【Altera SoC】基于SOPC的单通道TDC设计（2）

xiaomai516 · 发表于 2019-11-20 20:39

【Altera SoC】基于SOPC的单通道TDC设计（2） [复制链接]

接上一篇帖子：https://bbs.eeworld.com.cn/thread-465441-1-1.html

1.4 Nios II顶层源程序

`timescale 1 ps / 1 ps

module audio_nios (

input wire clk_clk, // clk.clk

input wire [31:0] din32_external_connection_export, // din32_external_connection.export

input wire [3:0] key_external_connection_export, // key_external_connection.export

output wire [9:0] pio_0_external_connection_export, // pio_0_external_connection.export

output wire pll_locked_export, // pll_locked.export

output wire pll_outclk3_clk, // pll_outclk3.clk

output wire pll_sdam_clk, // pll_sdam.clk

input wire rd_empt_external_connection_export, // rd_empt_external_connection.export

output wire rd_rqt_external_connection_export, // rd_rqt_external_connection.export

input wire reset_reset_n, // reset.reset_n

output wire [12:0] sdram_wire_addr, // sdram_wire.addr

output wire [1:0] sdram_wire_ba, // .ba

output wire sdram_wire_cas_n, // .cas_n

output wire sdram_wire_cke, // .cke

output wire sdram_wire_cs_n, // .cs_n

inout wire [15:0] sdram_wire_dq, // .dq

output wire [1:0] sdram_wire_dqm, // .dqm

output wire sdram_wire_ras_n, // .ras_n

output wire sdram_wire_we_n, // .we_n

output wire [47:0] seg7_conduit_end_export, // seg7_conduit_end.export

input wire [9:0] sw_external_connection_export, // sw_external_connection.export

input wire wr_full_external_connection_export // wr_full_external_connection.export

);

wire pll_outclk0_clk; // pll:outclk_0 -> [cpu:clk, cpu_peripheral_bridge:s0_clk, irq_mapper:clk, irq_synchronizer:sender_clk, irq_synchronizer_001:sender_clk, irq_synchronizer_002:sender_clk, jtag_uart:clk, mm_interconnect_0:pll_outclk0_clk, onchip_memory2:clk, rst_controller:clk, rst_controller_002:clk, sdram:clk, sysid_qsys:clock, timer:clk]

wire pll_outclk2_clk; // pll:outclk_2 -> [cpu_peripheral_bridge:m0_clk, din32:clk, irq_synchronizer:receiver_clk, irq_synchronizer_001:receiver_clk, irq_synchronizer_002:receiver_clk, key:clk, mm_interconnect_1:pll_outclk2_clk, pio_led:clk, rd_empt:clk, rd_rqt:clk, rst_controller_001:clk, seg7:s_clk, sw:clk, wr_full:clk]

wire [31:0] cpu_data_master_readdata; // mm_interconnect_0:cpu_data_master_readdata -> cpu:d_readdata

wire cpu_data_master_waitrequest; // mm_interconnect_0:cpu_data_master_waitrequest -> cpu:d_waitrequest

wire cpu_data_master_debugaccess; // cpu:debug_mem_slave_debugaccess_to_roms -> mm_interconnect_0:cpu_data_master_debugaccess

wire [26:0] cpu_data_master_address; // cpu:d_address -> mm_interconnect_0:cpu_data_master_address

wire [3:0] cpu_data_master_byteenable; // cpu:d_byteenable -> mm_interconnect_0:cpu_data_master_byteenable

wire cpu_data_master_read; // cpu:d_read -> mm_interconnect_0:cpu_data_master_read

wire cpu_data_master_readdatavalid; // mm_interconnect_0:cpu_data_master_readdatavalid -> cpu:d_readdatavalid

wire cpu_data_master_write; // cpu:d_write -> mm_interconnect_0:cpu_data_master_write

wire [31:0] cpu_data_master_writedata; // cpu:d_writedata -> mm_interconnect_0:cpu_data_master_writedata

wire [31:0] cpu_instruction_master_readdata; // mm_interconnect_0:cpu_instruction_master_readdata -> cpu:i_readdata

wire cpu_instruction_master_waitrequest; // mm_interconnect_0:cpu_instruction_master_waitrequest -> cpu:i_waitrequest

wire [26:0] cpu_instruction_master_address; // cpu:i_address -> mm_interconnect_0:cpu_instruction_master_address

wire cpu_instruction_master_read; // cpu:i_read -> mm_interconnect_0:cpu_instruction_master_read

wire cpu_instruction_master_readdatavalid; // mm_interconnect_0:cpu_instruction_master_readdatavalid -> cpu:i_readdatavalid

wire mm_interconnect_0_jtag_uart_avalon_jtag_slave_chipselect; // mm_interconnect_0:jtag_uart_avalon_jtag_slave_chipselect -> jtag_uart:av_chipselect

wire [31:0] mm_interconnect_0_jtag_uart_avalon_jtag_slave_readdata; // jtag_uart:av_readdata -> mm_interconnect_0:jtag_uart_avalon_jtag_slave_readdata

wire mm_interconnect_0_jtag_uart_avalon_jtag_slave_waitrequest; // jtag_uart:av_waitrequest -> mm_interconnect_0:jtag_uart_avalon_jtag_slave_waitrequest

wire [0:0] mm_interconnect_0_jtag_uart_avalon_jtag_slave_address; // mm_interconnect_0:jtag_uart_avalon_jtag_slave_address -> jtag_uart:av_address

wire mm_interconnect_0_jtag_uart_avalon_jtag_slave_read; // mm_interconnect_0:jtag_uart_avalon_jtag_slave_read -> jtag_uart:av_read_n

wire mm_interconnect_0_jtag_uart_avalon_jtag_slave_write; // mm_interconnect_0:jtag_uart_avalon_jtag_slave_write -> jtag_uart:av_write_n

wire [31:0] mm_interconnect_0_jtag_uart_avalon_jtag_slave_writedata; // mm_interconnect_0:jtag_uart_avalon_jtag_slave_writedata -> jtag_uart:av_writedata

wire [31:0] mm_interconnect_0_sysid_qsys_control_slave_readdata; // sysid_qsys:readdata -> mm_interconnect_0:sysid_qsys_control_slave_readdata

wire [0:0] mm_interconnect_0_sysid_qsys_control_slave_address; // mm_interconnect_0:sysid_qsys_control_slave_address -> sysid_qsys:address

wire [31:0] mm_interconnect_0_cpu_debug_mem_slave_readdata; // cpu:debug_mem_slave_readdata -> mm_interconnect_0:cpu_debug_mem_slave_readdata

wire mm_interconnect_0_cpu_debug_mem_slave_waitrequest; // cpu:debug_mem_slave_waitrequest -> mm_interconnect_0:cpu_debug_mem_slave_waitrequest

wire mm_interconnect_0_cpu_debug_mem_slave_debugaccess; // mm_interconnect_0:cpu_debug_mem_slave_debugaccess -> cpu:debug_mem_slave_debugaccess

wire [8:0] mm_interconnect_0_cpu_debug_mem_slave_address; // mm_interconnect_0:cpu_debug_mem_slave_address -> cpu:debug_mem_slave_address

wire mm_interconnect_0_cpu_debug_mem_slave_read; // mm_interconnect_0:cpu_debug_mem_slave_read -> cpu:debug_mem_slave_read

wire [3:0] mm_interconnect_0_cpu_debug_mem_slave_byteenable; // mm_interconnect_0:cpu_debug_mem_slave_byteenable -> cpu:debug_mem_slave_byteenable

wire mm_interconnect_0_cpu_debug_mem_slave_write; // mm_interconnect_0:cpu_debug_mem_slave_write -> cpu:debug_mem_slave_write

wire [31:0] mm_interconnect_0_cpu_debug_mem_slave_writedata; // mm_interconnect_0:cpu_debug_mem_slave_writedata -> cpu:debug_mem_slave_writedata

