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How can a extend memory space at 8086 up to 1 GB ???

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what? memory space at 8086? Surely you do not mean enabling an 16-bit 8086 processor to access 1GB of ram? –  Dan McGrath May 30 '10 at 21:50
    
Is this a practical or a theoretical question? Do you have an actual 8086 that you're using for this? –  Greg Hewgill May 30 '10 at 21:51
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I'd like to extend my 16MB hard drive's capacity to 1GB after we're done with this –  Michael Mrozek May 30 '10 at 21:52
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I think the best part would be watching paint dry while the 8086 attempting to do whatever processing was required on that 1GB of data, lol –  Dan McGrath May 30 '10 at 21:54
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@user You should really include that sort of information in the question –  Michael Mrozek May 30 '10 at 22:09

3 Answers 3

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Obviously, you're not going to get a linear address space. 1GB of space requires 30 address lines, and there are only 20 physical address lines on the 8086. You implement bank switching, where the 8086 provides 20 lower address lines. The 10 additional lines are provided via a latch that you map to a 16-bit I/O port. Writing a value to that port stores the 10-bit bank number in the latch. The latch is then used to feed the upper 10 address lines to memory.

When I did this as hardware project at university 20 years ago, the largest memory we could get hold of then was 2MB - I've no idea how you would interface a modern 1GB memory module!

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Can i make a bank of 1 MB memory and also make 2 latches for the additional 10 lines which will enter in a multiplexer (we call it that way) so we could get 1024 outputs and each output to select 1 bank ? I think thats the way of getting 1 GB, but that my theory so can you help m? Is my theory ok?? –  Vlatko May 30 '10 at 22:15
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I don't understand why you need 2 latches (Unless you mean 2 8-bit ones to cover the 10-bits needed.) 1024 outputs - I don't think you need that, unless you really have 1024 separate 1MB memory modules. If you have just 1 module, then keep the 1MB bank selection encoded in 10 bits, it's a lot simpler that way. –  mdma May 30 '10 at 22:25
    
As it's for an exam, I shaln't say any more, as you need to do some thinking as well! :) All the pieces of the picture are here, you just need to think it through! Good luck! –  mdma May 30 '10 at 22:27
    
Yes i ment 2 8-bit latches to cover 10 bits. 1024 outputs to select 1024 banks (1 MB each ) so i can address up to 1 GB. This is a question that i get on my exam last week , and i think i will get the same one tomorrow. Its a theoretical guestion, we can draw or write –  Vlatko May 30 '10 at 22:31
    
Sounds good. but not 1024 outputs - 10 outputs, with 1024 combinations. –  mdma May 30 '10 at 22:32

You'd have to implement some kind of bank switching in hardware.

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+1 Yes, that would be what I was referring to by "hardware". –  Matti Virkkunen May 30 '10 at 21:56

You could upgrade to a more modern processor. For example, any processor that's not from the seventies!

If that's out of the question, this probably becomes more of a hardware problem than a software problem...

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Well it a hardware problem. I have to explain how can i phisicly extend the memory up to 1 GB. I think i need a bank that can address 1MB and a multiplexer 10>1024 so i will get 1 GB. It sounds good when i say, but i dont know if its possible –  Vlatko May 30 '10 at 21:56
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We should abandon x86, you say? I can't agree more strongly! –  Anonymoose May 30 '10 at 21:57
    
Yes, it is possible. –  Matti Virkkunen May 30 '10 at 21:57
    
@Anonymouse: Fine, fine, I removed the word "architecture" :) Although I really wouldn't mind getting rid of x86 while we're at it. By the way, a workmate of mine keeps pronouncing "anonymous" as "anonymouse", you know him by any change? –  Matti Virkkunen May 30 '10 at 21:59
    
@Anonymouse 8086 != x86, 8086 had 16bit memory space, x86 has 32bit, x64 (AMD64) has 64bit. 2^16=64K, 2^32=4GB, 2^64=16M of PBs! The only way to use more memory is to use longer address words (which you can't) or use a hardware extension with more bits and access it with two or more words. –  Danny Varod May 30 '10 at 22:06

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