We have made a potentially significant improvement for wireless Nv2 PtMP configurations in the latest 6.42rc46 version release.
Upgrade of the AP is required to the new rc version, clients can still use the old version.

Those of you who are willing to test rc versions on your test network, please upgrade to the latest version, test the performance and report to support@mikrotik.com with the results. Your effort and feedback will be highly appreciated.

Please note that rc versions are released strictly for testing purposes and should not be used on crucial network devices.

In the setup we had a R11e-5HnD as AP and Clients was SXTsq Lite5

In the setup we had a R11e-5HnD as AP and Clients was SXTsq Lite5

In BAND - N? Channel width? 40Mhz? TDMA = 2ms or AUTO? More info about config please...

In the setup we had a R11e-5HnD as AP and Clients was SXTsq Lite5

In BAND - N? Channel width? 40Mhz? TDMA = 2ms or AUTO? More info about config please...

band=5ghz-a/n channel-width=20/40mhz-Ce un TDMA - 2m

In what universe can you actually reach 200Mbit in ptmp? We have a problem getting 200Mbit even in ptp. (N, 20/40-Ce)

200Mbit in TCP.

Of course, with the growing number of clients, the chart is real.

In what universe can you actually reach 200Mbit in ptmp? We have a problem getting 200Mbit even in ptp. (N, 20/40-Ce)

200Mbit in TCP.

Of course, with the growing number of clients, the chart is real.

band=5ghz-a/n channel-width=20/40mhz-Ce un TDMA - 2ms

@fiberwave
Downlink Ratio 70%?

We tested the new release, and it works great.
n/ac, 20MHz, dynamic dl. ratio, auto TDMA period size.

Can you post more details about your setup? I’ve tried similar setup and had lower total aggregate throughput per sector than with previous ROS releases.

We tested the new release, and it works great.
n/ac, 20MHz, dynamic dl. ratio, auto TDMA period size.

"Total throughput per single client wasn’t bad before."

In the setup we had a R11e-5HnD as AP and Clients was SXTsq Lite5

In BAND - N? Channel width? 40Mhz? TDMA = 2ms or AUTO? More info about config please...

band=5ghz-a/n channel-width=20/40mhz-Ce un TDMA - 2m

Next mistake, sq noise -106, 711 -117, wtf mates.

Next mistake, sq noise -106, 711 -117, wtf mates.

Two different stations can absolutely have different noise floors, since they are in different physical locations.

Next mistake, sq noise -106, 711 -117, wtf mates.

Two different stations can absolutely have different noise floors, since they are in different physical locations.

First 2 days test on 2 AP

20 Mhz
fixed downlink 67
tdma period size auto
client 33
all client signal goog below -50
all modulation good

real world test in the peak time we have the same performance of 6.40.5 no download improvments but we have issue with the upload tha is aorund 256kb/s often less

done [Ticket#2018032022005404] RE: router reboot V6.42r [...]

Hello,

Would this fix work for PtP installations?

Kind regards.

Hello,

Would this fix work for PtP installations?

Kind regards.

p2p nstreme fixed

We will be migrating from 711 to arm but there is no devices! Wtf! May be some?

Does anyone see any improvements in real life?

Does anyone see any improvements in real life?

Ooh yes. We used to get not more than 15mbps per client with sectors with more than 30 clients when all clients are active. Because of drop of performance when sector has more than 30 clients we were discussing migrating to another vendor but this version changed our mind already. Now with clients with good signal we can see up 85mbps under 20MHz channel and period size of 3ms. I see improvement on latency also. In short this changed our network. Am running this in production network of thousands of mikrotik radios, I failed to wait stable version because of performance am seeing now.

@lomayani
@2jarek
@xrayd

Have You upgraded clients as well, or just only AP ?

@lomayani
@2jarek
@xrayd

Have You upgraded clients as well, or just only AP ?

@lomayani
@2jarek
@xrayd

Have You upgraded clients as well, or just only AP ?

First Mikrotik post says:
"Upgrade of the AP is required to the new rc version, clients can still use the old version."

.... read, read, read.....

@Polky
We also wanted to switch to Cambium Elevate, but luckily we do not have to do that anymore!!!

@lomayani
@2jarek
@xrayd

Have You upgraded clients as well, or just only AP ?

First Mikrotik post says:
"Upgrade of the AP is required to the new rc version, clients can still use the old version."

.... read, read, read.....

Yes, I've read what mikrotik staff reccomends, BUT its difference between REAL WORLD (what I was asking) and what Mikrotik declares that should work. And we have plenty of proofs it happened before many times.

Are people seeing improvements with 802.11ac or is this 802.11n only ?

