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Ruuds Diagnostic ROM  -  Breakdown  -  Version 3.4


Below, 'Checkpoint' means send the specified byte (which is in hex) to I/O ports 80h, 378h, 278h, and 3BCh.

I/O ports 378h and 278h and 3BCh are parallel (printer) ports.  If you have a parallel (printer) port at either of those ports, then the device shown at here can be used to view bytes sent to the port.  You can use a parallel printer if it has a 'hex' mode - example at here.

On an IBM 5150 or 5160, rarely does a POST card work to monitor bytes sent to I/O port 80h.  Do not be surprised if it does not work.  More information about that is at here.




For version 3.4



STEP
Video
enabled ?

           ACTION

           IF ERROR

           COMMENT
1 No Send checkpoint 33    33h chosen because it is very distinctive.  See note 1 below.
2 No Beep the speaker three times: short-long-short.    Short-long-short chosen because it is very distinctive.  See note 2 below.
3 No Send checkpoint 00    
4 No Part 1 of CPU test.  If an error, send checkpoint 80 (hex) then halt.  
5 No Send checkpoint 01    
6 No Part 2 of CPU test.  If an error, send checkpoint 81 (hex) then halt.  
7 No Send checkpoint 02    
8 No See if 8-bit checksum of ROM is 00h.  If not 00h, send checkpoint 82 (hex) then halt.  ROM = Ruud's Diagnostic ROM
9 No Send checkpoint 03    
10 No Quote: 'Initialise the 8255 multi-port chip'    
11 No Quote: 'Make sure that turbo is off and disable memory parity'    
12 No Send checkpoint 04    
13 No Just in case, disable NMI interrupts.    A good motherboard will automatically do that at power-on time.
14 No Send checkpoint 05    
15 No Enable the extender card (if fitted).    Extender card for IBM 5161.
16 No Send checkpoint 06    
17 No Disable video output from the MDA/CGA card.    
18 No Send checkpoint 07    
19 No Look for MDA or CGA video RAM.  If neither found, or the RAM is discovered faulty,
 send checkpoint 83 (hex) then halt.
 Video RAM (the unused bit) will be used for the stack and some variables.
20 No Send checkpoint 08    
21 No As applicable, initialise the MDA card or CGA card.    
22 No Send checkpoint 09    
23 No Clear the video screen.    
24 No Send checkpoint 0A    
25 No Set the correct video mode, and make the cursor invisible.    
26 No Send checkpoint 0B    
27 No Clear our variables.    Zero the variables that the diagnostic stores in video RAM.
28 No Send checkpoint 0C    
29 Yes On-screen, display the name of the program and the version.    
30 Yes Send checkpoint 0D    
31 Yes Display "Testing CPU"    
32 Yes Part 1 of CPU test.  If an error, send checkpoint 8D (hex) then halt.  
33 Yes Send checkpoint 0E    
34 Yes Part 2 of CPU test.  If an error, send checkpoint 8E (hex) then halt.  
35 Yes Send checkpoint 0F    
36 Yes Display "Diagnostic ROM checksum"    
37 Yes See if 8-bit checksum of ROM is 00h.  If not 00h, send checkpoint 8F (hex) then halt.  
38 Yes Send checkpoint 12 (hex)    
39 Yes Quote: 'Disable the DMA controller'    
40 Yes Quote: 'Disable the speakers and enable timer 2'    
41 Yes Send checkpoint 16 (hex)    
42 Yes Display "8253 timer channel 0"    
43 Yes Test 8253 timer channel 0.  If an error, send checkpoint 96 (hex).  
44 Yes Send checkpoint 18 (hex)    
45 Yes Display "8253 timer channel 1"    
46 Yes Test 8253 timer channel 1.  If an error, send checkpoint 98 (hex) then halt.  Halt beause with a failing timer 1, there won't be any refresh of motherboard and card RAM.
 That compromises a later test of that RAM.
47 Yes Send checkpoint 1A    
48 Yes Display "8253 timer channel 2"    
49 Yes Test 8253 timer channel 2.  If an error, send checkpoint 9A.  
50 Yes Send checkpoint 1C    
51 Yes Display "8237A DMA controller"    
52 Yes Test the 8237A DMA controller.  If an error, send checkpoint 9C then halt.  
53 Yes Send checkpoint 24 (hex)    
54 Yes Configure the 8237 DMA controller    Includes preparing for RAM refresh by appropriately configuring channel 0.
55 Yes Send checkpoint 25 (hex)    
56 Yes Display "Hot timer 1 check"    
57 Yes Look for a 'hot timer 1'.  If error, send checkpoint A5.  The DREQ0 pin on the 8237A DMA controller is expected to be LOW.
58 Yes Send checkpoint 26 (hex)    
59 Yes Initialise channel 1 on the 8253 timer chip.    One pulse per approximately 15 µs.  See here.
60 Yes Send checkpoint 27 (hex)    
61 Yes Display "8255 parity check"    
62 Yes Parity error?  If a parity error, send checkpoint A7.  At this time, the 8255 chip should not be signaling that a parity error was detected.
63 Yes Send checkpoint 2A    
64 Yes Display "Check first 2 KB of RAM"    
65 Yes Check the first 2 KB of RAM. If an error, send checkpoint AA then put error details on-screen, then halt the CPU.  
66 Yes Send checkpoint 32 (hex)    
67 Yes Display "Found RAM:"   See how much Conventional memory can be found.

