`timescale 1ns / 1ps ////////////////////////////////////////////////////////////////////////////////// // Company: (C) Athree, 2009 // Engineer: Dmitry Rozhdestvenskiy // Email dmitry.rozhdestvenskiy@srisc.com dmitryr@a3.spb.ru divx4log@narod.ru // // Design Name: SPARC SoC single-core top level for Altera StratixIV devkit // Module Name: W1 // Project Name: SPARC SoC single-core // // LICENSE: // This is a Free Hardware Design; you can redistribute it and/or // modify it under the terms of the GNU General Public License // version 2 as published by the Free Software Foundation. // The above named program is distributed in the hope that it will // be useful, but WITHOUT ANY WARRANTY; without even the implied // warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. // See the GNU General Public License for more details. // ////////////////////////////////////////////////////////////////////////////////// module W1( input clk_in, input sysrst, // ddr3 memory interface inout [63:0] ddr3_dq, inout [ 7:0] ddr3_dqs, inout [ 7:0] ddr3_dqs_n, inout ddr3_ck, inout ddr3_ck_n, //output ddr3_reset, output [12:0] ddr3_a, output [ 1:0] ddr3_ba, output ddr3_ras_n, output ddr3_cas_n, output ddr3_we_n, output ddr3_cs_n, output ddr3_odt, output ddr3_ce, output [ 7:0] ddr3_dm, //output phy_init_done, // LED //input rup, //input rdn, // Console interface input srx, output stx, //input [1:0] flash_rev, /* MII interface replaced by SGMII input mtx_clk_pad_i, output [3:0] mtxd_pad_o, output mtxen_pad_o, output mtxerr_pad_o, input mrx_clk_pad_i, input [3:0] mrxd_pad_i, input mrxdv_pad_i, input mrxerr_pad_i, input mcoll_pad_i, input mcrs_pad_i, */ //SGMII //output mdc, //inout md, //output eth_rst, //output eth_tx, //input eth_rx, //output led_10, //output led_100, //output led_1000, //output led_link, //output led_disp_err, //output led_char_err, //output led_an, output [21:0] flash_addr, input [15:0] flash_data, output flash_oen, output flash_wen, output flash_cen, output flash_clk, output flash_adv, //FIXME it seems useless output flash_rst ); wire pllclk; wire sysclk; wire wb_clk_i; wire wb_rst_i; wire [35:0] CONTROL0; wire [35:0] CONTROL1; wire [35:0] CONTROL2; wire [1:0] VIO_SIG; reg [31:0] cycle_count; assign