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[/] [i650/] [trunk/] [rtl/] [error_stop.v] - Blame information for rev 27

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`timescale 1ns / 1ps
//////////////////////////////////////////////////////////////////////////////////
// IBM 650 Reconstruction in Verilog (i650)
// 
// This file is part of the IBM 650 Reconstruction in Verilog (i650) project
// http:////www.opencores.org/project,i650
//
// Description: Error stop and sense controls.
// 
// Additional Comments: See US 2959351, Fig. 79.
//
// Copyright (c) 2015 Robert Abeles
//
// 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, download it
// from http://www.opencores.org/lgpl.shtml
//////////////////////////////////////////////////////////////////////////////////
`include "defines.v"
 
module error_stop (
    input rst,
    input ap, dp,
    input dxu, d10, wl,
    input err_restart_sw, err_reset, err_sense_reset, clock_err_sig,
          err_stop_sig, restart_reset_busy,
 
    output err_sense_light,
    output reg err_stop, err_stop_ed0u, err_sense_restart, restart_reset
    );
 
   reg err_sense;
 
   //-----------------------------------------------------------------------------
   //  The err_sense flip-flop does nothing but control a light.
   //-----------------------------------------------------------------------------
   assign err_sense_light = err_sense;
   always @(posedge ap)
      if      (rst)                       err_sense <= 0;
      else if (err_sense_reset)           err_sense <= 0;
      else if (err_stop & err_restart_sw) err_sense <= 1;
 
   //-----------------------------------------------------------------------------
   // This FSM controls the error stop / error restart process.
   //-----------------------------------------------------------------------------
   reg [0:2] state;
   `define restart_idle 3'd0
   `define restart_1    3'd1
   `define restart_2    3'd2
   `define restart_3    3'd3
   `define restart_4    3'd4
   `define restart_5    3'd5
   `define restart_6    3'd6
   always @(posedge dp)
      if (rst) begin
         err_sense_restart <= 0;
         restart_reset     <= 0;
         err_stop          <= 0;
         err_stop_ed0u     <= 0;
         state             <= `restart_idle;
      end else
         case (state)
            `restart_idle:    // start state, transition on external err signal
                              // error restart switch selects next state
               if (err_reset)
                  err_stop <= 0;
               else if (~err_stop & (clock_err_sig | err_stop_sig)) begin
                  err_stop <= 1;
                  if (err_restart_sw)
                     state <= `restart_1;
                  else
                     state <= `restart_5;
               end
            `restart_1:       // >>>error_sense switch position<<<
                              // wait for dxu
                              // signal console to begin restart reset
                              // turn off run latch
               if (dxu) begin
                  restart_reset <= 1;
                  err_stop_ed0u <= 1;
                  state <= `restart_2;
               end
            `restart_2: begin // wait for restart reset to start
               err_stop_ed0u <= 0;
               if (restart_reset_busy) begin
                  restart_reset <= 0;
                  state <= `restart_3;
               end
            end
            `restart_3:       // wait for end of restart reset
                              // turn on run latch
               if (~restart_reset_busy & wl & d10) begin
                  err_sense_restart <= 1;
                  err_stop <= 0;
                  state <= `restart_4;
               end
            `restart_4: begin
               err_sense_restart <= 0;
               state <= `restart_idle;
            end
            `restart_5:       // >>>error_stop switch position<<<
                              // turn off run latch
               if (dxu) begin
                  err_stop_ed0u <= 1;
                  state <= `restart_6;
               end
            `restart_6: begin
               err_stop_ed0u <= 0;
               state <= `restart_idle;
            end
         endcase;
 