wire [31:0] mm_interconnect_0_cpu_peripheral_bridge_s0_readdata; // cpu_peripheral_bridge:s0_readdata -> mm_interconnect_0:cpu_peripheral_bridge_s0_readdata

wire mm_interconnect_0_cpu_peripheral_bridge_s0_waitrequest; // cpu_peripheral_bridge:s0_waitrequest -> mm_interconnect_0:cpu_peripheral_bridge_s0_waitrequest

wire mm_interconnect_0_cpu_peripheral_bridge_s0_debugaccess; // mm_interconnect_0:cpu_peripheral_bridge_s0_debugaccess -> cpu_peripheral_bridge:s0_debugaccess

wire [8:0] mm_interconnect_0_cpu_peripheral_bridge_s0_address; // mm_interconnect_0:cpu_peripheral_bridge_s0_address -> cpu_peripheral_bridge:s0_address

wire mm_interconnect_0_cpu_peripheral_bridge_s0_read; // mm_interconnect_0:cpu_peripheral_bridge_s0_read -> cpu_peripheral_bridge:s0_read

wire [3:0] mm_interconnect_0_cpu_peripheral_bridge_s0_byteenable; // mm_interconnect_0:cpu_peripheral_bridge_s0_byteenable -> cpu_peripheral_bridge:s0_byteenable

wire mm_interconnect_0_cpu_peripheral_bridge_s0_readdatavalid; // cpu_peripheral_bridge:s0_readdatavalid -> mm_interconnect_0:cpu_peripheral_bridge_s0_readdatavalid

xiaomai516

wire mm_interconnect_0_cpu_peripheral_bridge_s0_write; // mm_interconnect_0:cpu_peripheral_bridge_s0_write -> cpu_peripheral_bridge:s0_write

wire [31:0] mm_interconnect_0_cpu_peripheral_bridge_s0_writedata; // mm_interconnect_0:cpu_peripheral_bridge_s0_writedata -> cpu_peripheral_bridge:s0_writedata

wire [0:0] mm_interconnect_0_cpu_peripheral_bridge_s0_burstcount; // mm_interconnect_0:cpu_peripheral_bridge_s0_burstcount -> cpu_peripheral_bridge:s0_burstcount

wire mm_interconnect_0_sdram_s1_chipselect; // mm_interconnect_0:sdram_s1_chipselect -> sdram:az_cs

wire [15:0] mm_interconnect_0_sdram_s1_readdata; // sdram:za_data -> mm_interconnect_0:sdram_s1_readdata

wire mm_interconnect_0_sdram_s1_waitrequest; // sdram:za_waitrequest -> mm_interconnect_0:sdram_s1_waitrequest

wire [24:0] mm_interconnect_0_sdram_s1_address; // mm_interconnect_0:sdram_s1_address -> sdram:az_addr

wire mm_interconnect_0_sdram_s1_read; // mm_interconnect_0:sdram_s1_read -> sdram:az_rd_n

wire [1:0] mm_interconnect_0_sdram_s1_byteenable; // mm_interconnect_0:sdram_s1_byteenable -> sdram:az_be_n

wire mm_interconnect_0_sdram_s1_readdatavalid; // sdram:za_valid -> mm_interconnect_0:sdram_s1_readdatavalid

wire mm_interconnect_0_sdram_s1_write; // mm_interconnect_0:sdram_s1_write -> sdram:az_wr_n

wire [15:0] mm_interconnect_0_sdram_s1_writedata; // mm_interconnect_0:sdram_s1_writedata -> sdram:az_data

wire mm_interconnect_0_onchip_memory2_s1_chipselect; // mm_interconnect_0:onchip_memory2_s1_chipselect -> onchip_memory2:chipselect

wire [31:0] mm_interconnect_0_onchip_memory2_s1_readdata; // onchip_memory2:readdata -> mm_interconnect_0:onchip_memory2_s1_readdata

wire [16:0] mm_interconnect_0_onchip_memory2_s1_address; // mm_interconnect_0:onchip_memory2_s1_address -> onchip_memory2:address

wire [3:0] mm_interconnect_0_onchip_memory2_s1_byteenable; // mm_interconnect_0:onchip_memory2_s1_byteenable -> onchip_memory2:byteenable

wire mm_interconnect_0_onchip_memory2_s1_write; // mm_interconnect_0:onchip_memory2_s1_write -> onchip_memory2:write

wire [31:0] mm_interconnect_0_onchip_memory2_s1_writedata; // mm_interconnect_0:onchip_memory2_s1_writedata -> onchip_memory2:writedata

wire mm_interconnect_0_onchip_memory2_s1_clken; // mm_interconnect_0:onchip_memory2_s1_clken -> onchip_memory2:clken

wire mm_interconnect_0_timer_s1_chipselect; // mm_interconnect_0:timer_s1_chipselect -> timer:chipselect

wire [15:0] mm_interconnect_0_timer_s1_readdata; // timer:readdata -> mm_interconnect_0:timer_s1_readdata

wire [2:0] mm_interconnect_0_timer_s1_address; // mm_interconnect_0:timer_s1_address -> timer:address

wire mm_interconnect_0_timer_s1_write; // mm_interconnect_0:timer_s1_write -> timer:write_n

wire [15:0] mm_interconnect_0_timer_s1_writedata; // mm_interconnect_0:timer_s1_writedata -> timer:writedata

wire cpu_peripheral_bridge_m0_waitrequest; // mm_interconnect_1:cpu_peripheral_bridge_m0_waitrequest -> cpu_peripheral_bridge:m0_waitrequest

wire [31:0] cpu_peripheral_bridge_m0_readdata; // mm_interconnect_1:cpu_peripheral_bridge_m0_readdata -> cpu_peripheral_bridge:m0_readdata

wire cpu_peripheral_bridge_m0_debugaccess; // cpu_peripheral_bridge:m0_debugaccess -> mm_interconnect_1:cpu_peripheral_bridge_m0_debugaccess

wire [8:0] cpu_peripheral_bridge_m0_address; // cpu_peripheral_bridge:m0_address -> mm_interconnect_1:cpu_peripheral_bridge_m0_address

wire cpu_peripheral_bridge_m0_read; // cpu_peripheral_bridge:m0_read -> mm_interconnect_1:cpu_peripheral_bridge_m0_read

wire [3:0] cpu_peripheral_bridge_m0_byteenable; // cpu_peripheral_bridge:m0_byteenable -> mm_interconnect_1:cpu_peripheral_bridge_m0_byteenable

wire cpu_peripheral_bridge_m0_readdatavalid; // mm_interconnect_1:cpu_peripheral_bridge_m0_readdatavalid -> cpu_peripheral_bridge:m0_readdatavalid

wire [31:0] cpu_peripheral_bridge_m0_writedata; // cpu_peripheral_bridge:m0_writedata -> mm_interconnect_1:cpu_peripheral_bridge_m0_writedata

wire cpu_peripheral_bridge_m0_write; // cpu_peripheral_bridge:m0_write -> mm_interconnect_1:cpu_peripheral_bridge_m0_write

wire [0:0] cpu_peripheral_bridge_m0_burstcount; // cpu_peripheral_bridge:m0_burstcount -> mm_interconnect_1:cpu_peripheral_bridge_m0_burstcount

wire [7:0] mm_interconnect_1_seg7_avalon_slave_readdata; // seg7:s_readdata -> mm_interconnect_1:seg7_avalon_slave_readdata

wire [2:0] mm_interconnect_1_seg7_avalon_slave_address; // mm_interconnect_1:seg7_avalon_slave_address -> seg7:s_address

wire mm_interconnect_1_seg7_avalon_slave_read; // mm_interconnect_1:seg7_avalon_slave_read -> seg7:s_read

wire mm_interconnect_1_seg7_avalon_slave_write; // mm_interconnect_1:seg7_avalon_slave_write -> seg7:s_write

