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- //
- // Top level module for the FPGA on the MAX80 board by
- // Per Mårtensson and H. Peter Anvin
- //
- // This is for MAX80 as slave on the ABC-bus.
- //
- // Sharing JTAG pins (via JTAGEN)
- `undef SHARED_JTAG
- module max80 (
- // Clock oscillator
- input clock_48, // 48 MHz
- // ABC-bus
- input abc_clk, // ABC-bus 3 MHz clock
- input [15:0] abc_a, // ABC address bus
- inout [7:0] abc_d, // ABC data bus
- output abc_d_oe, // Data bus output enable
- input abc_rst_n, // ABC bus reset strobe
- input abc_cs_n, // ABC card select strobe
- input [4:0] abc_out_n, // OUT, C1-C4 strobe
- input [1:0] abc_inp_n, // INP, STATUS strobe
- input abc_xmemfl_n, // Memory read strobe
- input abc_xmemw800_n, // Memory write strobe (ABC800)
- input abc_xmemw80_n, // Memory write strobe (ABC80)
- input abc_xinpstb_n, // I/O read strobe (ABC800)
- input abc_xoutpstb_n, // I/O write strobe (ABC80)
- // The following are inverted versus the bus IF
- // the corresponding MOSFETs are installed
- output abc_rdy_x, // RDY = WAIT#
- output abc_resin_x, // System reset request
- output abc_int80_x, // System INT request (ABC80)
- output abc_int800_x, // System INT request (ABC800)
- output abc_nmi_x, // System NMI request (ABC800)
- output abc_xm_x, // System memory override (ABC800)
- // Host/device control
- output abc_master, // 1 = host, 0 = device
- output abc_a_oe,
- // Bus isolation
- output abc_d_ce_n,
- // ABC-bus extension header
- // (Note: cannot use an array here because HC and HH are
- // input only.)
- inout exth_ha,
- inout exth_hb,
- input exth_hc,
- inout exth_hd,
- inout exth_he,
- inout exth_hf,
- inout exth_hg,
- input exth_hh,
- // SDRAM bus
- output sr_clk,
- output sr_cke,
- output [1:0] sr_ba, // Bank address
- output [12:0] sr_a, // Address within bank
- inout [15:0] sr_dq, // Also known as D or IO
- output [1:0] sr_dqm, // DQML and DQMH
- output sr_cs_n,
- output sr_we_n,
- output sr_cas_n,
- output sr_ras_n,
- // SD card
- output sd_clk,
- output sd_cmd,
- inout [3:0] sd_dat,
- // USB serial (naming is FPGA as DCE)
- input tty_txd,
- output tty_rxd,
- input tty_rts,
- output tty_cts,
- input tty_dtr,
- // SPI flash memory (also configuration)
- output flash_cs_n,
- output flash_sck,
- inout [1:0] flash_io,
- // SPI bus (connected to ESP32 so can be bidirectional)
- inout spi_clk,
- inout spi_miso,
- inout spi_mosi,
- inout spi_cs_esp_n, // ESP32 IO10
- inout spi_cs_flash_n, // ESP32 IO01
- // Other ESP32 connections
- inout esp_io0, // ESP32 IO00
- inout esp_int, // ESP32 IO09
- // I2C bus (RTC and external)
- inout i2c_scl,
- inout i2c_sda,
- input rtc_32khz,
- input rtc_int_n,
- // LED (2 = D23/G, 1 = D22/R, 0 = D17/B)
- output [2:0] led,
- // GPIO pins
- inout [5:0] gpio,
- // HDMI