flash_clk=wb_clk_i; assign flash_adv=0; assign flash_rst=!wb_rst_i; wire [63:0] m0_dat_i; wire [63:0] m0_dat_o; wire [63:0] m0_adr_i; wire [ 7:0] m0_sel_i; wire m0_we_i; wire m0_cyc_i; wire m0_stb_i; wire m0_ack_o; wire [63:0] m1_dat_i; wire [63:0] m1_dat_o; wire [63:0] m1_adr_i; wire [ 7:0] m1_sel_i; wire m1_we_i; wire m1_cyc_i; wire m1_stb_i; wire m1_ack_o; wire [63:0] s0_dat_i; wire [63:0] s0_dat_o; wire [63:0] s0_adr_o; wire [ 7:0] s0_sel_o; wire s0_we_o; wire s0_cyc_o; wire s0_stb_o; wire s0_ack_i; wire [63:0] s1_dat_i; wire [63:0] s1_dat_o; wire [63:0] s1_adr_o; wire [ 7:0] s1_sel_o; wire s1_we_o; wire s1_cyc_o; wire s1_stb_o; wire s1_ack_i; wire [63:0] s2_dat_i; wire [63:0] s2_dat_o; wire [63:0] s2_adr_o; wire [ 7:0] s2_sel_o; wire s2_we_o; wire s2_cyc_o; wire s2_stb_o; wire s2_ack_i; wire [63:0] s3_dat_i; wire [63:0] s3_dat_o; wire [63:0] s3_adr_o; wire [ 7:0] s3_sel_o; wire s3_we_o; wire s3_cyc_o; wire s3_stb_o; wire s3_ack_i; wire [63:0] s4_dat_i; wire [63:0] s4_dat_o; wire [63:0] s4_adr_o; wire [ 7:0] s4_sel_o; wire s4_we_o; wire s4_cyc_o; wire s4_stb_o; wire s4_ack_i; wb_conbus_top wishbone ( .clk_i(wb_clk_i), .rst_i(wb_rst_i), //CPU .m0_dat_i(m0_dat_i), .m0_dat_o(m0_dat_o), .m0_adr_i(m0_adr_i), .m0_sel_i(m0_sel_i), .m0_we_i(m0_we_i), .m0_cyc_i(m0_cyc_i), .m0_stb_i(m0_stb_i), .m0_ack_o(m0_ack_o), .m0_err_o(), .m0_rty_o(), .m0_cab_i(1'b0), //Ethernet .m1_dat_i(m1_dat_i), .m1_dat_o(m1_dat_o), .m1_adr_i(m1_adr_i), .m1_sel_i(m1_sel_i), .m1_we_i(m1_we_i), .m1_cyc_i(m1_cyc_i), .m1_stb_i(m1_stb_i), .m1_ack_o(m1_ack_o), .m1_err_o(m1_err_o), .m1_rty_o(m1_rty_o), .m1_cab_i(m1_cab_i), .m2_dat_i(64'h0000000000000000), .m2_dat_o(), .m2_adr_i(64'h0000000000000000), .m2_sel_i(8'h00), .m2_we_i(1'b0), .m2_cyc_i(1'b0), .m2_stb_i(1'b0), .m2_ack_o(), .m2_err_o(), .m2_rty_o(), .m2_cab_i(1'b0), .m3_dat_i(64'h0000000000000000), .m3_dat_o(), .m3_adr_i(64'h0000000000000000), .m3_sel_i(8'h00), .m3_we_i(1'b0), .m3_cyc_i(1'b0), .m3_stb_i(1'b0), .m3_ack_o(), .m3_err_o(), .m3_rty_o(), .m3_cab_i(1'b0), .m4_dat_i(64'h0000000000000000), .m4_dat_o(), .m4_adr_i(64'h0000000000000000), .m4_sel_i(8'h00), .m4_we_i(1'b0), .m4_cyc_i(1'b0), .m4_stb_i(1'b0), .m4_ack_o(), .m4_err_o(), .m4_rty_o(), .m4_cab_i(1'b0), .m5_dat_i(64'h0000000000000000), .m5_dat_o(), .m5_adr_i(64'h0000000000000000), .m5_sel_i(8'h00), .m5_we_i(1'b0), .m5_cyc_i(1'b0), .m5_stb_i(1'b0), .m5_ack_o(), .m5_err_o(), .m5_rty_o(), .m5_cab_i(1'b0), .m6_dat_i(64'h0000000000000000), .m6_dat_o(), .m6_adr_i(64'h0000000000000000), .m6_sel_i(8'h00), .m6_we_i(1'b0), .m6_cyc_i(1'b0), .m6_stb_i(1'b0), .m6_ack_o(), .m6_err_o(), .m6_rty_o(), .m6_cab_i(1'b0), .m7_dat_i(64'h0000000000000000), .m7_dat_o(), .m7_adr_i(64'h0000000000000000), .m7_sel_i(8'h00), .m7_we_i(1'b0), .m7_cyc_i(1'b0), .m7_stb_i(1'b0), .m7_ack_o(), .m7_err_o(), .m7_rty_o(), .m7_cab_i(1'b0), //DRAM .s0_dat_i(s0_dat_i), .s0_dat_o(s0_dat_o), .s0_adr_o(s0_adr_o), .s0_sel_o(s0_sel_o), .s0_we_o(s0_we_o), .s0_cyc_o(s0_cyc_o), .s0_stb_o(s0_stb_o), .s0_ack_i(s0_ack_i), .s0_err_i(1'b0), .s0_rty_i(1'b0), .s0_cab_o(), //Flash .s1_dat_i(s1_dat_i), .s1_dat_o(s1_dat_o), .s1_adr_o(s1_adr_o), .s1_sel_o(s1_sel_o), .s1_we_o(s1_we_o), .s1_cyc_o(s1_cyc_o), .s1_stb_o(s1_stb_o), .s1_ack_i(s1_ack_i), .s1_err_i(s1_err_i), .s1_rty_i(s1_rty_i), .s1_cab_o(s1_cab_o), //Ethernet .s2_dat_i(s2_dat_i), .s2_dat_o(s2_dat_o), .s2_adr_o(s2_adr_o), .s2_sel_o(s2_sel_o), .s2_we_o(s2_we_o), .s2_cyc_o(s2_cyc_o), .s2_stb_o(s2_stb_o), .s2_ack_i(1'b0), .s2_err_i(1'b0), .s2_rty_i(1'b0), //.s2_ack_i(s2_ack_i), //.s2_err_i(s2_err_i), //.s2_rty_i(s2_rty_i), .s2_cab_o(s2_cab_o), //UART .s3_dat_i({s3_dat_i[31:0],s3_dat_i[31:0]}), .s3_dat_o(s3_dat_o), .s3_adr_o(s3_adr_o), .s3_sel_o(s3_sel_o), .s3_we_o(s3_we_o), .s3_cyc_o(s3_cyc_o), .s3_stb_o(s3_stb_o), .s3_ack_i(s3_ack_i), .s3_err_i(1'b0), .s3_rty_i(1'b0), .s3_cab_o(), //Second flash interface for fff8xxxxxx ram disk addressing .s4_dat_i(s4_dat_i), .s4_dat_o(s4_dat_o), .s4_adr_o(s4_adr_o), .s4_sel_o(s4_sel_o), .s4_we_o(s4_we_o), .s4_cyc_o(s4_cyc_o), .s4_stb_o(s4_stb_o), .s4_ack_i(s4_ack_i), .s4_err_i(s4_err_i), .s4_rty_i(s4_rty_i), .s4_cab_o(s4_cab_o), .s5_dat_i(64'h0000000000000000), .s5_dat_o(), .s5_adr_o(), .s5_sel_o(), .s5_we_o(), .s5_cyc_o(), .s5_stb_o(), .s5_ack_i(1'b0), .s5_err_i(1'b0), .s5_rty_i(1'b0), .s5_cab_o(), .s6_dat_i(64'h0000000000000000), .s6_dat_o(), .s6_adr_o(), .s6_sel_o(), .s6_we_o(), .s6_cyc_o(), .s6_stb_o(), .s6_ack_i(1'b0), .s6_err_i(1'b0), .s6_rty_i(1'b0), .s6_cab_o(), .s7_dat_i(64'h0000000000000000), .s7_dat_o(), .s7_adr_o(), .s7_sel_o(), .s7_we_o(), .s7_cyc_o(), .s7_stb_o(), .s7_ack_i(1'b0), .s7_err_i(1'b0), .s7_rty_i(1'b0), .s7_cab_o() ); s1_top