| T.R | Title | User | Personal
Name | Date | Lines |
|---|
| 638.1 | V3.0 | SLINK::HOOD | I'd rather be surfing | Wed Jan 19 1994 10:26 | 7 |
| > If I want to see traffic utilization of FDDI then what version of HUBwatch
> we can expect??
In HUBwatch version V3.0. Coming soon.
Tom H
HUBwatch
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| 638.2 | Thank you | TKTVFS::IDO | Naoki Ido, CSC/TOKYO, EWB, DTN 680-2456 | Thu Jan 20 1994 02:49 | 0 |
| 638.3 | Details on FDDI Utilization | LEVERS::SWEET | | Mon Jan 24 1994 09:05 | 11 |
| HUBwatch V3 will support FDDI utilization. The hardware modules will
require a MAC-3 chip to get the raw data, the first rev's of the FDDI
concentrator will have MAC-2 chips in them and then be phased over to
MAC-3. This is due to chip availability from the vendor. The hardware
will be self describing and the software support is latent so when
the right chips show up FDDI utilization should just happen. We
will try to get the word out when the new chips roll out of
manufacturing, the field should not there is not a plan to upgrade
boards with MAC-2 to MAC-3.
Bruce
|
| 638.4 | Bridge now, Conc soon... | LEVERS::BENSON | DTN 227-3555 | Fri Jul 08 1994 16:11 | 9 |
| The DECbridge 900MX (WGE200) uses the MELMAC chip which has MAC-3
inside, so the bridge can already be used to obtain FDDI Utilization.
The DECconcentrator 900MX initially used the MAC-2 chip but will be
shipping with the MAC-3 chip shortly. If you try to measure FDDI
utilization and the feature is not available, HUBwatch will grey out
the information.
Dave.
|
| 638.5 | How's that done? | NACAD::GALLAGHER | | Fri Jul 08 1994 16:44 | 5 |
| How is FDDI utilization calculated anyway? (Previous versions kept
an FDDI MIB object, "blahFrameCount" which was useless because it counted
void frames. I'm wondered if the additional instrumentation suffers from
the same problem.)
-Shawn
|
| 638.6 | Utilization with MAC3 | LEVERS::PARISEAU | Luc Pariseau | Mon Jul 11 1994 11:07 | 22 |
|
You need to know the ring latency (D) and the token count.
Both are kept by MAC3. The equation is
utilization = 1 - mD/T
m is the token count (how many tokens seen in T time units)
D is ring latency in time units
So for example, m = 50000 tokens in 1 second and ring latency
of 10 usec means you have 50% utilization.
But void frames still are involved here. On a big ring with
lots of traffic they become insignificant. But on a small ring,
with Ring Purger on and little "real" traffic, the utilization
number is MEANINGLESS.
So if you need to look at utilization I would turn the Ring Purger
OFF (at least while you do the calculation.) But Ring Purger has
to be turned off on ALL DEC equipment on the ring.
Luc
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| 638.7 | h/w version, f/w version? | TKTVFS::NEMOTO | no facts, only interpretations | Mon Aug 01 1994 05:04 | 13 |
|
> <<< Note 638.4 by LEVERS::BENSON "DTN 227-3555" >>>
> -< Bridge now, Conc soon... >-
>
> The DECbridge 900MX (WGE200) uses the MELMAC chip which has MAC-3
> inside, so the bridge can already be used to obtain FDDI Utilization.
I was told that "attribute not gettable" or some such messages returned
when accessing the token counter. What firmware version be required?
Anyone has tried this before?
Thanks,
_Tak
|
| 638.8 | | NACAD::ANIL | | Fri Aug 12 1994 14:03 | 8 |
| FDDI utilization is supported since 1st ship of DB900MX - both
the token ct and ring latency objects. HUBwatch uses these
in showing the utilization "meter" on the FDDI screen.
(Note that this utilization includes the bandwidth taken up by
void frames - thus it is advisable to disable ring purger on all DEC
stations on the FDDI.)