- output [2:0] hdmi_d,
- output hdmi_clk,
- inout hdmi_scl,
- inout hdmi_sda,
- inout hdmi_hpd
- );
- // PLL and reset
- parameter reset_pow2 = 12; // Assert internal reset for 4096 cycles after PLL lock
- reg rst_n = 1'b0; // Internal reset
- wire [1:0] pll_locked;
- // Clocks
- wire sdram_clk; // SDRAM clock
- wire sdram_out_clk; // SDRAM clock, phase shifted
- wire sys_clk; // System clock
- wire vid_clk; // Video pixel clock
- wire vid_hdmiclk; // D:o in the HDMI clock domain
- wire flash_clk; // Serial flash ROM clock
- reg reset_cmd_q = 1'b0;
- wire reset_cmd;
- pll pll (
- .areset ( reset_cmd_q ),
- .inclk0 ( clock_48 ),
- .c0 ( sdram_out_clk ), // SDRAM external clock (168 MHz)
- .c1 ( sys_clk ), // System clock (84 MHz)
- .c2 ( vid_clk ), // Video pixel clock (48 MHz)
- .c3 ( flash_clk ), // Serial flash ROM clock (134 MHz)
- .c4 ( sdram_clk ), // SDRAM internal clock (168 MHz)
- .locked ( pll_locked[0] ),
- .phasestep ( 1'b0 ),
- .phasecounterselect ( 3'b0 ),
- .phaseupdown ( 1'b1 ),
- .scanclk ( 1'b0 ),
- .phasedone ( )
- );
- wire all_plls_locked = &pll_locked;
- // sys_clk pulse generation of various powers of two
- // Also used to generate rst_n
- reg [23:1] sys_clk_ctr;
- reg [23:1] sys_clk_ctr_q;
- reg [23:1] sys_clk_stb;
- always @(negedge all_plls_locked or posedge sys_clk)
- if (~&all_plls_locked)
- begin
- rst_n <= 1'b0;
- reset_cmd_q <= 1'b0;
- sys_clk_ctr <= 1'b0;
- sys_clk_ctr_q <= 1'b0;
- sys_clk_stb <= 1'b0;
- end
- else
- begin
- sys_clk_ctr <= sys_clk_ctr + 1'b1;
- sys_clk_ctr_q <= sys_clk_ctr;
- sys_clk_stb <= ~sys_clk_ctr & sys_clk_ctr_q;
- reset_cmd_q <= rst_n & (reset_cmd_q | reset_cmd);
- rst_n <= rst_n | sys_clk_stb[reset_pow2];
- end
- // Unused device stubs - remove when used
- // Reset in the video clock domain
- reg vid_rst_n;
- always @(negedge all_plls_locked or posedge vid_clk)
- if (~all_plls_locked)
- vid_rst_n <= 1'b0;
- else
- vid_rst_n <= rst_n;
- // HDMI - generate random data to give Quartus something to do
- reg [23:0] dummydata = 30'hc8_fb87;
- always @(posedge vid_clk)
- dummydata <= { dummydata[22:0], dummydata[23] };
- wire [7:0] hdmi_data[3];
- wire [9:0] hdmi_tmds[3];
- wire [29:0] hdmi_to_tx;
- assign hdmi_data[0] = dummydata[7:0];
- assign hdmi_data[1] = dummydata[15:8];
- assign hdmi_data[2] = dummydata[23:16];
- generate
- genvar i;
- for (i = 0; i < 3; i = i + 1)
- begin : hdmitmds
- tmdsenc enc (
- .rst_n ( vid_rst_n ),
- .clk ( vid_clk ),
- .den ( 1'b1 ),
- .d ( hdmi_data[i] ),
- .c ( 2'b00 ),
- .q ( hdmi_tmds[i] )
- );
- end
- endgenerate
- assign hdmi_scl = 1'bz;
- assign hdmi_sda = 1'bz;
- assign hdmi_hpd = 1'bz;
- //
- // The ALTLVDS_TX megafunctions is MSB-first and in time-major order.
- // However, TMDS is LSB-first, and we have three TMDS words that
- // concatenate in word(channel)-major order.