Strickly speaking, what this diagnostic reports is the top address of RAM.
For example, in the misconfiguration shown at here, the diagnostic will report 640 KB.
Same if a RAM card goes faulty in a way that creates a gap between motherboard RAM and card RAM.
68 Yes See how much RAM can be found.    
69 Yes Send checkpoint 34 (hex)    
70 Yes Display the amount of RAM found.    
71 Yes Send checkpoint 35 (hex)    
72 Yes Display "Testing RAM - Data"    
73 Yes Do a data test of the found RAM. If an error, send checkpoint B5 then put error details on-screen, then halt the CPU.  
74 Yes Send checkpoint 37 (hex)    
75 Yes Display "Testing RAM - Address"    
76 Yes Adddress test of the found RAM - Part 1 of 2. If an error, send checkpoint B7 then put error details on-screen, then halt the CPU.  Tested as how IBM do it; a test done within each 16K block.
  Yes Adddress test of the found RAM - Part 2 of 2. If an error, send checkpoint B8 then put error details on-screen, then halt the CPU.  Step 1: At all addresses that are a multiple of 16K, write a unique value into the first address.
 Step 2: Go and read back all of those unique values.
77 Yes Send checkpoint 39 (hex)    
78 Yes Display "Testing RAM - Refresh"    
79 Yes Do a test of RAM refresh. If an error, send checkpoint B9 then put error details on-screen, then halt the CPU.  10 second delay between test write then read-back.
80 Yes Send checkpoint 3E (hex)    
81 Yes Display "8259 interrupt controller"    
82 Yes Test the 8259 interrupt controller.  If an error, send checkpoint BE.  
83 Yes Send checkpoint 40 (hex)    
84 Yes Display "Looking for bad interrupts".    
85 Yes Check if the 8259 sees an interrupt when one is unexpected.  If an interrupt, send checkpoint C0.  
86 Yes Send checkpoint 42 (hex)    
87 Yes Display "Checking INT 0".    
88 Yes Test INT 0.  If an error, send checkpoint C2.  
89 Yes Send checkpoint 46 (hex)    
90 Yes Display "Checking NMI".    
91 Yes Test the NMI.  If an error, send checkpoint C6.  
92 Yes Send checkpoint 4C (hex)    
93 Yes Display "Checking 8087 coprocessor".    
94 Yes Initialise the 8087.  If an error, send checkpoint CC.  Will fail if an 8087 is not fitted.
95 Yes Send checkpoint 4E (hex)    
96 Yes Display "Check keyboard controller".    
97 Yes Check keyboard controller.  If an error, send checkpoint CE.  
98 Yes Send checkpoint 50 (hex)    
99 Yes Display "Check keyboard scan lines".    
100 Yes Check keyboard scan lines.  If an error, send checkpoint D0.  
101 Yes Send checkpoint 52 (hex)    
102 Yes Display "Check floppy controller".    
103 Yes Check floppy controller.  If an error, send checkpoint D2.  
104 Yes Send checkpoint 54 (hex)    
105 Yes Display "Trying to read a floppy".    
106 Yes Try to read a floppy.  If an error, send checkpoint D4.  
107 Yes Send checkpoint 60 (hex)    
108 Yes Display "Check ROM at F4000".    IBM 5150: IC socket U28.   IBM 5160: IC socket U19.   Diagram at here.
109 Yes Verify that 8 KB at F4000 has an 8-bit checksum of 00.    
110 Yes Send checkpoint 61 (hex)    
111 Yes Display "Check ROM at F6000".    IBM 5150: IC socket U29.   IBM 5160: IC socket U19.   Diagram at here.
112 Yes Verify that 8 KB at F6000 has an 8-bit checksum of 00.    
113 Yes Send checkpoint 62 (hex)    
114 Yes Display "Check ROM at F8000".    IBM 5150: IC socket U30.   IBM 5160: IC socket U19.   Diagram at here.
115 Yes Verify that 8 KB at F8000 has an 8-bit checksum of 00.    
116 Yes Send checkpoint 63 (hex)    
117 Yes Display "Check ROM at FA000".    IBM 5150: IC socket U31.   IBM 5160: IC socket U19.   Diagram at here.
118 Yes Verify that 8 KB at FA000 has an 8-bit checksum of 00.    
119 Yes Send checkpoint 64 (hex)    
120 Yes Display "Check ROM at FC000".    IBM 5150: IC socket U32.   IBM 5160: IC socket U19.   Diagram at here.
121 Yes Verify that 8 KB at FC000 has an 8-bit checksum of 00.    
122 Yes Send checkpoint 6A (hex)    
123 Yes Display the switch setting    
124 Yes Send checkpoint 72 (hex)    
125 Yes Update the 'Completed passes' figure    
126 Yes Send checkpoint 74 (hex)    






Note 1 Possible problems in using 00 instead could be:
• 00 might be the default power-on display of some parallel/LPT monitoring devices.
• Some parallel/LPT monitoring devices may register a 00 (and other bytes) at power-on time.
   
   
Note 2 Yes, we are taking the chance that the circuitry involved in beeping the speaker is working.

No beeps might be because:
• No speaker connected to motherboard.
• Diagnostic ROM not created properly.
• Diagnostic ROM has started to execute, but circuitry involved in beeping the speaker is faulty.