I hope everyone had a Great Christmas and New Years'
Yes, it's 48Qams because there's very few 3.1 modems. Qams 40,41,42 are high utilization wise, but the Qams are secondary. other ports are fine.
C100G# show docsis down chan ut
Downstream Total-BW Utilization Reserved-BW Online Secondary Channel
Slot/Port/Channel (Mb/Sec) Percentage Utilization Modems Modems Description
-------------------------------------------------------------------------------------------
1/3/37 (793000000 Hz) 42.9 28 0 0 59 Node Yellow
1/3/38 (799000000 Hz) 42.9 28 0 0 59 Node Yellow
1/3/39 (805000000 Hz) 42.9 28 0 0 59 Node Yellow
1/3/40 (811000000 Hz) 42.9 91 0 0 59 Node Yellow
1/3/41 (817000000 Hz) 42.9 90 0 0 59 Node Yellow
1/3/42 (823000000 Hz) 42.9 90 0 0 59 Node Yellow
1/3/43 (829000000 Hz) 42.9 78 0 0 59 Node Yellow
1/3/44 (835000000 Hz) 42.9 47 0 0 59 Node Yellow
1/3/45 (841000000 Hz) 42.9 44 0 0 59 Node Yellow
1/3/46 (847000000 Hz) 42.9 43 0 0 59 Node Yellow
1/3/47 (853000000 Hz) 42.9 28 0 0 59 Node Yellow
I can only think of scm phy | in 1/3/41, but it's 59 modems to go though. is there a way to see what modems are eating up the bandwidth on a secondary channel/Qam?
C100G#scm phy | in 1/3/41
MAC Address US IF DS IF Sid USPwr(dB) USSNR TXTime MicroReflec DSPwr DSSNR Mode
TX RX (dB) Offset (dBc) (dB) (dB)
2c7e.812c.7a9d - 1/3/41 83 - - - - 0 -5.9 38.2 -
2c99.24f0.2c4b - 1/3/41 28 - - - - 21 13.8 38.9 -
2c99.24f0.2f7b - 1/3/41 105 - - - - 32 7.0 38.9 -
2c99.24f0.3073 - 1/3/41 38 - - - - 24 -12.0 35.5 -
2c99.24f0.30f3 - 1/3/41 107 - - - - 30 0.0 38.6 -
2c99.24f0.3113 - 1/3/41 62 - - - - 24 -9.2 37.3 -
2c99.24f0.311b - 1/3/41 94 - - - - 39 -2.4 38.9 -
2c99.24f0.315b - 1/3/41 96 - - - - 28 10.4 38.9 -
2c99.24f0.3293 - 1/3/41 189 - - - - 29 -1.5 38.9 -
2c99.24f0.32ab - 1/3/41 174 - - - - 28 1.0 38.9 -
2c99.24f0.40e3 10/3.1/0 1/3/41 48 42.8 -0.2 39.1 9687 37 6.1 38.9 atdma
2c99.24f0.799b - 1/3/41 152 - - - - 22 -0.9 38.6 -
2c99.24f0.b2e3 - 1/3/41 52 - - - - 24 -12.4 35.7 -
2c99.24f0.b4fb - 1/3/41# 86 - - - - 15 -20.2 14.4 -
2c99.24f0.b52b - 1/3/41 148 - - - - 24 2.4 38.9 -
2c99.24f0.b573 - 1/3/41 163 - - - - 33 2.9 38.6 -
2c99.24f0.b57b - 1/3/41 147 - - - - 27 7.0 38.9 -
Thank for your time
There is a nice command at Casa-CMTS to find the heavy users per Service-Group:
Sorted by downstream:
show cable modem docsis-mac [mac-domain-id] service-group [Service-Group-Name] downstream throughput
Sorted by upstream:
show cable modem docsis-mac [mac-domain-id] service-group [Service-Group-Name] upstream throughput
example of my output
C100G#show cable modem docsis-mac 4 service-group 4 downstream throughput
MAC Address IP Address US DS Prim Num DS Thr US Thr DS Thr US Thr
Intf Intf Sid CPEs (kbps) (kbps) pkt/s pkt/s
2c99.24f0.3293 10.3.5.150 10/3.0/0* 1/3/24* 189 1 57680 110 4775 183
5095.5125.e8de 10.3.1.47 10/3.2/0* 1/3/16* 234 1 57679 642 4865 480
2c99.24f0.c683 10.3.0.117 10/3.2/0* 1/3/25* 125 1 56342 543 4699 654
2c99.24f0.b2e3 10.3.1.75 10/3.3/0* 1/3/25* 52 1 47407 147 3907 145
d4ab.826e.aef5 10.3.3.131 10/3.2/0* 1/3/3* 59 1 47363 236 3974 309
001d.d547.76f2 10.3.3.22 10/3.2/0* 1/3/30* 98 1 28448 530 2389 859
acb3.1327.1302 10.3.0.189 10/3.2/0* 1/3/19* 85 1 25559 648 2326 713
14ab.f056.c3c2 10.3.3.159 10/3.1/0* 1/3/8* 76 1 25309 554 2626 431
acb3.1332.d1e2 10.3.0.188 10/3.0/0* 1/3/30* 151 1 24948 93 2071 110
900d.cb5c.4102 10.3.0.118 10/3.2/0* 1/3/26* 132 1 24604 23 2033 27
14ab.f056.ee82 10.3.3.61 10/3.2/0* 1/3/2* 161 1 21542 445 1844 577
347a.6023.3437 10.3.1.103 10/3.2/0* 1/3/25* 1 1 21257 129 1848 65
appreciate your help
what are your load balance settings?
show load-balance running config
probably need to tweak them so that the downstream usage is more balanced.
Hi Kwesibrunee
!
! load balance commands
!
load-balance enable
load-balance permit dbc-chg-prim-ds
load-balance basic-rule 1
enable
load-balance execution-rule 1
method utilization
threshold load 10 enforce 15 dynamic minimum 15
interval 30
cable modem rebalance-interval 2700
cable modem retry-interval first 43200 second 216000
suspicious-channel retry interval 300
load-balance execution-rule 2
method modem
threshold load 10 enforce 10
load-balance policy 1
rule execution 1
rule basic 1
load-balance policy 2
rule execution 2
load-balance general-group default-settings
policy-id 1
initial-tech direct
enable
can you post your show load-balance dynamic log?
C100G#show load-balance dynamic log
^
Syntax Error
C100G#show load-balance dynamic ?
| Output modifiers
begin begin date time
end end date time
C100G#show load-balance dynamic
Mac address Mac_id upstream-channel downstream-channel initial_tech cmd status type time
14ab.f056.d712 6->6 1,2,3,4->1,3,4 17,18,19,20,21,22,23,24->- direct dbc cmRejected PSR 2022-01-17 09:35:16
acb3.132b.b7f2 1->1 1,3,2,4->1,3,4 9,10,11,12,13,14,15,16->- direct dbc cmRejected PSR 2022-01-17 09:35:18
acb3.1332.7882 1->1 1,2,3,4->2,3,4 21,17,18,19,20,22,23,24->- direct dbc cmRejected PSR 2022-01-17 09:35:21
2c99.24f0.ba3b 1->1 4,2,3,1->4,3,1 25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48->- direct dbc cmRejected PSR 2022-01-17 09:35:27
083e.0c1e.99a2 8->8 1,2,3,4->1,2,3 14,9,10,11,12,13,15,16->- direct dbc cmRejected PSR 2022-01-17 09:35:28
a0c5.6282.7e20 6->6 1,3->2,3 26,25,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48->- direct dbc Success BAL 2022-01-17 09:35:32
2c99.24f0.ba3b 1->1 4,2,3,1->2,3,1 25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48->- direct dbc cmRejected PSR 2022-01-17 09:35:37
acb3.1333.e212 8->8 1,2,3,4->1,2,3 2,1,3,4,5,6,7,8->- direct dbc cmRejected PSR 2022-01-17 09:35:40
acb3.1335.1db2 1->1 1,2,3,4->1,3,4 13,9,10,11,12,14,15,16->- direct dbc cmRejected PSR 2022-01-17 09:35:42
6019.7173.3bf1 6->6 1,2,3,4->1,2,4 12,9,10,11,13,14,15,16->- direct dbc cmRejected PSR 2022-01-17 09:35:47
acb3.1335.1902 8->8 2,1,3,4->2,1,3 24,17,18,19,20,21,22,23->- direct dbc cmRejected PSR 2022-01-17 09:35:50
001d.d547.7712 6->6 1->2 17,18,19,20,21,22,23,24->- direct dbc Success BAL 2022-01-17 09:36:02
acb3.1332.6fa2 5->5 2,1,3,4->1,3,4 6,2,3,4,5,1,7,8->- direct dbc cmRejected PSR 2022-01-17 09:36:04
acb3.1332.6a22 4->4 2,1,3,4->1,3,4 17,18,19,20,21,22,23,24->- direct dbc cmRejected PSR 2022-01-17 09:36:15
acb3.132d.5292 8->8 1,2,3,4->1,2,3 9,10,11,12,13,14,15,16->- direc
What software version are you running? show version
and what does your downstream channel plan look like? show interface docsis-mac [num] topology
and show cable modem partial-service downstream?