- //
- transpose #(.words(3), .bits(10), .reverse_b(1),
- .reg_d(0), .reg_q(0)) hdmitranspose
- (
- .clk ( vid_clk ),
- .d ( { hdmi_tmds[2], hdmi_tmds[1], hdmi_tmds[0] } ),
- .q ( hdmi_to_tx )
- );
- hdmitx hdmitx (
- .pll_areset ( ~pll_locked[0] ),
- .tx_in ( hdmi_to_tx ),
- .tx_inclock ( vid_clk ),
- .tx_coreclock ( vid_hdmiclk ), // Pixel clock in HDMI domain
- .tx_locked ( pll_locked[1] ),
- .tx_out ( hdmi_d ),
- .tx_outclock ( hdmi_clk )
- );
- //
- // Internal CPU bus
- //
- wire cpu_mem_valid;
- wire cpu_mem_instr;
- wire [ 3:0] cpu_mem_wstrb;
- wire [31:0] cpu_mem_addr;
- wire [31:0] cpu_mem_wdata;
- reg [31:0] cpu_mem_rdata;
- wire cpu_mem_ready;
- wire cpu_la_read;
- wire cpu_la_write;
- wire [31:0] cpu_la_addr;
- wire [31:0] cpu_la_wdata;
- wire [ 3:0] cpu_la_wstrb;
- // cpu_mem_valid by address quadrant
- wire [ 3:0] cpu_mem_quad = cpu_mem_valid << cpu_mem_addr[31:30];
- // I/O device map from iodevs.conf
- wire iodev_mem_valid = cpu_mem_quad[3];
- `include "iodevs.vh"
- //
- // SDRAM
- //
- // ABC interface
- wire [24:0] abc_sr_addr;
- wire [ 7:0] abc_sr_rd;
- wire abc_sr_rrq;
- wire abc_sr_rack;
- wire abc_sr_ready;
- wire abc_sr_wd;
- wire abc_sr_wrq;
- wire abc_sr_wack;
- // CPU interface
- wire [31:0] sdram_rd;
- wire sdram_rack;
- wire sdram_rready;
- wire sdram_wack;
- reg sdram_acked;
- wire sdram_valid = cpu_mem_quad[1];
- wire sdram_req = sdram_valid & ~sdram_acked;
- always @(posedge sdram_clk)
- sdram_acked <= sdram_valid & (sdram_acked | sdram_rack | sdram_wack);
- // Romcopy interface
- wire [15:0] sdram_rom_wd;
- wire [24:1] sdram_rom_waddr;
- wire [ 1:0] sdram_rom_wrq;
- wire sdram_rom_wacc;
- sdram sdram (
- .rst_n ( rst_n ),
- .clk ( sdram_clk ), // Internal clock
- .out_clk ( sdram_out_clk ), // External clock (phase shifted)
- .sr_clk ( sr_clk ), // Output clock buffer
- .sr_cke ( sr_cke ),
- .sr_cs_n ( sr_cs_n ),
- .sr_ras_n ( sr_ras_n ),
- .sr_cas_n ( sr_cas_n ),
- .sr_we_n ( sr_we_n ),
- .sr_dqm ( sr_dqm ),
- .sr_ba ( sr_ba ),
- .sr_a ( sr_a ),
- .sr_dq ( sr_dq ),
- .a0 ( abc_sr_addr ),
- .rd0 ( abc_sr_rd ),
- .rrq0 ( abc_sr_rrq ),
- .rack0 ( abc_sr_rack ),
- .rready0 ( abc_sr_rready ),
- .wd0 ( abc_sr_wd ),
- .wrq0 ( abc_sr_wrq ),
- .wack0 ( abc_sr_wack ),
- .a1 ( cpu_mem_addr[24:2] ),
- .rd1 ( sdram_rd ),
- .rrq1 ( sdram_req & ~|cpu_mem_wstrb ),
- .rack1 ( sdram_rack ),
- .rready1 ( sdram_rready ),
- .wd1 ( cpu_mem_wdata ),
- .wstrb1 ( {4{sdram_req}} & cpu_mem_wstrb ),
- .wack1 ( sdram_wack ),
- .a2 ( sdram_rom_waddr ),
- .wd2 ( sdram_rom_wd ),
- .wrq2 ( sdram_rom_wrq ),
- .wacc2 ( sdram_rom_wacc )
- );
- //
- // ABC-bus interface
- //
- abcbus abcbus (
- .rst_n ( rst_n ),
- .sys_clk ( sys_clk ),
- .sdram_clk ( sdram_clk ),
- .stb_1mhz ( sys_clk_stb[6] ),
- .abc_valid ( iodev_valid_abc ),
- .map_valid ( iodev_valid_abcmemmap ),
- .cpu_addr ( cpu_mem_addr ),
- .cpu_wdata ( cpu_mem_wdata ),
- .cpu_wstrb ( cpu_mem_wstrb ),
- .cpu_rdata ( iodev_rdata_abc ),
- .cpu_rdata_map ( iodev_rdata_abcmemmap ),
- .irq ( iodev_irq_abc ),
- .abc_clk ( abc_clk ),
- .abc_a ( abc_a ),
- .abc_d ( abc_d ),
- .abc_d_oe ( abc_d_oe ),
