign button_pio_s1_reset_n <= reset_n; button_pio_s1_chipselect <= internal_cpu_data_master_granted_button_pio_s1; --button_pio_s1_firsttransfer first transaction, which is an e_assign button_pio_s1_firsttransfer <= NOT ((button_pio_s1_slavearbiterlockenable AND button_pio_s1_any_continuerequest)); --button_pio_s1_beginbursttransfer_internal begin burst transfer, which is an e_assign button_pio_s1_beginbursttransfer_internal <= button_pio_s1_begins_xfer; --~button_pio_s1_write_n assignment, which is an e_mux button_pio_s1_write_n <= NOT ((internal_cpu_data_master_granted_button_pio_s1 AND cpu_data_master_write)); shifted_address_to_button_pio_s1_from_cpu_data_master <= cpu_data_master_address_to_slave; --button_pio_s1_address mux, which is an e_mux button_pio_s1_address <= A_EXT (A_SRL(shifted_address_to_button_pio_s1_from_cpu_data_master,std_logic_vector'("00000000000000000000000000000010")), 2); --d1_button_pio_s1_end_xfer register, which is an e_register process (clk, reset_n) begin if reset_n = '0' then d1_button_pio_s1_end_xfer <= std_logic'('1'); elsif clk'event and clk = '1' then⌨️ 快捷键说明
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