I see successful balancing
a0c5.6282.7e20 6->6 1,3->2,3 26,25,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48->- direct dbc Success BAL 2022-01-17 09:35:32
001d.d547.7712 6->6 1->2 17,18,19,20,21,22,23,24->- direct dbc Success BAL 2022-01-17 09:36:02
but a ton of failed partial service recovery as well
acb3.1332.7882 1->1 1,2,3,4->2,3,4 21,17,18,19,20,22,23,24->- direct dbc cmRejected PSR 2022-01-17 09:35:21
but the partial service recovery is not being accepted at the modem side... Could be several reasons but lets tackle the easy ones first though.
do you have
cable mdd rcp verbose support
and
cable mdd rcp fragment support
on?
These control whether the CMTS can send the whole RCP (Receive Channel Profile) to the modem, especially with 48 downstream channels you need verbose. And the fragment allows it to send in multiple parts for when you have lots of channels.
C100G# show interface docsis-mac 1 topology
interface docsis-mac 1,AdminStatus: UP
description: Node Blue
=======================================
DS Cable Chan Oper Mod Power Service
Int Mac ID State Annex Freq(Hz) Type (.1dBmV) Group(s)
1/0/0 1 1 UP B(US) 571000000 q256 412 1
1/0/1 1 2 UP B(US) 577000000 q256 412 1
1/0/2 1 3 UP B(US) 583000000 q256 412 1
1/0/3 1 4 UP B(US) 589000000 q256 412 1
1/0/4 1 5 UP B(US) 595000000 q256 412 1
1/0/5 1 6 UP B(US) 601000000 q256 412 1
1/0/6 1 7 UP B(US) 607000000 q256 412 1
1/0/7 1 8 UP B(US) 613000000 q256 412 1
1/0/8 1 9 UP B(US) 619000000 q256 412 1
1/0/9 1 10 UP B(US) 625000000 q256 412 1
1/0/10 1 11 UP B(US) 631000000 q256 412 1
1/0/11 1 12 UP B(US) 637000000 q256 412 1
1/0/12 1 13 UP B(US) 643000000 q256 412 1
1/0/13 1 14 UP B(US) 649000000 q256 412 1
1/0/14 1 15 UP B(US) 655000000 q256 412 1
1/0/15 1 16 UP B(US) 661000000 q256 412 1
1/0/16 1 17 UP B(US) 667000000 q256 412 1
1/0/17 1 18 UP B(US) 673000000 q256 412 1
1/0/18 1 19 UP B(US) 679000000 q256 412 1
1/0/19 1 20 UP B(US) 685000000 q256 412 1
1/0/20 1 21 UP B(US) 691000000 q256 412 1
1/0/21 1 22 UP B(US) 697000000 q256 412 1
1/0/22 1 23 UP B(US) 703000000 q256 412 1
1/0/23 1 24 UP B(US) 709000000 q256 412 1
1/0/24 1 25 UP B(US) 715000000 q256 412 1
1/0/25 1 26 UP B(US) 721000000 q256 412 1
1/0/26 1 27 UP B(US) 727000000 q256 412 1
1/0/27 1 28 UP B(US) 733000000 q256 412 1
1/0/28 1 29 UP B(US) 739000000 q256 412 1
1/0/29 1 30 UP B(US) 745000000 q256 412 1
1/0/30 1 31 UP B(US) 751000000 q256 412 1
1/0/31 1 32 UP B(US) 757000000 q256 412 1
1/0/32 1 33 UP B(US) 763000000 q256 412 1
1/0/33 1 34 UP B(US) 769000000 q256 412 1
1/0/34 1 35 UP B(US) 775000000 q256 412 1
1/0/35 1 36 UP B(US) 781000000 q256 412 1
1/0/36 1 37 UP B(US) 787000000 q256 412 1
1/0/37 1 38 UP B(US) 793000000 q256 412 1
1/0/38 1 39 UP B(US) 799000000 q256 412 1
1/0/39 1 40 UP B(US) 805000000 q256 412 1
1/0/40 1 41 UP B(US) 811000000 q256 412 1
1/0/41 1 42 UP B(US) 817000000 q256 412 1
1/0/42 1 43 UP B(US) 823000000 q256 412 1
1/0/44 1 44 UP B(US) 835000000 q256 412 1
1/0/45 1 45 UP B(US) 841000000 q256 412 1
1/0/46 1 46 UP B(US) 847000000 q256 412 1
1/0/47 1 47 UP B(US) 853000000 q256 412 1
1/0/43 1 48 UP B(US) 829000000 q256 412 1
US Cable Chan Oper Chan Channel Mini Mod Power Service
Int Mac ID State Type Freq(Hz) Width Slot Prof (.1dBmV) Group(s)
10/0.0/0 1 1 UP atdma 37800000 6400000 1 3 0 1
10/0.1/0 1 2 UP atdma 31300000 6400000 1 3 0 1
10/0.2/0 1 3 UP atdma 24800000 6400000 1 3 0 1
10/0.3/0 1 4 UP atdma 19900000 3200000 2 3 0 1
C100G#show cable modem partial-service downstream
Reason code: x/y/z(reason_code)
1 MDD timeout 2 FEC lock failure
3 Bad tcc 4 Bad rcc
5 Reg ack 6 DBC rsp
7 TR power bad 8 NCP profile failure
9 Impaired channel 10 Channel unreachable
11 Range timeout 12 Ranging failure
13 Ds ofdm profile fail 14 DPD mismatch
0 Unknown
MAC Address IP Address MAC US DS US DS US/DS CHAN EXCLUDED
id Intf Intf SET SET
083e.0c1e.60b2 10.3.5.71 1 10/0.2/0 1/0/30 257 263(4*7) 1/0/27(2)
083e.0c1e.9b12 10.3.2.88 8 10/7.0/0 1/7/10 257 262(4*7) 1/7/12(2)
14c0.3ea7.237d 10.3.3.157 1 10/0.2/0 1/0/0 257 260(4*31) 1/0/27(1)
2c99.24f0.2b43 10.3.5.208 2 10/1.0/0 1/1/25 1 263(1*22) 1/1/47(2), 1/1/46(2)
2c99.24f0.2dc3 10.3.2.38 2 10/1.1/0 1/1/25 257 263(4*23) 1/1/27(2)
C100G#scm 083e.0c1e.60b2 phy
MAC Address US IF DS IF Sid USPwr(dB) USSNR TXTime MicroReflec DSPwr DSSNR Mode
TX RX (dB) Offset (dBc) (dB) (dB)
083e.0c1e.60b2 10/0.0/0 1/0/30 175 33.8 0.0 30.2 11036 33 8.5 33.5 atdma
083e.0c1e.60b2 10/0.1/0 1/0/31 175 36.3 0.0 31.9 11035 30 9.0 34.7 atdma
083e.0c1e.60b2 10/0.2/0 1/0/24 175 39.3 0.0 31.5 11066 29 8.4 34.7 atdma
083e.0c1e.60b2 10/0.3/0 1/0/29 175 41.3 0.2 35.1 11033 28 8.8 35.4 atdma
083e.0c1e.60b2 - 1/0/28 175 - - - - 27 8.6 33.2 -
083e.0c1e.60b2 - 1/0/27# 175 - - - - 29 8.0 30.3 -
083e.0c1e.60b2 - 1/0/26 175 - - - - 28 8.6 33.4 -
083e.0c1e.60b2 - 1/0/25 175 - - - - 30 8.9 31.8 -
C100G#
Try this change to your load-balance settings
load-balance execution-rule 1
method modems
method utilization dynamic
threshold load 1 enforce 10 minimum 2 dynamic minimum 60
interval 30
cable modem rebalance-interval 2700
cable modem retry-interval first 43200 second 216000
suspicious-channel retry interval 300
and reboot your modems on the affected SG
Explanation:
method modems, method utilization dynamic: this uses modems method for static load balancing (at registration) and utilization for dynamic load balancing (for when load is present)
Thresholds:
Static Load Balancing:
load 1 -- means it will try and keep the individual channels in the SG balanced to within 1 modem of each other (includes secondary channels)
minimum 2 -- means it will only worry about static load balancing if there at least 2 modems in a SG
Dynamic Load Balancing:
enforce 10 -- means that it will try and shed load on a channel if the difference between the highest utilized and lowest utilized channel is at least 10%
dynamic minimum 60 -- means it will not start load-balancing until the average load on a SG hits 60%
Why I think this will help: Load balance is a slow process, it only moves one modem at most per interval, by setting your static load-balancing method to modems, the idea is that the modems will be evenly split out to start (frequency wise) and hopefully require less dynamic load balancing to even out. This also helps in situations where you lose all your modems (fiber cut, power outage etc.) as they come back up in a evenly split (frequency wise) state instead of clumped up in bunches if you have the static method as utilization. Because when all of the modems reboot at the same time there is no load, if your static method is utilization, the CMTS will psuedo-randomly assign them to channels based on their mac-address and rotate the channels every interval.
kwesibrunee , I having some problems with some cable modems where the upstream appears in partial service mode from the CMTS but the carriers are active from the CM.
