// //////////////////////////////////////////////////////////////////////////////// // Module Name: u2_core // //////////////////////////////////////////////////////////////////////////////// module u2_core #(parameter RAM_SIZE=32768) (// Clocks input dsp_clk, input wb_clk, output clock_ready, input clk_to_mac, input pps_in, // Misc, debug output [7:0] leds, output [31:0] debug, output [1:0] debug_clk, // Expansion input exp_pps_in, output exp_pps_out, // GMII // GMII-CTRL input GMII_COL, input GMII_CRS, // GMII-TX output [7:0] GMII_TXD, output GMII_TX_EN, output GMII_TX_ER, output GMII_GTX_CLK, input GMII_TX_CLK, // 100mbps clk // GMII-RX input [7:0] GMII_RXD, input GMII_RX_CLK, input GMII_RX_DV, input GMII_RX_ER, // GMII-Management inout MDIO, output MDC, input PHY_INTn, // open drain output PHY_RESETn, // SERDES output ser_enable, output ser_prbsen, output ser_loopen, output ser_rx_en, output ser_tx_clk, output [15:0] ser_t, output ser_tklsb, output ser_tkmsb, input ser_rx_clk, input [15:0] ser_r, input ser_rklsb, input ser_rkmsb, // CPLD interface output cpld_start, output cpld_mode, output cpld_done, input cpld_din, input cpld_clk, input cpld_detached, output cpld_misc, input cpld_init_b, input por, output config_success, // ADC input [13:0] adc_a, input adc_ovf_a, output adc_on_a, output adc_oe_a, input [13:0] adc_b, input adc_ovf_b, output adc_on_b, output adc_oe_b, // DAC output [15:0] dac_a, output [15:0] dac_b, // I2C input scl_pad_i, output scl_pad_o, output scl_pad_oen_o, input sda_pad_i, output sda_pad_o, output sda_pad_oen_o, // Clock Gen Control output [1:0] clk_en, output [1:0] clk_sel, input clk_func, // FIXME is an input to control the 9510 input clk_status, // Generic SPI output sclk, output mosi, input miso, output sen_clk, output sen_dac, output sen_tx_db, output sen_tx_adc, output sen_tx_dac, output sen_rx_db, output sen_rx_adc, output sen_rx_dac, // GPIO to DBoards inout [15:0] io_tx, inout [15:0] io_rx, // External RAM inout [17:0] RAM_D, output [18:0] RAM_A, output RAM_CE1n, output RAM_CENn, output RAM_CLK, output RAM_WEn, output RAM_OEn, output RAM_LDn, // Debug stuff output uart_tx_o, input uart_rx_i, output uart_baud_o, input sim_mode, input [3:0] clock_divider ); wire [7:0] set_addr; wire [31:0] set_data; wire set_stb; wire ram_loader_done; wire ram_loader_rst, wb_rst, dsp_rst; wire [31:0] status, status_b0, status_b1, status_b2, status_b3, status_b4, status_b5, status_b6, status_b7; wire bus_error, spi_int, i2c_int, pps_int, timer_int, buffer_int, proc_int, overrun, underrun, uart_tx_int, uart_rx_int; wire [31:0] debug_gpio_0, debug_gpio_1; wire [31:0] atr_lines; wire [31:0] debug_rx, debug_mac0, debug_mac1, debug_tx_dsp, debug_txc, debug_serdes0, debug_serdes1, debug_serdes2, debug_rx_dsp; wire [15:0] ser_rx_occ, ser_tx_occ, dsp_rx_occ, dsp_tx_occ, eth_rx_occ, eth_tx_occ, eth_rx_occ2; wire ser_rx_full, ser_tx_full, dsp_rx_full, dsp_tx_full, eth_rx_full, eth_tx_full, eth_rx_full2; wire ser_rx_empty, ser_tx_empty, dsp_rx_empty, dsp_tx_empty, eth_rx_empty, eth_tx_empty, eth_rx_empty2; wire serdes_link_up; wire epoch; // /////////////////////////////////////////////////////////////////////////////////////////////// // Wishbone Single Master INTERCON localparam dw = 32; // Data bus width localparam aw = 16; // Address bus width, for byte addressibility, 16 = 64K byte memory space localparam sw = 4; // Select width -- 32-bit data bus with 8-bit granularity. wire [dw-1:0] m0_dat_o, m0_dat_i; wire [dw-1:0] s0_dat_o, s1_dat_o, s0_dat_i, s1_dat_i, s2_dat_o, s3_dat_o, s2_dat_i, s3_dat_i, s4_dat_o, s5_dat_o, s4_dat_i, s5_dat_i, s6_dat_o, s7_dat_o, s6_dat_i, s7_dat_i, s8_dat_o, s9_dat_o, s8_dat_i, s9_dat_i, s10_dat_o, s10_dat_i, s11_dat_i, s11_dat_o, s12_dat_i, s12_dat_o, s13_dat_i, s13_dat_o, s14_dat_i, s14_dat_o; wire [aw-1:0] m0_adr,s0_adr,s1_adr,s2_adr,s3_adr,s4_adr,s5_adr,s6_adr,s7_adr,s8_adr,s9_adr,s10_adr,s11_adr,s12_adr, s13_adr, s14_adr; wire [sw-1:0] m0_sel,s0_sel,s1_sel,s2_sel,s3_sel,s4_sel,s5_sel,s6_sel,s7_sel,s8_sel,s9_sel,s10_sel,s11_sel,s12_sel, s13_sel, s14_sel; wire m0_ack,s0_ack,s1_ack,s2_ack,s3_ack,s4_ack,s5_ack,s6_ack,s7_ack,s8_ack,s9_ack,s10_ack,s11_ack,s12_ack, s13_ack, s14_ack; wire m0_stb,s0_stb,s1_stb,s2_stb,s3_stb,s4_stb,s5_stb,s6_stb,s7_stb,s8_stb,s9_stb,s10_stb,s11_stb,s12_stb, s13_stb, s14_stb; wire m0_cyc,s0_cyc,s1_cyc,s2_cyc,s3_cyc,s4_cyc,s5_cyc,s6_cyc,s7_cyc,s8_cyc,s9_cyc,s10_cyc,s11_cyc,s12_cyc, s13_cyc, s14_cyc; wire m0_err,s0_err,s1_err,s2_err,s3_err,s4_err,s5_err,s6_err,s7_err,s8_err,s9_err,s10_err,s11_err,s12_err, s13_err, s14_err; wire m0_rty,s0_rty,s1_rty,s2_rty,s3_rty,s4_rty,s5_rty,s6_rty,s7_rty,s8_rty,s9_rty,s10_rty,s11_rty,s12_rty, s13_rty, s14_rty; wire m0_we,s0_we,s1_we,s2_we,s3_we,s4_we,s5_we,s6_we,s7_we,s8_we,s9_we,s10_we,s11_we,s12_we,s13_we, s14_we; wb_1master #(.s0_addr_w(1),.s0_addr(1'b0),.s1_addr_w(2),.s1_addr(2'b10), .s215_addr_w(6),.s2_addr(6'b1100_00),.s3_addr(6'b1100_01),.s4_addr(6'b1100_10), .s5_addr(6'b1100_11),.s6_addr(6'b1101_00),.s7_addr(6'b1101_01),.s8_addr(6'b1101_10), .s9_addr(6'b1101_11),.s10_addr(6'b1110_00),.s11_addr(6'b1110_01),.s12_addr(6'b1110_10), .s13_addr(6'b1110_11),.s14_addr(6'b1111_00),.s15_addr(6'b1111_01), .dw(dw),.aw(aw),.sw(sw)) wb_1master (.clk_i(wb_clk),.rst_i(wb_rst), .m0_dat_o(m0_dat_o),.m0_ack_o(m0_ack),.m0_err_o(m0_err),.m0_rty_o(m0_rty),.m0_dat_i(m0_dat_i), .m0_adr_i(m0_adr),.m0_sel_i(m0_sel),.m0_we_i(m0_we),.m0_cyc_i(m0_cyc),.m0_stb_i(m0_stb), .s0_dat_o(s0_dat_o),.s0_adr_o(s0_adr),.s0_sel_o(s0_sel),.s0_we_o (s0_we),.s0_cyc_o(s0_cyc),.s0_stb_o(s0_stb), .s0_dat_i(s0_dat_i),.s0_ack_i(s0_ack),.s0_err_i(s0_err),.s0_rty_i(s0_rty), .s1_dat_o(s1_dat_o),.s1_adr_o(s1_adr),.s1_sel_o(s1_sel),.s1_we_o (s1_we),.s1_cyc_o(s1_cyc),.s1_stb_o(s1_stb), .s1_dat_i(s1_dat_i),.s1_ack_i(s1_ack),.s1_err_i(s1_err),.s1_rty_i(s1_rty), .s2_dat_o(s2_dat_o),.s2_adr_o(s2_adr),.s2_sel_o(s2_sel),.s2_we_o (s2_we),.s2_cyc_o(s2_cyc),.s2_stb_o(s2_stb), .s2_dat_i(s2_dat_i),.s2_ack_i(s2_ack),.s2_err_i(s2_err),.s2_rty_i(s2_rty), .s3_dat_o(s3_dat_o),.s3_adr_o(s3_adr),.s3_sel_o(s3_sel),.s3_we_o (s3_we),.s3_cyc_o(s3_cyc),.s3_stb_o(s3_stb), .s3_dat_i(s3_dat_i),.s3_ack_i(s3_ack),.s3_err_i(s3_err),.s3_rty_i(s3_rty), .s4_dat_o(s4_dat_o),.s4_adr_o(s4_adr),.s4_sel_o(s4_sel),.s4_we_o (s4_we),.s4_cyc_o(s4_cyc),.s4_stb_o(s4_stb), .s4_dat_i(s4_dat_i),.s4_ack_i(s4_ack),.s4_err_i(s4_err),.s4_rty_i(s4_rty), .s5_dat_o(s5_dat_o),.s5_adr_o(s5_adr),.s5_sel_o(s5_sel),.s5_we_o (s5_we),.s5_cyc_o(s5_cyc),.s5_stb_o(s5_stb), .s5_dat_i(s5_dat_i),.s5_ack_i(s5_ack),.s5_err_i(s5_err),.s5_rty_i(s5_rty), .s6_dat_o(s6_dat_o),.s6_adr_o(s6_adr),.s6_sel_o(s6_sel),.s6_we_o (s6_we),.s6_cyc_o(s6_cyc),.s6_stb_o(s6_stb), .s6_dat_i(s6_dat_i),.s6_ack_i(s6_ack),.s6_err_i(s6_err),.s6_rty_i(s6_rty), .s7_dat_o(s7_dat_o),.s7_adr_o(s7_adr),.s7_sel_o(s7_sel),.s7_we_o (s7_we),.s7_cyc_o(s7_cyc),.s7_stb_o(s7_stb), .s7_dat_i(s7_dat_i),.s7_ack_i(s7_ack),.s7_err_i(s7_err),.s7_rty_i(s7_rty), .s8_dat_o(s8_dat_o),.s8_adr_o(s8_adr),.s8_sel_o(s8_sel),.s8_we_o (s8_we),.s8_cyc_o(s8_cyc),.s8_stb_o(s8_stb), .s8_dat_i(s8_dat_i),.s8_ack_i(s8_ack),.s8_err_i(s8_err),.s8_rty_i(s8_rty), .s9_dat_o(s9_dat_o),.s9_adr_o(s9_adr),.s9_sel_o(s9_sel),.s9_we_o (s9_we),.s9_cyc_o(s9_cyc),.s9_stb_o(s9_stb), .s9_dat_i(s9_dat_i),.s9_ack_i(s9_ack),.s9_err_i(s9_err),.s9_rty_i(s9_rty), .s10_dat_o(s10_dat_o),.s10_adr_o(s10_adr),.s10_sel_o(s10_sel),.s10_we_o(s10_we),.s10_cyc_o(s10_cyc),.s10_stb_o(s10_stb), .s10_dat_i(s10_dat_i),.s10_ack_i(s10_ack),.s10_err_i(s10_err),.s10_rty_i(s10_rty), .s11_dat_o(s11_dat_o),.s11_adr_o(s11_adr),.s11_sel_o(s11_sel),.s11_we_o(s11_we),.s11_cyc_o(s11_cyc),.s11_stb_o(s11_stb), .s11_dat_i(s11_dat_i),.s11_ack_i(s11_ack),.s11_err_i(s11_err),.s11_rty_i(s11_rty), .s12_dat_o(s12_dat_o),.s12_adr_o(s12_adr),.s12_sel_o(s12_sel),.s12_we_o(s12_we),.s12_cyc_o(s12_cyc),.s12_stb_o(s12_stb), .s12_dat_i(s12_dat_i),.s12_ack_i(s12_ack),.s12_err_i(s12_err),.s12_rty_i(s12_rty), .s13_dat_o(s13_dat_o),.s13_adr_o(s13_adr),.s13_sel_o(s13_sel),.s13_we_o(s13_we),.s13_cyc_o(s13_cyc),.s13_stb_o(s13_stb), .s13_dat_i(s13_dat_i),.s13_ack_i(s13_ack),.s13_err_i(s13_err),.s13_rty_i(s13_rty), .s14_dat_o(s14_dat_o),.s14_adr_o(s14_adr),.s14_sel_o(s14_sel),.s14_we_o(s14_we),.s14_cyc_o(s14_cyc),.s14_stb_o(s14_stb), .s14_dat_i(s14_dat_i),.s14_ack_i(s14_ack),.s14_err_i(s14_err),.s14_rty_i(s14_rty), .s15_dat_i(0),.s15_ack_i(0),.s15_err_i(0),.s15_rty_i(0) ); ////////////////////////////////////////////////////////////////////////////////////////// // Reset Controller system_control sysctrl (.wb_clk_i(wb_clk), // .por_i(por), .ram_loader_rst_o(ram_loader_rst), .wb_rst_o(wb_rst), .ram_loader_done_i(ram_loader_done)); assign config_success = ram_loader_done; reg takeover = 0; wire cpld_start_int, cpld_mode_int, cpld_done_int; always @(posedge wb_clk) if(ram_loader_done) takeover = 1; assign cpld_misc = ~takeover; wire sd_clk, sd_csn, sd_mosi, sd_miso; assign sd_miso = cpld_din; assign cpld_start = takeover ? sd_clk : cpld_start_int; assign cpld_mode = takeover ? sd_csn : cpld_mode_int; assign cpld_done = takeover ? sd_mosi : cpld_done_int; // /////////////////////////////////////////////////////////////////// // RAM Loader wire [31:0] ram_loader_dat, iwb_dat; wire [15:0] ram_loader_adr, iwb_adr; wire [3:0] ram_loader_sel; wire ram_loader_stb, ram_loader_we, ram_loader_ack; wire iwb_ack, iwb_stb; ram_loader #(.AWIDTH(16),.RAM_SIZE(RAM_SIZE)) ram_loader (.clk_i(wb_clk),.rst_i(ram_loader_rst), // CPLD Interface .cfg_clk_i(cpld_clk), .cfg_data_i(cpld_din), .start_o(cpld_start_int), .mode_o(cpld_mode_int), .done_o(cpld_done_int), .detached_i(cpld_detached), // Wishbone Interface .wb_dat_o(ram_loader_dat),.wb_adr_o(ram_loader_adr), .wb_stb_o(ram_loader_stb),.wb_cyc_o(),.wb_sel_o(ram_loader_sel), .wb_we_o(ram_loader_we),.wb_ack_i(ram_loader_ack), .ram_loader_done_o(ram_loader_done)); // Processor aeMB_core_BE #(.ISIZ(16),.DSIZ(16),.MUL(0),.BSF(1)) aeMB (.sys_clk_i(wb_clk), .sys_rst_i(wb_rst), // Instruction Wishbone bus to I-RAM .iwb_stb_o(iwb_stb),.iwb_adr_o(iwb_adr), .iwb_dat_i(iwb_dat),.iwb_ack_i(iwb_ack), // Data Wishbone bus to system bus fabric .dwb_we_o(m0_we),.dwb_stb_o(m0_stb),.dwb_dat_o(m0_dat_i),.dwb_adr_o(m0_adr), .dwb_dat_i(m0_dat_o),.dwb_ack_i(m0_ack),.dwb_sel_o(m0_sel),.dwb_cyc_o(m0_cyc), // Interrupts and exceptions .sys_int_i(proc_int),.sys_exc_i(bus_error) ); assign bus_error = m0_err | m0_rty; // Dual Ported RAM -- D-Port is Slave #0 on main Wishbone // I-port connects directly to processor and ram loader wire flush_icache; ram_harv_cache #(.AWIDTH(15),.RAM_SIZE(RAM_SIZE),.ICWIDTH(7),.DCWIDTH(6)) sys_ram(.wb_clk_i(wb_clk),.wb_rst_i(wb_rst), .ram_loader_adr_i(ram_loader_adr[14:0]), .ram_loader_dat_i(ram_loader_dat), .ram_loader_stb_i(ram_loader_stb), .ram_loader_sel_i(ram_loader_sel), .ram_loader_we_i(ram_loader_we), .ram_loader_ack_o(ram_loader_ack), .ram_loader_done_i(ram_loader_done), .iwb_adr_i(iwb_adr[14:0]), .iwb_stb_i(iwb_stb), .iwb_dat_o(iwb_dat), .iwb_ack_o(iwb_ack), .dwb_adr_i(s0_adr[14:0]), .dwb_dat_i(s0_dat_o), .dwb_dat_o(s0_dat_i), .dwb_we_i(s0_we), .dwb_ack_o(s0_ack), .dwb_stb_i(s0_stb), .dwb_sel_i(s0_sel), .flush_icache(flush_icache)); assign s0_err = 1'b0; assign s0_rty = 1'b0; setting_reg #(.my_addr(7)) sr_icache (.clk(wb_clk),.rst(wb_rst),.strobe(set_stb),.addr(set_addr), .in(set_data),.out(),.changed(flush_icache)); // Buffer Pool, slave #1 wire rd0_ready_i, rd0_ready_o; wire rd1_ready_i, rd1_ready_o; wire rd2_ready_i, rd2_ready_o; wire rd3_ready_i, rd3_ready_o; wire [3:0] rd0_flags, rd1_flags, rd2_flags, rd3_flags; wire [31:0] rd0_dat, rd1_dat, rd2_dat, rd3_dat; wire wr0_ready_i, wr0_ready_o; wire wr1_ready_i, wr1_ready_o; wire wr2_ready_i, wr2_ready_o; wire wr3_ready_i, wr3_ready_o; wire [3:0] wr0_flags, wr1_flags, wr2_flags, wr3_flags; wire [31:0] wr0_dat, wr1_dat, wr2_dat, wr3_dat; buffer_pool #(.BUF_SIZE(9), .SET_ADDR(64)) buffer_pool (.wb_clk_i(wb_clk),.wb_rst_i(wb_rst), .wb_we_i(s1_we),.wb_stb_i(s1_stb),.wb_adr_i(s1_adr),.wb_dat_i(s1_dat_o), .wb_dat_o(s1_dat_i),.wb_ack_o(s1_ack),.wb_err_o(s1_err),.wb_rty_o(s1_rty), .stream_clk(dsp_clk), .stream_rst(dsp_rst), .set_stb(set_stb), .set_addr(set_addr), .set_data(set_data), .status(status),.sys_int_o(buffer_int), .s0(status_b0),.s1(status_b1),.s2(status_b2),.s3(status_b3), .s4(status_b4),.s5(status_b5),.s6(status_b6),.s7(status_b7), // Write Interfaces .wr0_data_i(wr0_dat), .wr0_flags_i(wr0_flags), .wr0_ready_i(wr0_ready_i), .wr0_ready_o(wr0_ready_o), .wr1_data_i(wr1_dat), .wr1_flags_i(wr1_flags), .wr1_ready_i(wr1_ready_i), .wr1_ready_o(wr1_ready_o), .wr2_data_i(wr2_dat), .wr2_flags_i(wr2_flags), .wr2_ready_i(wr2_ready_i), .wr2_ready_o(wr2_ready_o), .wr3_data_i(wr3_dat), .wr3_flags_i(wr3_flags), .wr3_ready_i(wr3_ready_i), .wr3_ready_o(wr3_ready_o), // Read Interfaces .rd0_data_o(rd0_dat), .rd0_flags_o(rd0_flags), .rd0_ready_i(rd0_ready_i), .rd0_ready_o(rd0_ready_o), .rd1_data_o(rd1_dat), .rd1_flags_o(rd1_flags), .rd1_ready_i(rd1_ready_i), .rd1_ready_o(rd1_ready_o), .rd2_data_o(rd2_dat), .rd2_flags_o(rd2_flags), .rd2_ready_i(rd2_ready_i), .rd2_ready_o(rd2_ready_o), .rd3_data_o(rd3_dat), .rd3_flags_o(rd3_flags), .rd3_ready_i(rd3_ready_i), .rd3_ready_o(rd3_ready_o) ); // SPI -- Slave #2 spi_top shared_spi (.wb_clk_i(wb_clk),.wb_rst_i(wb_rst),.wb_adr_i(s2_adr[4:0]),.wb_dat_i(s2_dat_o), .wb_dat_o(s2_dat_i),.wb_sel_i(s2_sel),.wb_we_i(s2_we),.wb_stb_i(s2_stb), .wb_cyc_i(s2_cyc),.wb_ack_o(s2_ack),.wb_err_o(s2_err),.wb_int_o(spi_int), .ss_pad_o({sen_tx_db,sen_tx_adc,sen_tx_dac,sen_rx_db,sen_rx_adc,sen_rx_dac,sen_dac,sen_clk}), .sclk_pad_o(sclk),.mosi_pad_o(mosi),.miso_pad_i(miso) ); assign s2_rty = 1'b0; // I2C -- Slave #3 i2c_master_top #(.ARST_LVL(1)) i2c (.wb_clk_i(wb_clk),.wb_rst_i(wb_rst),.arst_i(1'b0), .wb_adr_i(s3_adr[4:2]),.wb_dat_i(s3_dat_o[7:0]),.wb_dat_o(s3_dat_i[7:0]), .wb_we_i(s3_we),.wb_stb_i(s3_stb),.wb_cyc_i(s3_cyc), .wb_ack_o(s3_ack),.wb_inta_o(i2c_int), .scl_pad_i(scl_pad_i),.scl_pad_o(scl_pad_o),.scl_padoen_o(scl_pad_oen_o), .sda_pad_i(sda_pad_i),.sda_pad_o(sda_pad_o),.sda_padoen_o(sda_pad_oen_o) ); assign s3_dat_i[31:8] = 24'd0; assign s3_err = 1'b0; assign