- .abc_rst_n ( abc_rst_n ),
- .abc_cs_n ( abc_cs_n ),
- .abc_out_n ( abc_out_n ),
- .abc_inp_n ( abc_inp_n ),
- .abc_xmemfl_n ( abc_xmemfl_n ),
- .abc_xmemw800_n ( abc_xmemw800_n ),
- .abc_xmemw80_n ( abc_xmemw80_n ),
- .abc_xinpstb_n ( abc_xinpstb_n ),
- .abc_xoutpstb_n ( abc_xoutpstb_n ),
- .abc_rdy_x ( abc_rdy_x ),
- .abc_resin_x ( abc_resin_x ),
- .abc_int80_x ( abc_int80_x ),
- .abc_int800_x ( abc_int800_x ),
- .abc_nmi_x ( abc_nmi_x ),
- .abc_xm_x ( abc_xm_x ),
- .abc_master ( abc_master ),
- .abc_a_oe ( abc_a_oe ),
- .abc_d_ce_n ( abc_d_ce_n ),
- .exth_ha ( exth_ha ),
- .exth_hb ( exth_hb ),
- .exth_hc ( exth_hc ),
- .exth_hd ( exth_hd ),
- .exth_he ( exth_he ),
- .exth_hf ( exth_hf ),
- .exth_hg ( exth_hg ),
- .exth_hh ( exth_hh ),
- .sdram_addr ( abc_sr_addr ),
- .sdram_rd ( abc_sr_rd ),
- .sdram_rrq ( abc_sr_rrq ),
- .sdram_rack ( abc_sr_rack ),
- .sdram_rready ( abc_sr_rready ),
- .sdram_wd ( abc_sr_wd ),
- .sdram_wrq ( abc_sr_wrq ),
- .sdram_wack ( abc_sr_wack )
- );
- // GPIO
- assign gpio = 6'bzzzzzz;
- // Embedded RISC-V CPU
- parameter cpu_fast_mem_bits = SRAM_BITS-2; /* 2^[this] * 4 bytes */
- // Edge-triggered IRQs. picorv32 latches interrupts
- // but doesn't edge detect for a slow signal, so do it
- // here instead and use level triggered signalling to the
- // CPU.
- wire [31:0] cpu_eoi;
- reg [31:0] cpu_eoi_q;
- // sys_irq defined in iodevs.vh
- reg [31:0] sys_irq_q;
- reg [31:0] cpu_irq;
- // CPU permanently hung?
- wire cpu_trap;
- always @(negedge rst_n or posedge sys_clk)
- if (~rst_n)
- begin
- sys_irq_q <= 32'b0;
- cpu_eoi_q <= 32'b0;
- cpu_irq <= 32'b0;
- end
- else
- begin
- sys_irq_q <= sys_irq & irq_edge_mask;
- cpu_eoi_q <= cpu_eoi & irq_edge_mask;
- cpu_irq <= (sys_irq & ~sys_irq_q)
- | (cpu_irq & irq_edge_mask & ~(cpu_eoi & ~cpu_eoi_q));
- end
- picorv32 #(
- .ENABLE_COUNTERS ( 1 ),
- .ENABLE_COUNTERS64 ( 1 ),
- .ENABLE_REGS_16_31 ( 1 ),
- .ENABLE_REGS_DUALPORT ( 1 ),
- .LATCHED_MEM_RDATA ( 1 ),
- .BARREL_SHIFTER ( 1 ),
- .TWO_CYCLE_COMPARE ( 0 ),
- .TWO_CYCLE_ALU ( 0 ),
- .COMPRESSED_ISA ( 1 ),
- .CATCH_MISALIGN ( 1 ),
- .CATCH_ILLINSN ( 1 ),
- .ENABLE_FAST_MUL ( 1 ),
- .ENABLE_DIV ( 1 ),
- .ENABLE_IRQ ( 1 ),
- .ENABLE_IRQ_QREGS ( 1 ),
- .ENABLE_IRQ_TIMER ( 1 ),
- .MASKED_IRQ ( irq_masked ),
- .LATCHED_IRQ ( 32'h0000_0007 ),
- .REGS_INIT_ZERO ( 1 ),
- .STACKADDR ( 32'h4 << cpu_fast_mem_bits )
- )
- cpu (
- .clk ( sys_clk ),
- .resetn ( rst_n ),
- .trap ( cpu_trap ),
- .progaddr_reset ( _PC_RESET ),
- .progaddr_irq ( _PC_IRQ ),
- .mem_instr ( cpu_mem_instr ),
- .mem_ready ( cpu_mem_ready ),
- .mem_valid ( cpu_mem_valid ),
- .mem_wstrb ( cpu_mem_wstrb ),
- .mem_addr ( cpu_mem_addr ),
- .mem_wdata ( cpu_mem_wdata ),
- .mem_rdata ( cpu_mem_rdata ),
- .mem_la_read ( cpu_la_read ),
- .mem_la_write ( cpu_la_write ),
- .mem_la_wdata ( cpu_la_wdata ),
- .mem_la_addr ( cpu_la_addr ),
- .mem_la_wstrb ( cpu_la_wstrb ),
- .irq ( cpu_irq ),
- .eoi ( cpu_eoi )
- );
- // cpu_mem_ready is always true for fast memory; for SDRAM we have to
- // wait either for a write ack or a low-high transition on the
- // read ready signal.