FROM CM:
Channel Lock Status US Channel Type Channel ID Symbol Rate Frequency Power
1 Locked ATDMA 4 2560 Ksym/sec 39000000 Hz 43.8 dBmV
2 Locked ATDMA 2 2560 Ksym/sec 31000000 Hz 44.0 dBmV
3 Locked ATDMA 3 2560 Ksym/sec 35000000 Hz 44.2 dBmV
4 Locked ATDMA 1 2560 Ksym/sec 27000000 Hz 44.0 dBmV
FROM CMTS:
CASA-C40G(config)#show cable modem 10.0.37.16 phy
MAC Address US IF DS IF Sid USPwr(dB) USSNR TXTime MicroReflec DSPwr DSSNR Mode
TX RX (dB) Offset (dBc) (dB) (dB)
347a.6022.e6b7 5/0.0/0# 0/0/13 227 44.0 0.0 42.1 - 36 -9.9 37.2 atdma
347a.6022.e6b7 5/0.1/0# 0/0/1 227 44.0 0.0 42.1 - 35 -9.6 37.6 atdma
347a.6022.e6b7 5/0.2/0 0/0/2 227 44.2 0.0 40.4 2629 35 -9.3 37.7 atdma
347a.6022.e6b7 5/0.3/0 0/0/3 227 43.8 0.0 39.1 2629 38 -9.0 38.0 atdma
347a.6022.e6b7 - 0/0/4 227 - - - - 37 -8.9 38.0 -
347a.6022.e6b7 - 0/0/5 227 - - - - 36 -8.8 38.2 -
347a.6022.e6b7 - 0/0/6 227 - - - - 37 -8.8 38.2 -
what reason does it give for being in partial service? it will be the number in parentheses after the channel name.
show cable modem partial-service | in 347a.6022.e6b7
Specifically I don't have this modem connected at the moment but I have others in the same situation:
reason code 5 (reg ack)
347a.6023.6b07 10.0.39.160 14 5/3.0/0 0/4/18 256 258(2*16) 5/3.1/0(5), 5/3.2/0(5)
347a.6023.6e1f 10.0.39.54 14 5/3.1/0 0/4/18 256 258(3*16) 5/3.2/0(5)
347a.6023.6fc7 10.0.29.165 14 5/3.3/0 0/4/16 256 258(1*16) 5/3.1/0(5), 5/3.2/0(5), 5/3.0/0(5)
347a.6023.89d7 10.0.37.160 14 5/3.2/0 0/4/17 256 258(2*16) 5/3.1/0(5), 5/3.0/0(5)
347a.6099.e083 10.0.21.47 14 5/3.3/0 0/4/18 256 258(1*16) 5/3.1/0(5), 5/3.2/0(5), 5/3.0/0(5)
347a.609a.22a3 10.0.39.89 14 5/3.1/0 0/4/16 256 258(1*16) 5/3.0/0(5), 5/3.2/0(5), 5/3.3/0(5)
347a.609a.2ad3 10.0.36.242 14 5/3.3/0 0/4/16 256 258(3*16) 5/3.0/0(5)
34bd.faa2.d28a 10.0.29.172 14 5/3.1/0 0/4/8 256 259(2*8) 5/3.0/0(5), 5/3.3/0(5)
34bd.fac0.aa6e 10.0.40.18 14 5/3.1/0 0/4/9 256 259(1*8) 5/3.0/0(5), 5/3.2/0(5), 5/3.3/0(5)
3c9a.7716.7ebf 10.0.22.27 14 5/3.1/0 0/4/1 256 257(1*16) 5/3.3/0(5), 5/3.2/0(5), 5/3.0/0(5)
602a.d077.c36f 10.0.31.70 14 5/3.1/0 0/4/9 256 259(3*8) 5/3.0/0(5)
a42b.8cae.9750 10.0.37.207 14 5/3.1/0 0/4/9 256 259(3*8) 5/3.0/0(5)
cc0d.ecaa.54c4 10.0.27.135 14 5/3.1/0 0/4/8 256 259(3*8) 5/3.0/0(5)
d40a.a9b3.4a94 10.0.21.96 14 5/3.3/0 0/4/17 256 260(3*8) 5/3.0/0(5)
d40a.a9b3.9651 10.0.24.111 14 5/3.0/0 0/4/17 256 260(3*8) 5/3.3/0(5)
Lot's of things can case reg ack failure on an upstream:
Some common reasons:
Noise, i.e. interfering carriers, usually this manifests as reason code 9 but could also be 5
Utilization, if the channel is super full, it may not be able to schedule time for modems to respond to registration acknowledgements leading to partial service.
in later versions of the Casa's software, they have tried to give a little more information as to the specific cause of the reg ack failure, but looks like your running an older build. In later versions it would look like 7:0/0.3/0(5:53), 7:0/0.1/0(5:53).
53 - T3 Retries exceeded
54 - T2 Timeout
55 - T4 Timeout
56 - Ranging Abort
57 - Initialize Chan Timeout
These are pulled from Cable Labs Mulpi Spec
make sure you also have the command cable partial-service dbc-recovery [num] as this helps the modems recover from partial service.
without ability to look at a spectrum analyzer, it is hard to say definitively, but likely this is capacity related, as it is spread across 4 different upstreams, but same reason code.
Thanks, I will activate the command partial-service dbc-recovery.
What do you think of activating these two commands also to mitigate these effects?
cm-status-ack support and cable cm-status even-list 1,2......
i have all docsis 3.0 cablemodems
the cable cm-status event is good to enable, then you can look at show cable modem cm-status log to see the events.
e.g.
scm cm-status log
MAC Address Status_Event Msg Content Time
acdb.481d.481d T4 TIME OUT US: 7 2023-01-30 11:46:17
2c99.24d6.da15 T4 TIME OUT US: 7 2023-01-30 11:44:50
acdb.481d.481d T4 TIME OUT US: 7 2023-01-30 11:38:00
2c99.24d6.da15 T4 TIME OUT US: 5,7 2023-01-30 11:35:24
2c99.24d6.da15 T4 TIME OUT US: 7 2023-01-30 11:19:41
The US: 7 and US: 5,7 refer to the channel index in the docsis mac config
e.g:
interface docsis-mac 1
upstream 1 interface upstream 0/0.0/0
upstream 2 interface upstream 0/0.1/0
upstream 3 interface upstream 0/0.2/0
upstream 4 interface upstream 0/0.3/0
upstream 5 interface upstream 0/1.0/0
upstream 6 interface upstream 0/1.1/0
upstream 7 interface upstream 0/1.2/0
upstream 8 interface upstream 0/1.3/0
in the example US: 7 refers to channel 0/1.2/0 and US: 5 refers to 0/1.0/0
All these partial service problems in upstream came when I applied the following changes in the cmts :
1- 24 to 40 QAMss
2- Static's Bonding's of 16x4 to Dynamic (Service groups of 40 qams available and 4 UP). I understand that CASA recommends dynamic bonding.
For example, after enabling the cm-status I take a particular modem and I see that the real problem is DS, not UP, why does it put the UP in partial mode and not the DS? Am I missing some configuration?