s3_rty = 1'b0; // GPIOs -- Slave #4 nsgpio nsgpio(.clk_i(wb_clk),.rst_i(wb_rst), .cyc_i(s4_cyc),.stb_i(s4_stb),.adr_i(s4_adr[3:0]),.we_i(s4_we), .dat_i(s4_dat_o),.dat_o(s4_dat_i),.ack_o(s4_ack), .atr(atr_lines),.debug_0(debug_gpio_0),.debug_1(debug_gpio_1), .gpio( {io_tx,io_rx} ) ); assign s4_err = 1'b0; assign s4_rty = 1'b0; // Buffer Pool Status -- Slave #5 wb_readback_mux buff_pool_status (.wb_clk_i(wb_clk), .wb_rst_i(wb_rst), .wb_stb_i(s5_stb), .wb_adr_i(s5_adr), .wb_dat_o(s5_dat_i), .wb_ack_o(s5_ack), .word00(status_b0),.word01(status_b1),.word02(status_b2),.word03(status_b3), .word04(status_b4),.word05(status_b5),.word06(status_b6),.word07(status_b7), .word08(status),.word09({sim_mode,27'b0,clock_divider[3:0]}),.word10(32'b0), .word11(32'b0),.word12(32'b0),.word13(32'b0),.word14(32'b0),.word15(32'b0) ); assign s5_err = 1'b0; assign s5_rty = 1'b0; // ///////////////////////////////////////////////////////////////////////// // Ethernet MAC Slave #6 simple_gemac_wrapper simple_gemac_wrapper (.clk125(clk_to_mac), .reset(wb_rst), .GMII_GTX_CLK(GMII_GTX_CLK), .GMII_TX_EN(GMII_TX_EN), .GMII_TX_ER(GMII_TX_ER), .GMII_TXD(GMII_TXD), .GMII_RX_CLK(GMII_RX_CLK), .GMII_RX_DV(GMII_RX_DV), .GMII_RX_ER(GMII_RX_ER), .GMII_RXD(GMII_RXD), .pause_req(0), .pause_time(0), .sys_clk(dsp_clk), .rx_f36_data({wr2_flags,wr2_dat}), .rx_f36_src_rdy(wr2_ready_i), .rx_f36_dst_rdy(wr2_ready_o), .tx_f36_data({rd2_flags,rd2_dat}), .tx_f36_src_rdy(rd2_ready_o), .tx_f36_dst_rdy(rd2_ready_i), .wb_clk(wb_clk), .wb_rst(wb_rst), .wb_stb(s6_stb), .wb_cyc(s6_cyc), .wb_ack(s6_ack), .wb_we(s6_we), .wb_adr(s6_adr), .wb_dat_i(s6_dat_o), .wb_dat_o(s6_dat_i), .mdio(MDIO), .mdc(MDC) ); assign s6_err = 1'b0; assign s6_rty = 1'b0; // ///////////////////////////////////////////////////////////////////////// // Settings Bus -- Slave #7 settings_bus settings_bus (.wb_clk(wb_clk),.wb_rst(wb_rst),.wb_adr_i(s7_adr),.wb_dat_i(s7_dat_o), .wb_stb_i(s7_stb),.wb_we_i(s7_we),.wb_ack_o(s7_ack), .sys_clk(dsp_clk),.strobe(set_stb),.addr(set_addr),.data(set_data)); assign s7_err = 1'b0; assign s7_rty = 1'b0; assign s7_dat_i = 32'd0; // Output control lines wire [7:0] clock_outs, serdes_outs, adc_outs; assign {clock_ready, clk_en[1:0], clk_sel[1:0]} = clock_outs[4:0]; assign {ser_enable, ser_prbsen, ser_loopen, ser_rx_en} = serdes_outs[3:0]; assign {adc_oe_a, adc_on_a, adc_oe_b, adc_on_b } = adc_outs[3:0]; wire phy_reset; assign PHY_RESETn = ~phy_reset; setting_reg #(.my_addr(0)) sr_clk (.clk(wb_clk),.rst(wb_rst),.strobe(s7_ack),.addr(set_addr), .in(set_data),.out(clock_outs),.changed()); setting_reg #(.my_addr(1)) sr_ser (.clk(wb_clk),.rst(wb_rst),.strobe(set_stb),.addr(set_addr), .in(set_data),.out(serdes_outs),.changed()); setting_reg #(.my_addr(2)) sr_adc (.clk(wb_clk),.rst(wb_rst),.strobe(set_stb),.addr(set_addr), .in(set_data),.out(adc_outs),.changed()); setting_reg #(.my_addr(4)) sr_phy (.clk(wb_clk),.rst(wb_rst),.strobe(set_stb),.addr(set_addr), .in(set_data),.out(phy_reset),.changed()); // ///////////////////////////////////////////////////////////////////////// // LEDS // register 8 determines whether leds are controlled by SW or not // 1 = controlled by HW, 0 = by SW // In Rev3 there are only 6 leds, and the highest one is on the ETH connector wire [7:0] led_src, led_sw; wire [7:0] led_hw = {clk_status,serdes_link_up}; setting_reg #(.my_addr(3)) sr_led (.clk(wb_clk),.rst(wb_rst),.strobe(set_stb),.addr(set_addr), .in(set_data),.out(led_sw),.changed()); setting_reg #(.my_addr(8)) sr_led_src (.clk(wb_clk),.rst(wb_rst),.strobe(set_stb),.addr(set_addr), .in(set_data),.out(led_src),.changed()); assign leds = (led_src & led_hw) | (~led_src & led_sw); // ///////////////////////////////////////////////////////////////////////// // Interrupt Controller, Slave #8 wire [15:0] irq={{4'b0, clk_status, serdes_link_up, uart_tx_int, uart_rx_int}, {pps_int,overrun,underrun,PHY_INTn,i2c_int,spi_int,timer_int,buffer_int}}; simple_pic #(.is(16),.dwidth(32)) simple_pic (.clk_i(wb_clk),.rst_i(wb_rst),.cyc_i(s8_cyc),.stb_i(s8_stb),.adr_i(s8_adr[3:2]), .we_i(s8_we),.dat_i(s8_dat_o),.dat_o(s8_dat_i),.ack_o(s8_ack),.int_o(proc_int), .irq(irq) ); assign s8_err = 0; assign s8_rty = 0; // ///////////////////////////////////////////////////////////////////////// // Master Timer, Slave #9 wire [31:0] master_time; timer timer (.wb_clk_i(wb_clk),.rst_i(wb_rst), .cyc_i(s9_cyc),.stb_i(s9_stb),.adr_i(s9_adr[4:2]), .we_i(s9_we),.dat_i(s9_dat_o),.dat_o(s9_dat_i),.ack_o(s9_ack), .sys_clk_i(dsp_clk),.master_time_i(master_time),.int_o(timer_int) ); assign s9_err = 0; assign s9_rty = 0; // ///////////////////////////////////////////////////////////////////////// // UART, Slave #10 simple_uart #(.TXDEPTH(3),.RXDEPTH(3)) uart // depth of 3 is 128 entries (.clk_i(wb_clk),.rst_i(wb_rst), .we_i(s10_we),.stb_i(s10_stb),.cyc_i(s10_cyc),.ack_o(s10_ack), .adr_i(s10_adr[4:2]),.dat_i(s10_dat_o),.dat_o(s10_dat_i), .rx_int_o(uart_rx_int),.tx_int_o(uart_tx_int), .tx_o(uart_tx_o),.rx_i(uart_rx_i),.baud_o(uart_baud_o)); assign s10_err = 0; assign s10_rty = 0; // ///////////////////////////////////////////////////////////////////////// // ATR Controller, Slave #11 wire run_rx, run_tx; reg run_rx_d1; always @(posedge dsp_clk) run_rx_d1 <= run_rx; atr_controller atr_controller (.clk_i(wb_clk),.rst_i(wb_rst), .adr_i(s11_adr[5:0]),.sel_i(s11_sel),.dat_i(s11_dat_o),.dat_o(s11_dat_i), .we_i(s11_we),.stb_i(s11_stb),.cyc_i(s11_cyc),.ack_o(s11_ack), .run_rx(run_rx_d1),.run_tx(run_tx),.master_time(), .ctrl_lines(atr_lines) ); assign s11_err = 0; assign s11_rty = 0; // ////////////////////////////////////////////////////////////////////////// // Time Sync, Slave #12 reg pps_posedge, pps_negedge, pps_pos_d1, pps_neg_d1; always @(negedge dsp_clk) pps_negedge <= pps_in; always @(posedge dsp_clk) pps_posedge <= pps_in; always @(posedge dsp_clk) pps_pos_d1 <= pps_posedge; always @(posedge dsp_clk) pps_neg_d1 <= pps_negedge; wire pps_o; time_sync time_sync (.wb_clk_i(wb_clk),.rst_i(wb_rst), .cyc_i(s12_cyc),.stb_i(s12_stb),.adr_i(s12_adr[4:2]), .we_i(s12_we),.dat_i(s12_dat_o),.dat_o(s12_dat_i),.ack_o(s12_ack), .sys_clk_i(dsp_clk),.master_time_o(master_time), .pps_posedge(pps_posedge),.pps_negedge(pps_negedge), .exp_pps_in(exp_pps_in),.exp_pps_out(exp_pps_out), .int_o(pps_int),.epoch_o(epoch),.pps_o(pps_o) ); assign s12_err = 0; assign s12_rty = 0; // ///////////////////////////////////////////////////////////////////////// // SD Card Reader / Writer, Slave #13 sd_spi_wb sd_spi_wb (.clk(wb_clk),.rst(wb_rst), .sd_clk(sd_clk),.sd_csn(sd_csn),.sd_mosi(sd_mosi),.sd_miso(sd_miso), .wb_cyc_i(s13_cyc),.wb_stb_i(s13_stb),.wb_we_i(s13_we), .wb_adr_i(s13_adr[3:2]),.wb_dat_i(s13_dat_o),.wb_dat_o(s13_dat_i), .wb_ack_o(s13_ack) ); assign s13_err = 0; assign s13_rty = 0; // ///////////////////////////////////////////////////////////////////////// // DSP wire [31:0] sample_rx, sample_tx; wire strobe_rx, strobe_tx; rx_control #(.FIFOSIZE(10)) rx_control (.clk(dsp_clk), .rst(dsp_rst), .set_stb(set_stb),.set_addr(set_addr),.set_data(set_data), .master_time(master_time),.overrun(overrun), .wr_dat_o(wr1_dat), .wr_flags_o(wr1_flags), .wr_ready_o(wr1_ready_i), .wr_ready_i(wr1_ready_o), .sample(sample_rx), .run(run_rx), .strobe(strobe_rx), .fifo_occupied(dsp_rx_occ),.fifo_full(dsp_rx_full),.fifo_empty(dsp_rx_empty), .debug_rx(debug_rx) ); // dummy_rx dsp_core_rx dsp_core_rx dsp_core_rx (.clk(dsp_clk),.rst(dsp_rst), .set_stb(set_stb),.set_addr(set_addr),.set_data(set_data), .adc_a(adc_a),.adc_ovf_a(adc_ovf_a),.adc_b(adc_b),.adc_ovf_b(adc_ovf_b), .sample(sample_rx), .run(run_rx_d1), .strobe(strobe_rx), .debug(debug_rx_dsp) ); tx_control #(.FIFOSIZE(10)) tx_control (.clk(dsp_clk), .rst(dsp_rst), .set_stb(set_stb),.set_addr(set_addr),.set_data(set_data), .master_time(master_time),.underrun(underrun), .rd_dat_i(rd1_dat), .rd_flags_i(rd_flags), .rd_ready_i(rd1_ready_o), .rd_ready_o(rd1_ready_i), .sample(sample_tx), .run(run_tx), .strobe(strobe_tx), .fifo_occupied(dsp_tx_occ),.fifo_full(dsp_tx_full),.fifo_empty(dsp_tx_empty), .debug(debug_txc) ); dsp_core_tx dsp_core_tx (.clk(dsp_clk),.rst(dsp_rst), .set_stb(set_stb),.set_addr(set_addr),.set_data(set_data), .dac_a(dac_a),.dac_b(dac_b), .sample(sample_tx), .run(run_tx), .strobe(strobe_tx), .debug(debug_tx_dsp) ); assign dsp_rst = wb_rst; // /////////////////////////////////////////////////////////////////////////////////// // SERDES serdes #(.TXFIFOSIZE(9),.RXFIFOSIZE(9)) serdes (.clk(dsp_clk),.rst(dsp_rst), .ser_tx_clk(ser_tx_clk),.ser_t(ser_t),.ser_tklsb(ser_tklsb),.ser_tkmsb(ser_tkmsb), .rd_dat_i(rd0_dat),.rd_flags_i(rd0_flags),.rd_ready_o(rd0_ready_i),.rd_ready_i(rd0_ready_o), .ser_rx_clk(ser_rx_clk),.ser_r(ser_r),.ser_rklsb(ser_rklsb),.ser_rkmsb(ser_rkmsb), .wr_dat_o(wr0_dat),.wr_flags_o(wr0_flags),.wr_ready_o(wr0_ready_i),.wr_ready_i(wr0_ready_o), .tx_occupied(ser_tx_occ),.tx_full(ser_tx_full),.tx_empty(ser_tx_empty), .rx_occupied(ser_rx_occ),.rx_full(ser_rx_full),.rx_empty(ser_rx_empty), .serdes_link_up(serdes_link_up),.debug0(debug_serdes0), .debug1(debug_serdes1) ); // /////////////////////////////////////////////////////////////////////////////////// // External RAM Interface localparam PAGE_SIZE = 10; // PAGE SIZE is in bytes, 10 = 1024 bytes wire [15:0] bus2ram, ram2bus; wire [15:0] bridge_adr; wire [1:0] bridge_sel; wire bridge_stb, bridge_cyc, bridge_we, bridge_ack; wire [19:0] page; wire [19:0] wb_ram_adr = {page[19:PAGE_SIZE],bridge_adr[PAGE_SIZE-1:0]}; setting_reg #(.my_addr(6)) sr_page (.clk(wb_clk),.rst(wb_rst),.strobe(set_stb),.addr(set_addr), .in(set_data),.out(page),.changed()); wb_bridge_16_32 bridge (.wb_clk(wb_clk),.wb_rst(wb_rst), .A_cyc_i(s14_cyc),.A_stb_i(s14_stb),.A_we_i(s14_we),.A_sel_i(s14_sel), .A_adr_i(s14_adr),.A_dat_i(s14_dat_o),.A_dat_o(s14_dat_i),.A_ack_o(s14_ack), .B_cyc_o(bridge_cyc),.B_stb_o(bridge_stb),.B_we_o(bridge_we),.B_sel_o(bridge_sel), .B_adr_o(bridge_adr),.B_dat_o(bus2ram),.B_dat_i(ram2bus),.B_ack_i(bridge_ack)); wb_zbt16_b wb_zbt16_b (.clk(wb_clk),.rst(wb_rst), .wb_adr_i(wb_ram_adr),.wb_dat_i(bus2ram),.wb_dat_o(ram2bus),.wb_sel_i(bridge_sel), .wb_cyc_i(bridge_cyc),.wb_stb_i(bridge_stb),.wb_ack_o(bridge_ack),.wb_we_i(bridge_we), .sram_clk(RAM_CLK),.sram_a(RAM_A),.sram_d(RAM_D[15:0]),.sram_we(RAM_WEn), .sram_bw(),.sram_adv(RAM_LDn),.sram_ce(RAM_CENn),.sram_oe(RAM_OEn), .sram_mode(),.sram_zz() ); assign s14_err = 0; assign s14_rty = 0; assign RAM_CE1n = 0; assign RAM_D[17:16] = 2'bzz; // ///////////////////////////////////////////////////////////////////////////////////////// // Debug Pins // FIFO Level Debugging