What happens is you use nv2-qos=default and second test what happens if you use dynamic-downlink instead of fixed-downlink mode?

What happens is you use nv2-qos=default and second test what happens if you use dynamic-downlink instead of fixed-downlink mode?

fixed


dyn dowblink

@uldis

Uploaded last rc46 i rc49 and watching great improvement. Linking to 1 thread is far better. Previously, I had to use AP 802.11 for that. Now Omnitik AC, 19 clients, 20/40 Ce, 2ms, dynamic 75 (no client has AC) .. 1 thread will make 110 Mbits, which was previously impossible. Of course, there is a zero traffic on the AP.
I see great improvement for myself, but there are still places where it is not that big.

Sorry, bad english.
I thought 1 connection in Btest.
I'm always testing 1 connection.

Zero traffic: I think other AP clients carry a small amount of data.


Previously, I was not able to make 100 Mbits for 1 connection in the NV2 protocol with so many clients.

Hi guys,

i've been working with mikrotik for quite a while.. and i never ever could see good results with nv2 seriously
and i was so excited when i read the patch notes. so i give it a try with nv2 again and the same thing... high ping low troughput even 802.11 works better

NSTREME works way better in every way for me.. low latency, good troughput

Uldis we have been many years waiting for a wireless improvement on ROS and we are all very happy with this update, we hope that you continue to develop this part where the other competitors are definitely ahead.

........
After the upgrade I could push the AP through the 100Mb limit when I did not use the poor clients. But in trying the poor clients I could stil increase their capacity from around 2-4mbps to over 10Mbps.

.......

........
After the upgrade I could push the AP through the 100Mb limit when I did not use the poor clients. But in trying the poor clients I could stil increase their capacity from around 2-4mbps to over 10Mbps.

.......

Just to be clear did connected poor clients impact on the AP overall performance?

What is the recommendation in noisy environments? Running nv2 with adaptive-noise-immunity switched on on client and AP? Does ist affect nv2 operation at all?


Robert

Massive improvement. However odd thing. Customer has 20megs. www.openspeedtest.com confirms. As does real world test like streaming multiple streams simultaneously. Ookla only shows 6 to 8 megs ??? Any ideas. Ookla is Def wrong

Massive improvement. However odd thing. Customer has 20megs. www.openspeedtest.com confirms. As does real world test like streaming multiple streams simultaneously. Ookla only shows 6 to 8 megs ??? Any ideas. Ookla is Def wrong

Maybe mikrotik staff "borrowed" some technics from plain 802.11n. afair 6,5mbps per tcp session was/is limit of 802.11n standard.
or am I wrong?

Massive improvement. However odd thing. Customer has 20megs. www.openspeedtest.com confirms. As does real world test like streaming multiple streams simultaneously. Ookla only shows 6 to 8 megs ??? Any ideas. Ookla is Def wrong

Maybe mikrotik staff "borrowed" some technics from plain 802.11n. afair 6,5mbps per tcp session was/is limit of 802.11n standard.
or am I wrong?

If you make a speed test with Mikrotik bandwidth test you can test with up to 99 streams. Ookla only uses 2 I believe.
What is the difference?
If you use one stream to test, then the link shows the maximal throughput of that stream. If the connection is poor (low CCQ) then this stream needs many package re sending. Next package is only send when previous made it in order.
With many streams you can make better use of the radio's air time. Even if one package from one stream had to be resent the other stream could have had succes or is just working on its own data stream to get it to the other end... So at least radio is more busy.
Do this with 4, 10, 30 or 99 streams and its clear that you now can use the radio's capacity to the max and thus test the absolute throughput of the link.
But this is only nice for programs where latency is not an issue, like web browsing and/or ftp, p2p, downloads etc. Although there maybe many packages needed to resend, the total is still good. As long as the data makes it in the end!

But for programs that run on one stream only (IPTV, communications, single download steam) it is more important the single stream throughput is good. It means little package resend or losses and thus low latency.

So if you can test your link with Mikrotik bandwidth test program and many streams you can test the raw bulk maximum capacity of the link.
With a single stream, or Ookla, you are more testing how good or bad the link is. How many data gets lost or has to resend while trying to reach the other end of the link....

In this analogy you can first make a test with lets say 10 or 20 streams. Then you have a good idea of how fast multi stream programs (webbrowser) can download and what the physical maximum is of the link.
Then if you do a single stream test and see its almost the same, you have a good quality link and not a lot of saturation on the P2MP network (too many other users busy)
If the difference is huge, then something is wrong with the quality and you'd start looking for the problem and try to solve it.