80b2.3400.bda5 QAM FEC RECOVERY DS: 31,23,22,21 2023-03-15 15:20:05
80b2.3400.bda5 20,14,19,18
80b2.3400.bda5 QAM FEC RECOVERY DS: 31,23,22,21 2023-03-15 15:20:03
80b2.3400.bda5 20,14,19,18
80b2.3400.bda5 QAM FEC RECOVERY DS: 31,23,22,21 2023-03-15 15:19:59
80b2.3400.bda5 20,14,19,18
80b2.3400.bda5 QAM FEC RECOVERY DS: 31,23,22,21 2023-03-15 15:19:57
80b2.3400.bda5 20,14,19,18
80b2.3400.bda5 QAM FEC RECOVERY DS: 31,23,22,21 2023-03-15 15:19:47
80b2.3400.bda5 20,14,19,18
80b2.3400.bda5 QAM FEC RECOVERY DS: 31,23,22,21 2023-03-15 15:19:45
80b2.3400.bda5 20,14,19,18
CASA-C40G>scm 80b2.3400.bda5 phy
MAC Address US IF DS IF Sid USPwr(dB) USSNR TXTime MicroReflec DSPwr DSSNR Mode
TX RX (dB) Offset (dBc) (dB) (dB)
80b2.3400.bda5 5/0.0/0# 0/0/17 22 27.3 0.0 42.1 - 35 -1.4 37.3 atdma
80b2.3400.bda5 5/0.1/0 0/0/30 22 35.8 -0.2 42.1 2587 28 -3.4 35.7 atdma
80b2.3400.bda5 5/0.2/0 0/0/29 22 36.8 0.2 42.1 2588 19 0.0 17.0 atdma
80b2.3400.bda5 5/0.3/0# 0/0/28 22 27.3 0.0 42.1 - 17 0.0 14.8 atdma
80b2.3400.bda5 - 0/0/23 22 - - - - 41 -2.9 37.6 -
80b2.3400.bda5 - 0/0/22 22 - - - - 35 -2.6 37.3 -
80b2.3400.bda5 - 0/0/21 22 - - - - 37 -2.1 37.3 -
80b2.3400.bda5 - 0/0/20 22 - - - - 34 -2.1 37.6 -
80b2.3400.bda5 - 0/0/19 22 - - - - 35 -2.1 37.3 -
80b2.3400.bda5 - 0/0/0 22 - - - - 34 3.0 35.7 -
80b2.3400.bda5 - 0/0/16 22 - - - - 36 -1.3 37.3 -
80b2.3400.bda5 - 0/0/18 22 - - - - 37 -1.6 37.3 -
80b2.3400.bda5 - 0/0/15 22 - - - - 33 -0.9 37.6 -
80b2.3400.bda5 - 0/0/14 22 - - - - 36 -0.9 37.6 -
80b2.3400.bda5 - 0/0/13 22 - - - - 39 -0.4 37.6 -
80b2.3400.bda5 - 0/0/12 22 - - - - 38 0.0 37.3 -
80b2.3400.bda5 - 0/0/11 22 - - - - 38 0.0 37.3 -
80b2.3400.bda5 - 0/0/10 22 - - - - 38 0.4 37.3 -
80b2.3400.bda5 - 0/0/9 22 - - - - 41 0.5 37.3 -
80b2.3400.bda5 - 0/0/8 22 - - - - 36 1.2 37.6 -
80b2.3400.bda5 - 0/0/3 22 - - - - 32 2.4 37.3 -
80b2.3400.bda5 - 0/0/2 22 - - - - 31 2.5 37.3 -
80b2.3400.bda5 - 0/0/1 22 - - - - 33 2.5 37.3 -
80b2.3400.bda5 - 0/0/31 22 - - - - 30 -3.4 37.3 -
Why are you using static bonding groups? The CMTS will not be able to load balance across these very well.
What are your load-balancing settings?
Exactly, that's why remove all the balance-groups and let the CMTS build the groups depending on the characteristics of each cable modem.
Attached the request:
CASA-C40G(config)#show load-balance running-config
!
!
! load balance commands
!
load-balance enable
load-balance permit dbc-chg-prim-ds dynamic
load-balance basic-rule 1
load-balance execution-rule 1
method modem
method utilization dynamic
threshold load 1 enforce 10 minimum 2 dynamic minimum 60
interval 30
cable modem rebalance-interval 2700
cable modem retry-interval first 43200 second 216000
suspicious-channel retry interval 300
load-balance policy 1
rule execution 1
load-balance general-group default-settings
policy-id 1
initial-tech direct
enable
Try these load-balancing settings, I have used them very successfully for a long time:
load-balance enable
load-balance execution-rule 1
method modem
method utilization dynamic
threshold load 0 enforce 60 minimum 100 dynamic minimum 50
interval 60
suspicious-channel retry interval 300
load-balance policy 1
rule execution 1
load-balance general-group default-settings
policy-id 1
initial-tech period-ranging
enable
When applying these changes in the load-balance, i need to restart MAC or SG?? Or does it start operating once the changes are applied? Thanks!!
The dynamic load-balancing will take affect right away, the static load balancing will take affect right away but will only happen as modems DHCP leases expire, or they go offline.
No need to reboot modems or shut/no shut interfaces
What do you have for
show bonding-group
ideally you should have no output, and let Casa create all the dynamic bonding groups
I only have one created on the MAC 14 for testing with 16x4 configuration.
CASA-C40G>show bonding-group mac-domain 14
bonding-group upstream mac-domain 14 group-id 1
upstream 5/3.0/0
upstream 5/3.1/0
upstream 5/3.2/0
upstream 5/3.3/0
prov-attr-mask 0x80000000
bonding-group upstream mac-domain 14 group-id 2
upstream 5/3.0/0
upstream 5/3.1/0
upstream 5/3.2/0
upstream 5/3.3/0
prov-attr-mask 0x80000000
bonding-group downstream mac-domain 14 group-id 1
qam 0/4/0
qam 0/4/1
qam 0/4/2
qam 0/4/3
qam 0/4/4
qam 0/4/5
qam 0/4/6
qam 0/4/7
qam 0/4/8
qam 0/4/9
qam 0/4/10
qam 0/4/11
qam 0/4/12
qam 0/4/13
qam 0/4/14
qam 0/4/15
prov-attr-mask 0x80000000
reseq wait-time 180
reseq warn-thrshld 0
bonding-group downstream mac-domain 14 group-id 2
qam 0/4/8
qam 0/4/9
qam 0/4/10
qam 0/4/11
qam 0/4/12
qam 0/4/13
qam 0/4/14
qam 0/4/15
qam 0/4/16
qam 0/4/17
qam 0/4/18
qam 0/4/19
qam 0/4/20
qam 0/4/21
qam 0/4/22
qam 0/4/23
prov-attr-mask 0x80000000
reseq wait-time 180
reseq warn-thrshld 0
Could you run and post the output of the following?