reg [31:0] host_to_dsp_fifo,dsp_to_host_fifo,eth_mac_debug,serdes_to_dsp_fifo,dsp_to_serdes_fifo; always @(posedge dsp_clk) serdes_to_dsp_fifo <= { {ser_rx_full,ser_rx_empty,ser_rx_occ[13:0]}, {dsp_tx_full,dsp_tx_empty,dsp_tx_occ[13:0]} }; always @(posedge dsp_clk) dsp_to_serdes_fifo <= { {ser_tx_full,ser_tx_empty,ser_tx_occ[13:0]}, {dsp_rx_full,dsp_rx_empty,dsp_rx_occ[13:0]} }; always @(posedge dsp_clk) host_to_dsp_fifo <= { {eth_rx_full,eth_rx_empty,eth_rx_occ[13:0]}, {dsp_tx_full,dsp_tx_empty,dsp_tx_occ[13:0]} }; always @(posedge dsp_clk) dsp_to_host_fifo <= { {eth_tx_full,eth_tx_empty,eth_tx_occ[13:0]}, {dsp_rx_full,dsp_rx_empty,dsp_rx_occ[13:0]} }; always @(posedge dsp_clk) eth_mac_debug <= { { 6'd0, GMII_TX_EN, GMII_RX_DV, debug_mac0[7:0]}, {eth_rx_full2, eth_rx_empty2, eth_rx_occ2[13:0]} }; assign debug_clk[0] = 0; assign debug_clk[1] = dsp_clk; assign debug = host_to_dsp_fifo; // debug_mux ? host_to_dsp_fifo : dsp_to_host_fifo; assign debug_gpio_0 = eth_mac_debug; assign debug_gpio_1 = 0; endmodule // u2_core // wire debug_mux; // setting_reg #(.my_addr(5)) sr_debug (.clk(wb_clk),.rst(wb_rst),.strobe(set_stb),.addr(set_addr), // .in(set_data),.out(debug_mux),.changed()); //assign debug = debug_mux ? host_to_dsp_fifo : dsp_to_host_fifo; //assign debug = debug_mux ? serdes_to_dsp_fifo : dsp_to_serdes_fifo; //assign debug = {{strobe_rx,/*adc_ovf_a*/ 1'b0,adc_a}, // {run_rx,/*adc_ovf_b*/ 1'b0,adc_b}}; //assign debug = debug_tx_dsp; //assign debug = debug_serdes0; //assign debug_gpio_0 = 0; //debug_serdes0; //assign debug_gpio_1 = 0; //debug_serdes1; // assign debug={{3'b0, wb_clk, wb_rst, dsp_rst, por, config_success}, // {8'b0}, // {3'b0,ram_loader_ack, ram_loader_stb, ram_loader_we,ram_loader_rst,ram_loader_done }, // {cpld_start,cpld_mode,cpld_done,cpld_din,cpld_clk,cpld_detached,cpld_misc,cpld_init_b} }; //assign debug = {dac_a,dac_b}; /* assign debug = {{ram_loader_done, takeover, 6'd0}, {1'b0, cpld_start_int, cpld_mode_int, cpld_done_int, sd_clk, sd_csn, sd_miso, sd_mosi}, {8'd0}, {cpld_start, cpld_mode, cpld_done, cpld_din, cpld_misc, cpld_detached, cpld_clk, cpld_init_b}}; */ /*assign debug = host_to_dsp_fifo; assign debug_gpio_0 = eth_mac_debug; assign debug_gpio_1 = 0; */ // Assign various commonly used debug buses. /* wire [31:0] debug_rx_1 = {uart_tx_o,GMII_TX_EN,strobe_rx,overrun,proc_int,buffer_int,timer_int,GMII_RX_DV, irq[7:0], GMII_RXD, GMII_TXD}; wire [31:0] debug_rx_2 = { 5'd0, s8_we, s8_stb, s8_ack, debug_rx[23:0] }; wire [31:0] debug_time = {uart_tx_o, 7'b0, irq[7:0], 6'b0, GMII_RX_DV, GMII_TX_EN, 4'b0, exp_pps_in, exp_pps_out, pps_in, pps_int}; wire [31:0] debug_irq = {uart_tx_o, iwb_adr, iwb_ack, irq[7:0], proc_int, 7'b0 }; wire [31:0] debug_eth = {{uart_tx_o,proc_int,underrun,buffer_int,wr2_ready,wr2_error,wr2_done,wr2_write}, {8'd0}, {8'd0}, {GMII_TX_EN,GMII_RX_DV,Rx_mac_empty,Rx_mac_rd,Rx_mac_err,Rx_mac_sop,Rx_mac_eop,wr2_full} }; assign debug_serdes0 = { { rd0_dat[7:0] }, { ser_tx_clk, ser_tkmsb, ser_tklsb, rd0_sop, rd0_eop, rd0_read, rd0_error, rd0_done }, { ser_t[15:8] }, { ser_t[7:0] } }; assign debug_serdes1 = { {1'b0,proc_int,underrun,buffer_int,wr0_ready,wr0_error,wr0_done,wr0_write}, { 1'b0, ser_rx_clk, ser_rkmsb, ser_rklsb, ser_enable, ser_prbsen, ser_loopen, ser_rx_en }, { ser_r[15:8] }, { ser_r[7:0] } }; assign debug_gpio_1 = {uart_tx_o,7'd0, 3'd0,rd1_sop,rd1_eop,rd1_read,rd1_done,rd1_error, debug_txc[15:0]}; assign debug_gpio_1 = debug_rx; assign debug_gpio_1 = debug_serdes1; assign debug_gpio_1 = debug_eth; */