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[/] [openmsp430/] [trunk/] [fpga/] [actel_m1a3pl_dev_kit/] [rtl/] [verilog/] [openMSP430_fpga.v] - Rev 82
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//---------------------------------------------------------------------------- // Copyright (C) 2001 Authors // // This source file may be used and distributed without restriction provided // that this copyright statement is not removed from the file and that any // derivative work contains the original copyright notice and the associated // disclaimer. // // This source file is free software; you can redistribute it and/or modify // it under the terms of the GNU Lesser General Public License as published // by the Free Software Foundation; either version 2.1 of the License, or // (at your option) any later version. // // This source 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 Lesser General Public // License for more details. // // You should have received a copy of the GNU Lesser General Public License // along with this source; if not, write to the Free Software Foundation, // Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA // //---------------------------------------------------------------------------- // // *File Name: openMSP430_fpga.v // // *Module Description: // openMSP430 FPGA Top-level // (targeting an Actel ProASIC3L). // // *Author(s): // - Olivier Girard, olgirard@gmail.com // //---------------------------------------------------------------------------- // $Rev: 37 $ // $LastChangedBy: olivier.girard $ // $LastChangedDate: 2009-12-29 21:58:14 +0100 (Tue, 29 Dec 2009) $ //---------------------------------------------------------------------------- `include "timescale.v" `include "openMSP430_defines.v" module openMSP430_fpga ( // OUTPUTs din_x, // SPI Serial Data din_y, // SPI Serial Data led, // Board LEDs sclk_x, // SPI Serial Clock sclk_y, // SPI Serial Clock sync_n_x, // SPI Frame synchronization signal (low active) sync_n_y, // SPI Frame synchronization signal (low active) uart_tx, // Board UART TX pin // INPUTs oscclk, // Board Oscillator (?? MHz) porst_n, // Board Power-On reset (active low) pbrst_n, // Board Push-Button reset (active low) uart_rx, // Board UART RX pin switch // Board Switches ); // OUTPUTs //========= output din_x; // SPI Serial Data output din_y; // SPI Serial Data output [9:0] led; // Board LEDs output sclk_x; // SPI Serial Clock output sclk_y; // SPI Serial Clock output sync_n_x; // SPI Frame synchronization signal (low active) output sync_n_y; // SPI Frame synchronization signal (low active) output uart_tx; // Board UART TX pin // INPUTs //========= input oscclk; // Board Oscillator (?? MHz) input porst_n; // Board Power-On reset (active low) input pbrst_n; // Board Push-Button reset (active low) input uart_rx; // Board UART RX pin input [9:0] switch; // Board Switches //============================================================================= // 1) INTERNAL WIRES/REGISTERS/PARAMETERS DECLARATION //============================================================================= wire [`DMEM_MSB:0] dmem_addr; wire dmem_cen; wire [15:0] dmem_din; wire [1:0] dmem_wen; wire [15:0] dmem_dout; wire [`PMEM_MSB:0] pmem_addr; wire pmem_cen; wire [15:0] pmem_din; wire [1:0] pmem_wen; wire [15:0] pmem_dout; wire [7:0] per_addr; wire [15:0] per_din; wire per_en; wire [1:0] per_wen; wire [15:0] per_dout; wire [13:0] irq_acc; wire [13:0] irq_bus; wire lfxt_clk; wire nmi; wire reset_n; wire dco_clk; wire mclk; wire puc; wire [7:0] p1_din; wire [7:0] p1_dout; wire [7:0] p1_dout_en; wire [7:0] p1_sel; wire [15:0] per_dout_dio; wire [15:0] per_dout_tA; wire [3:0] cntrl1; wire [3:0] cntrl2; wire [15:0] per_dout_dac_x; wire [15:0] per_dout_dac_y; //============================================================================= // 2) PLL & CLOCK GENERATION //============================================================================= // Input clock buffer PLLINT clk_in0 (.A(oscclk), .Y(oscclk_buf)); parameter FCLKA = 48.0; parameter M = 7'd6; parameter N = 7'd9; parameter U = 5'd2; parameter V = 5'd1; parameter W = 5'd1; parameter FVCO = FCLKA*M/N; // 32 MHz parameter FGLA = FVCO/U; // 16 MHz parameter FGLB = FVCO/V; // 32 MHz parameter FGLC = FVCO/W; // 32 MHz wire [4:0] oadiv = U-5'h01; wire [4:0] obdiv = V-5'h01; wire [4:0] ocdiv = W-5'h01; wire [6:0] findiv = N-7'h01; wire [6:0] fbdiv = M-7'h01; PLL #(.VCOFREQUENCY(FVCO)) pll_0 ( // PLL Inputs .CLKA (oscclk_buf), // Reference Clock Input .EXTFB (1'b0), // External Feedback .POWERDOWN (1'b1), // Power-Down (active low) // PLL Outputs .GLA (dco_clk), // Primary output .LOCK (lock), // PLL Lock Indicator .GLB (glb), // Secondary 1 output .YB (yb), // Core 1 output .GLC (glc), // Secondary 2 output .YC (yc), // Core 2 output // GLA Configuration .OADIV0 (oadiv[0]), // Primary output divider (divider is oadiv+1) .OADIV1 (oadiv[1]), .OADIV2 (oadiv[2]), .OADIV3 (oadiv[3]), .OADIV4 (oadiv[4]), .OAMUX0 (1'b0), // Primary output select (selects from the VCO's four phases) .OAMUX1 (1'b0), .OAMUX2 (1'b1), .DLYGLA0 (1'b0), // Primary output delay .DLYGLA1 (1'b0), .DLYGLA2 (1'b0), .DLYGLA3 (1'b0), .DLYGLA4 (1'b0), // GLB/YB configuration .OBDIV0 (obdiv[0]), // Secondary 1 output divider (divider is obdiv+1) .OBDIV1 (obdiv[1]), .OBDIV2 (obdiv[2]), .OBDIV3 (obdiv[3]), .OBDIV4 (obdiv[4]), .OBMUX0 (1'b1), // Secondary 1 output select (selects from the VCO's four phases) .OBMUX1 (1'b0), .OBMUX2 (1'b1), .DLYYB0 (1'b0), // Secondary 1 YB output delay .DLYYB1 (1'b0), .DLYYB2 (1'b0), .DLYYB3 (1'b0), .DLYYB4 (1'b0), .DLYGLB0 (1'b0), // Secondary 1 GLB output delay .DLYGLB1 (1'b0), .DLYGLB2 (1'b0), .DLYGLB3 (1'b0), .DLYGLB4 (1'b0), // GLC/YC configuration .OCDIV0 (ocdiv[0]), // Secondary 2 output divider (divider is ocdiv+1) .OCDIV1 (ocdiv[1]), .OCDIV2 (ocdiv[2]), .OCDIV3 (ocdiv[3]), .OCDIV4 (ocdiv[4]), .OCMUX0 (1'b0), // Secondary 2 output select (selects from the VCO's four phases) .OCMUX1 (1'b0), .OCMUX2 (1'b1), .DLYYC0 (1'b0), // Secondary 2 YC output delay .DLYYC1 (1'b0), .DLYYC2 (1'b0), .DLYYC3 (1'b0), .DLYYC4 (1'b0), .DLYGLC0 (1'b0), // Secondary 2 GLC output delay .DLYGLC1 (1'b0), .DLYGLC2 (1'b0), .DLYGLC3 (1'b0), .DLYGLC4 (1'b0), // PLL Core configuration .FINDIV0 (findiv[0]), // Input clock divider (divider is findiv+1) .FINDIV1 (findiv[1]), .FINDIV2 (findiv[2]), .FINDIV3 (findiv[3]), .FINDIV4 (findiv[4]), .FINDIV5 (findiv[5]), .FINDIV6 (findiv[6]), .FBDIV0 (fbdiv[0]), // Feedback clock divider (divider is fbdiv+1) .FBDIV1 (fbdiv[1]), .FBDIV2 (fbdiv[2]), .FBDIV3 (fbdiv[3]), .FBDIV4 (fbdiv[4]), .FBDIV5 (fbdiv[5]), .FBDIV6 (fbdiv[6]), .FBDLY0 (1'b0), // Feedback Delay .FBDLY1 (1'b0), .FBDLY2 (1'b0), .FBDLY3 (1'b0), .FBDLY4 (1'b0), .FBSEL0 (1'b1), // Primary feedback delay select (0:no dly; 1:prog dly element; 2:external feedback) .FBSEL1 (1'b0), .XDLYSEL (1'b0), // System Delay Select (0: no dly; 1:inserts system dly) .VCOSEL0 (1'b1), // PLL lock acquisition time (0: Fast with high tracking jitter; 1: Slow with low tracking jitter) .VCOSEL1 (1'b1), // VCO gear control (see table below) .VCOSEL2 (1'b0) ); //-------------+--------------------------------------------------------------+ // | VCOSEL[2:1] | // |---------------+---------------+--------------+---------------| // | 00 | 01 | 10 | 11 | // VOLTAGE |---------------+---------------+--------------+---------------| // | Min. Max. | Min. Max. | Min. Max. | Min. Max. | // | (MHz) (MHz) | (MHz) (MHz) | (MHz) (MHz) | (MHz) (MHz) | //-------------+---------------+---------------+--------------+---------------| // IGLOO and IGLOO PLUS | //-------------+---------------+---------------+--------------+---------------| // 1.2 V +- 5% | 24 35 | 30 70 | 60 140 | 135 160 | // 1.5 V +- 5% | 24 43.75 | 30 87.5 | 60 175 | 135 250 | //-------------+---------------+---------------+--------------+---------------| // ProASIC3L, RT ProASIC3, and Military ProASIC3/L | //-------------+---------------+---------------+--------------+---------------| // 1.2 V +- 5% | 24 35 | 30 70 | 60 140 | 135 250 | // 1.5 V +- 5% | 24 43.75 | 30 70 | 60 175 | 135 350 | //-------------+---------------+---------------+--------------+---------------| // ProASIC3 and Fusion | //-------------+---------------+---------------+--------------+---------------| // 1.5 V +- 5% | 24 43.75 | 33.75 87.5 | 67.5 175 | 135 350 | //-------------+---------------+---------------+--------------+---------------+ //============================================================================= // 3) PROGRAM AND DATA MEMORIES //============================================================================= dmem_128B dmem_hi (.WD(dmem_din[15:8]), .RD(dmem_dout[15:8]), .WEN(dmem_wen[1] | dmem_cen), .REN(~dmem_wen[1] | dmem_cen), .WADDR(dmem_addr) , .RADDR(dmem_addr), .RWCLK(mclk), .RESET(~puc)); dmem_128B dmem_lo (.WD(dmem_din[7:0]), .RD(dmem_dout[7:0]), .WEN(dmem_wen[0] | dmem_cen), .REN(~dmem_wen[0] | dmem_cen), .WADDR(dmem_addr) , .RADDR(dmem_addr), .RWCLK(mclk), .RESET(~puc)); pmem_2kB pmem_hi (.WD(pmem_din[15:8]), .RD(pmem_dout[15:8]), .WEN(pmem_wen[1] | pmem_cen), .REN(~pmem_wen[1] | pmem_cen), .WADDR(pmem_addr) , .RADDR(pmem_addr), .RWCLK(mclk), .RESET(~puc)); pmem_2kB pmem_lo (.WD(pmem_din[7:0]), .RD(pmem_dout[7:0]), .WEN(pmem_wen[0] | pmem_cen), .REN(~pmem_wen[0] | pmem_cen), .WADDR(pmem_addr) , .RADDR(pmem_addr), .RWCLK(mclk), .RESET(~puc)); //============================================================================= // 4) OPENMSP430 //============================================================================= openMSP430 openMSP430_0 ( // OUTPUTs .aclk_en (aclk_en), // ACLK enable .dbg_freeze (dbg_freeze), // Freeze peripherals .dbg_uart_txd (uart_tx), // Debug interface: UART TXD .dmem_addr (dmem_addr), // Data Memory address .dmem_cen (dmem_cen), // Data