wire [7:0] mm_interconnect_1_seg7_avalon_slave_writedata; // mm_interconnect_1:seg7_avalon_slave_writedata -> seg7:s_writedata

wire mm_interconnect_1_key_s1_chipselect; // mm_interconnect_1:key_s1_chipselect -> key:chipselect

wire [31:0] mm_interconnect_1_key_s1_readdata; // key:readdata -> mm_interconnect_1:key_s1_readdata

wire [1:0] mm_interconnect_1_key_s1_address; // mm_interconnect_1:key_s1_address -> key:address

wire mm_interconnect_1_key_s1_write; // mm_interconnect_1:key_s1_write -> key:write_n

wire [31:0] mm_interconnect_1_key_s1_writedata; // mm_interconnect_1:key_s1_writedata -> key:writedata

wire mm_interconnect_1_pio_led_s1_chipselect; // mm_interconnect_1:pio_led_s1_chipselect -> pio_led:chipselect

wire [31:0] mm_interconnect_1_pio_led_s1_readdata; // pio_led:readdata -> mm_interconnect_1:pio_led_s1_readdata

wire [1:0] mm_interconnect_1_pio_led_s1_address; // mm_interconnect_1:pio_led_s1_address -> pio_led:address

wire mm_interconnect_1_pio_led_s1_write; // mm_interconnect_1:pio_led_s1_write -> pio_led:write_n

wire [31:0] mm_interconnect_1_pio_led_s1_writedata; // mm_interconnect_1:pio_led_s1_writedata -> pio_led:writedata

wire mm_interconnect_1_sw_s1_chipselect; // mm_interconnect_1:sw_s1_chipselect -> sw:chipselect

wire [31:0] mm_interconnect_1_sw_s1_readdata; // sw:readdata -> mm_interconnect_1:sw_s1_readdata

wire [1:0] mm_interconnect_1_sw_s1_address; // mm_interconnect_1:sw_s1_address -> sw:address

wire mm_interconnect_1_sw_s1_write; // mm_interconnect_1:sw_s1_write -> sw:write_n

wire [31:0] mm_interconnect_1_sw_s1_writedata; // mm_interconnect_1:sw_s1_writedata -> sw:writedata

wire [31:0] mm_interconnect_1_din32_s1_readdata; // din32:readdata -> mm_interconnect_1:din32_s1_readdata

wire [1:0] mm_interconnect_1_din32_s1_address; // mm_interconnect_1:din32_s1_address -> din32:address

wire mm_interconnect_1_wr_full_s1_chipselect; // mm_interconnect_1:wr_full_s1_chipselect -> wr_full:chipselect

wire [31:0] mm_interconnect_1_wr_full_s1_readdata; // wr_full:readdata -> mm_interconnect_1:wr_full_s1_readdata

wire [1:0] mm_interconnect_1_wr_full_s1_address; // mm_interconnect_1:wr_full_s1_address -> wr_full:address

wire mm_interconnect_1_wr_full_s1_write; // mm_interconnect_1:wr_full_s1_write -> wr_full:write_n

wire [31:0] mm_interconnect_1_wr_full_s1_writedata; // mm_interconnect_1:wr_full_s1_writedata -> wr_full:writedata

wire mm_interconnect_1_rd_rqt_s1_chipselect; // mm_interconnect_1:rd_rqt_s1_chipselect -> rd_rqt:chipselect

wire [31:0] mm_interconnect_1_rd_rqt_s1_readdata; // rd_rqt:readdata -> mm_interconnect_1:rd_rqt_s1_readdata

wire [1:0] mm_interconnect_1_rd_rqt_s1_address; // mm_interconnect_1:rd_rqt_s1_address -> rd_rqt:address

wire mm_interconnect_1_rd_rqt_s1_write; // mm_interconnect_1:rd_rqt_s1_write -> rd_rqt:write_n

wire [31:0] mm_interconnect_1_rd_rqt_s1_writedata; // mm_interconnect_1:rd_rqt_s1_writedata -> rd_rqt:writedata

wire [31:0] mm_interconnect_1_rd_empt_s1_readdata; // rd_empt:readdata -> mm_interconnect_1:rd_empt_s1_readdata

wire [1:0] mm_interconnect_1_rd_empt_s1_address; // mm_interconnect_1:rd_empt_s1_address -> rd_empt:address

wire irq_mapper_receiver0_irq; // jtag_uart:av_irq -> irq_mapper:receiver0_irq

wire irq_mapper_receiver3_irq; // timer:irq -> irq_mapper:receiver3_irq

wire [31:0] cpu_irq_irq; // irq_mapper:sender_irq -> cpu:irq

wire irq_mapper_receiver1_irq; // irq_synchronizer:sender_irq -> irq_mapper:receiver1_irq

wire [0:0] irq_synchronizer_receiver_irq; // key:irq -> irq_synchronizer:receiver_irq

wire irq_mapper_receiver2_irq; // irq_synchronizer_001:sender_irq -> irq_mapper:receiver2_irq

wire [0:0] irq_synchronizer_001_receiver_irq; // sw:irq -> irq_synchronizer_001:receiver_irq

wire irq_mapper_receiver4_irq; // irq_synchronizer_002:sender_irq -> irq_mapper:receiver4_irq

wire [0:0] irq_synchronizer_002_receiver_irq; // wr_full:irq -> irq_synchronizer_002:receiver_irq

wire rst_controller_reset_out_reset; // rst_controller:reset_out -> [cpu:reset_n, irq_mapper:reset, irq_synchronizer:sender_reset, irq_synchronizer_001:sender_reset, irq_synchronizer_002:sender_reset, mm_interconnect_0:cpu_reset_reset_bridge_in_reset_reset, rst_translator:in_reset]

wire rst_controller_reset_out_reset_req; // rst_controller:reset_req -> [cpu:reset_req, rst_translator:reset_req_in]

wire cpu_debug_reset_request_reset; // cpu:debug_reset_request -> rst_controller:reset_in1

wire rst_controller_001_reset_out_reset; // rst_controller_001:reset_out -> [cpu_peripheral_bridge:m0_reset, din32:reset_n, irq_synchronizer:receiver_reset, irq_synchronizer_001:receiver_reset, irq_synchronizer_002:receiver_reset, key:reset_n, mm_interconnect_1:cpu_peripheral_bridge_m0_reset_reset_bridge_in_reset_reset, pio_led:reset_n, rd_empt:reset_n, rd_rqt:reset_n, seg7:s_reset, sw:reset_n, wr_full:reset_n]

wire rst_controller_002_reset_out_reset; // rst_controller_002:reset_out -> [cpu_peripheral_bridge:s0_reset, jtag_uart:rst_n, mm_interconnect_0:jtag_uart_reset_reset_bridge_in_reset_reset, onchip_memory2:reset, rst_translator_001:in_reset, sdram:reset_n, sysid_qsys:reset_n, timer:reset_n]

wire rst_controller_002_reset_out_reset_req; // rst_controller_002:reset_req -> [onchip_memory2:reset_req, rst_translator_001:reset_req_in]

audio_nios_cpu cpu (

.clk (pll_outclk0_clk), // clk.clk

.reset_n (~rst_controller_reset_out_reset), // reset.reset_n

.reset_req (rst_controller_reset_out_reset_req), // .reset_req

.d_address (cpu_data_master_address), // data_master.address

.d_byteenable (cpu_data_master_byteenable), // .byteenable

.d_read (cpu_data_master_read), // .read

.d_readdata (cpu_data_master_readdata), // .readdata

.d_waitrequest (cpu_data_master_waitrequest), // .waitrequest

.d_write (cpu_data_master_write), // .write

.d_writedata (cpu_data_master_writedata), // .writedata

.d_readdatavalid (cpu_data_master_readdatavalid), // .readdatavalid

.debug_mem_slave_debugaccess_to_roms (cpu_data_master_debugaccess), // .debugaccess