Anil
|
| 638.9 | FCIS? | TKTVFS::NEMOTO | no facts, only interpretations | Mon Sep 05 1994 10:23 | 24 |
|
Re: .-1
ELAN MIB 2.9 has it.. We are now sampling traffic data from Bridge900 as
a trial.
One question. The RingLatency uses a void frame according to the MIB below.
What void frames do you use to measure the latency while having Ring Purger
off?
_Tak
eMACRingLatency OBJECT-TYPE
SYNTAX INTEGER
ACCESS read-only
STATUS mandatory
DESCRIPTION
"The total ring latency in 1 nanosecond units, as measured
by the amount of time that it takes to receive back a void
frame transmitted by the MAC chip. Note that implementations
that do not have the capability to measure the ring latency
will not return this object."
::= { efddiMACEntry 22 }
|
| 638.10 | | TKTVFS::NEMOTO | no facts, only interpretations | Wed Sep 07 1994 12:22 | 29 |
|
Follow-up questions -
1. RingLatency data measured by MCC shows some drift. When graphed, it
looks as if there are three horizontal bars: centered at ~17.050us,
drifted +/- ~.100us from the center.
Data is taken every 10minutes that makes 10minutes average. The ring
in question has two DECnis and two DEChub900s.
Can this drift happen on rings? Or something wrong with the
measurement? -- The ring purger is being disabled (so have been told).
2. There is a topic in the FDDI notes (UPSAR::FDDI, 1186.*).
My interpretation of the topic is that SNMP counters of the concentrator
only reflect the traffic to that concentrator (addressed to it:
ie, SNMP packets, ping traffic to it). Other traffic that's just
passing thorough is not counted.
Has Concentrator900 the same behaviour? -- when graphed interface
counter (in/out), it shows ~5% at some peaks and close up to ~2% on
average. I wonder if SNMP or ping communication can make the traffic
that high.
It is our first experience to approach FDDI utilization and throughput
measurments. We want to know if our observation is what we should see.
Any advice or hints would be very much appreciated.
Thanks,
_Tak
|
| 638.11 | | TKTVFS::NEMOTO | no facts, only interpretations | Wed Sep 07 1994 12:44 | 5 |
|
As a foot note, .9 and .10 are also posted to the FDDI notes file, #1405
that points back to this topic for continuation.
_Tak
|
| 638.12 | | NACAD::ANIL | | Wed Sep 07 1994 21:28 | 30 |
| >1. RingLatency data measured by MCC shows some drift. When graphed, it
> looks as if there are three horizontal bars: centered at ~17.050us,
> drifted +/- ~.100us from the center.
> Data is taken every 10minutes that makes 10minutes average. The ring
> in question has two DECnis and two DEChub900s.
>
> Can this drift happen on rings? Or something wrong with the
> measurement? -- The ring purger is being disabled (so have been told).
Firstly, it appears that you are looking only at ring latency for
utilization. You need two variables and crunch them with the formula
described in the earlier response .6. The other variable is token
count, fddimibMACTokenCt I believe, in RFC-1512. The drift you
are seeing is less that 0.5% which isn't all that much.
> Has Concentrator900 the same behaviour? -- when graphed interface
> counter (in/out), it shows ~5% at some peaks and close up to ~2% on
> average. I wonder if SNMP or ping communication can make the traffic
> that high.
Yes, DC900MX has the same behaviour. If you graphed the sum of
ifInOctets and ifOutOctets against 100 Mbps, then that means
2 to 5 Mbps of management traffic which looks a little high.
If you graphed the 4 packet counters, then your throughout should
be measured in pps (ie, % doesn't mean much in the case of
throughput, typically only utilization is measured as % bandwidth).
In any case, you can't get the FDDI throughput from a DECconcentrator
since it counts only management traffic destined to it.