- reg sdram_rready_q;
- reg sdram_mem_ready;
- reg [31:0] sdram_rdata;
- always @(posedge sys_clk)
- begin
- sdram_rready_q <= sdram_rready;
- if (cpu_mem_quad[1])
- sdram_mem_ready <= sdram_mem_ready | sdram_wack |
- (sdram_rready & ~sdram_rready_q);
- else
- sdram_mem_ready <= 1'b0;
- sdram_rdata <= sdram_rd;
- end
- // Add a mandatory wait state to iodevs to reduce the size
- // of the CPU memory input MUX (it hurts timing on memory
- // accesses...)
- reg iodev_mem_ready;
- always @(*)
- case ( cpu_mem_quad )
- 4'b0000: cpu_mem_ready = 1'b0;
- 4'b0001: cpu_mem_ready = 1'b1;
- 4'b0010: cpu_mem_ready = sdram_mem_ready;
- 4'b0100: cpu_mem_ready = 1'b1;
- 4'b1000: cpu_mem_ready = iodev_mem_ready;
- default: cpu_mem_ready = 1'bx;
- endcase // case ( mem_quad )
- //
- // Fast memory. This runs on the SDRAM clock, i.e. 2x the speed
- // of the CPU. The .bits parameter gives the number of dwords
- // as a power of 2, i.e. 11 = 2^11 * 4 = 8K.
- //
- wire [31:0] fast_mem_rdata;
- fast_mem // #(.bits(cpu_fast_mem_bits), .mif("../fw/boot"))
- fast_mem(
- .rst_n ( rst_n ),
- .clk ( sys_clk ),
- .read ( cpu_la_read & cpu_la_addr[31:30] == 2'b00 ),
- .write ( cpu_la_write & cpu_la_addr[31:30] == 2'b00 ),
- .wstrb ( cpu_la_wstrb ),
- .addr ( cpu_la_addr[14:2] ),
- .wdata ( cpu_la_wdata ),
- .rdata ( fast_mem_rdata )
- );
- // Register I/O data to reduce the size of the read data MUX
- reg [31:0] iodev_rdata_q;
- // Read data MUX
- always @(*)
- case ( cpu_mem_quad )
- 4'b0001: cpu_mem_rdata = fast_mem_rdata;
- 4'b0010: cpu_mem_rdata = sdram_rdata;
- 4'b1000: cpu_mem_rdata = iodev_rdata_q;
- default: cpu_mem_rdata = 32'hxxxx_xxxx;
- endcase
- // Miscellaneous system control/status registers
- wire [ 4:0] sysreg_subreg = cpu_mem_addr[6:2];
- wire [31:0] sysreg = iodev_valid_sys << sysreg_subreg;
- tri1 [31:0] sysreg_rdata[0:31];
- assign iodev_rdata_sys = sysreg_rdata[sysreg_subreg];
- assign sysreg_rdata[0] = 32'h5058414d;
- assign sysreg_rdata[1] = { 31'b0, rtc_32khz_rework };
- // Hard system reset under program control
- assign reset_cmd =
- (sysreg[3] & cpu_mem_wstrb[0] & cpu_mem_wdata[0])
- | cpu_trap; // CPU hung
- // LED indication from the CPU
- reg [2:0] led_q;
- always @(negedge rst_n or posedge sys_clk)
- if (~rst_n)
- led_q <= 3'b000;
- else
- if ( sysreg[2] & cpu_mem_wstrb[0] )
- led_q <= cpu_mem_wdata[2:0];
- assign led = led_q;
- assign sysreg_rdata[2] = { 29'b0, led_q };
- //
- // Serial ROM (also configuration ROM.) Fast hardwired data download
- // unit to SDRAM.