.i_address (cpu_instruction_master_address), // instruction_master.address

.i_read (cpu_instruction_master_read), // .read

.i_readdata (cpu_instruction_master_readdata), // .readdata

.i_waitrequest (cpu_instruction_master_waitrequest), // .waitrequest

.i_readdatavalid (cpu_instruction_master_readdatavalid), // .readdatavalid

.irq (cpu_irq_irq), // irq.irq

xiaomai516

.debug_reset_request (cpu_debug_reset_request_reset), // debug_reset_request.reset

.debug_mem_slave_address (mm_interconnect_0_cpu_debug_mem_slave_address), // debug_mem_slave.address

.debug_mem_slave_byteenable (mm_interconnect_0_cpu_debug_mem_slave_byteenable), // .byteenable

.debug_mem_slave_debugaccess (mm_interconnect_0_cpu_debug_mem_slave_debugaccess), // .debugaccess

.debug_mem_slave_read (mm_interconnect_0_cpu_debug_mem_slave_read), // .read

.debug_mem_slave_readdata (mm_interconnect_0_cpu_debug_mem_slave_readdata), // .readdata

.debug_mem_slave_waitrequest (mm_interconnect_0_cpu_debug_mem_slave_waitrequest), // .waitrequest

.debug_mem_slave_write (mm_interconnect_0_cpu_debug_mem_slave_write), // .write

.debug_mem_slave_writedata (mm_interconnect_0_cpu_debug_mem_slave_writedata), // .writedata

.dummy_ci_port () // custom_instruction_master.readra

);

altera_avalon_mm_clock_crossing_bridge #(

.DATA_WIDTH (32),

.SYMBOL_WIDTH (8),

.HDL_ADDR_WIDTH (9),

.BURSTCOUNT_WIDTH (1),

.COMMAND_FIFO_DEPTH (32),

.RESPONSE_FIFO_DEPTH (64),

.MASTER_SYNC_DEPTH (3),

.SLAVE_SYNC_DEPTH (3)

) cpu_peripheral_bridge (

.m0_clk (pll_outclk2_clk), // m0_clk.clk

.m0_reset (rst_controller_001_reset_out_reset), // m0_reset.reset

.s0_clk (pll_outclk0_clk), // s0_clk.clk

.s0_reset (rst_controller_002_reset_out_reset), // s0_reset.reset

.s0_waitrequest (mm_interconnect_0_cpu_peripheral_bridge_s0_waitrequest), // s0.waitrequest

.s0_readdata (mm_interconnect_0_cpu_peripheral_bridge_s0_readdata), // .readdata

.s0_readdatavalid (mm_interconnect_0_cpu_peripheral_bridge_s0_readdatavalid), // .readdatavalid

.s0_burstcount (mm_interconnect_0_cpu_peripheral_bridge_s0_burstcount), // .burstcount

.s0_writedata (mm_interconnect_0_cpu_peripheral_bridge_s0_writedata), // .writedata

.s0_address (mm_interconnect_0_cpu_peripheral_bridge_s0_address), // .address

.s0_write (mm_interconnect_0_cpu_peripheral_bridge_s0_write), // .write

.s0_read (mm_interconnect_0_cpu_peripheral_bridge_s0_read), // .read

.s0_byteenable (mm_interconnect_0_cpu_peripheral_bridge_s0_byteenable), // .byteenable

.s0_debugaccess (mm_interconnect_0_cpu_peripheral_bridge_s0_debugaccess), // .debugaccess

.m0_waitrequest (cpu_peripheral_bridge_m0_waitrequest), // m0.waitrequest

.m0_readdata (cpu_peripheral_bridge_m0_readdata), // .readdata

.m0_readdatavalid (cpu_peripheral_bridge_m0_readdatavalid), // .readdatavalid

.m0_burstcount (cpu_peripheral_bridge_m0_burstcount), // .burstcount

.m0_writedata (cpu_peripheral_bridge_m0_writedata), // .writedata

.m0_address (cpu_peripheral_bridge_m0_address), // .address

.m0_write (cpu_peripheral_bridge_m0_write), // .write

.m0_read (cpu_peripheral_bridge_m0_read), // .read

.m0_byteenable (cpu_peripheral_bridge_m0_byteenable), // .byteenable

.m0_debugaccess (cpu_peripheral_bridge_m0_debugaccess) // .debugaccess

);

audio_nios_din32 din32 (

.clk (pll_outclk2_clk), // clk.clk

.reset_n (~rst_controller_001_reset_out_reset), // reset.reset_n

.address (mm_interconnect_1_din32_s1_address), // s1.address

.readdata (mm_interconnect_1_din32_s1_readdata), // .readdata

.in_port (din32_external_connection_export) // external_connection.export

);

audio_nios_jtag_uart jtag_uart (

.clk (pll_outclk0_clk), // clk.clk

.rst_n (~rst_controller_002_reset_out_reset), // reset.reset_n

.av_chipselect (mm_interconnect_0_jtag_uart_avalon_jtag_slave_chipselect), // avalon_jtag_slave.chipselect

.av_address (mm_interconnect_0_jtag_uart_avalon_jtag_slave_address), // .address

.av_read_n (~mm_interconnect_0_jtag_uart_avalon_jtag_slave_read), // .read_n

.av_readdata (mm_interconnect_0_jtag_uart_avalon_jtag_slave_readdata), // .readdata

.av_write_n (~mm_interconnect_0_jtag_uart_avalon_jtag_slave_write), // .write_n

.av_writedata (mm_interconnect_0_jtag_uart_avalon_jtag_slave_writedata), // .writedata

.av_waitrequest (mm_interconnect_0_jtag_uart_avalon_jtag_slave_waitrequest), // .waitrequest

.av_irq (irq_mapper_receiver0_irq) // irq.irq

);

audio_nios_key key (

.clk (pll_outclk2_clk), // clk.clk

.reset_n (~rst_controller_001_reset_out_reset), // reset.reset_n

.address (mm_interconnect_1_key_s1_address), // s1.address

.write_n (~mm_interconnect_1_key_s1_write), // .write_n

.writedata (mm_interconnect_1_key_s1_writedata), // .writedata

.chipselect (mm_interconnect_1_key_s1_chipselect), // .chipselect

.readdata (mm_interconnect_1_key_s1_readdata), // .readdata

.in_port (key_external_connection_export), // external_connection.export

.irq (irq_synchronizer_receiver_irq) // irq.irq

);

audio_nios_onchip_memory2 onchip_memory2 (

.clk (pll_outclk0_clk), // clk1.clk

.address (mm_interconnect_0_onchip_memory2_s1_address), // s1.address

.clken (mm_interconnect_0_onchip_memory2_s1_clken), // .clken

.chipselect (mm_interconnect_0_onchip_memory2_s1_chipselect), // .chipselect

.write (mm_interconnect_0_onchip_memory2_s1_write), // .write

.readdata (mm_interconnect_0_onchip_memory2_s1_readdata), // .readdata

.writedata (mm_interconnect_0_onchip_memory2_s1_writedata), // .writedata

.byteenable (mm_interconnect_0_onchip_memory2_s1_byteenable), // .byteenable

.reset (rst_controller_002_reset_out_reset), // reset1.reset

.reset_req (rst_controller_002_reset_out_reset_req) // .reset_req

);

audio_nios_pio_led pio_led (

.clk (pll_outclk2_clk), // clk.clk

.reset_n (~rst_controller_001_reset_out_reset), // reset.reset_n

.address (mm_interconnect_1_pio_led_s1_address), // s1.address

.write_n (~mm_interconnect_1_pio_led_s1_write), // .write_n

.writedata (mm_interconnect_1_pio_led_s1_writedata), // .writedata

.chipselect (mm_interconnect_1_pio_led_s1_chipselect), // .chipselect

.readdata (mm_interconnect_1_pio_led_s1_readdata), // .readdata

.out_port (pio_0_external_connection_export) // external_connection.export

);