Massive improvement. However odd thing. Customer has 20megs. www.openspeedtest.com confirms. As does real world test like streaming multiple streams simultaneously. Ookla only shows 6 to 8 megs ??? Any ideas. Ookla is Def wrong

Maybe mikrotik staff "borrowed" some technics from plain 802.11n. afair 6,5mbps per tcp session was/is limit of 802.11n standard.
or am I wrong?

If you make a speed test with Mikrotik bandwidth test you can test with up to 99 streams. Ookla only uses 2 I believe.
What is the difference?
If you use one stream to test, then the link shows the maximal throughput of that stream. If the connection is poor (low CCQ) then this stream needs many package re sending. Next package is only send when previous made it in order.
With many streams you can make better use of the radio's air time. Even if one package from one stream had to be resent the other stream could have had succes or is just working on its own data stream to get it to the other end... So at least radio is more busy.
Do this with 4, 10, 30 or 99 streams and its clear that you now can use the radio's capacity to the max and thus test the absolute throughput of the link.
But this is only nice for programs where latency is not an issue, like web browsing and/or ftp, p2p, downloads etc. Although there maybe many packages needed to resend, the total is still good. As long as the data makes it in the end!

But for programs that run on one stream only (IPTV, communications, single download steam) it is more important the single stream throughput is good. It means little package resend or losses and thus low latency.

So if you can test your link with Mikrotik bandwidth test program and many streams you can test the raw bulk maximum capacity of the link.
With a single stream, or Ookla, you are more testing how good or bad the link is. How many data gets lost or has to resend while trying to reach the other end of the link....

In this analogy you can first make a test with lets say 10 or 20 streams. Then you have a good idea of how fast multi stream programs (webbrowser) can download and what the physical maximum is of the link.
Then if you do a single stream test and see its almost the same, you have a good quality link and not a lot of saturation on the P2MP network (too many other users busy)
If the difference is huge, then something is wrong with the quality and you'd start looking for the problem and try to solve it.

I would argue that one must always test radio links with single tcp stream.

Testing whether your tcp connection can build up and withstand its speed is the one true benchmark when it comes to testing your layer 1 (radio link in our case).

Say for example you get 70meg with 1 connection tcp traffic one-way, and then you subsequently attempt to test with 4 connections. If you get the same result then you know that your channel is nice and clean and path has no fresnel issues or reflections because you can reach the physical speed limits (defined by your channel width, no of spatial streams, max modulation) of your layer 1 just with that single connection.

Hope this helps someone.

What is the recommendation in noisy environments? Running nv2 with adaptive-noise-immunity switched on on client and AP? Does ist affect nv2 operation at all?

I always use it. To be honest be surprised by the question. Why NOT use them?

With adaptive-noise-immunity turned on throughput and latency are a mess. Download to the clients (still 20 subscribers per sector) only 2-3 Mbps, upload from the clients below 500 Kbps. So we switched it off.

Adaptive Noise Immunity
Better WLAN throughput due to immunity against interferences. With Adaptive Noise Immunity WLAN clients benefit from significantly more
data throughput, thanks to a trouble-free WLAN coverage. With Adaptive Noise Immunity the access point dismisses interferences in the radio field
and focuses only on WLAN clients with sufficient signal strength.

Additionally we had to switch nv2 configuration from fixed-downlink-mode to dynamic-downlink-mode and also set QoS to default instead of frame-priority. Our VoIP prioritization rules are now useless... but VoIP quality, throughput and latency are good.

Now seeing a total througput on the sectors of up to 28 Mbps.


Robert

We have made a large deployment (70 ap) of new beta firmware on our network and I can confirm +25% in download speeds with GOOD upload speeds with maximum speed of 50Mb/s in peak time. Comparing new fw with ubiquiti AP gen 2 in the same enviroment mikoritk is slower. With ubiquiti we reach around 70 mb/s of download speed in peak time, the performance are the similar with no load on the AP.

Clients: from 25 to 40
Tdma perido size: auto
Mode: Dynamic downlink
Downlink ratio: 67%
Queue count: 2
Qos: default

We also see a little improvment moving from a/n/ac to n/ac

Mikrotik maybe with a little work on the NV2 scheduler we can stay closer to ubiquiti

We have made a large deployment (70 ap) of new beta firmware on our network and I can confirm +25% in download speeds with GOOD upload speeds with maximum speed of 50Mb/s in peak time. Comparing new fw with ubiquiti AP gen 2 in the same enviroment mikoritk is slower. With ubiquiti we reach around 70 mb/s of download speed in peak time, the performance are the similar with no load on the AP.