cpu ( .sys_clock_i(wb_clk_i), .sys_reset_i(wb_rst_i), .eth_irq_i(eth_irq), .wbm_ack_i(m0_ack_o), .wbm_data_i(m0_dat_o), .wbm_cycle_o(m0_cyc_i), .wbm_strobe_o(m0_stb_i), .wbm_we_o(m0_we_i), .wbm_addr_o(m0_adr_i), .wbm_data_o(m0_dat_i), .wbm_sel_o(m0_sel_i) ); wire [7:0] fifo_used; dram_wb dram_wb_inst ( .clk200(sysclk), //.clk200(clk_in), //.rup(rup), //.rdn(rdn), .wb_clk_i(wb_clk_i), .wb_rst_i(wb_rst_i), .wb_dat_i(s0_dat_o), .wb_dat_o(s0_dat_i), .wb_adr_i(s0_adr_o), .wb_sel_i(s0_sel_o), .wb_we_i(s0_we_o), .wb_cyc_i(s0_cyc_o), .wb_stb_i(s0_stb_o), .wb_ack_o(s0_ack_i), .wb_err_o(s0_err_i), .wb_rty_o(s0_rty_i), .wb_cab_i(s0_cab_o), .ddr2_dq(ddr3_dq), .ddr2_dqs(ddr3_dqs), .ddr2_dqs_n(ddr3_dqs_n), .ddr2_ck(ddr3_ck), .ddr2_ck_n(ddr3_ck_n), //.ddr3_reset(ddr3_reset), .ddr2_a(ddr3_a), .ddr2_ba(ddr3_ba), .ddr2_ras_n(ddr3_ras_n), .ddr2_cas_n(ddr3_cas_n), .ddr2_we_n(ddr3_we_n), .ddr2_cs_n(ddr3_cs_n), .ddr2_odt(ddr3_odt), .ddr2_ce(ddr3_ce), .ddr2_dm(ddr3_dm), .phy_init_done(phy_init_done), .dcm_locked(dcm_locked), .fifo_used(fifo_used), .sysrst(sysrst) ); WBFLASH flash_inst ( .wb_clk_i(wb_clk_i), .wb_rst_i(wb_rst_i), .wb_dat_i(s1_dat_o), .wb_dat_o(s1_dat_i), .wb_adr_i(s1_adr_o), .wb_sel_i(s1_sel_o), .wb_we_i(s1_we_o), .wb_cyc_i(s1_cyc_o), .wb_stb_i(s1_stb_o), .wb_ack_o(s1_ack_i), .wb_err_o(s1_err_i), .wb_rty_o(s1_rty_i), .wb_cab_i(s1_cab_o), .wb1_dat_i(s4_dat_o), .wb1_dat_o(s4_dat_i), .wb1_adr_i(s4_adr_o), .wb1_sel_i(s4_sel_o), .wb1_we_i(s4_we_o), .wb1_cyc_i(s4_cyc_o), .wb1_stb_i(s4_stb_o), .wb1_ack_o(s4_ack_i), .wb1_err_o(s4_err_i), .wb1_rty_o(s4_rty_i), .wb1_cab_i(s4_cab_o), .flash_addr(flash_addr), .flash_data(flash_data), .flash_oen(flash_oen), .flash_wen(flash_wen), .flash_cen(flash_cen) //.flash_rev(flash_rev) ); uart_top uart16550 ( .wb_clk_i(wb_clk_i), .wb_rst_i(wb_rst_i), .wb_adr_i({s3_adr_o[4:3],s3_sel_o[3:0]==4'h0 ? 