show cable modem bonding | in \s+14\s
show downstream channel set mac-domain 14
show upstream channel set mac-domain 14
show load-balance dynamic | in 14->14
I suspect your bonding groups are affecting the load balancing
CASA-C40G(config)#show cable modem bonding | in \s+14\s
Reason code: x/y/z(reason_code)
1 MDD timeout 2 FEC lock failure
3 Bad tcc 4 Bad rcc
5 Reg ack 6 DBC rsp
7 TR power bad 8 NCP profile failure
9 Impaired channel 10 Channel unreachable
11 Range timeout 12 Ranging failure
13 Ds ofdm profile fail 14 DPD mismatch
0 Unknown
MAC Address IP Address MAC US DS US DS US/DS CHAN EXCLUDED
id Intf Intf SET SET
008e.f297.8ee8 10.0.38.116 14 5/3.3/0 0/4/18 256 260(4*8)
008e.f298.7f28 10.0.35.125 14 5/3.1/0 0/4/2 256 261(4*8)
008e.f2f6.bea8 10.0.36.110 14 5/3.2/0 0/4/0 256 261(4*8)
00fc.8d0a.11b0 10.0.26.160 14 5/3.0/0 0/4/9 256 257(4*16)
00fc.8d4c.f2d0 10.0.28.33 14 5/3.3/0 0/4/9 256 257(4*16)
00fc.8de3.9450 10.0.40.191 14 5/3.1/0 0/4/9 256 257(4*16)
00fc.8df2.d1c0 10.0.40.152 14 5/3.0/0 0/4/16 256 258(4*16)
044e.5af6.c972 10.0.25.251 14 5/3.0/0 0/4/17 256 260(4*8)
044e.5af6.ca9b 10.0.24.235 14 5/3.1/0 0/4/17 256 260(4*8)
044e.5af6.cada 10.0.24.116 14 5/3.2/0 0/4/9 256 259(4*8)
044e.5af6.d6b6 10.0.35.166 14 5/3.1/0 0/4/0 256 261(4*8)
044e.5af6.dd8b 10.0.22.54 14 5/3.1/0 0/4/16 256 260(4*8)
044e.5af6.dea5 10.0.25.185 14 5/3.0/0 0/4/2 256 261(4*8)
044e.5af6.df62 10.0.25.158 14 5/3.0/0 0/4/8 256 259(4*8)
044e.5af7.1694 10.0.38.69 14 5/3.2/0 0/4/8 256 259(4*8)
044e.5af7.1d87 10.0.34.142 14 5/3.1/0 0/4/9 256 259(4*8)
044e.5af7.1f0a 10.0.28.248 14 5/3.2/0 0/4/8 256 259(4*8)
044e.5af7.25d6 10.0.25.141 14 5/3.1/0 0/4/16 256 260(4*8)
044e.5af7.2687 10.0.29.1 14 5/3.2/0 0/4/8 256 259(4*8)
044e.5af7.26ab 10.0.29.111 14 5/3.2/0 0/4/18 256 260(4*8)
044e.5af7.282e 10.0.27.148 14 5/3.2/0 0/4/0 256 261(4*8)
044e.5af7.2906 10.0.29.12 14 5/3.0/0 0/4/16 256 260(4*8)
044e.5af7.2915 10.0.27.82 14 5/3.3/0 0/4/9 256 259(4*8)
044e.5af7.33e9 10.0.28.219 14 5/3.1/0 0/4/0 256 261(2*8) 5/3.0/0(6), 5/3.2/0(6)
044e.5af7.3458 10.0.24.171 14 5/3.3/0 0/4/8 256 259(4*8)
044e.5af7.3497 10.0.28.190 14 5/3.2/0 0/4/9 256 259(4*8)
044e.5af7.4016 10.0.32.173 14 5/3.1/0 0/4/18 256 260(4*8)
044e.5af7.40a0 10.0.26.198 14 5/3.3/0 0/4/17 256 260(4*8)
044e.5af7.5720 10.0.30.29 14 5/3.0/0 0/4/8 256 259(4*8)
044e.5af7.5b70 10.0.23.213 14 5/3.2/0 0/4/17 256 260(4*8)
044e.5af7.5d3b 10.0.23.155 14 5/3.0/0 0/4/16 256 260(4*8)
044e.5af7.624b 10.0.23.231 14 5/3.3/0 0/4/9 256 259(4*8)
044e.5af7.636e 10.0.23.232 14 5/3.3/0 0/4/9 256 259(4*8)
044e.5af7.67c4 10.0.24.29 14 5/3.0/0 0/4/16 256 260(4*8)
044e.5af7.6824 10.0.40.177 14 5/3.1/0 0/4/9 256 259(4*8)
0c47.3dae.7d80 10.0.39.5 14 5/3.2/0 0/4/0 256 257(4*16)
105f.4921.65e4 10.0.32.92 14 5/3.0/0 0/4/1 256 261(4*8)
1498.7d7a.779c 10.0.38.71 14 5/3.1/0 0/4/17 256 260(4*8)
1498.7d7a.7e98 10.0.38.3 14 5/3.2/0 0/4/18 256 260(4*8)
1498.7d7a.8864 10.0.38.11 14 5/3.3/0 0/4/9 256 259(4*8)
1498.7d7a.a99a 10.0.33.119 14 5/3.3/0 0/4/2 256 261(4*8)
1498.7d7a.aa6c 10.0.40.159 14 5/3.3/0 0/4/8 256 259(4*8)
1498.7d7a.b804 10.0.33.142 14 5/3.3/0 0/4/17 256 260(4*8)
1498.7d7b.7954 10.0.37.189 14 5/3.2/0 0/4/18 256 260(4*8)
1498.7d7b.7a2c 10.0.32.187 1 4/1.1/0 0/0/0 14 265(1*8)
1498.7d7b.89a4 10.0.32.196 14 5/3.3/0 0/4/0 256 262(2*8) 5/3.1/0(5), 5/3.0/0(5)
1498.7d7b.8aa6 10.0.32.229 14 5/3.0/0 0/4/18 256 260(4*8)
1498.7d7b.8b84 10.0.32.94 14 5/3.2/0 0/4/18 256 260(4*8)
1859.339a.570f 10.0.29.233 14 5/3.2/0 0/4/18 256 260(4*8)
1859.339b.782e 10.0.35.181 14 5/3.0/0 0/4/9 256 259(3*8) 5/3.2/0(5)
1859.339b.7d7e 10.0.32.15 14 5/3.2/0 0/4/1 256 261(4*8)
20e5.2ab4.3f4c 10.0.34.106 14 5/3.0/0 0/4/17 256 260(1*8) 5/3.1/0(5), 5/3.2/0(5), 5/3.3/0(5)
20e5.2ab9.9a7c 10.0.24.242 14 5/3.3/0 0/4/17 256 260(3*8) 5/3.2/0(5)
2476.7dab.f2ec 10.0.32.136 14 5/3.0/0 0/4/0 256 261(4*8)
2c30.3302.ef50 10.0.39.115 14 5/3.0/0 0/4/17 256 260(4*8)
2c30.3303.01a0 10.0.39.162 14 5/3.3/0 0/4/17 256 260(4*8)
2c30.3304.19d0 10.0.24.203 14 5/3.1/0 0/4/9 256 259(4*8)
2c30.3377.f5e8 10.0.39.64 14 5/3.1/0 0/4/8 256 259(3*8) 5/3.2/0(5)
2cb0.5d56.df88 10.0.34.80 14 5/3.1/0 0/4/9 256 259(4*8)
347a.6021.629f 10.0.36.46 14 5/3.2/0 0/4/18 256 258(4*16)
347a.6021.6b4f 10.0.35.152 14 5/3.1/0 0/4/9 256 257(4*16)
347a.6021.730f 10.0.36.44 14 5/3.3/0 0/4/17 256 258(4*16)
347a.6021.742f 10.0.36.24 14 5/3.0/0 0/4/18 256 258(4*16)
347a.6021.755f 10.0.35.67 14 5/3.3/0 0/4/18 256 258(4*16)
347a.6021.765f 10.0.29.196 14 5/3.1/0 0/4/0 256 257(4*16)
347a.6021.76e7 10.0.36.83 14 5/3.3/0 0/4/16 256 258(4*16)
347a.6021.7727 10.0.35.176 14 5/3.2/0 0/4/8 256 257(4*16)
347a.6021.77ef 10.0.33.21 14 5/3.3/0 0/4/0 256 257(2*16) 5/3.2/0(5), 5/3.0/0(5)
347a.6021.785f 10.0.37.7 14 5/3.0/0 0/4/16 256 258(4*16)
347a.6021.8e4f 10.0.39.46 14 5/3.0/0 0/4/18 256 258(4*16)
347a.6021.90df 10.0.39.21 14 5/3.2/0 0/4/18 256 258(4*16)
347a.6021.9187 10.0.39.6 14 5/3.1/0 0/4/18 256 258(2*16) 5/3.0/0(5), 5/3.2/0(5)
347a.6022.028f 10.0.40.63 14 5/3.2/0 0/4/18 256 258(4*16)
347a.6022.11af 10.0.37.94 14 5/3.2/0 0/4/18 256 258(4*16)
347a.6022.1c17 10.0.33.198 14 5/3.1/0 0/4/17 256 258(2*16) 5/3.0/0(5), 5/3.2/0(5)
347a.6022.1d97 10.0.40.96 14 5/3.3/0 0/4/8 256 257(4*16)