Clients: from 25 to 40
Tdma perido size: auto
Mode: Dynamic downlink
Downlink ratio: 67%
Queue count: 2
Qos: default

We also see a little improvment moving from a/n/ac to n/ac

Mikrotik maybe with a little work on the NV2 scheduler we can stay closer to ubiquiti

We have made a large deployment (70 ap) of new beta firmware on our network and I can confirm +25% in download speeds with GOOD upload speeds with maximum speed of 50Mb/s in peak time. Comparing new fw with ubiquiti AP gen 2 in the same enviroment mikoritk is slower. With ubiquiti we reach around 70 mb/s of download speed in peak time, the performance are the similar with no load on the AP.

Clients: from 25 to 40
Tdma perido size: auto
Mode: Dynamic downlink
Downlink ratio: 67%
Queue count: 2
Qos: default

We also see a little improvment moving from a/n/ac to n/ac

Mikrotik maybe with a little work on the NV2 scheduler we can stay closer to ubiquiti

I am a little confused about the downlink ratio setting. I assumed the percentage setting was for fixed and dynamic was just dynamic with no bias. I read people are setting the ratio to Dynamic but also assuming the percentage setting make a difference. Can someone confirm the difference between 80% Dynamic and 80% fixed

Sent from my ONEPLUS A5010 using Tapatalk

It's ok I read the manual again and realised that with dynamic the ratio comes into use when the ap is saturated. This brings me to ask how does ap determine when to use the ratio.. are there any settings that can effect the threshold

Sent from my ONEPLUS A5010 using Tapatalk

It's ok I read the manual again and realised that with dynamic the ratio comes into use when the ap is saturated. This brings me to ask how does ap determine when to use the ratio.. are there any settings that can effect the threshold

Sent from my ONEPLUS A5010 using Tapatalk

A very good question and I would add further as most functions in ROS are software based, I think ROS should build a wireless only version and add options/functions that do not impact on wireless performance?
A simple question is why do other vendors using similar chipsets have better wireless performance when running half duplex?

When testing speed on a client with a faster CPU, it cuts off the slower client's speed significantly in ratio 1:50!!! bad TDMA
this is not TDMA

TDMA: 3ms
Cell radius: 10km
Mode: dynamic downlink
Queue Count: 2
Channel width: 20MHz
AP: v6.42rc56
all CPE: v6.41.4

Speed fluctuates regularly. Mainly CPE with CPU 400MHz or less.
TDMA 2, 3, 4, auto.. it does not matter. Same result.

NV2 is still very bad.

802.11:

nv2 2ms dynamic:

Your theory? nonsense. We also have an AP with better signals and even if there is a weaker client and is alone on the AP. Do not worry about things. This is not the only place where the same thing happens. NV2 has always been worse with many clients. Otherwise it behaves with v6.40 in the same place. With the new NV2 it behaves better, but not so good still. And classic nstreme can do better work at this point, but it does not reach UBNT yet.

Your theory? nonsense. We also have an AP with better signals and even if there is a weaker client and is alone on the AP. Do not worry about things. This is not the only place where the same thing happens. NV2 has always been worse with many clients. Otherwise it behaves with v6.40 in the same place. With the new NV2 it behaves better, but not so good still. And classic nstreme can do better work at this point, but it does not reach UBNT yet.

Your theory? nonsense. We also have an AP with better signals and even if there is a weaker client and is alone on the AP. Do not worry about things. This is not the only place where the same thing happens. NV2 has always been worse with many clients. Otherwise it behaves with v6.40 in the same place. With the new NV2 it behaves better, but not so good still. And classic nstreme can do better work at this point, but it does not reach UBNT yet.

NV2 is designed to overcome problems in P2manyP networks. So it would be a complete failure if that would not be the case.

50-65 dB is low. The world does not know what the conditions are in the Czech Republic. -65dB is almost the level of ambient noise.

I'm not going to solve the RX levels unless you do it yourself. We also have PTP connections with -20dB. You can test + 5dB on your desk and it works fine. The wifi chipset's full-speed readiness is + -75dB. Against -60dB it is only 15dB spacing.

As I said, the results are the same in other locations where signals are around -50dB.

Generally you can't get full modulation with signals stronger than a -38 in my experience.

If it is requiring -20s to work in your area you might want to find another frequency or line of work. That is utterly horrible. The actual chipset is designed for like -40 to -97dB. You're usually running into issues in the -40s with A/BG, N can handle it better and AC can actually use it.

Mikrotik in 802.11 mode still has roughly 10dB better receive sensitivity than any other hardware I've used. UBNT drops out around -77, when the weather gets bad I've got a few customers that still browse at -88. There are reasons aside from nv2 to use MT.

