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[/] [Aquarius/] [trunk/] [verilog/] [sasc_top.v] - Rev 2
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///////////////////////////////////////////////////////////////////// //// //// //// Simple Asynchronous Serial Comm. Device //// //// //// //// //// //// Author: Rudolf Usselmann //// //// rudi@asics.ws //// //// //// //// //// //// Downloaded from: http://www.opencores.org/cores/sasc/ //// //// //// ///////////////////////////////////////////////////////////////////// //// //// //// Copyright (C) 2000-2002 Rudolf Usselmann //// //// www.asics.ws //// //// rudi@asics.ws //// //// //// //// 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 SOFTWARE IS PROVIDED ``AS IS'' AND WITHOUT ANY //// //// EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED //// //// TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS //// //// FOR A PARTICULAR PURPOSE. IN NO EVENT SHALL THE AUTHOR //// //// OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, //// //// INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES //// //// (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE //// //// GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR //// //// BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF //// //// LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT //// //// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT //// //// OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE //// //// POSSIBILITY OF SUCH DAMAGE. //// //// //// ///////////////////////////////////////////////////////////////////// // CVS Log // // $Id: sasc_top.v,v 1.1.1.1 2003-07-12 13:19:55 thorn_aitch Exp $ // // $Date: 2003-07-12 13:19:55 $ // $Revision: 1.1.1.1 $ // $Author: thorn_aitch $ // $Locker: $ // $State: Exp $ // // Change History: // $Log: not supported by cvs2svn $ // Revision 1.1.1.1 2002/09/16 16:16:42 rudi // Initial Checkin // // // // // // // // `include "timescale.v" /* Serial IO Interface =============================== RTS I Request To Send CTS O Clear to send TD I Transmit Data RD O Receive Data */ module sasc_top( clk, rst, // SIO rxd_i, txd_o, cts_i, rts_o, // External Baud Rate Generator sio_ce, sio_ce_x4, // Internal Interface din_i, dout_o, re_i, we_i, full_o, empty_o); input clk; input rst; input rxd_i; output txd_o; input cts_i; output rts_o; input sio_ce; input sio_ce_x4; input [7:0] din_i; output [7:0] dout_o; input re_i, we_i; output full_o, empty_o; /////////////////////////////////////////////////////////////////// // // Local Wires and Registers // parameter START_BIT = 1'b0, STOP_BIT = 1'b1, IDLE_BIT = 1'b1; wire [7:0] txd_p; reg load; reg load_r; wire load_e; reg [9:0] hold_reg; wire txf_empty; reg txd_o; reg shift_en; reg [3:0] tx_bit_cnt; reg rxd_s, rxd_r; wire start; reg [3:0] rx_bit_cnt; reg rx_go; reg [9:0] rxr; reg rx_valid, rx_valid_r; wire rx_we; wire rxf_full; reg rts_o; reg txf_empty_r; reg shift_en_r; reg rxd_r1, rxd_r2; wire lock_en; reg change; reg rx_sio_ce_d, rx_sio_ce_r1, rx_sio_ce_r2, rx_sio_ce; reg [1:0] dpll_state, dpll_next_state; /////////////////////////////////////////////////////////////////// // // IO Fifo's // sasc_fifo4 tx_fifo( .clk( clk ), .rst( rst ), .clr( 1'b0 ), .din( din_i ), .we( we_i ), .dout( txd_p ), .re( load_e ), .full( full_o ), .empty( txf_empty ) ); sasc_fifo4 rx_fifo( .clk( clk ), .rst( rst ), .clr( 1'b0 ), .din( rxr[9:2] ), .we( rx_we ), .dout( dout_o ), .re( re_i ), .full( rxf_full ), .empty( empty_o ) ); /////////////////////////////////////////////////////////////////// // // Transmit Logic // always @(posedge clk) if(!rst) txf_empty_r <= #1 1'b1; else if(sio_ce) txf_empty_r <= #1 txf_empty; always @(posedge clk) load <= #1 !txf_empty_r & !shift_en & !cts_i; always @(posedge clk) load_r <= #1 load; assign load_e = load & sio_ce; always @(posedge clk) if(load_e) hold_reg <= #1 {STOP_BIT, txd_p, START_BIT}; else if(shift_en & sio_ce) hold_reg <= #1 {IDLE_BIT, hold_reg[9:1]}; always @(posedge clk) if(!rst) txd_o <= #1 IDLE_BIT; else if(sio_ce) if(shift_en | shift_en_r) txd_o <= #1 hold_reg[0]; else txd_o <= #1 IDLE_BIT; always @(posedge clk) if(!rst) tx_bit_cnt <= #1 4'h9; else if(load_e) tx_bit_cnt <= #1 4'h0; else if(shift_en & sio_ce) tx_bit_cnt <= #1 tx_bit_cnt + 4'h1; always @(posedge clk) shift_en <= #1 (tx_bit_cnt != 4'h9); always @(posedge clk) if(!rst) shift_en_r <= #1 1'b0; else if(sio_ce) shift_en_r <= #1 shift_en; /////////////////////////////////////////////////////////////////// // // Recieve Logic // always @(posedge clk) rxd_s <= #1 rxd_i; always @(posedge clk) rxd_r <= #1 rxd_s; assign start = (rxd_r == IDLE_BIT) & (rxd_s == START_BIT); always @(posedge clk) if(!rst) rx_bit_cnt <= #1 4'ha; else if(!rx_go & start) rx_bit_cnt <= #1 4'h0; else if(rx_go & rx_sio_ce) rx_bit_cnt <= #1 rx_bit_cnt + 4'h1; always @(posedge clk) rx_go <= #1 (rx_bit_cnt != 4'ha); always @(posedge clk) rx_valid <= #1 (rx_bit_cnt == 4'h9); always @(posedge clk) rx_valid_r <= #1 rx_valid; assign rx_we = !rx_valid_r & rx_valid & !rxf_full; always @(posedge clk) if(rx_go & rx_sio_ce) rxr <= {rxd_s, rxr[9:1]}; always @(posedge clk) rts_o <= #1 rxf_full; /////////////////////////////////////////////////////////////////// // // Reciever DPLL // // Uses 4x baud clock to lock to incoming stream // Edge detector always @(posedge clk) if(sio_ce_x4) rxd_r1 <= #1 rxd_s; always @(posedge clk) if(sio_ce_x4) rxd_r2 <= #1 rxd_r1; always @(posedge clk) if(!rst) change <= #1 1'b0; else if(rxd_r != rxd_s) change <= #1 1'b1; else if(sio_ce_x4) change <= #1 1'b0; // DPLL FSM always @(posedge clk or negedge rst) if(!rst) dpll_state <= #1 2'h1; else if(sio_ce_x4) dpll_state <= #1 dpll_next_state; always @(dpll_state or change) begin rx_sio_ce_d = 1'b0; case(dpll_state) 2'h0: if(change) dpll_next_state = 3'h0; else dpll_next_state = 3'h1; 2'h1:begin rx_sio_ce_d = 1'b1; if(change) dpll_next_state = 3'h3; else dpll_next_state = 3'h2; end 2'h2: if(change) dpll_next_state = 3'h0; else dpll_next_state = 3'h3; 2'h3: if(change) dpll_next_state = 3'h0; else dpll_next_state = 3'h0; endcase end // Compensate for sync registers at the input - allign sio // clock enable to be in the middle between two bit changes ... always @(posedge clk) rx_sio_ce_r1 <= #1 rx_sio_ce_d; always @(posedge clk) rx_sio_ce_r2 <= #1 rx_sio_ce_r1; always @(posedge clk) rx_sio_ce <= #1 rx_sio_ce_r1 & !rx_sio_ce_r2; endmodule
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