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[/] [openmsp430/] [trunk/] [fpga/] [xilinx_diligent_s3board/] [rtl/] [verilog/] [openmsp430/] [periph/] [template_periph_8b.v] - Rev 33
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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: template_periph_8b.v // // *Module Description: // 8 bit peripheral template. // // *Author(s): // - Olivier Girard, olgirard@gmail.com // //---------------------------------------------------------------------------- // $Rev: 33 $ // $LastChangedBy: olivier.girard $ // $LastChangedDate: 2009-12-29 19:18:00 +0100 (Tue, 29 Dec 2009) $ //---------------------------------------------------------------------------- `include "timescale.v" `include "openMSP430_defines.v" module template_periph_8b ( // OUTPUTs per_dout, // Peripheral data output // INPUTs mclk, // Main system clock per_addr, // Peripheral address per_din, // Peripheral data input per_en, // Peripheral enable (high active) per_wen, // Peripheral write enable (high active) puc // Main system reset ); // OUTPUTs //========= output [15:0] per_dout; // Peripheral data output // INPUTs //========= input mclk; // Main system clock input [7:0] per_addr; // Peripheral address input [15:0] per_din; // Peripheral data input input per_en; // Peripheral enable (high active) input [1:0] per_wen; // Peripheral write enable (high active) input puc; // Main system reset //============================================================================= // 1) PARAMETER DECLARATION //============================================================================= // Register addresses parameter CNTRL1 = 9'h090; parameter CNTRL2 = 9'h091; parameter CNTRL3 = 9'h092; parameter CNTRL4 = 9'h093; // Register one-hot decoder parameter CNTRL1_D = (256'h1 << (CNTRL1 /2)); parameter CNTRL2_D = (256'h1 << (CNTRL2 /2)); parameter CNTRL3_D = (256'h1 << (CNTRL3 /2)); parameter CNTRL4_D = (256'h1 << (CNTRL4 /2)); //============================================================================ // 2) REGISTER DECODER //============================================================================ // Register address decode reg [255:0] reg_dec; always @(per_addr) case (per_addr) (CNTRL1 /2): reg_dec = CNTRL1_D; (CNTRL2 /2): reg_dec = CNTRL2_D; (CNTRL3 /2): reg_dec = CNTRL3_D; (CNTRL4 /2): reg_dec = CNTRL4_D; default : reg_dec = {256{1'b0}}; endcase // Read/Write probes wire reg_lo_write = per_wen[0] & per_en; wire reg_hi_write = per_wen[1] & per_en; wire reg_read = ~|per_wen & per_en; // Read/Write vectors wire [255:0] reg_hi_wr = reg_dec & {256{reg_hi_write}}; wire [255:0] reg_lo_wr = reg_dec & {256{reg_lo_write}}; wire [255:0] reg_rd = reg_dec & {256{reg_read}}; //============================================================================ // 3) REGISTERS //============================================================================ // CNTRL1 Register //----------------- reg [7:0] cntrl1; wire cntrl1_wr = CNTRL1[0] ? reg_hi_wr[CNTRL1/2] : reg_lo_wr[CNTRL1/2]; wire [7:0] cntrl1_nxt = CNTRL1[0] ? per_din[15:8] : per_din[7:0]; always @ (posedge mclk or posedge puc) if (puc) cntrl1 <= 8'h00; else if (cntrl1_wr) cntrl1 <= cntrl1_nxt; // CNTRL2 Register //----------------- reg [7:0] cntrl2; wire cntrl2_wr = CNTRL2[0] ? reg_hi_wr[CNTRL2/2] : reg_lo_wr[CNTRL2/2]; wire [7:0] cntrl2_nxt = CNTRL2[0] ? per_din[15:8] : per_din[7:0]; always @ (posedge mclk or posedge puc) if (puc) cntrl2 <= 8'h00; else if (cntrl2_wr) cntrl2 <= cntrl2_nxt; // CNTRL3 Register //----------------- reg [7:0] cntrl3; wire cntrl3_wr = CNTRL3[0] ? reg_hi_wr[CNTRL3/2] : reg_lo_wr[CNTRL3/2]; wire [7:0] cntrl3_nxt = CNTRL3[0] ? per_din[15:8] : per_din[7:0]; always @ (posedge mclk or posedge puc) if (puc) cntrl3 <= 8'h00; else if (cntrl3_wr) cntrl3 <= cntrl3_nxt; // CNTRL4 Register //----------------- reg [7:0] cntrl4; wire cntrl4_wr = CNTRL4[0] ? reg_hi_wr[CNTRL4/2] : reg_lo_wr[CNTRL4/2]; wire [7:0] cntrl4_nxt = CNTRL4[0] ? per_din[15:8] : per_din[7:0]; always @ (posedge mclk or posedge puc) if (puc) cntrl4 <= 8'h00; else if (cntrl4_wr) cntrl4 <= cntrl4_nxt; //============================================================================ // 4) DATA OUTPUT GENERATION //============================================================================ // Data output mux wire [15:0] cntrl1_rd = (cntrl1 & {8{reg_rd[CNTRL1/2]}}) << (8 & {4{CNTRL1[0]}}); wire [15:0] cntrl2_rd = (cntrl2 & {8{reg_rd[CNTRL2/2]}}) << (8 & {4{CNTRL2[0]}}); wire [15:0] cntrl3_rd = (cntrl3 & {8{reg_rd[CNTRL3/2]}}) << (8 & {4{CNTRL3[0]}}); wire [15:0] cntrl4_rd = (cntrl4 & {8{reg_rd[CNTRL4/2]}}) << (8 & {4{CNTRL4[0]}}); wire [15:0] per_dout = cntrl1_rd | cntrl2_rd | cntrl3_rd | cntrl4_rd; endmodule // template_periph_8b `include "openMSP430_undefines.v"
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