audio_nios_pll pll (

.refclk (clk_clk), // refclk.clk

.rst (~reset_reset_n), // reset.reset

.outclk_0 (pll_outclk0_clk), // outclk0.clk

.outclk_1 (pll_sdam_clk), // outclk1.clk

.outclk_2 (pll_outclk2_clk), // outclk2.clk

.outclk_3 (pll_outclk3_clk), // outclk3.clk

.locked (pll_locked_export) // locked.export

);

audio_nios_rd_empt rd_empt (

.clk (pll_outclk2_clk), // clk.clk

.reset_n (~rst_controller_001_reset_out_reset), // reset.reset_n

.address (mm_interconnect_1_rd_empt_s1_address), // s1.address

.readdata (mm_interconnect_1_rd_empt_s1_readdata), // .readdata

.in_port (rd_empt_external_connection_export) // external_connection.export

);

audio_nios_rd_rqt rd_rqt (

.clk (pll_outclk2_clk), // clk.clk

.reset_n (~rst_controller_001_reset_out_reset), // reset.reset_n

.address (mm_interconnect_1_rd_rqt_s1_address), // s1.address

.write_n (~mm_interconnect_1_rd_rqt_s1_write), // .write_n

.writedata (mm_interconnect_1_rd_rqt_s1_writedata), // .writedata

.chipselect (mm_interconnect_1_rd_rqt_s1_chipselect), // .chipselect

.readdata (mm_interconnect_1_rd_rqt_s1_readdata), // .readdata

.out_port (rd_rqt_external_connection_export) // external_connection.export

);

xiaomai516

audio_nios_sdram sdram (

.clk (pll_outclk0_clk), // clk.clk

.reset_n (~rst_controller_002_reset_out_reset), // reset.reset_n

.az_addr (mm_interconnect_0_sdram_s1_address), // s1.address

.az_be_n (~mm_interconnect_0_sdram_s1_byteenable), // .byteenable_n

.az_cs (mm_interconnect_0_sdram_s1_chipselect), // .chipselect

.az_data (mm_interconnect_0_sdram_s1_writedata), // .writedata

.az_rd_n (~mm_interconnect_0_sdram_s1_read), // .read_n

.az_wr_n (~mm_interconnect_0_sdram_s1_write), // .write_n

.za_data (mm_interconnect_0_sdram_s1_readdata), // .readdata

.za_valid (mm_interconnect_0_sdram_s1_readdatavalid), // .readdatavalid

.za_waitrequest (mm_interconnect_0_sdram_s1_waitrequest), // .waitrequest

.zs_addr (sdram_wire_addr), // wire.export

.zs_ba (sdram_wire_ba), // .export

.zs_cas_n (sdram_wire_cas_n), // .export

.zs_cke (sdram_wire_cke), // .export

.zs_cs_n (sdram_wire_cs_n), // .export

.zs_dq (sdram_wire_dq), // .export

.zs_dqm (sdram_wire_dqm), // .export

.zs_ras_n (sdram_wire_ras_n), // .export

.zs_we_n (sdram_wire_we_n) // .export

);

SEG7_IF #(

.SEG7_NUM (6),

.ADDR_WIDTH (3),

.DEFAULT_ACTIVE (1),

.LOW_ACTIVE (1)

) seg7 (

.s_address (mm_interconnect_1_seg7_avalon_slave_address), // avalon_slave.address

.s_read (mm_interconnect_1_seg7_avalon_slave_read), // .read

.s_readdata (mm_interconnect_1_seg7_avalon_slave_readdata), // .readdata

.s_write (mm_interconnect_1_seg7_avalon_slave_write), // .write

.s_writedata (mm_interconnect_1_seg7_avalon_slave_writedata), // .writedata

.SEG7 (seg7_conduit_end_export), // conduit_end.export

.s_clk (pll_outclk2_clk), // clock_sink.clk

.s_reset (rst_controller_001_reset_out_reset) // clock_sink_reset.reset

);

audio_nios_sw sw (

.clk (pll_outclk2_clk), // clk.clk

.reset_n (~rst_controller_001_reset_out_reset), // reset.reset_n

.address (mm_interconnect_1_sw_s1_address), // s1.address

.write_n (~mm_interconnect_1_sw_s1_write), // .write_n

.writedata (mm_interconnect_1_sw_s1_writedata), // .writedata

.chipselect (mm_interconnect_1_sw_s1_chipselect), // .chipselect

.readdata (mm_interconnect_1_sw_s1_readdata), // .readdata

.in_port (sw_external_connection_export), // external_connection.export

.irq (irq_synchronizer_001_receiver_irq) // irq.irq

);

audio_nios_sysid_qsys sysid_qsys (

.clock (pll_outclk0_clk), // clk.clk

.reset_n (~rst_controller_002_reset_out_reset), // reset.reset_n

.readdata (mm_interconnect_0_sysid_qsys_control_slave_readdata), // control_slave.readdata

.address (mm_interconnect_0_sysid_qsys_control_slave_address) // .address

);

xiaomai516

audio_nios_timer timer (

.clk (pll_outclk0_clk), // clk.clk

.reset_n (~rst_controller_002_reset_out_reset), // reset.reset_n

.address (mm_interconnect_0_timer_s1_address), // s1.address

.writedata (mm_interconnect_0_timer_s1_writedata), // .writedata

.readdata (mm_interconnect_0_timer_s1_readdata), // .readdata

.chipselect (mm_interconnect_0_timer_s1_chipselect), // .chipselect

.write_n (~mm_interconnect_0_timer_s1_write), // .write_n

.irq (irq_mapper_receiver3_irq) // irq.irq

);

audio_nios_wr_full wr_full (

.clk (pll_outclk2_clk), // clk.clk

.reset_n (~rst_controller_001_reset_out_reset), // reset.reset_n

.address (mm_interconnect_1_wr_full_s1_address), // s1.address

.write_n (~mm_interconnect_1_wr_full_s1_write), // .write_n

.writedata (mm_interconnect_1_wr_full_s1_writedata), // .writedata

.chipselect (mm_interconnect_1_wr_full_s1_chipselect), // .chipselect

.readdata (mm_interconnect_1_wr_full_s1_readdata), // .readdata

.in_port (wr_full_external_connection_export), // external_connection.export

.irq (irq_synchronizer_002_receiver_irq) // irq.irq

);

audio_nios_mm_interconnect_0 mm_interconnect_0 (

.pll_outclk0_clk (pll_outclk0_clk), // pll_outclk0.clk

.cpu_reset_reset_bridge_in_reset_reset (rst_controller_reset_out_reset), // cpu_reset_reset_bridge_in_reset.reset

.jtag_uart_reset_reset_bridge_in_reset_reset (rst_controller_002_reset_out_reset), // jtag_uart_reset_reset_bridge_in_reset.reset

.cpu_data_master_address (cpu_data_master_address), // cpu_data_master.address

.cpu_data_master_waitrequest (cpu_data_master_waitrequest), // .waitrequest

.cpu_data_master_byteenable (cpu_data_master_byteenable), // .byteenable

.cpu_data_master_read (cpu_data_master_read), // .read

.cpu_data_master_readdata (cpu_data_master_readdata), // .readdata

.cpu_data_master_readdatavalid (cpu_data_master_readdatavalid), // .readdatavalid

.cpu_data_master_write (cpu_data_master_write), // .write

.cpu_data_master_writedata (cpu_data_master_writedata), // .writedata

.cpu_data_master_debugaccess (cpu_data_master_debugaccess), // .debugaccess

.cpu_instruction_master_address (cpu_instruction_master_address), // cpu_instruction_master.address

.cpu_instruction_master_waitrequest (cpu_instruction_master_waitrequest), // .waitrequest