347a.6022.20c7 10.0.37.153 14 5/3.0/0 0/4/16 256 258(1*16) 5/3.1/0(5), 5/3.2/0(5), 5/3.3/0(5)
347a.6022.274f 10.0.22.145 14 5/3.0/0 0/4/18 256 258(4*16)
347a.6022.281f 10.0.30.42 14 5/3.1/0 0/4/0 256 257(4*16)
347a.6022.289f 10.0.40.71 14 5/3.2/0 0/4/17 256 258(4*16)
347a.6022.2a07 10.0.30.129 14 5/3.3/0 0/4/18 256 258(4*16)
347a.6022.2abf 10.0.30.33 14 5/3.1/0 0/4/18 256 258(3*16) 5/3.0/0(5)
347a.6022.2dd7 10.0.40.73 14 5/3.3/0 0/4/16 256 258(4*16)
347a.6022.3e4f 10.0.35.16 14 5/3.1/0 0/4/0 256 257(3*16) 5/3.2/0(5)
347a.6022.46df 10.0.28.3 14 5/3.0/0 0/4/16 256 258(3*16) 5/3.2/0(5)
347a.6022.4a3f 10.0.34.250 14 5/3.1/0 0/4/8 256 257(2*16) 5/3.2/0(5), 5/3.3/0(5)
347a.6022.4b0f 10.0.21.162 14 5/3.0/0 0/4/17 256 258(4*16)
347a.6022.505f 10.0.34.197 14 5/3.0/0 0/4/18 256 258(4*16)
347a.6022.517f 10.0.34.252 14 5/3.3/0 0/4/18 259 258(2*16)
347a.6022.51d7 10.0.35.5 14 5/3.3/0 0/4/18 259 258(2*16)
347a.6022.52a7 10.0.34.229 14 5/3.2/0 0/4/8 256 257(4*16)
347a.6022.538f 10.0.35.6 14 5/3.2/0 0/4/1 256 257(4*16)
347a.6022.53c7 10.0.37.229 14 5/3.1/0 0/4/16 256 258(4*16)
347a.6022.53ff 10.0.25.99 14 5/3.0/0 0/4/8 256 257(3*16) 5/3.1/0(5)
347a.6022.5467 10.0.34.227 14 5/3.2/0 0/4/17 256 258(2*16)
347a.6022.6abf 10.0.39.239 14 5/3.0/0 0/4/9 256 257(4*16)
347a.6022.d40f 10.0.35.224 14 5/3.2/0 0/4/18 256 258(4*16)
347a.6022.d4d7 10.0.36.76 14 5/3.0/0 0/4/18 256 258(4*16)
347a.6022.d58f 10.0.36.90 14 5/3.2/0 0/4/18 256 258(2*16) 5/3.1/0(5), 5/3.3/0(5)
347a.6022.d64f 10.0.37.41 14 5/3.0/0 0/4/18 256 258(4*16)
347a.6022.d687 10.0.32.227 14 5/3.0/0 0/4/18 256 258(4*16)
347a.6022.d73f 10.0.35.61 14 5/3.3/0 0/4/0 256 257(4*16)
347a.6022.d7f7 10.0.36.109 14 5/3.2/0 0/4/18 256 258(4*16)
347a.6022.d95f 10.0.27.136 14 5/3.1/0 0/4/8 256 257(4*16)
347a.6022.dcef 10.0.34.113 14 5/3.3/0 0/4/9 256 257(4*16)
347a.6022.df7f 10.0.38.134 14 5/3.0/0 0/4/18 256 258(4*16)
347a.6022.e40f 10.0.37.81 14 5/3.2/0 0/4/17 256 258(4*16)
347a.6022.e417 10.0.39.18 14 5/3.3/0 0/4/9 256 257(4*16)
347a.6022.e4ef 10.0.37.69 14 5/3.0/0 0/4/9 256 257(4*16)
347a.6022.e60f 10.0.37.78 14 5/3.2/0 0/4/18 256 258(4*16)
347a.6022.e64f 10.0.30.81 14 5/3.3/0 0/4/17 256 258(4*16)
347a.6022.e8a7 10.0.39.238 14 5/3.1/0 0/4/18 258 258(2*16)
347a.6022.eabf 10.0.32.191 14 5/3.3/0 0/4/16 256 258(4*16)
347a.6022.ecef 10.0.37.214 14 5/3.1/0 0/4/17 256 258(4*16)
347a.6022.eee7 10.0.30.98 14 5/3.3/0 0/4/8 256 257(4*16)
347a.6022.eeff 10.0.37.85 14 5/3.1/0 0/4/16 256 258(4*16)
347a.6022.f20f 10.0.27.181 14 5/3.0/0 0/4/18 257 258(2*16)
347a.6022.f27f 10.0.24.254 14 5/3.2/0 0/4/9 256 257(4*16)
347a.6022.fae7 10.0.29.114 14 5/3.3/0 0/4/16 256 258(3*16) 5/3.2/0(5)
347a.6023.2a5f 10.0.37.174 14 5/3.0/0 0/4/17 256 258(4*16)
347a.6023.36df 10.0.35.2 14 5/3.0/0 0/4/8 256 257(4*16)
347a.6023.3f17 10.0.22.225 14 5/3.2/0 0/4/17 261 258(2*16)
347a.6023.408f 10.0.35.204 14 5/3.3/0 0/4/16 256 258(4*16)
347a.6023.5417 10.0.28.2 14 5/3.2/0 0/4/16 256 258(4*16)
347a.6023.550f 10.0.40.242 14 5/3.1/0 0/4/0 256 257(3*16) 5/3.2/0(5)
347a.6023.555f 10.0.38.59 14 5/3.3/0 0/4/18 256 258(4*16)
347a.6023.55df 10.0.36.197 14 5/3.0/0 0/4/18 256 258(4*16)
347a.6023.5767 10.0.34.136 14 5/3.0/0 0/4/18 1 258(1*16)
347a.6023.5c8f 10.0.36.209 14 5/3.2/0 0/4/16 256 258(2*16) 5/3.1/0(5), 5/3.0/0(5)
347a.6023.5cff 10.0.35.141 14 5/3.1/0 0/4/18 256 258(4*16)
347a.6023.5da7 10.0.39.190 14 5/3.2/0 0/4/17 256 258(4*16)
347a.6023.5fbf 10.0.38.93 14 5/3.3/0 0/4/17 256 258(4*16)
347a.6023.602f 10.0.41.51 14 5/3.1/0 0/4/9 256 257(4*16)
347a.6023.608f 10.0.33.191 14 5/3.2/0 0/4/17 256 258(4*16)
347a.6023.6507 10.0.35.29 14 5/3.0/0 0/4/18 256 258(4*16)
347a.6023.6807 10.0.34.205 14 5/3.0/0 0/4/8 256 257(3*16) 5/3.2/0(5)
347a.6023.6a3f 10.0.27.37 14 5/3.1/0 0/4/18 256 258(3*16) 5/3.2/0(5)
347a.6023.6a87 10.0.33.197 14 5/3.1/0 0/4/8 256 257(4*16)
347a.6023.6a9f 10.0.38.233 14 5/3.2/0 0/4/9 256 257(4*16)
347a.6023.6abf 10.0.38.162 14 5/3.2/0 0/4/16 256 258(4*16)
347a.6023.6af7 10.0.26.27 14 5/3.0/0 0/4/16 256 258(4*16)
347a.6023.6b07 10.0.39.160 14 5/3.2/0 0/4/18 256 258(4*16)
347a.6023.6d97 10.0.39.144 14 5/3.2/0 0/4/18 256 258(4*16)
347a.6023.6e17 10.0.36.228 14 5/3.3/0 0/4/18 256 258(4*16)
347a.6023.6e1f 10.0.39.54 14 5/3.1/0 0/4/18 256 258(3*16) 5/3.2/0(5)
347a.6023.6e37 10.0.35.246 14 5/3.1/0 0/4/18 256 258(4*16)
347a.6023.6fc7 10.0.29.165 14 5/3.0/0 0/4/18 256 258(4*16)
347a.6023.777f 10.0.40.246 14 5/3.0/0 0/4/18 256 258(4*16)
347a.6023.7857 10.0.31.141 14 5/3.0/0 0/4/18 256 258(4*16)
347a.6023.7cc7 10.0.37.72 14 5/3.2/0 0/4/0 256 257(4*16)
347a.6023.89d7 10.0.37.160 14 5/3.2/0 0/4/17 256 258(4*16)
347a.6099.8c8b 10.0.40.5 14 5/3.2/0 0/4/9 256 257(4*16)
347a.6099.b27b 10.0.40.251 14 5/3.3/0 0/4/9 256 257(4*16)
347a.6099.e083 10.0.21.47 14 5/3.3/0 0/4/8 256 257(1*16) 5/3.1/0(5), 5/3.2/0(5), 5/3.0/0(5)
347a.609a.22a3 10.0.39.89 14 5/3.0/0 0/4/18 256 258(2*16)
347a.609a.29b3 10.0.38.250 14 5/3.3/0 0/4/16 256 258(4*16)
347a.609a.2a8b 10.0.38.144 14 5/3.3/0 0/4/16 256 258(4*16)
347a.609a.2ad3 10.0.36.242 14 5/3.0/0 0/4/18 256 258(4*16)
347a.609a.2af3 10.0.20.49 14 5/3.2/0 0/4/17 256 258(4*16)
347a.609a.2ba3 10.0.37.27 14 5/3.0/0 0/4/9 256 257(4*16)