endmodule

Line No.	Rev	Author	Line
1	23	eightycc	`timescale 1ns / 1ps
2			`//////////////////////////////////////////////////////////////////////////////////`
3			`// IBM 650 Reconstruction in Verilog (i650)`
4			`//`
5			`// This file is part of the IBM 650 Reconstruction in Verilog (i650) project`
6			`// http:////www.opencores.org/project,i650`
7			`//`
8			`// Description: Error stop and sense controls.`
9			`//`
10			`// Additional Comments: See US 2959351, Fig. 79.`
11			`//`
12			`// Copyright (c) 2015 Robert Abeles`
13			`//`
14			`// This source file is free software; you can redistribute it`
15			`// and/or modify it under the terms of the GNU Lesser General`
16			`// Public License as published by the Free Software Foundation;`
17			`// either version 2.1 of the License, or (at your option) any`
18			`// later version.`
19			`//`
20			`// This source is distributed in the hope that it will be`
21			`// useful, but WITHOUT ANY WARRANTY; without even the implied`
22			`// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR`
23			`// PURPOSE. See the GNU Lesser General Public License for more`
24			`// details.`
25			`//`
26			`// You should have received a copy of the GNU Lesser General`
27			`// Public License along with this source; if not, download it`
28			`// from http://www.opencores.org/lgpl.shtml`
29			`//////////////////////////////////////////////////////////////////////////////////`
30			`include "defines.v"
31
32			`module error_stop (`
33			`input rst,`
34			`input ap, dp,`
35			`input dxu, d10, wl,`
36			`input err_restart_sw, err_reset, err_sense_reset, clock_err_sig,`
37			`err_stop_sig, restart_reset_busy,`
38
39			`output err_sense_light,`
40	27	eightycc	`output reg err_stop, err_stop_ed0u, err_sense_restart, restart_reset`
41	23	eightycc	`);`
42
43	27	eightycc	`reg err_sense;`
44	23	eightycc
45			`//-----------------------------------------------------------------------------`
46			`// The err_sense flip-flop does nothing but control a light.`
47			`//-----------------------------------------------------------------------------`
48			`assign err_sense_light = err_sense;`
49			`always @(posedge ap)`
50			`if (rst) err_sense <= 0;`
51			`else if (err_sense_reset) err_sense <= 0;`
52			`else if (err_stop & err_restart_sw) err_sense <= 1;`
53
54			`//-----------------------------------------------------------------------------`
55			`// This FSM controls the error stop / error restart process.`
56			`//-----------------------------------------------------------------------------`
57			`reg [0:2] state;`
58			`define restart_idle 3'd0
59			`define restart_1 3'd1
60			`define restart_2 3'd2
61			`define restart_3 3'd3
62			`define restart_4 3'd4
63			`define restart_5 3'd5
64			`define restart_6 3'd6
65			`always @(posedge dp)`
66			`if (rst) begin`
67			`err_sense_restart <= 0;`
68			`restart_reset <= 0;`
69			`err_stop <= 0;`
70			`err_stop_ed0u <= 0;`
71			state <= `restart_idle;
72			`end else`
73			`case (state)`
74			`restart_idle: // start state, transition on external err signal
75			`// error restart switch selects next state`
76			`if (err_reset)`
77			`err_stop <= 0;`
78			`else if (~err_stop & (clock_err_sig \| err_stop_sig)) begin`
79			`err_stop <= 1;`
80			`if (err_restart_sw)`
81			state <= `restart_1;
82			`else`
83			state <= `restart_5;
84			`end`
85			`restart_1: // >>>error_sense switch position<<<
86			`// wait for dxu`
87			`// signal console to begin restart reset`
88			`// turn off run latch`
89			`if (dxu) begin`
90			`restart_reset <= 1;`
91			`err_stop_ed0u <= 1;`
92			state <= `restart_2;
93			`end`
94			`restart_2: begin // wait for restart reset to start
95			`err_stop_ed0u <= 0;`
96			`if (restart_reset_busy) begin`
97			`restart_reset <= 0;`
98			state <= `restart_3;
99			`end`
100			`end`
101			`restart_3: // wait for end of restart reset
102			`// turn on run latch`
103			`if (~restart_reset_busy & wl & d10) begin`
104			`err_sense_restart <= 1;`
105			`err_stop <= 0;`
106			state <= `restart_4;
107			`end`
108			`restart_4: begin
109			`err_sense_restart <= 0;`
110			state <= `restart_idle;
111			`end`
112			`restart_5: // >>>error_stop switch position<<<
113			`// turn off run latch`
114			`if (dxu) begin`
115			`err_stop_ed0u <= 1;`
116			state <= `restart_6;
117			`end`
118			`restart_6: begin
119			`err_stop_ed0u <= 0;`
120			state <= `restart_idle;
121			`end`
122			`endcase;`
123
124			`endmodule`

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[/] [i650/] [trunk/] [rtl/] [error_stop.v] - Blame information for rev 27