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 Post subject: A little BE experiment?
PostPosted: Tue Apr 18, 2023 5:24 am 
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Has anyone experimented with applying phase2 to BE? As far as I can see from the data sheet, it ought not to affect the processor - the data and address bus would be isolated at a time when the processor isn't using them (provided the external memory parts are in timing spec) but should save me eight or ten chips on a video design.

Neil


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PostPosted: Tue Apr 18, 2023 6:29 am 
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barnacle wrote:
Has anyone experimented with applying phase2 to BE? As far as I can see from the data sheet, it ought not to affect the processor - the data and address bus would be isolated at a time when the processor isn't using them (provided the external memory parts are in timing spec) but should save me eight or ten chips on a video design.

Neil


No... But I suspect it won't work on an '816 which wants to drive the data bus when the clock is low... (unless you're only using 64K RAM)

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PostPosted: Tue Apr 18, 2023 10:05 am 
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Answering my own question: it appears not to affect a minimal design 65c02 at all, which is what I had hoped.

That means I can get a bit creative with two processors on opposite phases and with different approaches to their ram, possibly sharing different bits of the same eeprom.

Neil


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PostPosted: Tue Apr 18, 2023 11:53 am 
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Keep in mind the 65C22 needs valid address and R/W signals on the rising edge of PHI2. If your minimal system does not use any 65XX peripherals, then you should be ok.

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PostPosted: Tue Apr 18, 2023 3:41 pm 
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Yeah, I guess that's the 65c22 out then... but an hc374 latch will grab on the rising edge of rnw gated with something suitable if necessary.

I'm currently trying to work out how to use a single eeprom chip and a single ram chip with different memory mappings for each processor. Not sure if it's possible but it'll be fun if it is.

My quick test just used my variant of Grant's minimal system with the two pins wired together; everything seems to work including critically the 68B50 UART. Whether that continues to work if the other phase of the clock gets full of data is another question!

Neil


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PostPosted: Tue Apr 18, 2023 4:01 pm 
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barnacle wrote:
I'm currently trying to work out how to use a single eeprom chip and a single ram chip with different memory mappings for each processor.

couldn't you just hook PHI2 up to an unused address line on both the RAM and ROM? that way it would map memory to a different part of each chip depending on the clock phase. or if you route it through some logic you could leave some part of RAM static so both CPUs can communicate through it.

sharing the bus could also be done by having each CPU go through a 74x245 (for the data bus) and some 74x541's (address bus and R/W line). it's functionally the same but now you could connect each CPU to their own private 65C22 (which could also be used for communication between CPUs).
but at that point you pretty much just have 2 seperate SBCs sharing some parts and running at half the speed that either of them could run alone.


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PostPosted: Tue Apr 18, 2023 5:36 pm 
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If the RAM's WE\ and chip enables don't wait until some setup time after the address is valid and stable, you can corrupt other addresses.  (This may apply to even non-65xx I/O ICs as well.)  It may initially appear to work if you do a simple test with a small routine that uses hardly any variables or stack space; but as you build your application, you'll start getting problems that may be very difficult to troubleshoot.  Just be sure to implement that needed setup time so you avoid the problems.

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PostPosted: Tue Apr 18, 2023 5:39 pm 
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Quite. That's how I started, with 245 and 541 isolating the busses, with the added complication of a 64k chunk of memory that had to be visible as one block from one processor but as four 16k pages from the other, so I needed an adder in the system too... the original plan was for an SVGA graphical output - monochrome, 40MHz dot clock so 5MHz processor clock, but I only have 150nS eeproms to hand and they're not fast enough.

As briefly discussed elsewhere the plan is to use the second processor as a video ram address generator by running 'rom' code and grabbing data from the simultaneously addressed but otherwise isolated ram. As it wouldn't go fast enough, the initial proof of concept would be to run it at half speed and check with a scope for timings etc... but that struck me as a bit silly until I can get (and program) faster proms. Two issues that raised their head was the need for something akin to a 6522 to handle both the page offset (via an adder, further slowing things) and to manage a ps/2 keyboard; and the fact that the video 6502 needs access to a minimum of ram for a stack (though that also applies to plan B).