347a.609a.2d5b 10.0.36.152 14 5/3.0/0 0/4/9 256 257(4*16)
347a.609a.42fb 10.0.21.218 14 5/3.1/0 0/4/0 256 257(4*16)
347a.609a.438b 10.0.41.50 14 5/3.0/0 0/4/18 256 258(4*16)
34bd.faa2.d28a 10.0.29.172 14 5/3.1/0 0/4/8 256 259(2*8) 5/3.0/0(5), 5/3.3/0(5)
34bd.faa2.ed8d 10.0.29.200 14 5/3.2/0 0/4/1 256 261(4*8)
34bd.fac0.aa6e 10.0.40.18 14 5/3.1/0 0/4/1 256 261(4*8)
3c9a.7716.72d4 10.0.29.117 14 5/3.0/0 0/4/8 256 258(4*16)
3c9a.7716.7b8c 10.0.33.174 14 5/3.3/0 0/4/16 256 258(4*16)
3c9a.7716.7ebf 10.0.22.27 14 5/3.1/0 0/4/1 256 257(1*16) 5/3.3/0(5), 5/3.2/0(5), 5/3.0/0(5)
3c9a.7716.8453 10.0.33.89 14 5/3.3/0 0/4/8 256 257(4*16)
602a.d077.c36f 10.0.31.70 14 5/3.1/0 0/4/9 256 259(4*8)
6cca.0879.a96e 10.0.29.128 14 5/3.0/0 0/4/8 256 259(4*8)
6cca.0879.b775 10.0.21.80 14 5/3.0/0 0/4/0 256 261(4*8)
6cca.0879.b77e 10.0.40.21 14 5/3.0/0 0/4/8 256 259(4*8)
7444.01cf.96d8 10.0.35.74 14 5/3.1/0 0/4/18 256 260(4*8)
788d.f74c.0d10 10.0.25.121 14 5/3.1/0 0/4/8 256 257(4*16)
788d.f7ae.dbf0 10.0.26.170 14 5/3.3/0 0/4/2 256 257(4*16)
7cb2.1b1b.5323 10.0.31.191 14 5/3.2/0 0/4/17 256 260(4*8)
7cbf.b1c3.1161 10.0.38.149 14 5/3.2/0 0/4/1 256 261(4*8)
80b2.3400.c489 10.0.20.101 14 5/3.3/0 0/4/18 256 258(4*16)
80b2.3400.c795 10.0.39.148 14 5/3.3/0 0/4/9 256 257(4*16)
80b2.3400.c80d 10.0.30.208 14 5/3.2/0 0/4/16 256 258(4*16)
80b2.34ae.3193 10.0.21.128 14 5/3.1/0 0/4/9 256 257(4*16)
80b2.34ae.31c9 10.0.21.155 14 5/3.1/0 0/4/17 256 258(4*16)
80b2.34ae.3247 10.0.21.209 14 5/3.2/0 0/4/17 256 258(4*16)
80b2.34ae.3322 10.0.20.193 14 5/3.2/0 0/4/1 258 257(2*16)
80b2.34ae.805f 10.0.29.219 14 5/3.1/0 0/4/0 256 257(4*16)
80b2.34ae.80d1 10.0.21.18 14 5/3.3/0 0/4/17 256 258(4*16)
80b2.34ae.8146 10.0.37.195 14 5/3.1/0 0/4/0 256 257(4*16)
80b2.34ae.8155 10.0.39.100 14 5/3.2/0 0/4/1 256 257(4*16)
80b2.34ae.9655 10.0.22.212 14 5/3.3/0 0/4/17 256 258(4*16)
80b2.34ae.9aab 10.0.22.245 14 5/3.0/0 0/4/9 256 257(4*16)
80b2.34ae.9dc6 10.0.22.248 14 5/3.3/0 0/4/1 256 257(4*16)
80b2.34ae.9e02 10.0.22.251 14 5/3.0/0 0/4/8 256 257(4*16)
80b2.34ae.a7d4 10.0.35.25 14 5/3.3/0 0/4/16 256 258(4*16)
80b2.34ae.aeaf 10.0.20.191 14 5/3.1/0 0/4/1 256 257(4*16)
80b2.34ae.aff3 10.0.21.4 14 5/3.3/0 0/4/2 256 257(4*16)
80b2.34ae.b020 10.0.21.9 14 5/3.3/0 0/4/9 256 257(4*16)
841b.5e67.6948 10.0.35.90 14 5/3.0/0 0/4/18 256 260(4*8)
9cd3.6de9.e280 10.0.38.152 14 5/3.1/0 0/4/9 256 259(4*8)
a42b.8cae.9750 10.0.37.207 14 5/3.1/0 0/4/9 256 259(3*8) 5/3.0/0(5)
a811.fc6f.7ae3 10.0.24.212 14 5/3.3/0 0/4/8 256 259(4*8)
a811.fc6f.7d6e 10.0.24.227 14 5/3.2/0 0/4/17 256 260(4*8)
a811.fc6f.811c 10.0.25.27 14 5/3.3/0 0/4/8 256 259(4*8)
a811.fc6f.8191 10.0.40.7 14 5/3.2/0 0/4/0 256 261(4*8)
a811.fc6f.81a9 10.0.25.127 14 5/3.1/0 0/4/0 256 261(4*8)
a811.fc6f.83e3 10.0.24.139 14 5/3.3/0 0/4/17 256 260(4*8)
a811.fc6f.841f 10.0.24.150 14 5/3.0/0 0/4/8 256 259(4*8)
a811.fc6f.853c 10.0.20.152 14 5/3.0/0 0/4/16 256 260(4*8)
a811.fc6f.85b7 10.0.24.135 14 5/3.0/0 0/4/0 256 261(4*8)
a811.fc6f.9127 10.0.26.11 14 5/3.3/0 0/4/16 256 260(4*8)
a811.fc6f.9907 10.0.25.159 14 5/3.1/0 0/4/8 256 259(4*8)
a811.fc6f.ac00 10.0.23.101 14 5/3.1/0 0/4/9 256 259(4*8)
a811.fc6f.ac7e 10.0.34.31 14 5/3.0/0 0/4/17 256 260(4*8)
a811.fc6f.b7e2 10.0.25.140 14 5/3.1/0 0/4/17 256 260(4*8)
a811.fc6f.bb6c 10.0.22.141 14 5/3.1/0 0/4/8 256 259(4*8)
a811.fc6f.e122 10.0.34.94 14 5/3.2/0 0/4/9 256 259(4*8)
a811.fc6f.e6a1 10.0.29.16 14 5/3.1/0 0/4/9 256 259(4*8)
a811.fc6f.e9ec 10.0.29.55 14 5/3.0/0 0/4/9 256 259(4*8)
a811.fc6f.ec86 10.0.23.104 14 5/3.1/0 0/4/18 256 260(4*8)
a811.fc6f.edcd 10.0.22.155 14 5/3.3/0 0/4/17 256 260(4*8)
a811.fc6f.edf1 10.0.30.240 14 5/3.2/0 0/4/0 256 261(4*8)
a811.fc6f.ee09 10.0.30.198 14 5/3.2/0 0/4/18 256 260(4*8)
a811.fc6f.ee27 10.0.30.241 14 5/3.0/0 0/4/9 256 259(4*8)
a811.fc6f.ee39 10.0.23.171 14 5/3.0/0 0/4/17 256 260(4*8)
a811.fc6f.ee42 10.0.22.90 14 5/3.2/0 0/4/8 256 259(4*8)
a811.fc6f.ee78 10.0.29.67 14 5/3.3/0 0/4/9 256 259(4*8)
a811.fc6f.ee99 10.0.20.15 14 5/3.0/0 0/4/1 256 261(4*8)
a811.fc6f.eefc 10.0.37.84 14 5/3.3/0 0/4/0 256 261(4*8)
a811.fc6f.f691 10.0.28.189 14 5/3.2/0 0/4/17 256 260(4*8)
a811.fc6f.f6b8 10.0.36.84 14 5/3.1/0 0/4/9 256 259(4*8)
a811.fc6f.f6f1 10.0.28.20 14 5/3.3/0 0/4/8 256 259(4*8)
a811.fc6f.f715 10.0.28.101 14 5/3.0/0 0/4/9 256 259(4*8)
a811.fc70.0657 10.0.26.131 14 5/3.3/0 0/4/8 256 259(4*8)
a811.fc70.06ff 10.0.23.194 14 5/3.0/0 0/4/0 256 261(4*8)
a811.fc70.1c86 10.0.27.112 14 5/3.3/0 0/4/17 4 260(1*8)
a811.fc70.212a 10.0.40.186 14 5/3.0/0 0/4/16 256 260(4*8)
a811.fc70.2514 10.0.20.76 14 5/3.0/0 0/4/16 256 260(4*8)
a811.fc70.2c9a 10.0.20.207 14 5/3.0/0 0/4/8 256 259(4*8)
a811.fc70.366c 10.0.28.223 14 5/3.0/0 0/4/8 256 259(4*8)
bc4d.fb2e.1090 10.0.40.217 14 5/3.3/0 0/4/9 256 257(4*16)
bcc8.1010.cdd6 10.0.27.128 14 5/3.3/0 0/4/1 256 261(4*8)
cc0d.eca5.d1a1 10.0.28.11 14 5/3.2/0 0/4/0 256 261(4*8)
cc0d.ecaa.54c4 10.0.27.135 14 5/3.1/0 0/4/8 256 259(4*8)
d40a.a9b3.4a94 10.0.21.96 14 5/3.3/0 0/4/17 256 260(3*8) 5/3.0/0(5)
d40a.a9b3.9651 10.0.24.111 14 5/3.0/0 0/4/17 256 260(4*8)
dcef.0925.2ac8 10.0.30.177 14 5/3.0/0 0/4/16 256 260(4*8)
e86d.5275.defc 10.0.30.118 14 5/3.0/0 0/4/17 256 260(4*8)
