module time_receiver (input clk, input rst, output reg [63:0] vita_time, output reg sync_rcvd, input exp_time_in); wire code_err, disp_err, dispout, complete_word; reg disp_reg; reg [9:0] shiftreg; reg [3:0] bit_count; wire [8:0] dataout; reg [8:0] dataout_reg; reg exp_time_in_reg, exp_time_in_reg2; always @(posedge clk) exp_time_in_reg <= exp_time_in; always @(posedge clk) exp_time_in_reg2 <= exp_time_in_reg; always @(posedge clk) shiftreg <= {exp_time_in_reg2, shiftreg[9:1]}; localparam COMMA_0 = 10'h283; localparam COMMA_1 = 10'h17c; wire found_comma = (shiftreg == COMMA_0) | (shiftreg == COMMA_1); wire set_disp = (shiftreg == COMMA_1); always @(posedge clk) if(rst) bit_count <= 0; else if(found_comma | complete_word) bit_count <= 0; else bit_count <= bit_count + 1; assign complete_word = (bit_count == 9); always @(posedge clk) if(set_disp) disp_reg <= 1; else if(complete_word) disp_reg <= dispout; always @(posedge clk) if(complete_word) dataout_reg <= dataout; decode_8b10b decode_8b10b (.datain(shiftreg),.dispin(disp_reg), .dataout(dataout),.dispout(dispout), .code_err(code_err),.disp_err(disp_err) ); reg error; always @(posedge clk) if(complete_word) error <= code_err | disp_err; localparam STATE_IDLE = 0; localparam STATE_T0 = 1; localparam STATE_T1 = 2; localparam STATE_T2 = 3; localparam STATE_T3 = 4; localparam STATE_T4 = 5; localparam STATE_T5 = 6; localparam STATE_T6 = 7; localparam STATE_T7 = 8; localparam STATE_TAIL = 9; localparam HEAD = 9'h13c; localparam TAIL = 9'h1F7; reg [3:0] state; reg [63:0] vita_time_pre; reg sync_rcvd_pre; always @(posedge clk) if(rst) state <= STATE_IDLE; else if(complete_word) if(code_err | disp_err) state <= STATE_IDLE; else case(state) STATE_IDLE : if(dataout_reg == HEAD) state <= STATE_T0; STATE_T0 : begin vita_time_pre[63:56] <= dataout_reg[7:0]; state <= STATE_T1; end STATE_T1 : begin vita_time_pre[55:48] <= dataout_reg[7:0]; state <= STATE_T2; end STATE_T2 : begin vita_time_pre[47:40] <= dataout_reg[7:0]; state <= STATE_T3; end STATE_T3 : begin vita_time_pre[39:32] <= dataout_reg[7:0]; state <= STATE_T4; end STATE_T4 : begin vita_time_pre[31:24] <= dataout_reg[7:0]; state <= STATE_T5; end STATE_T5 : begin vita_time_pre[23:16] <= dataout_reg[7:0]; state <= STATE_T6; end STATE_T6 : begin vita_time_pre[15:8] <= dataout_reg[7:0]; state <= STATE_T7; end STATE_T7 : begin vita_time_pre[7:0] <= dataout_reg[7:0]; state <= STATE_TAIL; end STATE_TAIL : state <= STATE_IDLE; endcase // case(state) always @(posedge clk) if(rst) sync_rcvd_pre <= 0; else sync_rcvd_pre <= (complete_word & (state == STATE_TAIL) & (dataout_reg[8:0] == TAIL)); always @(posedge clk) sync_rcvd <= sync_rcvd_pre; always @(posedge clk) vita_time <= vita_time_pre; endmodule // time_sender