CPU <> Memory chip communication interface

[Al Borowski]

I seek a simple but realistic answer to my question for a real world device.
If it's not simple then so be it.

I do not seek a dumbed down version of reality so the MIT open courseware is
not for me.

Bye,
Skybuck.

To succeed as a troll you must be subtle. You had the 'clueless newbie'
theme going fairly well until now. Calling MIT material 'dumbed down'
whilst pretending not to understand what capacitors and resistors are is
being too obvious.


cheers,

Al

 

[Skybuck Flying]

"Al Borowski" &lt;al.borowski@EraseThis.gmail.com&gt; wrote in message
news:42f341bb$0$16504$5a62ac22@per-qv1-newsreader-01.iinet.net.au...

I seek a simple but realistic answer to my question for a real world
device.
If it's not simple then so be it.

I do not seek a dumbed down version of reality so the MIT open
courseware is
not for me.

Bye,
Skybuck.



To succeed as a troll you must be subtle. You had the 'clueless newbie'
theme going fairly well until now. Calling MIT material 'dumbed down'
whilst pretending not to understand what capacitors and resistors are is
being too obvious.

Well it's the thruth I can't help it, go watch the first video of course
6002.

The dude says so himself.

Dumbing down things will create more problems on the long run. It's a
solution to no where.

Bye,
Skybuck.

 

[Skybuck Flying]

"Ken Hagan" &lt;K.Hagan@thermoteknix.co.uk&gt; wrote in message
news:dcvanf$ho3$1$8300dec7@news.demon.co.uk...

Skybuck Flying wrote:

Ok one more try:

If you aren't trolling, then might I suggest that the design of a
completely new computer architecture is probably beyond someone who
doesn't know about volts and amps. I'd guess about ten years of full
time study might be enough to raise your general level of knowledge
to a level at which the project wasn't a complete waste of everyone's
time. In the meantime, please understand that even with the best will
in the world (and whilst I may have been a little shirty yesterday,
others have certainly indulged you) you simply aren't credible as
an honest poster anymore.

So if the pressure of source of the voltage becomes to high the pipe
blows
up ?

Yes.

Well that wasn't so hard

Can you answer my other questions too, are did MIT dumb you down to much to
answer it ?

Bye,
Skybuck.

 

[Ken Hagan]

Skybuck Flying wrote:

Can you answer my other questions too, are did MIT dumb you down to much to
answer it ?

I probably can, but you spelled "or" incorrectly and I've never been to
MIT and, to paraphrase Arthur C. Clarke, "Any sufficiently rude Usenet
poster is indistinguishable from a troll.".

Bye,
Skybuck.

Bye.

 

[Skybuck Flying]

"Ken Hagan" &lt;K.Hagan@thermoteknix.co.uk&gt; wrote in message
news:dcvo48$59e$1$830fa7a5@news.demon.co.uk...

Skybuck Flying wrote:

Can you answer my other questions too, are did MIT dumb you down to much
to
answer it ?

I probably can, but you spelled "or" incorrectly and I've never been to
MIT and, to paraphrase Arthur C. Clarke, "Any sufficiently rude Usenet
poster is indistinguishable from a troll.".

I had a feeling you weren't ever at MIT because you ain't dumbed down. It
was just a joke

Skybuck: "Having a conversation with a troll can be very usefull as well."

Thanks to a troll I found out my code is a universal code

How funny is that ?

Bye,
Skybuck

 

[Derek Gladding]

Skybuck Flying wrote:

"Bob Monsen" &lt;rcsurname@comcast.net&gt; wrote in message
news:5vmdneq0d61ksW7fRVn-jg@comcast.com...
Skybuck Flying wrote:
"Bob Monsen" &lt;rcsurname@comcast.net&gt; wrote in message
news:8uudndJMU45UTm_fRVn-qg@comcast.com...

Hi Skybuck

[snip]

So first I would need to understand how fast eletronics and a 0 or 1
signal
can move across a wire

http://www.google.com/search?hl=en&amp;ie=ISO-8859-1&amp;q=transmission+line+theory&amp;btnG=Google+Search

and can be detected by devices, ports etc.

Just off of the top of my head (it's 5.30am here, and I've just done
a 16 hour day ... are you *sure* you want to move into this field? ;-) )

Here's some pointers to help with your research:

(warning, links may have wrapped)

http://www.google.com/search?hl=en&amp;lr=&amp;ie=ISO-8859-1&amp;q=schmitt+trigger&amp;btnG=Search
http://www.google.com/search?hl=en&amp;lr=&amp;ie=ISO-8859-1&amp;q=transistor+switching+frequency&amp;btnG=Search
http://www.google.com/search?hl=en&amp;lr=&amp;ie=ISO-8859-1&amp;q=dynamic+current+vlsi&amp;btnG=Search
http://www.google.com/search?q=capacitive+load&amp;btnG=Search&amp;hl=en&amp;lr=&amp;ie=ISO-8859-1
http://www.google.com/search?hl=en&amp;lr=&amp;ie=ISO-8859-1&amp;q=signal+to+noise+ratio&amp;btnG=Search
http://www.google.com/search?hl=en&amp;lr=&amp;ie=ISO-8859-1&amp;q=ground+bounce&amp;btnG=Search
http://www.google.com/search?hl=en&amp;lr=&amp;ie=ISO-8859-1&amp;q=phase+locked+loop&amp;btnG=Search
http://www.google.com/search?hl=en&amp;lr=&amp;ie=ISO-8859-1&amp;q=clock+recovery&amp;btnG=Search

There's a lot more than this, but IO isn't really my core experience.
Hopefully this will give you a starting point.

[snip]

I seek a simple but realistic answer to my question for a real world
device. If it's not simple then so be it.

I do not seek a dumbed down version of reality so the MIT open courseware
is not for me.

Everything you will ever deal with in electronics, logic, or computer
architecture is an approximation to some degree. One of the key skills
is choosing the right approximation for the specific task at hand.

HTH

- Derek

Bye,
Skybuck.