Full modulation, max speed, highest modulation.

Not trying to offend, but English isn't your first language, is it? Just trying to figure out how that isn't clearly understood.

I haven't pushed the AC limits in testing like I have the other hardware, I have tested 802.11n and below quite thoroughly, any receive signal stronger than around -38 shows a drop in performance. It is like someone sitting beside you talking with a megaphone, you hear it, but it is overpowering your ear's, it is distorting the receiver, essentially. They have a designed range to work, roughly -40 to -97 or so.

50-65 dB is low. The world does not know what the conditions are in the Czech Republic. -65dB is almost the level of ambient noise.

I'm not going to solve the RX levels unless you do it yourself. We also have PTP connections with -20dB. You can test + 5dB on your desk and it works fine. The wifi chipset's full-speed readiness is + -75dB. Against -60dB it is only 15dB spacing.

As I said, the results are the same in other locations where signals are around -50dB.

.................... But we had to tune down the radio to very low output to make a -40 signal. Basically we talk 4 or 6 dBm. We actually found that the links became unstable. On other occasions where we had the same issue we found that most Mikrotik devices don't like it when we set outpot lower than some 10 dBm.
......................

.................... But we had to tune down the radio to very low output to make a -40 signal. Basically we talk 4 or 6 dBm. We actually found that the links became unstable. On other occasions where we had the same issue we found that most Mikrotik devices don't like it when we set outpot lower than some 10 dBm.
......................

Can I ask if output power was above 10dBm were the links stable?

I've updated 3 x 921UAGS-5SHPacD to 6.42 using:

Band: A/N
Channel: 20 MHz
NV2 with 50 downlink ratio

I've noticed a big increase on WLAN throughput

the ping time went crazy, super jittery with a lot of timeouts

Add me to the list of disasters with the 6.42. I also have an OmniTik 5HnD. With 6.42 running nv2 with about 15 SXT5 lite clients, the ping time went crazy, super jittery with a lot of timeouts, plus I couldn't maintain a winbox connection to the SXTs, winbox file transfers kept failing and overall throughput fell significantly.

I ended up needing to use nstreme to get the network stable again. Downgrading back to 6.41.4 nv2 would have been an option too. I tried tdma timeout 2ms and auto, tried dynamic and fixed, tried adaptive noise immunity on and off, no change. I do have radar nearby and tried multiple channels, all with similar results.

Are we starting to see a pattern with OmniTik not working right under 6.42 nv2? Anyone with an OmniTik PtMP get the expected success and improvement with 6.42?

AP side; NetMetal on 24dBi Jirious. Full 30dBm power
Client side; LHG-5acXL Full 27dBm power. ROS v6.42rc29

Link is 6km and signal on the AP is -50/-51dBm
Bandwidth of the channel is 40Mhz wide and we've set the rates fixed for MCS7 (ac) and on each protocol and each setting we have a stable 270Mbps rate with 90% or higher CCQ.

First we decide which protocol is the best. On each protocol we tried several setting in that protocol (ANI, RTS/CTS, Framer policy, tdma period size et.) to get the best setting in the protocol.

We run the bandwidt test from the LHG-ac
(With its powerful 720Mhz CPU it only uses 15% of its capacity)
We run the MT bandwidth test 'from' a CCR that sits behinde the NetMetal. The MT-bandwidth test is run as 'download' towards the LHG and we use single stream tcp.
On the Netmetal we run a small package ping with timeout of 500ms towards an Omnitik that sits behind the LHG (Thus 'through' the LHG).

In any ROS version, and in any test 802.11ac gives by far the best result in throughput.
In NV2 the ping is stabel and low (1-5ms with little variation) where nstreme give pings anywhere between 20 and 80ms. 8021.11 gives ping times that fluctuate heavily, but within a band of 5-30ms.

We tried ROSv 6.40.5, 6.40.7, 6.41.3 and last 6.42

In 6.40.5 we tried all the different protocols and their settings, but 802.11 is winner by far. some 50% faster then NV2 and some 60% faster then nstreme.
IN 6.40.7 and 6.41.3 we only test with the 802.11 protocol and in fact the throughput went down by a couple of MBs after each upgrade. But only 1-2% of the previous tests. (After each upgrade we lost another 2-4Mbps on average. But this could have been withing a fault maring due variable atmospheric influences. I don't know)

Were 6.40.5 had speedtrest running for 10-15 mins without a single drop, all other versions showed drops each 8 - 5 - 3 minutes depending protocol. In 'dropping' I mean for some seconds no traffic was passed.