1'b0:1'b1,2'b00}), .wb_dat_i(s3_sel_o[3:0]==4'h0 ? {s3_dat_o[39:32],s3_dat_o[47:40],s3_dat_o[55:48],s3_dat_o[63:56]}:{s3_dat_o[7:0],s3_dat_o[15:8],s3_dat_o[23:16],s3_dat_o[31:24]}), .wb_dat_o({s3_dat_i[7:0],s3_dat_i[15:8],s3_dat_i[23:16],s3_dat_i[31:24]}), .wb_we_i(s3_we_o), .wb_stb_i(s3_stb_o), .wb_cyc_i(s3_cyc_o), .wb_ack_o(s3_ack_i), .wb_sel_i(s3_sel_o[3:0]==4'h0 ? {s3_sel_o[4],s3_sel_o[5],s3_sel_o[6],s3_sel_o[7]}:{s3_sel_o[0],s3_sel_o[1],s3_sel_o[2],s3_sel_o[3]}), // Big endian .int_o(int_o), .stx_pad_o(stx), .srx_pad_i(srx), .rts_pad_o(), .cts_pad_i(1'b1), .dtr_pad_o(), .dsr_pad_i(1'b1), .ri_pad_i(1'b0), .dcd_pad_i(1'b1), .baud_o(baud_o) ); /* // OpenCores 10/100 Ethernet MAC eth_top eth_mac ( .wb_clk_i(wb_clk_i), .wb_rst_i(wb_rst_i), .wb_dat_i(wb_sel_i[7:4]==4'b0 ? {wb_dat_i[7:0],wb_dat_i[15:8],wb_dat_i[23:16],wb_dat_i[31:24]}:{wb_dat_i[39:32],wb_dat_i[47:40],wb_dat_i[55:48],wb_dat_i[63:56]}), .wb_dat_o(dat_o), .wb_adr_i(wb_adr_i[31:0]), .wb_sel_i(wb_sel_i[7:4]==4'b0 ? {wb_sel_i[0],wb_sel_i[1],wb_sel_i[2],wb_sel_i[3]}:{wb_sel_i[4],wb_sel_i[5],wb_sel_i[6],wb_sel_i[7]}), .wb_we_i(wb_we_i), .wb_cyc_i(wb_cyc_i), .wb_stb_i(wb_stb_i), .wb_ack_o(wb_ack_o), .wb_err_o(wb_err_o), .m_wb_adr_o(m_wb_adr_o[31:0]), .m_wb_sel_o(sel_o), .m_wb_we_o(m_wb_we_o), .m_wb_dat_o(mdat_o), .m_wb_dat_i(m_wb_adr_o[2] ? {m_wb_dat_i[7:0],m_wb_dat_i[15:8],m_wb_dat_i[23:16],m_wb_dat_i[31:24]}:{m_wb_dat_i[39:32],m_wb_dat_i[47:40],m_wb_dat_i[55:48],m_wb_dat_i[63:56]}), .m_wb_cyc_o(m_wb_cyc_o), .m_wb_stb_o(m_wb_stb_o), .m_wb_ack_i(m_wb_ack_i), .m_wb_err_i(m_wb_err_i), .mtx_clk_pad_i(mtx_clk), .mtxd_pad_o(mtxd), .mtxen_pad_o(mtxen), .mtxerr_pad_o(mtxerr), .mrx_clk_pad_i(mrx_clk), .mrxd_pad_i(mrxd), .mrxdv_pad_i(mrxdv), .mrxerr_pad_i(mrxerr), .mcoll_pad_i(mcoll), .mcrs_pad_i(mcrs), .mdc_pad_o(mdc), .md_pad_i(md_i), .md_pad_o(md_o), .md_padoe_o(md_oe), .int_o(int_eth) ); */ /*eth_sgmii eth_ctrl ( .wb_clk_i(wb_clk_i), .wb_rst_i(wb_rst_i), .sysclk(sysclk), .wb_dat_i(s2_dat_o), .wb_dat_o(s2_dat_i), .wb_adr_i(s2_adr_o), .wb_sel_i(s2_sel_o), .wb_we_i(s2_we_o), .wb_cyc_i(s2_cyc_o), .wb_stb_i(s2_stb_o), .wb_ack_o(s2_ack_i), .wb_err_o(s2_err_i), .m_wb_adr_o(m1_adr_i), .m_wb_sel_o(m1_sel_i), .m_wb_we_o(m1_we_i), .m_wb_dat_o(m1_dat_i), .m_wb_dat_i(m1_dat_o), .m_wb_cyc_o(m1_cyc_i), .m_wb_stb_o(m1_stb_i), .m_wb_ack_i(m1_ack_o), .m_wb_err_i(m1_err_o), .sgmii_tx(eth_tx), .sgmii_rx(eth_rx), .led_10(led_10), .led_100(led_100), .led_1000(led_1000), .led_an(led_an), .led_disp_err(led_disp_err), .led_char_err(led_char_err), .led_link(led_link), .md(md), .mdc(mdc), .int_eth(eth_int) ); */ assign eth_rst=!wb_rst_i; // PHY reset wire sysrst_p; assign sysrst_p=!sysrst; IBUFG ibufg_inst (.O(sysclk),.I(clk_in)); BUFG bufg_inst (.O(pllclk),.I(sysclk)); // Standard PLL pll pll_inst( .RST_IN(sysrst_p), .CLKIN1_IN(pllclk), .CLKOUT0_OUT(wb_clk_i), //Up to 75 MHz on Stratix IV .LOCKED_OUT(dcm_locked) ); assign wb_rst_i=(!dcm_locked || !phy_init_done); //reg [223:0] ILA_DATA; /* [63:0] address [127:64] data to core [191:128] data from core [199:192] sel [200] cyc [201] stb [202] we [203] ack */ // SignalTap II /*ST ila( .acq_clk(wb_clk_i), .acq_data_in(ILA_DATA), .acq_trigger_in(ILA_DATA), .storage_enable(ILA_DATA[203]) // wb_ack );*/ // InSystem Sources /*VIO vio_inst( .probe(0), .source_clk(wb_clk_i), .source(VIO_SIG) );*/ /*always @(posedge wb_clk_i or posedge wb_rst_i) if(wb_rst_i) cycle_count<=0; else cycle_count<=cycle_count+1; always @( * ) begin case(VIO_SIG) 2'b00: begin ILA_DATA[63:0]<=m0_adr_i; ILA_DATA[127:64]<=m0_dat_o; ILA_DATA[191:128]<=m0_dat_i; ILA_DATA[199:192]<=m0_sel_i; ILA_DATA[200]<=m0_cyc_i; ILA_DATA[201]<=m0_stb_i; ILA_DATA[202]<=m0_we_i; ILA_DATA[203]<=m0_ack_o; end 2'b01: begin ILA_DATA[63:0]<=m1_adr_i; ILA_DATA[127:64]<=m1_dat_o; ILA_DATA[191:128]<=m1_dat_i; ILA_DATA[199:192]<=m1_sel_i; ILA_DATA[200]<=m1_cyc_i; ILA_DATA[201]<=m1_stb_i; ILA_DATA[202]<=m1_we_i; ILA_DATA[203]<=m1_ack_o; end 2'b10: begin ILA_DATA[63:0]<=s2_adr_o; ILA_DATA[127:64]<=s2_dat_o; ILA_DATA[191:128]<=s2_dat_i; ILA_DATA[199:192]<=s2_sel_o; ILA_DATA[200]<=s2_cyc_o; ILA_DATA[201]<=s2_stb_o; ILA_DATA[202]<=s2_we_o; ILA_DATA[203]<=s2_ack_i; end 2'b11: begin ILA_DATA[63:0]<=s4_adr_o; ILA_DATA[127:64]<=s4_dat_o; ILA_DATA[191:128]<=s4_dat_i; ILA_DATA[199:192]<=s4_sel_o; ILA_DATA[200]<=s4_cyc_o; ILA_DATA[201]<=s4_stb_o; ILA_DATA[202]<=s4_we_o; ILA_DATA[203]<=s4_ack_i; end endcase ILA_DATA[204]<=stx; ILA_DATA[205]<=srx; ILA_DATA[206]<=baud_o; //ILA_DATA[220:207]<=cycle_count[31:18]; ILA_DATA[220:213]<=fifo_used; ILA_DATA[212:207]<=cycle_count[31:26]; ILA_DATA[221]<=dcm_locked; ILA_DATA[222]<=wb_rst_i; ILA_DATA[223]<=phy_init_done; end */ endmodule