.cpu_instruction_master_read (cpu_instruction_master_read), // .read

.cpu_instruction_master_readdata (cpu_instruction_master_readdata), // .readdata

.cpu_instruction_master_readdatavalid (cpu_instruction_master_readdatavalid), // .readdatavalid

.cpu_debug_mem_slave_address (mm_interconnect_0_cpu_debug_mem_slave_address), // cpu_debug_mem_slave.address

.cpu_debug_mem_slave_write (mm_interconnect_0_cpu_debug_mem_slave_write), // .write

.cpu_debug_mem_slave_read (mm_interconnect_0_cpu_debug_mem_slave_read), // .read

.cpu_debug_mem_slave_readdata (mm_interconnect_0_cpu_debug_mem_slave_readdata), // .readdata

.cpu_debug_mem_slave_writedata (mm_interconnect_0_cpu_debug_mem_slave_writedata), // .writedata

.cpu_debug_mem_slave_byteenable (mm_interconnect_0_cpu_debug_mem_slave_byteenable), // .byteenable

.cpu_debug_mem_slave_waitrequest (mm_interconnect_0_cpu_debug_mem_slave_waitrequest), // .waitrequest

.cpu_debug_mem_slave_debugaccess (mm_interconnect_0_cpu_debug_mem_slave_debugaccess), // .debugaccess

.cpu_peripheral_bridge_s0_address (mm_interconnect_0_cpu_peripheral_bridge_s0_address), // cpu_peripheral_bridge_s0.address

.cpu_peripheral_bridge_s0_write (mm_interconnect_0_cpu_peripheral_bridge_s0_write), // .write

.cpu_peripheral_bridge_s0_read (mm_interconnect_0_cpu_peripheral_bridge_s0_read), // .read

.cpu_peripheral_bridge_s0_readdata (mm_interconnect_0_cpu_peripheral_bridge_s0_readdata), // .readdata

.cpu_peripheral_bridge_s0_writedata (mm_interconnect_0_cpu_peripheral_bridge_s0_writedata), // .writedata

.cpu_peripheral_bridge_s0_burstcount (mm_interconnect_0_cpu_peripheral_bridge_s0_burstcount), // .burstcount

.cpu_peripheral_bridge_s0_byteenable (mm_interconnect_0_cpu_peripheral_bridge_s0_byteenable), // .byteenable

.cpu_peripheral_bridge_s0_readdatavalid (mm_interconnect_0_cpu_peripheral_bridge_s0_readdatavalid), // .readdatavalid

.cpu_peripheral_bridge_s0_waitrequest (mm_interconnect_0_cpu_peripheral_bridge_s0_waitrequest), // .waitrequest

.cpu_peripheral_bridge_s0_debugaccess (mm_interconnect_0_cpu_peripheral_bridge_s0_debugaccess), // .debugaccess

.jtag_uart_avalon_jtag_slave_address (mm_interconnect_0_jtag_uart_avalon_jtag_slave_address), // jtag_uart_avalon_jtag_slave.address

.jtag_uart_avalon_jtag_slave_write (mm_interconnect_0_jtag_uart_avalon_jtag_slave_write), // .write

.jtag_uart_avalon_jtag_slave_read (mm_interconnect_0_jtag_uart_avalon_jtag_slave_read), // .read

.jtag_uart_avalon_jtag_slave_readdata (mm_interconnect_0_jtag_uart_avalon_jtag_slave_readdata), // .readdata

.jtag_uart_avalon_jtag_slave_writedata (mm_interconnect_0_jtag_uart_avalon_jtag_slave_writedata), // .writedata

.jtag_uart_avalon_jtag_slave_waitrequest (mm_interconnect_0_jtag_uart_avalon_jtag_slave_waitrequest), // .waitrequest

.jtag_uart_avalon_jtag_slave_chipselect (mm_interconnect_0_jtag_uart_avalon_jtag_slave_chipselect), // .chipselect

.onchip_memory2_s1_address (mm_interconnect_0_onchip_memory2_s1_address), // onchip_memory2_s1.address

.onchip_memory2_s1_write (mm_interconnect_0_onchip_memory2_s1_write), // .write

.onchip_memory2_s1_readdata (mm_interconnect_0_onchip_memory2_s1_readdata), // .readdata

.onchip_memory2_s1_writedata (mm_interconnect_0_onchip_memory2_s1_writedata), // .writedata

.onchip_memory2_s1_byteenable (mm_interconnect_0_onchip_memory2_s1_byteenable), // .byteenable

.onchip_memory2_s1_chipselect (mm_interconnect_0_onchip_memory2_s1_chipselect), // .chipselect

.onchip_memory2_s1_clken (mm_interconnect_0_onchip_memory2_s1_clken), // .clken

.sdram_s1_address (mm_interconnect_0_sdram_s1_address), // sdram_s1.address

.sdram_s1_write (mm_interconnect_0_sdram_s1_write), // .write

.sdram_s1_read (mm_interconnect_0_sdram_s1_read), // .read

.sdram_s1_readdata (mm_interconnect_0_sdram_s1_readdata), // .readdata

.sdram_s1_writedata (mm_interconnect_0_sdram_s1_writedata), // .writedata

.sdram_s1_byteenable (mm_interconnect_0_sdram_s1_byteenable), // .byteenable

.sdram_s1_readdatavalid (mm_interconnect_0_sdram_s1_readdatavalid), // .readdatavalid

.sdram_s1_waitrequest (mm_interconnect_0_sdram_s1_waitrequest), // .waitrequest

.sdram_s1_chipselect (mm_interconnect_0_sdram_s1_chipselect), // .chipselect

.sysid_qsys_control_slave_address (mm_interconnect_0_sysid_qsys_control_slave_address), // sysid_qsys_control_slave.address

.sysid_qsys_control_slave_readdata (mm_interconnect_0_sysid_qsys_control_slave_readdata), // .readdata

.timer_s1_address (mm_interconnect_0_timer_s1_address), // timer_s1.address

.timer_s1_write (mm_interconnect_0_timer_s1_write), // .write

.timer_s1_readdata (mm_interconnect_0_timer_s1_readdata), // .readdata

.timer_s1_writedata (mm_interconnect_0_timer_s1_writedata), // .writedata

.timer_s1_chipselect (mm_interconnect_0_timer_s1_chipselect) // .chipselect

);

xiaomai516

audio_nios_mm_interconnect_1 mm_interconnect_1 (

.pll_outclk2_clk (pll_outclk2_clk), // pll_outclk2.clk

.cpu_peripheral_bridge_m0_reset_reset_bridge_in_reset_reset (rst_controller_001_reset_out_reset), // cpu_peripheral_bridge_m0_reset_reset_bridge_in_reset.reset

.cpu_peripheral_bridge_m0_address (cpu_peripheral_bridge_m0_address), // cpu_peripheral_bridge_m0.address

.cpu_peripheral_bridge_m0_waitrequest (cpu_peripheral_bridge_m0_waitrequest), // .waitrequest

.cpu_peripheral_bridge_m0_burstcount (cpu_peripheral_bridge_m0_burstcount), // .burstcount

.cpu_peripheral_bridge_m0_byteenable (cpu_peripheral_bridge_m0_byteenable), // .byteenable

.cpu_peripheral_bridge_m0_read (cpu_peripheral_bridge_m0_read), // .read

.cpu_peripheral_bridge_m0_readdata (cpu_peripheral_bridge_m0_readdata), // .readdata

.cpu_peripheral_bridge_m0_readdatavalid (cpu_peripheral_bridge_m0_readdatavalid), // .readdatavalid

.cpu_peripheral_bridge_m0_write (cpu_peripheral_bridge_m0_write), // .write

.cpu_peripheral_bridge_m0_writedata (cpu_peripheral_bridge_m0_writedata), // .writedata

.cpu_peripheral_bridge_m0_debugaccess (cpu_peripheral_bridge_m0_debugaccess), // .debugaccess