When finally the NetMetal was upgraded to 6.42 again (+ firmware) we did again the test with all 3 protocols.
But no change here. Still 802.11ac is twice as fast as NV2! (nstreme is still worse then NV2)
The only 'good' thing is we can now set up- and downlink ratio. But we would have to set 100% download (towards LHG) to hope even to get in the neigborhood of the 802.11ac speeds....... I din't even bother to try.....

The only real good thing of the NV2 protocol is the nice low and stable ping times. 2-5ms all the time.

I am shocked to find that the plain 802.11ac protocol is so much better then the Mikrotik NV2. We are talking 100% better here! That is double the speed....
If latency and jitter is not 100% the most important, I would use 802.11ac since the better latency/jitter for our network doesn't weigh up to the immense los in throughput.

I have already some other shorter back hauls were after lengthily tests we decided the 802.11ac gave us the best throughput.
I have also one 33 client P2MP 'n' network where we have almost 30-50% more capacity to single clients as in NV2. (Not a lot of average consumer use. In heavy use P2MP NV2 might still proof better.)
In some other P2MP we still use the NV2 protocol and after the upgrade to 6.42 we set download ratio to 80% and it does give better results for the clients.
In these networks we didn't test for 802.11 protocol since all units have to be prepared to switch seamlessly from NV2 to 802.11ac and vice versa.
We only have two small (<15 clients) P2MP network with all 'ac' units. Here the NV2 protocol works fine, but actually we didn't test 802.11ac.

Most of our backhauls already run either with Airfibre-5X or Mimosa B3 or IgniteNet's 60Ghz solution. The last ones still running on Mikrotik NV2 are now up for a closer look to see if we not better move away from NV2.....

You are kidding. You have 5X hangin and do this fiddling around with nv2 . I've our first 5XHD hanging so 5X is already old stuff. There is no way I waste a second longer on trying to squeeze nv2 to get a poor link at best. We stay with MT routing and might use the upcoming switches. But wireless ... ages behind !

Just updates some CPEs and learned that I forgot that since a specific ROS Version CPEs only try 2 APs with same SSID. So if they see more they just dont try the other and do not connect. So update means disconnect for some of the CPEs.... I am so bored with this buggy crap eating my time like bread ... Each of this cpes is replaced immediately with working stuff to keep this customer.

You are kidding. You have 5X hangin and do this fiddling around with nv2 . I've our first 5XHD hanging so 5X is already old stuff. There is no way I waste a second longer on trying to squeeze nv2 to get a poor link at best. We stay with MT routing and might use the upcoming switches. But wireless ... ages behind !

The 5X's we have do their job. So budget we have is not spend to replace them. As long as they give us enough bandwidth they are fine...
But we have plenty of smaller backhauls; 1 - 4 km's that need to transport up to 100Mbps. Since all our towers are full and our budget is very limited we'd rather squeeze the max out of Mikrotiks then just buy more Airfibre-X5's. If we'd had the money we'd probably do. (And these units seem to disrupt spectrum more than other solution in and around their working band. A lot of energy is thrown out.)

If I have a backhaul to serve 50 clients that at max. consume 100Mb it simply makes no economics to spend a 1000€ on Airfibers to bridge 2km where NetMetals can do the job for a fraction of the costs.

Just updates some CPEs and learned that I forgot that since a specific ROS Version CPEs only try 2 APs with same SSID. So if they see more they just dont try the other and do not connect. So update means disconnect for some of the CPEs.... I am so bored with this buggy crap eating my time like bread ... Each of this cpes is replaced immediately with working stuff to keep this customer.

Why would you have several CPE's with the same SSID? Every CPE from us is tuned to its AP with its own specific SSID. It also makes it easy to find other AP's in the region if you'd run a scan So it only looks for that SSID only that we know is the nearest or that the scan shows gives the strongest signal. Only in some rare case I set in 'connect list' a second AP with its SSID. So this CPE could go to another easy when the first is overloaded for instance But in reality this is not ideal. That 2nd AP's signal is always worse since we pick the best to tune the CPE at.
I agree that since some versions ago, the first line of the 'connect list' is decisive. Where in the past CPE's could freely pick any AP from the list, now it only searches for the top one. Even if that AP is down, the CPE will make no attempt to connect to the second in the list. I agree that in that respect (and more 'small' issues) ROS definitely didn't bring progress. On the contrary!)

Add me to the list of disasters with the 6.42. I also have an OmniTik 5HnD. With 6.42 running nv2 with about 15 SXT5 lite clients, the ping time went crazy, super jittery with a lot of timeouts, plus I couldn't maintain a winbox connection to the SXTs, winbox file transfers kept failing and overall throughput fell significantly.