So plan B: modify the minimal system already running at 1.8432MHz and aim for 60Hz VGA output but at a reduced output resolution; the 1.8Mhz signal actually meets the VGA spec within a few nanoseconds and better than the 0.5% tolerance. It results in 44 * 8 dots in the active picture; I intend to restrict it to 200 dots which is handy for forty characters across a line. Reading each line twice to get a reasonably square dot gives 240 lines; with an 8x16 character cell that's forty across and fifteen characters down. Or twenty characters down if I use an 8x12 cell. This requires a shade under 8k bytes of video ram (8000 if we're being exact!)

On this basis, the main processor memory looks like:
  • Ram from 0x0000 to 0x7fff, with video memory starting at 0x6000 and half a k unavailable (by treaty, not design) at 0x4000-0x4200
  • I/O space from 0x8000 to 0xbfff, basically the UART (so a ps/2 connection is not required; it can use a terminal for now)
  • Eeprom from 0xc000 to 0xfff, using half a 28c256
While the video processor memory looks like:
  • Ram from 0x0000 to 0x0200 (though more likely 0x0000 to 0x2000 to simplify decoding) which would map to 0x6000 upwards of the main processor ram
  • A tiny bit of write-only I/O to set and clear a couple of flip-flops on the zero page
  • Eeprom from 0x2000 to 0x3fff, echoed to 0x6000, 0xa000, and 0xe000, provided by the other half of the main processor eeprom. If I can work out a way to do it :)

Which is where I am at the moment...

Neil


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PostPosted: Tue Apr 18, 2023 8:16 pm 
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barnacle wrote:
Has anyone experimented with applying phase2 to BE? As far as I can see from the data sheet, it ought not to affect the processor - the data and address bus would be isolated at a time when the processor isn't using them (provided the external memory parts are in timing spec) but should save me eight or ten chips on a video design.

Theoretically workable with the 65C02, although I should note the 65C02 does use the address bus during Ø2 low, as that is when the effective address first appears.

That said and as Garth noted, 65xx peripherals require that the address bus, chip selects and RWB be stable prior to the rise of the clock. Hence a device such as the 65C22 would be unresponsive if BE were low during Ø2 low.

What you want to do may be possible with the 65C816, provided you include VDA && VPA in the logic to determine when BE may be negated. As Gordon noted, the 65C816 drives A16-A23 on the data bus during Ø2 low. Therefore, you cannot negated BE during any Ø2 low in which VDA || VPA is true, as you’d be preventing the A16-A23 address component from reaching the rest of the system.

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PostPosted: Wed Apr 19, 2023 10:09 am 
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Just a quick note as I don't have much time - I think sburrow's Acolyte system works this way, and he gets around the 6522 issue by sending it a delayed, shorter PHI2 signal that's only high during the last quarter of the cycle rather than the last half of the cycle.

My own systems haven't used BE at all - instead I've tended to connect the 6502 directly to the 6522, ROM, RAM, etc, and give the video circuit its own RAM, with transceivers between the two halves of the system to keep the buses separate. So when PHI2 is low, the transceivers are inactive and the video circuit reads from its RAM, while when PHI2 is high the transceivers may be active to allow CPU access to video RAM.


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PostPosted: Wed Apr 19, 2023 12:03 pm 
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gfoot wrote:
Just a quick note as I don't have much time - I think sburrow's Acolyte system works this way, and he gets around the 6522 issue by sending it a delayed, shorter PHI2 signal that's only high during the last quarter of the cycle rather than the last half of the cycle.


Exactly correct George, thank you.