.din32_s1_address (mm_interconnect_1_din32_s1_address), // din32_s1.address

.din32_s1_readdata (mm_interconnect_1_din32_s1_readdata), // .readdata

.key_s1_address (mm_interconnect_1_key_s1_address), // key_s1.address

.key_s1_write (mm_interconnect_1_key_s1_write), // .write

.key_s1_readdata (mm_interconnect_1_key_s1_readdata), // .readdata

.key_s1_writedata (mm_interconnect_1_key_s1_writedata), // .writedata

.key_s1_chipselect (mm_interconnect_1_key_s1_chipselect), // .chipselect

.pio_led_s1_address (mm_interconnect_1_pio_led_s1_address), // pio_led_s1.address

.pio_led_s1_write (mm_interconnect_1_pio_led_s1_write), // .write

.pio_led_s1_readdata (mm_interconnect_1_pio_led_s1_readdata), // .readdata

.pio_led_s1_writedata (mm_interconnect_1_pio_led_s1_writedata), // .writedata

.pio_led_s1_chipselect (mm_interconnect_1_pio_led_s1_chipselect), // .chipselect

.rd_empt_s1_address (mm_interconnect_1_rd_empt_s1_address), // rd_empt_s1.address

.rd_empt_s1_readdata (mm_interconnect_1_rd_empt_s1_readdata), // .readdata

.rd_rqt_s1_address (mm_interconnect_1_rd_rqt_s1_address), // rd_rqt_s1.address

.rd_rqt_s1_write (mm_interconnect_1_rd_rqt_s1_write), // .write

.rd_rqt_s1_readdata (mm_interconnect_1_rd_rqt_s1_readdata), // .readdata

.rd_rqt_s1_writedata (mm_interconnect_1_rd_rqt_s1_writedata), // .writedata

.rd_rqt_s1_chipselect (mm_interconnect_1_rd_rqt_s1_chipselect), // .chipselect

.seg7_avalon_slave_address (mm_interconnect_1_seg7_avalon_slave_address), // seg7_avalon_slave.address

.seg7_avalon_slave_write (mm_interconnect_1_seg7_avalon_slave_write), // .write

.seg7_avalon_slave_read (mm_interconnect_1_seg7_avalon_slave_read), // .read

.seg7_avalon_slave_readdata (mm_interconnect_1_seg7_avalon_slave_readdata), // .readdata

.seg7_avalon_slave_writedata (mm_interconnect_1_seg7_avalon_slave_writedata), // .writedata

.sw_s1_address (mm_interconnect_1_sw_s1_address), // sw_s1.address

.sw_s1_write (mm_interconnect_1_sw_s1_write), // .write

.sw_s1_readdata (mm_interconnect_1_sw_s1_readdata), // .readdata

.sw_s1_writedata (mm_interconnect_1_sw_s1_writedata), // .writedata

.sw_s1_chipselect (mm_interconnect_1_sw_s1_chipselect), // .chipselect

.wr_full_s1_address (mm_interconnect_1_wr_full_s1_address), // wr_full_s1.address

.wr_full_s1_write (mm_interconnect_1_wr_full_s1_write), // .write

.wr_full_s1_readdata (mm_interconnect_1_wr_full_s1_readdata), // .readdata

.wr_full_s1_writedata (mm_interconnect_1_wr_full_s1_writedata), // .writedata

.wr_full_s1_chipselect (mm_interconnect_1_wr_full_s1_chipselect) // .chipselect

);

audio_nios_irq_mapper irq_mapper (

.clk (pll_outclk0_clk), // clk.clk

.reset (rst_controller_reset_out_reset), // clk_reset.reset

.receiver0_irq (irq_mapper_receiver0_irq), // receiver0.irq

.receiver1_irq (irq_mapper_receiver1_irq), // receiver1.irq

.receiver2_irq (irq_mapper_receiver2_irq), // receiver2.irq

.receiver3_irq (irq_mapper_receiver3_irq), // receiver3.irq

.receiver4_irq (irq_mapper_receiver4_irq), // receiver4.irq

.sender_irq (cpu_irq_irq) // sender.irq

);

altera_irq_clock_crosser #(

.IRQ_WIDTH (1)

) irq_synchronizer (

.receiver_clk (pll_outclk2_clk), // receiver_clk.clk

.sender_clk (pll_outclk0_clk), // sender_clk.clk

.receiver_reset (rst_controller_001_reset_out_reset), // receiver_clk_reset.reset

.sender_reset (rst_controller_reset_out_reset), // sender_clk_reset.reset

.receiver_irq (irq_synchronizer_receiver_irq), // receiver.irq

.sender_irq (irq_mapper_receiver1_irq) // sender.irq

);

altera_irq_clock_crosser #(

.IRQ_WIDTH (1)

) irq_synchronizer_001 (

.receiver_clk (pll_outclk2_clk), // receiver_clk.clk

.sender_clk (pll_outclk0_clk), // sender_clk.clk

.receiver_reset (rst_controller_001_reset_out_reset), // receiver_clk_reset.reset

.sender_reset (rst_controller_reset_out_reset), // sender_clk_reset.reset

.receiver_irq (irq_synchronizer_001_receiver_irq), // receiver.irq

.sender_irq (irq_mapper_receiver2_irq) // sender.irq

);

xiaomai516

altera_irq_clock_crosser #(

.IRQ_WIDTH (1)

) irq_synchronizer_002 (

.receiver_clk (pll_outclk2_clk), // receiver_clk.clk

.sender_clk (pll_outclk0_clk), // sender_clk.clk

.receiver_reset (rst_controller_001_reset_out_reset), // receiver_clk_reset.reset

.sender_reset (rst_controller_reset_out_reset), // sender_clk_reset.reset

.receiver_irq (irq_synchronizer_002_receiver_irq), // receiver.irq

.sender_irq (irq_mapper_receiver4_irq) // sender.irq

);

altera_reset_controller #(

.NUM_RESET_INPUTS (2),

.OUTPUT_RESET_SYNC_EDGES ("deassert"),

.SYNC_DEPTH (2),

.RESET_REQUEST_PRESENT (1),

.RESET_REQ_WAIT_TIME (1),

.MIN_RST_ASSERTION_TIME (3),

.RESET_REQ_EARLY_DSRT_TIME (1),

.USE_RESET_REQUEST_IN0 (0),

.USE_RESET_REQUEST_IN1 (0),

.USE_RESET_REQUEST_IN2 (0),

.USE_RESET_REQUEST_IN3 (0),

.USE_RESET_REQUEST_IN4 (0),

.USE_RESET_REQUEST_IN5 (0),

.USE_RESET_REQUEST_IN6 (0),

.USE_RESET_REQUEST_IN7 (0),

.USE_RESET_REQUEST_IN8 (0),

.USE_RESET_REQUEST_IN9 (0),

.USE_RESET_REQUEST_IN10 (0),

.USE_RESET_REQUEST_IN11 (0),

.USE_RESET_REQUEST_IN12 (0),

.USE_RESET_REQUEST_IN13 (0),

.USE_RESET_REQUEST_IN14 (0),

.USE_RESET_REQUEST_IN15 (0),

.ADAPT_RESET_REQUEST (0)

) rst_controller (

.reset_in0 (~reset_reset_n), // reset_in0.reset

.reset_in1 (cpu_debug_reset_request_reset), // reset_in1.reset

.clk (pll_outclk0_clk), // clk.clk

.reset_out (rst_controller_reset_out_reset), // reset_out.reset

.reset_req (rst_controller_reset_out_reset_req), // .reset_req

.reset_req_in0 (1'b0), // (terminated)

.reset_req_in1 (1'b0), // (terminated)

.reset_in2 (1'b0), // (terminated)

.reset_req_in2 (1'b0), // (terminated)

.reset_in3 (1'b0), // (terminated)

.reset_req_in3 (1'b0), // (terminated)

.reset_in4 (1'b0), // (terminated)

.reset_req_in4 (1'b0), // (terminated)