I ended up needing to use nstreme to get the network stable again. Downgrading back to 6.41.4 nv2 would have been an option too. I tried tdma timeout 2ms and auto, tried dynamic and fixed, tried adaptive noise immunity on and off, no change. I do have radar nearby and tried multiple channels, all with similar results.

Are we starting to see a pattern with OmniTik not working right under 6.42 nv2? Anyone with an OmniTik PtMP get the expected success and improvement with 6.42?

Esp with full towers the limited (expensive) resource is spectrum. So squezing >100MBit out of a 10MHz Channel and reusing the same freq is worth the money.

Esp with full towers the limited (expensive) resource is spectrum. So squezing >100MBit out of a 10MHz Channel and reusing the same freq is worth the money.

Are you talking bits per second or bytes?
I am referring to 100Mbps. That would equal to only 12,5Mega Bits per second (KB/s)

Would be interesting to see someone getting more then 100Mbps real traffic out of a 10Mhz channel. The highest modulation on a dual polarized radio is MCS15 which gives a PHY rate of only 72,2Mbps. Best you could hope for is some 30-35Mbps. That ain't going to work.... For a 20Mhz link this is already almost impossible.

Further testing reveals the problem is caused by any station with ar7240 chipset connecting to omnitik AP running nv2 and 6.42 causes the problem. I noticed in the AP registration table that some stations TX rate was dropping to 6.5Mbps randomly, typically all stations show over 100Mbps tx-rate constantly. I found that all the ones that did this had in common that they were 5HnD or 5HPnD with ar7240 chips. If I move all the ar7240 stations to another sector, the jitter suddenly drops to nice low value, pings to all stations settle at less than 10ms, like nv2 _should_ be working. As soon as I add back one of the ar7240 stations, the jitter gets bad again. I think every time one of these stations has the TX rate drop to 6.5M, it causes disruption to the whole AP affecting all stations.

Odd that the OmniTik itself has a ar7240 chip as the AP, but v6.42 doesn't like ar7240 stations it seems. Hopefully this finding helps fix the issue.

Replying to Uldis,

What is the distance from the SXTs to the OmniTik? All under 1km

Does all the clients suffer from this or only few? All

which exact SXT models you have as CPEs? mixture of SXT 5HPnD, 5HnD, 5nD r2, running various 6.40, 6.41 and 6.42

it seems the CPEs lose connectivity for a few seconds, up to 6 or 10 seconds sometimes

What is final conclusion for best practice setup after this update ?
TDMA Period: fiksed 2-3-4 ms or Auto ?
Fixed or Dynamic downlink ?

What is final conclusion for best practice setup after this update ?
TDMA Period: fiksed 2-3-4 ms or Auto ?
Fixed or Dynamic downlink ?

On the networks I tested dynamic download worked best. But tdma period is still not conclusive by me. I tend to use 2ms but don't see a lot of difference between 'auto' or 1 or 2. Higher then 3 brings throughput down...

Is that SEXTANT of older generation by chance? I mean 5nD or something..

I've noticed that older gen chipsets perform poorly and also drag down whole AP a little. Also older chipsets don't support Short GI on 20MHz channels. I rotate and replace old 5nD and 5HPnD devices and upgrade to newer ones when possible. Got boxes full of waste 5nD's lying around..

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I've noticed that older gen chipsets perform poorly and also drag down whole AP a little. Also older chipsets don't support Short GI on 20MHz channels. I rotate and replace old 5nD and 5HPnD devices and upgrade to newer ones when possible. Got boxes full of waste 5nD's lying around..

Well, I cannot guarantee that it’ll do a lot, but at least short GI gives additional capacity by reaching higher datarates on 20MHz.

I’ve witnessed performance and user experience/happyness increase numerous times after replacing these 5HnD’s to Lite5, etc. I don’t know how it’s related, but even CCQs are better on newer units (where I got 60-70 with 5HnD, easily >92 on Lite5).

911G-5HnD are indeed good units. They operate very well in SEXTANT-G’s, QRT5’s (non-ac). It might be coincidence, but I really notice that AP’s with all Lite5 CPEs perform better than mixed ones. Might have something to do with airtime wasted on lower datarates..

I don’t suggest you to buy new units for existing clients. We deploy fiber to our clients so get plenty of used Lite5’s to reuse. And slowly replacing old devices with them. We also considered to replace some more quality sensitive network segments to other vendor, so that way even more Lite’s would get freed for reuse..

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I've noticed that older gen chipsets perform poorly and also drag down whole AP a little. Also older chipsets don't support Short GI on 20MHz channels. I rotate and replace old 5nD and 5HPnD devices and upgrade to newer ones when possible. Got boxes full of waste 5nD's lying around..

