Then we go back.
Earlier pictures have POD 1 and numbers after that.
That latter part must mean connected POD pins.
When you named those other labels you didn't add that "all" text, so it is internally created.
Means that if you have more than a single bit assigned to the label the machine add rows for all bits automatically.
So I think your 1st picture of reply #92 is right and so is reply #95.
Means that all bits to POD 1 and all other labels to trash.
After "POD 1" is "00" text, the latter must be a connected bit.
Next 'B' label has "all" text, no idea why the ending is not "01" that "POD 1 00" line indicates.
Go to System Configuration menu, maybe you can put the machine back to its initial state.
You have Analyzer 1 and 2, if both are on turn other one off.
Then change the Type of the active one to State.
Then select some other menu, stuff there are what they are, that's not important.
Then go back to System Configuration menu and change the active analyzer to Timing.
If you then go to Timing Format you should have a default settings.
Maybe that is already like you had in reply #92, but without those extra labels.
Next you can go to Timing Trace menu, POD pin 00 is right and 15 left.
So for triggering POD pin 06 you select 7th from right.
Next you should be in Timing waveforms display with original POD 1 lines.
Turn markers on, you should have only one trigger available.
Markers mean that you can check times between O and X, so no use for us.
Now you can tap Run and check what happens.
If waveforms are fine then fine, if not then go back to Timing Trace menu and take the trigger off.
Tap Run again and now the picture should be like it originally was.
Seems that the trigger must be delayed, so maybe that state analyzer side of the machine is needed.
One other possibility is to have a counter/timer, feed it with a clock pulse and flip external trigger when certain amount of pulses have happened.
Why's that.
Since all signals seem to pulse very early we must find means to delay the trigger so much that this first phase is gone.
For that we can use external trigger input, but I don't know where to connect it.
With state analyzer we can arm the timing analyzer part starting when high address lines (A23 to A20) have a state 5 (0101).
Assumption here is that when I/O is accessed first time the system has reached its normal operating phase.