| I think this has been covered in here before.
Two stations can be connected "back to back" and thereby form a two
station ring. This is the minimal configuration and is perfectly valid.
There are general issues with this configuration that may be confusing
but don't really matter. For example, if one station is not up (or its
FDDI adapter is not initialized) the other station's FDDI adapter will
not come up on the ring. This is because, since it is a two station
ring, both must be up for the ring to be up. And if one is down, you
can't talk to it anyway, so it doesn't matter that your connection to
the ring is not up. If you had a concentrator in this picture, the
station that is up would be "up on the ring" but it still wouldn't have
anyone to talk to if there is only one other station.
Also, this "back to back" config is the only way to use full duplex.
There were some problems in VMS where the driver was not initializing
the adapter in the same way OSF was. This meant that it was sometimes
difficult to use a VMS system in a two station ring like this. But
that has been resolved.
Note! (baring GIGAswitch's new M-port support) plugging a station
directly into a GIGAswitch (as opposed to into a concentrator which is
plugged into a GIGAswitch) is a two station ring.
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| Right. That's because each Gigaswitch port is a separate FDDI interface,
so each separately can be connected to one other station for a two-node
ring (FDX capable) or a larger ring (not FDX capable).
For the ultimate performance, you could have a fully loaded Gigaswitch
(34 (?) ports), each connected to one station, every one of them running
full duplex.
paul
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