Yes Neil, I connect BE directly to PHI2 and it works wonderfully. I had tried different schemes in the past, but ultimately I wanted to save logic at some point and just straight connected it. It has worked on at least 2 or 3 of my models so far.

What I *really* do though (don't laugh!) is connect PHI2O to BE. I figured the pin just doesn't get much love any more, and it might give it a tiny tiny delay to help in timing. In the end, it doesn't matter, and I still use PHI2O simply because if I need to bodge something I can easily just cut that line and nothing else in the system is affected.

Thanks!

Chad


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PostPosted: Wed Apr 19, 2023 1:24 pm 
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sburrow wrote:
What I *really* do though (don't laugh!) is connect PHI2O to BE. I figured the pin just doesn't get much love any more, and it might give it a tiny tiny delay to help in timing. In the end, it doesn't matter, and I still use PHI2O simply because if I need to bodge something I can easily just cut that line and nothing else in the system is affected.

FYI, the Acorn Master does something similar as well:
Attachment:
Capture.PNG
Capture.PNG [ 112.65 KiB | Viewed 3219 times ]

In this case, it's a 65SC12 processor and the DBE signal, but the idea is the same.

I think this is avoiding contention with the video system, which uses the data bus during Phi1.

Dave


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PostPosted: Wed Apr 19, 2023 2:21 pm 
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It's interesting that they added an RC delay circuit there, I guess that makes it lag PHI2 by 10-20ns depending upon the threshold on DBE?


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PostPosted: Wed Apr 19, 2023 3:32 pm 
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Chad, I had wondered about using ph2 to give a delay, but of course it gives a delay at both ends. I have a dot clock running at 14Mhz and change, and I'm playing about with that to generate a delayed ph2 for a 65c22; it would be nice to include the 65c22 if only to simplify PS/2 keyboard and/or mouse interfacing.

At the speeds I'm using, the last half of ph2 or ph0 should be no worry.

The system I learned on - Microtan 65 - used an off-phase video generator with a character rom, and I, um, borrowed that way of doing it many times, though it used a divider chain to generate the addresses and blanking. That was handy for me since I had to generate signals which could be overlaid on PAL-625 interlaced video signals, so I used a phase-locked-loop to generate a 6Mhz dot clock. I built one system that was installed in a TV station in Leeds in the mid-eighties - wirewrapped - and which ran without missing a beat until they closed the studio twenty-odd years later.

(and in an odd coincidence; the first 6502 cross-assembler I used was Avocet running on CP/M and a nature program on the TV at the moment has just shown a flock of them :) )

Neil


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PostPosted: Wed Apr 19, 2023 4:33 pm 
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barnacle wrote:
Chad, I had wondered about using ph2 to give a delay, but of course it gives a delay at both ends. I have a dot clock running at 14Mhz and change, and I'm playing about with that to generate a delayed ph2 for a 65c22; it would be nice to include the 65c22 if only to simplify PS/2 keyboard and/or mouse interfacing.


The things that were odd for me were the CS lines on the VIA. I actually had /CS2 from my /IO addressing, but CS1 connected directly to PHI2. Thus, the VIA is only activated during the PHI2-high side (thus my video addresses is ignored), and then the clock for the VIA is high, like George and you are talking about, at the second half of the PHI2-high cycle. It's been working great for me (as soon as I figured out I had the wrong databus, ah!). I always seem to find the issues AFTER I get the board printed... Lots of bodges :)

As to the delay on both ends, I was actually thinking that would be an issue, but it turned out to not in my case. Keeping BE high just a tiny bit longer was actually a good thing, so that the databus on the 6502 could latch. Delaying on the front end wasn't an issue since I was giving RAM and ROM plenty of time anyways. This is all theory, because of course in my case, it didn't matter either way. The delay is SO minimal it isn't even worth discussing at my speed.

Are you using BE to run a video circuit? I feel that implied by some of your responses. And I think we had talked about that some time ago too, right?

Thanks!

Chad


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