Memory chip enable (low active) .dmem_din (dmem_din), // Data Memory data input .dmem_wen (dmem_wen), // Data Memory write enable (low active) .irq_acc (irq_acc), // Interrupt request accepted (one-hot signal) .mclk (mclk), // Main system clock .per_addr (per_addr), // Peripheral address .per_din (per_din), // Peripheral data input .per_wen (per_wen), // Peripheral write enable (high active) .per_en (per_en), // Peripheral enable (high active) .pmem_addr (pmem_addr), // Program Memory address .pmem_cen (pmem_cen), // Program Memory chip enable (low active) .pmem_din (pmem_din), // Program Memory data input (optional) .pmem_wen (pmem_wen), // Program Memory write enable (low active) (optional) .puc (puc), // Main system reset .smclk_en (smclk_en), // SMCLK enable // INPUTs .dbg_uart_rxd (uart_rx), // Debug interface: UART RXD .dco_clk (dco_clk), // Fast oscillator (fast clock) .dmem_dout (dmem_dout), // Data Memory data output .irq (irq_bus), // Maskable interrupts .lfxt_clk (1'b0), // Low frequency oscillator (typ 32kHz) .nmi (nmi), // Non-maskable interrupt (asynchronous) .per_dout (per_dout), // Peripheral data output .pmem_dout (pmem_dout), // Program Memory data output .reset_n (reset_n) // Reset Pin (low active) ); //============================================================================= // 5) OPENMSP430 PERIPHERALS //============================================================================= // // SPI Interface for the 12 bit DACs //----------------------------------- dac_spi_if #(1, 9'h190) dac_spi_if_x ( // OUTPUTs .cntrl1 (cntrl1), // Control value 1 .cntrl2 (cntrl2), // Control value 2 .din (din_x), // SPI Serial Data .per_dout (per_dout_dac_x), // Peripheral data output .sclk (sclk_x), // SPI Serial Clock .sync_n (sync_n_x), // SPI Frame synchronization signal (low active) // INPUTs .mclk (mclk), // Main system clock .per_addr (per_addr), // Peripheral address .per_din (per_din), // Peripheral data input .per_en (per_en), // Peripheral enable (high active) .per_wen (per_wen), // Peripheral write enable (high active) .puc (puc) // Main system reset ); dac_spi_if #(1, 9'h1A0) dac_spi_if_y ( // OUTPUTs .cntrl1 (), // Control value 1 .cntrl2 (), // Control value 2 .din (din_y), // SPI Serial Data .per_dout (per_dout_dac_y), // Peripheral data output .sclk (sclk_y), // SPI Serial Clock .sync_n (sync_n_y), // SPI Frame synchronization signal (low active) // INPUTs .mclk (mclk), // Main system clock .per_addr (per_addr), // Peripheral address .per_din (per_din), // Peripheral data input .per_en (per_en), // Peripheral enable (high active) .per_wen (per_wen), // Peripheral write enable (high active) .puc (puc) // Main system reset ); // // Digital I/O //------------------------------- omsp_gpio #(.P1_EN(1), .P2_EN(0), .P3_EN(0), .P4_EN(0), .P5_EN(0), .P6_EN(0)) gpio_0 ( // OUTPUTs .irq_port1 (irq_port1), // Port 1 interrupt .irq_port2 (), // Port 2 interrupt .p1_dout (p1_dout), // Port 1 data output .p1_dout_en (p1_dout_en), // Port 1 data output enable .p1_sel (p1_sel), // Port 1 function select .p2_dout (), // Port 2 data output .p2_dout_en (), // Port 2 data output enable .p2_sel (), // Port 2 function select .p3_dout (), // Port 3 data output .p3_dout_en (), // Port 3 data output enable .p3_sel (), // Port 3 function select .p4_dout (), // Port 4 data output .p4_dout_en (), // Port 4 data output enable .p4_sel (), // Port 4 function select .p5_dout (), // Port 5 data output .p5_dout_en (), // Port 5 data output enable .p5_sel (), // Port 5 function select .p6_dout (), // Port 6 data output .p6_dout_en (), // Port 6 data output enable .p6_sel (), // Port 6 function select .per_dout (per_dout_dio), // Peripheral data output // INPUTs .mclk (mclk), // Main system clock .p1_din (p1_din), // Port 1 data input .p2_din (8'h00), // Port 2 data input .p3_din (8'h00), // Port 3 data input .p4_din (8'h00), // Port 4 data input .p5_din (8'h00), // Port 5 data input .p6_din (8'h00), // Port 6 data input .per_addr (per_addr), // Peripheral address .per_din (per_din), // Peripheral data input .per_en (per_en), // Peripheral enable (high active) .per_wen (per_wen), // Peripheral write enable (high active) .puc (puc) // Main system reset ); // // Timer A //---------------------------------------------- omsp_timerA timerA_0 ( // OUTPUTs .irq_ta0 (irq_ta0), // Timer A interrupt: TACCR0 .irq_ta1 (irq_ta1), // Timer A interrupt: TAIV, TACCR1, TACCR2 .per_dout (per_dout_tA), // Peripheral data output .ta_out0 (ta_out0), // Timer A output 0 .ta_out0_en (ta_out0_en), // Timer A output 0 enable .ta_out1 (ta_out1), // Timer A output 1 .ta_out1_en (ta_out1_en), // Timer A output 1 enable .ta_out2 (ta_out2), // Timer A output 2 .ta_out2_en (ta_out2_en), // Timer A output 2 enable // INPUTs .aclk_en (aclk_en), // ACLK enable (from CPU) .dbg_freeze (dbg_freeze), // Freeze Timer A counter .inclk (1'b0), // INCLK external timer clock (SLOW) .irq_ta0_acc (irq_acc[9]), // Interrupt request TACCR0 accepted .mclk (mclk), // Main system clock .per_addr (per_addr), // Peripheral address .per_din (per_din), // Peripheral data input .per_en (per_en), // Peripheral enable (high active) .per_wen (per_wen), // Peripheral write enable (high active) .puc (puc), // Main system reset .smclk_en (smclk_en), // SMCLK enable (from CPU) .ta_cci0a (1'b0), // Timer A capture 0 input A .ta_cci0b (1'b0), // Timer A capture 0 input B .ta_cci1a (1'b0), // Timer A capture 1 input A .ta_cci1b (1'b0), // Timer A capture 1 input B .ta_cci2a (1'b0), // Timer A capture 2 input A .ta_cci2b (1'b0), // Timer A capture 2 input B .taclk (1'b0) // TACLK external timer clock (SLOW) ); // // Combine peripheral data buses //------------------------------- assign per_dout = per_dout_dio | per_dout_tA | per_dout_dac_x | per_dout_dac_y; // // Assign interrupts //------------------------------- assign nmi = 1'b0; assign irq_bus = {1'b0, // Vector 13 (0xFFFA) 1'b0, // Vector 12 (0xFFF8) 1'b0, // Vector 11 (0xFFF6) 1'b0, // Vector 10 (0xFFF4) - Watchdog - irq_ta0, // Vector 9 (0xFFF2) irq_ta1, // Vector 8 (0xFFF0) 1'b0, // Vector 7 (0xFFEE) 1'b0, // Vector 6 (0xFFEC) 1'b0, // Vector 5 (0xFFEA) 1'b0, // Vector 4 (0xFFE8) 1'b0, // Vector 3 (0xFFE6) irq_port1, // Vector 2 (0xFFE4) 1'b0, // Vector 1 (0xFFE2) 1'b0}; // Vector 0 (0xFFE0) // // Diverse //------------------------------- assign reset_n = (porst_n & pbrst_n); assign p1_din = 8'h00; assign led = {cntrl1, p1_dout[0], p1_dout[0], cntrl2}; endmodule // openMSP430_fpga
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