NG7M / 2 Videos on FSK RTTY timings generated with EXTFSK/64 on new and older PC's via USB FTDI Com Ports

> Hi Joe, unfortunately, you didn't watch both videos and follow the very
> detailed description of the setup in the 1st bideo..  The first video is
> crystal clear on a real world setup.  I'm running Win4K3Suite for CAT
> control and virtual K3 feeds to 3 different com0com virtual ports for
> SDR100's and I have a physical feed to my 2K-FA which shows up as a virtual
> K3 etc...  All of the serial activity is on the same 8 port VSCOM USB
> box... one USB connection to a 2.0 USB hub on the 8700K computer which also
> has another serial usb FTDI.   I also have a full 192khz pan adapter sound
> card going with Win4K3Suite pumping a UDP feed to N1MM+ to show the N1MM+
> spectrum display... and MMTTY is running from N1MM+.  And a full cluster
> feed going too which includes skimmer spots.  I'm not sure what real world
> is based on your comments.  Plus the PC in question is recording 4K video
> at 30fps and there are 2 web cams going full bore, one at 1920x1080p and
> the other just under that resolution.  I had the PC loaded down more than
> it ever would in a real world contest situation.
>
> If you watch the full video you can see, even with all that heavy load,
> there is no jitter as measured on the scope... unless 40 microseconds peak
> to peak at 250MSa/s is meaningful jitter.  This is all show in the video.
> I demonstrate it... I just to tell you about it via a post to the reflector
> here.
>
> Please, watch the full video before jumping to conclusions or make suggests
> on what I should demonstrate when I have already demonstrated things you
> should say I should demonstrate.
>
> Folks got their wires crossed without watching all the content in the
> videos.  Please watch all of video #1 and all of video #2 and if you
> disagree, please record your own demonstration and present data and video
> to show why there is still jitter under load on a multi core setup.  I
> can't argue against the data and video in the demonstrations.
>
> I made it *very clear* in the *2nd video*
> <https://www.youtube.com/watch?v=L48mebqLigs> that the single core computer
> didn't meet the current recommended N1MM+ hardware expectations (stated
> that very clearly early on in the video).  So to be clear, the 1.1 ghz
> laptop cira 2005 is not a good laptop if you going to load it up with CAT
> feeds and several other devices, CAT control, multiple sound cards and
> decoders, cluster feeds etc...  In fact, no one should even try to use a
> single core pc at 1.1ghz to do a bunch of concurrent processing in a
> "contest" like setup.  This hopefully is obvious to everyone/anyone.  Your
> comments related to how bad the timings are for the second video are
> relevant in that, yes... don't try to load up a system like that and run
> N1MM+ and MMTTY etc... it's a bad idea! :)   So nobody should assume I was
> trying to say that it was a good idea to use that setup.  Again, don't do
> it.  Unless you are using something external for the timings.  TinyFSK
> etc... even AFSK with timings via the sound card clock.  If you watched all
> of the second video, you will also see what happens when you load the CPU
> with a stress test while trying to generate FSK timings.  This is a worse
> case than any contest load.  You see in the video that things pretty much
> stop working as expected.
>
> It was a WORSE CASE demonstration (nothing more) and at under low load, the
> timings were NOT as bad as I expected.
>
> The *#2 video *(*assuming everyone plows through the content*) makes that
> pretty clear.  Based on rhetorical / and anecdotal comments from many
> others, they would have you believe that any USB Com port generated timings
> of rig based FSK are horrible and that your signals just can't be copied on
> the other end of the QSO.
>
> The* #1 first video * <https://www.youtube.com/watch?v=FN0SlOHcMQw>IMHO (
> *https://www.youtube.com/watch?v=FN0SlOHcMQw*
> <https://www.youtube.com/watch?v=FN0SlOHcMQw>) is more relevant to a loaded
> system in the year 2018.  Please take the time to watch the first video if
> you haven't already done so.  It is long... but you get a lot of detail on
> how an Intel i7 8700K under high load behaves when generating USB Com Port
> FSK timings.  I really hope others take the time to watch the videos before
> jumping to any conclusions.  The debate in this area will never end.  That
> is one thing we all can agree on.
>
> I would be surprised if *anyone* on this list actually has an i7 8700K
> setup like I demonstrate in the first video?  Anyone? Anyone?  Has anyone
> ponied up for an i7 8700K running 3.2ghz DDR4 ram?  I ran the 8700K at
> stock clock speeds, but usually over clock it to 5.2ghz easily across all
> cores for day to day use.  It's running on a custom water loop.  I highly
> doubt anyone has or will take the time in the short term to even try
> recording 1 hour and 55 minutes of 4K video with two web cams running along
> with multiple serial port CAT feeds going... yada, yada, yada.  We are
> talking 4K 30fps video here while running N1MM+ with two spectrum displays
> etc... please, see the #1 video, I detail all of this out.
>
> In the first video above you are going to see what really is the bleeding
> edge of single thread performance in a 6 core (12 logical thread Intel i7
> 8700K).  Believe me, what you described as a heavy load contest situation
> is a stroll through the park on an i7 8700K.  It's really laughable load
> for an 8700K.  And when I say laughable, I mean laughable. Please, if you
> haven't done so... watch the first video. The jitter presented there under
> high load while recording 4K video is in the 10s of microseconds.  Under
> typical contest load the CPU in the demonstration wouldn't even break a
> sweat.
>
> If I was to pick a starting point (which is anecdotal really) for a contest
> level computer, running CAT feeds and multiple serial devices and a heavy
> RBN cluster feed etc... I would say that a true 4 core second or 3rd
> generation Intel CPU is a good start.  However, my experience is that the
> quad core AMD's do a fine job too if you don't get too crazy.
>
> Also, has anyone actually tried to document and do any real world
> measurements on SNR and FSK RTTY jitter at some repeatable level where we
> have some real world numbers to back things up?  I certainly haven't.  I
> would love to see some video and data.  If someone is so included, I think
> you should make the measurements and present the data.  I would really love
> to see it.  Take the time to setup the testing and make it repeatable and
> present the data and video make your conclusions.  Then put it out for peer
> review and discussion.  This is what makes this all interesting.
>
> Again, please watch all the content in my videos, so we know we are on the
> same page as to what we are talking about.  And thanks again for watching
> if you have already completed reviewing all the content.
>
> Max NG7M
>
>