- //
- wire rom_done;
- reg rom_done_q;
- spirom ddu (
- .rst_n ( rst_n ),
- .rom_clk ( flash_clk ),
- .ram_clk ( sdram_clk ),
- .sys_clk ( sys_clk ),
- .spi_sck ( flash_sck ),
- .spi_io ( flash_io ),
- .spi_cs_n ( flash_cs_n ),
- .wd ( sdram_rom_wd ),
- .waddr ( sdram_rom_waddr ),
- .wrq ( sdram_rom_wrq ),
- .wacc ( sdram_rom_wacc ),
- .cpu_rdata ( iodev_rdata_romcopy ),
- .cpu_wdata ( cpu_mem_wdata ),
- .cpu_valid ( iodev_valid_romcopy ),
- .cpu_wstrb ( cpu_mem_wstrb ),
- .cpu_addr ( cpu_mem_addr[3:2] ),
- .irq ( iodev_irq_romcopy )
- );
- //
- // Serial port. Direct to the CP2102N for reworked
- // boards or to GPIO for non-reworked boards, depending on
- // whether DTR# is asserted on either.
- //
- // The GPIO numbering matches the order of pins for FT[2]232H.
- // gpio[0] - TxD
- // gpio[1] - RxD
- // gpio[2] - RTS#
- // gpio[3] - CTS#
- // gpio[4] - DTR#
- //
- wire tty_data_out; // Output data
- wire tty_data_in; // Input data
- wire tty_cts_out; // Assert CTS# externally
- wire tty_rts_in; // RTS# received from outside
- assign tty_cts_out = 1'b0; // Assert CTS#
- tty console (
- .rst_n ( rst_n ),
- .clk ( sys_clk ),
- .valid ( iodev_valid_console ),
- .wstrb ( cpu_mem_wstrb ),
- .wdata ( cpu_mem_wdata ),
- .rdata ( iodev_rdata_console ),
- .addr ( cpu_mem_addr[3:2] ),
- .irq ( iodev_irq_console ),
- .tty_txd ( tty_data_out ) // DTE -> DCE
- );
- reg [1:0] tty_dtr_q;
- always @(posedge sys_clk)
- begin
- tty_dtr_q[0] <= tty_dtr;
- tty_dtr_q[1] <= gpio[4];
- end
- //
- // Route data to the two output ports
- //
- // tty_rxd because pins are DCE named
- assign tty_data_in = (tty_txd | tty_dtr_q[0]) &
- (gpio[0] | tty_dtr_q[1]);
- assign tty_rxd = tty_dtr_q[0] ? 1'bz : tty_data_out;
- assign gpio[1] = tty_dtr_q[1] ? 1'bz : tty_data_out;
- assign tty_rts_in = (tty_rts | tty_dtr_q[0]) &
- (gpio[2] | tty_dtr_q[1]);
- assign tty_cts = tty_dtr_q[0] ? 1'bz : tty_cts_out;
- assign gpio[3] = tty_dtr_q[1] ? 1'bz : tty_cts_out;
- // DTR on GPIO -> assume RTC 32 kHz output is nonfunctional
- wire rtc_32khz_rework = tty_dtr_q[1];
- // SD card
- sdcard #(
- .with_irq_mask ( 8'b0000_0001 )
- )
- sdcard (
- .rst_n ( rst_n ),
- .clk ( sys_clk ),
- .sd_cs_n ( sd_dat[3] ),
- .sd_di ( sd_cmd ),
- .sd_sclk ( sd_clk ),
- .sd_do ( sd_dat[0] ),
- .sd_cd_n ( 1'b0 ),
- .sd_irq_n ( 1'b1 ),
- .wdata ( cpu_mem_wdata ),
- .rdata ( iodev_rdata_sdcard ),
- .valid ( iodev_valid_sdcard ),
- .wstrb ( cpu_mem_wstrb ),
- .addr ( cpu_mem_addr[6:2] ),
- .wait_n ( iodev_wait_n_sdcard ),
- .irq ( iodev_irq_sdcard )
- );
- assign sd_dat[2:1] = 2'bzz;
- // System local clock (not an RTC, but settable from one)
- // Also provides a periodic interrupt (set to 32 Hz)
- //
- // XXX: the RTC 32 kHz signal is missing a pull-up,
- // so unless the board has been reworked, use a
- // divider down from the 84 MHz system clock. The
- // error is about 200 ppm; a proper NCO could do better.