.reset_in5 (1'b0), // (terminated)

.reset_req_in5 (1'b0), // (terminated)

.reset_in6 (1'b0), // (terminated)

.reset_req_in6 (1'b0), // (terminated)

.reset_in7 (1'b0), // (terminated)

.reset_req_in7 (1'b0), // (terminated)

.reset_in8 (1'b0), // (terminated)

.reset_req_in8 (1'b0), // (terminated)

.reset_in9 (1'b0), // (terminated)

.reset_req_in9 (1'b0), // (terminated)

.reset_in10 (1'b0), // (terminated)

.reset_req_in10 (1'b0), // (terminated)

.reset_in11 (1'b0), // (terminated)

.reset_req_in11 (1'b0), // (terminated)

.reset_in12 (1'b0), // (terminated)

.reset_req_in12 (1'b0), // (terminated)

.reset_in13 (1'b0), // (terminated)

.reset_req_in13 (1'b0), // (terminated)

.reset_in14 (1'b0), // (terminated)

.reset_req_in14 (1'b0), // (terminated)

.reset_in15 (1'b0), // (terminated)

.reset_req_in15 (1'b0) // (terminated)

);

altera_reset_controller #(

.NUM_RESET_INPUTS (1),

.OUTPUT_RESET_SYNC_EDGES ("deassert"),

.SYNC_DEPTH (2),

.RESET_REQUEST_PRESENT (0),

.RESET_REQ_WAIT_TIME (1),

.MIN_RST_ASSERTION_TIME (3),

.RESET_REQ_EARLY_DSRT_TIME (1),

.USE_RESET_REQUEST_IN0 (0),

.USE_RESET_REQUEST_IN1 (0),

.USE_RESET_REQUEST_IN2 (0),

.USE_RESET_REQUEST_IN3 (0),

.USE_RESET_REQUEST_IN4 (0),

.USE_RESET_REQUEST_IN5 (0),

.USE_RESET_REQUEST_IN6 (0),

.USE_RESET_REQUEST_IN7 (0),

.USE_RESET_REQUEST_IN8 (0),

.USE_RESET_REQUEST_IN9 (0),

.USE_RESET_REQUEST_IN10 (0),

.USE_RESET_REQUEST_IN11 (0),

.USE_RESET_REQUEST_IN12 (0),

.USE_RESET_REQUEST_IN13 (0),

.USE_RESET_REQUEST_IN14 (0),

.USE_RESET_REQUEST_IN15 (0),

.ADAPT_RESET_REQUEST (0)

) rst_controller_001 (

.reset_in0 (~reset_reset_n), // reset_in0.reset

.clk (pll_outclk2_clk), // clk.clk

.reset_out (rst_controller_001_reset_out_reset), // reset_out.reset

.reset_req (), // (terminated)

.reset_req_in0 (1'b0), // (terminated)

.reset_in1 (1'b0), // (terminated)

.reset_req_in1 (1'b0), // (terminated)

.reset_in2 (1'b0), // (terminated)

.reset_req_in2 (1'b0), // (terminated)

.reset_in3 (1'b0), // (terminated)

.reset_req_in3 (1'b0), // (terminated)

.reset_in4 (1'b0), // (terminated)

.reset_req_in4 (1'b0), // (terminated)

.reset_in5 (1'b0), // (terminated)

.reset_req_in5 (1'b0), // (terminated)

.reset_in6 (1'b0), // (terminated)

.reset_req_in6 (1'b0), // (terminated)

.reset_in7 (1'b0), // (terminated)

.reset_req_in7 (1'b0), // (terminated)

.reset_in8 (1'b0), // (terminated)

.reset_req_in8 (1'b0), // (terminated)

.reset_in9 (1'b0), // (terminated)

.reset_req_in9 (1'b0), // (terminated)

.reset_in10 (1'b0), // (terminated)

.reset_req_in10 (1'b0), // (terminated)

.reset_in11 (1'b0), // (terminated)

.reset_req_in11 (1'b0), // (terminated)

.reset_in12 (1'b0), // (terminated)

.reset_req_in12 (1'b0), // (terminated)

.reset_in13 (1'b0), // (terminated)

.reset_req_in13 (1'b0), // (terminated)

.reset_in14 (1'b0), // (terminated)

.reset_req_in14 (1'b0), // (terminated)

.reset_in15 (1'b0), // (terminated)

.reset_req_in15 (1'b0) // (terminated)

);

altera_reset_controller #(

.NUM_RESET_INPUTS (1),

.OUTPUT_RESET_SYNC_EDGES ("deassert"),

.SYNC_DEPTH (2),

.RESET_REQUEST_PRESENT (1),

.RESET_REQ_WAIT_TIME (1),

.MIN_RST_ASSERTION_TIME (3),

.RESET_REQ_EARLY_DSRT_TIME (1),

.USE_RESET_REQUEST_IN0 (0),

.USE_RESET_REQUEST_IN1 (0),

.USE_RESET_REQUEST_IN2 (0),

.USE_RESET_REQUEST_IN3 (0),

.USE_RESET_REQUEST_IN4 (0),

.USE_RESET_REQUEST_IN5 (0),

.USE_RESET_REQUEST_IN6 (0),

.USE_RESET_REQUEST_IN7 (0),

.USE_RESET_REQUEST_IN8 (0),

.USE_RESET_REQUEST_IN9 (0),

.USE_RESET_REQUEST_IN10 (0),

.USE_RESET_REQUEST_IN11 (0),

.USE_RESET_REQUEST_IN12 (0),

.USE_RESET_REQUEST_IN13 (0),

.USE_RESET_REQUEST_IN14 (0),

.USE_RESET_REQUEST_IN15 (0),

.ADAPT_RESET_REQUEST (0)

) rst_controller_002 (

.reset_in0 (~reset_reset_n), // reset_in0.reset

.clk (pll_outclk0_clk), // clk.clk

.reset_out (rst_controller_002_reset_out_reset), // reset_out.reset

.reset_req (rst_controller_002_reset_out_reset_req), // .reset_req

.reset_req_in0 (1'b0), // (terminated)

.reset_in1 (1'b0), // (terminated)

.reset_req_in1 (1'b0), // (terminated)

.reset_in2 (1'b0), // (terminated)

.reset_req_in2 (1'b0), // (terminated)

.reset_in3 (1'b0), // (terminated)

.reset_req_in3 (1'b0), // (terminated)

.reset_in4 (1'b0), // (terminated)

.reset_req_in4 (1'b0), // (terminated)

.reset_in5 (1'b0), // (terminated)

.reset_req_in5 (1'b0), // (terminated)

.reset_in6 (1'b0), // (terminated)

.reset_req_in6 (1'b0), // (terminated)

.reset_in7 (1'b0), // (terminated)

.reset_req_in7 (1'b0), // (terminated)

.reset_in8 (1'b0), // (terminated)

.reset_req_in8 (1'b0), // (terminated)

.reset_in9 (1'b0), // (terminated)

.reset_req_in9 (1'b0), // (terminated)

.reset_in10 (1'b0), // (terminated)

.reset_req_in10 (1'b0), // (terminated)

.reset_in11 (1'b0), // (terminated)

.reset_req_in11 (1'b0), // (terminated)

.reset_in12 (1'b0), // (terminated)

.reset_req_in12 (1'b0), // (terminated)

.reset_in13 (1'b0), // (terminated)

.reset_req_in13 (1'b0), // (terminated)

.reset_in14 (1'b0), // (terminated)

.reset_req_in14 (1'b0), // (terminated)

.reset_in15 (1'b0), // (terminated)

.reset_req_in15 (1'b0) // (terminated)

);

Endmodule

641734667 · 发表于2015-12-17 11:24

xuhu0909

plzousn · 发表于2019-11-20 20:39

找了好久，这方面的资料太少了，万分感谢！

【Altera SoC】基于SOPC的单通道TDC设计（2） [复制链接]

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