Anil
|
| 638.13 | | TKTVFS::NEMOTO | no facts, only interpretations | Thu Sep 08 1994 12:19 | 38 |
|
> <<< Note 638.12 by NACAD::ANIL >>>
> Firstly, it appears that you are looking only at ring latency for
> utilization. You need two variables and crunch them with the formula
> described in the earlier response .6. The other variable is token
> count, fddimibMACTokenCt I believe, in RFC-1512. The drift you
> are seeing is less that 0.5% which isn't all that much.
The related variables were also taken. I refered to the performance
chapters of Raji Jain's book. Utilization graphs (after crunching them)
looked very different from what I expected. Therfore I first asked about
the latency drift.
>> Has Concentrator900 the same behaviour? -- when graphed interface
>> counter (in/out), it shows ~5% at some peaks and close up to ~2% on
>> average. I wonder if SNMP or ping communication can make the traffic
>> that high.
>
> Yes, DC900MX has the same behaviour. If you graphed the sum of
> ifInOctets and ifOutOctets against 100 Mbps, then that means
> 2 to 5 Mbps of management traffic which looks a little high.
Not the sum. Both. The sum shows 7% of peaks.
> In any case, you can't get the FDDI throughput from a DECconcentrator
> since it counts only management traffic destined to it.
I see. Seems we need to review the way of sampling and/or crunching.
_Tak
PS. The FDDI Notes file mentioned earlier has two replies to my questions,
one from Paul Koning and the other from Luc Pariseau, which are basically the
same as Anil's. Regarding void frames, the latency is measured with either
void frames of Bridge Strip Mode or of Ring Purger.
|
| 638.14 | | NACAD::ANIL | | Thu Sep 08 1994 20:07 | 34 |
| >> Yes, DC900MX has the same behaviour. If you graphed the sum of
>> ifInOctets and ifOutOctets against 100 Mbps, then that means
>> 2 to 5 Mbps of management traffic which looks a little high.
>
>Not the sum. Both. The sum shows 7% of peaks.
There are two things that people are usually interested in --
utilization and throughput. Utilization is a % of bandwidth,
expressed either as a percentage or Mbps. In the case of FDDI
this can be computed from the two variables we've talked about.
In the case of Ethernet, you can use the total byte count (rcv+xmit)
and compute it as a percentage of 10 Mbps - however this is useful only
on a promiscuous device such as a bridge which receives ALL traffic
on the LAN. What I'm getting at is that since you already
have the utilization on the FDDI, there isn't much point in looking
at octet count (even on a bridge, for example).
Throughput usually refers to packets per second. Clearly, for
a given throughput measured in pps, a large average packet size would
result in a larger utilization than a smaller packet size. This is
a useful statistic since network interconnect devices are typically
limited by pps rather than Mbps. From a LAN monitoring point of view,
util. is useful to see how much bandwidth is available.
Using your concentrator, if you want to see throughput then you
couldn't use the interface packet counters since as explained they count
only mgmt traffic. However if the ring purger is turned off on all
DEC devices on the ring then you can use RFC1512's fddimibMACFrameCts
to compute the throughput for useful (that is, non-void) traffic.
By the way, you don't need to do this manually if you have HUBwatch -
it computes both the FDDI utilization and throughput using these
guidelines.
Anil
|
| 638.15 | | TKTVFS::NEMOTO | no facts, only interpretations | Tue Sep 13 1994 10:41 | 18 |
|
I(we) am in a network management services unit and have fairly alot of
experience on Ethernet (segments) utilization analysis.
FDDI utilization analysis is new to us, since it is a token ring:
how utilization graph should look like in comparising with (ring)
network load, and what we should read from it.
> By the way, you don't need to do this manually if you have HUBwatch -
> it computes both the FDDI utilization and throughput using these
> guidelines.
Do you mean the speedmeters? _That_ small ones? ;-)
If I'm not mistaken HUBwatch still lacks of historical recording features
for a short term (eg, a week) and a long term analysis, which is what we
are trying to reach with NMS.
_Tak
|