- reg ctr_32khz;
- reg [10:0] ctr_64khz;
- always @(posedge sys_clk)
- begin
- if (~|ctr_64khz)
- begin
- ctr_32khz <= ~ctr_32khz;
- ctr_64khz <= 11'd1280;
- end
- else
- ctr_64khz <= ctr_64khz - 1'b1;
- end
- // 32kHz clock synchronized with sys_clk
- wire clk_32kHz = rtc_32khz_rework ? ~rtc_32khz : ctr_32khz;
- sysclock #(.PERIODIC_HZ_LG2 ( 5 ))
- sysclock (
- .rst_n ( rst_n ),
- .sys_clk ( sys_clk ),
- .rtc_clk ( clk_32kHz ),
- .wdata ( cpu_mem_wdata ),
- .rdata ( iodev_rdata_sysclock ),
- .valid ( iodev_valid_sysclock ),
- .wstrb ( cpu_mem_wstrb ),
- .addr ( cpu_mem_addr[2] ),
- .periodic ( iodev_irq_sysclock )
- );
- // SPI bus to ESP32; using the sdcard IP as a SPI master for now at
- // least...
- `ifdef REALLY_ESP32
- // ESP32
- assign spi_cs_flash_n = 1'bz;
- assign esp_io0 = 1'b1; // If pulled down on reset, ESP32 will enter
- // firmware download mode
- sdcard #(
- .with_irq_mask ( 8'b0000_0101 ),
- .with_crc7 ( 1'b0 ),
- .with_crc16 ( 1'b0 )
- )
- esp (
- .rst_n ( rst_n ),
- .clk ( sys_clk ),
- .sd_cs_n ( spi_cs_esp_n ),
- .sd_di ( spi_mosi ),
- .sd_sclk ( spi_clk ),
- .sd_do ( spi_miso ),
- .sd_cd_n ( 1'b0 ),
- .sd_irq_n ( esp_int ),
- .wdata ( cpu_mem_wdata ),
- .rdata ( iodev_rdata_esp ),
- .valid ( iodev_valid_esp ),
- .wstrb ( cpu_mem_wstrb ),
- .addr ( cpu_mem_addr[6:2] ),
- .wait_n ( iodev_wait_n_esp ),
- .irq ( iodev_irq_esp )
- );
- `else // !`ifdef REALLY_ESP32
- reg [5:-13] esp_ctr; // 32768 * 2^-13 = 4 Hz
- always @(posedge clk_32kHz)
- esp_ctr <= esp_ctr + 1'b1;
- assign spi_clk = esp_ctr[0];
- assign spi_mosi = esp_ctr[1];
- assign spi_miso = esp_ctr[2];
- assign spi_cs_flash_n = esp_ctr[3]; // IO01
- assign spi_cs_esp_n = esp_ctr[4]; // IO10
- assign spi_int = esp_ctr[5]; // IO09
- assign esp_io0 = 1'b1;
- `endif
- //
- // I2C bus (RTC and to connector)
- //
- i2c i2c (
- .rst_n ( rst_n ),
- .clk ( sys_clk ),
- .valid ( iodev_valid_i2c ),
- .addr ( cpu_mem_addr[3:2] ),
- .wdata ( cpu_mem_wdata ),
- .wstrb ( cpu_mem_wstrb ),
- .rdata ( iodev_rdata_i2c ),
- .irq ( iodev_irq_i2c ),
- .i2c_scl ( i2c_scl ),
- .i2c_sda ( i2c_sda )
- );
- //
- // Registering of I/O data and handling of iodev_mem_ready
- //
- always @(posedge sys_clk)
- iodev_rdata_q <= iodev_rdata;
- always @(negedge rst_n or posedge sys_clk)
- if (~rst_n)
- iodev_mem_ready <= 1'b0;
- else
- iodev_mem_ready <= iodev_wait_n & cpu_mem_valid;
- endmodule
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