This is very interesting comment!
I just wonder when I checked a few boards that the firmware which has factory default of say 3.02 but can be updated, would this improve performance!
RB433AH - ar7100 - 2.23
711-5Hn - ar7240 - 3.02
711-5Hn-MMCX - ar7240 - 2.28
711-5Hn-u.FL - ar7240 - 2.37
911-5Hn - ar9344L - 3.22

Also where can I locate information on guard interval support for each chipset,

Firmware:
As for firmware upgrades, I haven’t noticed any difference in wireless performance. What you call firmware here, to my understanding is a RouterBOOT bootloader, which has nothing to do with device performance after it boots to OS. But MT staff could verify if it has any effect or not.

Older vs newer devices:
I’m not sure, but antenna design is pretty much the same for 5HnD vs Lite5? So newer chipset has definitely got some improvements that affect performance. Regarding CPU - everyone keeps telling that faster CPU yelds better performance. While that might be true for AP, but for CPE 400MHz vs 600MHz wouldn’t make signifcant difference, especially when CPU utilization stays low during even heavy data transfers. Correct me if I’m wrong.

Short GI vs Long GI:
Interesting theory there. I’ve never noticed better performance with longer guard intervals. But this actually makes sense, because longer GI should be less prone to interference just as lower modulations are. ROS itself switches to long GI when RF environment gets worse. But I don’t know if manually pinning GI is better than allowing frequent jumping between Long vs. Short.

Nevertheless, I’ll continue replacing old units whatever the reason of this performance improvement is (aging, chipset features, antenna design, etc). In my opinion MT CPEs are quite good and quality units. All we need now is some magic at AP side, which is surely possible as other vendors clearly demonstrated, even with MT CPEs..

@Uldis, so can we expect any kind of fix for this poor station performance under nv2 on ar7240 chips in a future firmware release? Or are we SOL?

.......................... If some 20-30mbps are passing through the device, with all management, NAT, firewall, etc CPU never gets past 50%. So to my understanding - plenty of resources left? Or this CPU utilization figure doesn’t show all the picture here?
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nv2 improvments BUG:

Hello i upgraded 300AP to ROS 6.42.1 with this package and NV2 improvment have BUG:

Tested on few ap when on ap have 5 to 25 clients:

when traffic is low then ping to all clients is ok / no packet loos.
But when any connected to ap client do start download , then always one or two packet loos on other clients.

example in real:
Traffic on ap is 1-2Mbps , and ping on all clients is ok, jitter ok .
When 1 or more client start download example 10mbps, then other clients loose 1 or 2 packets.

example syntetic:
Traffic on ap is 1-2Mbps , and ping on all clients is ok, jitter ok .
When start bandwitch test to 1 client then when its start then other clients 1 or 2 packet loos.
Always when do start on bandwitchtest always packet loos. (loos only when start, after start packet not loos)

Transfers on clients with this improvments is better but , AP is unusable because clients have freezes in internet games, when any other client on ap start downloading.

when downgraded to 6.40.8 then problem not exist.

v6.43rc6

RB921G AC to SXTsq AC
in left - 802.11 - 20MHz 2x2 AC - 100Mbit stable
in right - NV2 TDMA 2ms or 3ms - 20MHz 2x2 AC - 10-80Mbit extreme unstable

this is not funy. Add to 802.11 CSMA disable and let it go. NV2 is bad. We no longer have the quality of wireless.

v6.43rc6

RB921G AC to SXTsq AC
in left - 802.11 - 20MHz 2x2 AC - 100Mbit stable
in right - NV2 TDMA 2ms or 3ms - 20MHz 2x2 AC - 10-80Mbit extreme unstable

this is not funy. Add to 802.11 CSMA disable and let it go. NV2 is bad. We no longer have the quality of wireless.

Am see poor performance too on 6.43. last version(6.42.1) is working very fine for me. Hardily getting stable 50mbps capacity on 6.43rc6.

v6.43rc6

RB921G AC to SXTsq AC
in left - 802.11 - 20MHz 2x2 AC - 100Mbit stable
in right - NV2 TDMA 2ms or 3ms - 20MHz 2x2 AC - 10-80Mbit extreme unstable

this is not funy. Add to 802.11 CSMA disable and let it go. NV2 is bad. We no longer have the quality of wireless.

Am see poor performance too on 6.43. last version(6.42.1) is working very fine for me. Hardily getting stable 50mbps capacity on 6.43rc6.

Could you both share the exact setup and configurations and also how you are doing the speed tests so we could try to reproduce your problem?

that speed test is going to one client or to all clients together?

that speed test is going to one client or to all clients together?