f0f2.496b.0b40 10.0.21.92 14 5/3.0/0 0/4/9 256 257(4*16)
CASA-C40G(config)#show downstream channel set mac-domain 14
MAC Chan Channel
ID Set List
14 1 0/4/0
14 2 0/4/1
14 3 0/4/2
14 4 0/4/3
14 5 0/4/4
14 6 0/4/5
14 7 0/4/6
14 8 0/4/7
14 9 0/4/8
14 10 0/4/9
14 11 0/4/10
14 12 0/4/11
14 13 0/4/12
14 14 0/4/13
14 15 0/4/14
14 16 0/4/15
14 17 0/4/16
14 18 0/4/17
14 19 0/4/18
14 20 0/4/19
14 21 0/4/20
14 22 0/4/21
14 23 0/4/22
14 24 0/4/23
14 256 0/4/0-0/4/23
14 257 0/4/0-0/4/15
14 258 0/4/8-0/4/23
14 259 0/4/4-0/4/11
14 260 0/4/4-0/4/7, 0/4/16-0/4/19
14 261 0/4/0-0/4/7
14 262 0/4/0-0/4/3, 0/4/20-0/4/23
CASA-C40G(config)#show upstream channel set mac-domain 14
MAC Chan Channel
ID Set List
14 1 5/3.0/0
14 2 5/3.1/0
14 3 5/3.2/0
14 4 5/3.3/0
14 256 5/3.0/0-5/3.3/0
14 257 5/3.0/0-5/3.1/0
14 258 5/3.1/0-5/3.2/0
14 259 5/3.1/0, 5/3.3/0
14 260 5/3.0/0, 5/3.3/0
14 261 5/3.2/0-5/3.3/0
CASA-C40G(config)#show load-balance dynamic | in 14->14
Mac address Mac_id upstream-channel downstream-channel initial_tech cmd status type time
788d.f74c.0d10 14->14 2,1,3,4->2,3,4 9,2,3,4,5,6,7,8,1,10,11,12,13,14,15,16->- direct dbc Success PSR 2023-03-16 13:18:27
788d.f74c.0d10 14->14 2,3,4->3,4 9,2,3,4,5,6,7,8,1,10,11,12,13,14,15,16->- direct dbc Success PSR 2023-03-16 13:18:37
788d.f74c.0d10 14->14 3,4->3,4,1,2 9,2,3,4,5,6,7,8,1,10,11,12,13,14,15,16->- unicast-ranging dbc Success PSR 2023-03-16 13:18:57
788d.f74c.0d10 14->14 3,2,1,4->3,2,4 9,2,3,4,5,6,7,8,1,10,11,12,13,14,15,16->- direct dbc Success PSR 2023-03-16 13:21:26
788d.f74c.0d10 14->14 3,2,4->3,2,4,1 9,2,3,4,5,6,7,8,1,10,11,12,13,14,15,16->- unicast-ranging dbc Success PSR 2023-03-16 13:21:47
347a.6022.2a07 14->14 2,1,3,4->1,3 19,9,10,11,12,13,14,15,16,17,18,20,21,22,23,24->- direct dbc Success TXP 2023-03-16 13:22:34
347a.6022.2a07 14->14 1,3->1,3,2,4 19,9,10,11,12,13,14,15,16,17,18,20,21,22,23,24->- unicast-ranging dbc Success TXP 2023-03-16 13:22:46
788d.f74c.0d10 14->14 3,2,1,4->3,2,4 9,2,3,4,5,6,7,8,1,10,11,12,13,14,15,16->- direct dbc Success PSR 2023-03-16 13:23:26
788d.f74c.0d10 14->14 3,2,4->3,2,4,1 9,2,3,4,5,6,7,8,1,10,11,12,13,14,15,16->- unicast-ranging dbc Success PSR 2023-03-16 13:23:46
347a.6022.2a07 14->14 1,2,3,4->1,4 19,9,10,11,12,13,14,15,16,17,18,20,21,22,23,24->- direct dbc Success TXP 2023-03-16 13:28:14
347a.6022.2a07 14->14 1,4->1 19,9,10,11,12,13,14,15,16,17,18,20,21,22,23,24->- direct dbc cmRejected TXP 2023-03-16 13:28:34
788d.f74c.0d10 14->14 3,2,1,4->3,2,4 9,2,3,4,5,6,7,8,1,10,11,12,13,14,15,16->- direct dbc Success PSR 2023-03-16 13:29:45
788d.f74c.0d10 14->14 3,2,4->3,2,4,1 9,2,3,4,5,6,7,8,1,10,11,12,13,14,15,16->- unicast-ranging dbc Success PSR 2023-03-16 13:30:06
347a.6022.5467 14->14 2,1->2,1,3,4 18,9,10,11,12,13,14,15,16,17,19,20,21,22,23,24->- unicast-ranging dbc cmRejected TXP 2023-03-16 13:32:40
347a.6022.5467 14->14 2,1->2,1,3,4 18,9,10,11,12,13,14,15,16,17,19,20,21,22,23,24->- unicast-ranging dbc cmRejected TXP 2023-03-16 13:32:41
347a.6022.5467 14->14 2,1->2,1,3,4 18,9,10,11,12,13,14,15,16,17,19,20,21,22,23,24->- unicast-ranging dbc cmRejected TXP 2023-03-16 13:32:41
347a.6022.5467 14->14 2,1->2,1,3,4 18,9,10,11,12,13,14,15,16,17,19,20,21,22,23,24->- unicast-ranging dbc cmRejected TXP 2023-03-16 13:32:48
347a.6022.5467 14->14 2,1->2,1,3,4 18,9,10,11,12,13,14,15,16,17,19,20,21,22,23,24->- unicast-ranging dbc Success TXP 2023-03-16 13:32:51
347a.6022.2a07 14->14 1,2,3,4->1,3 19,9,10,11,12,13,14,15,16,17,18,20,21,22,23,24->- direct dbc Success TXP 2023-03-16 13:33:30
347a.6022.2a07 14->14 1,3->1,3,2,4 19,9,10,11,12,13,14,15,16,17,18,20,21,22,23,24->- unicast-ranging dbc Success TXP 2023-03-16 13:33:33
788d.f74c.0d10 14->14 3,2,1,4->3,2,4 9,2,3,4,5,6,7,8,1,10,11,12,13,14,15,16->- direct dbc Success PSR 2023-03-16 13:36:15
788d.f74c.0d10 14->14 3,2,4->3,2,4,1 9,2,3,4,5,6,7,8,1,10,11,12,13,14,15,16->- unicast-ranging dbc Success PSR 2023-03-16 13:36:35
347a.6022.2a07 14->14 1,2,3,4->1,4 19,9,10,11,12,13,14,15,16,17,18,20,21,22,23,24->- direct dbc Success TXP 2023-03-16 13:41:46
347a.6022.2a07 14->14 1,4->1,4,2,3 19,9,10,11,12,13,14,15,16,17,18,20,21,22,23,24->- unicast-ranging dbc Success TXP 2023-03-16 13:43:07
347a.6022.5467 14->14 2,1,3,4->3,4 18,9,10,11,12,13,14,15,16,17,19,20,21,22,23,24->- direct dbc Success TXP 2023-03-16 13:43:17
788d.f74c.0d10 14->14 3,2,1,4->3,2,4 9,2,3,4,5,6,7,8,1,10,11,12,13,14,15,16->- direct dbc Success PSR 2023-03-16 13:43:35
788d.f74c.0d10 14->14 3,2,4->3,2,4,1 9,2,3,4,5,6,7,8,1,10,11,12,13,14,15,16->- unicast-ranging dbc Success PSR 2023-03-16 13:43:55
347a.6022.5467 14->14 3,4->3,4,2,1 18,9,10,11,12,13,14,15,16,17,19,20,21,22,23,24->- unicast-ranging dbc cmRejected TXP 2023-03-16 13:47:01
347a.6022.5467 14->14 3,4->3,4,2,1 18,9,10,11,12,13,14,15,16,17,19,20,21,22,23,24->- unicast-ranging dbc cmRejected TXP 2023-03-16 13:47:03
347a.6022.5467 14->14 3,4->3,4,2,1 18,9,10,11,12,13,14,15,16,17,19,20,21,22,23,24->- unicast-ranging dbc cmRejected TXP 2023-03-16 13:47:21
347a.6022.5467 14->14 3,4->3,4,2,1 18,9,10,11,12,13,14,15,16,17,19,20,21,22,23,24->- unicast-ranging dbc cmRejected TXP 2023-03-16 13:47:23
347a.6022.5467 14->14 3,4->3,4,2,1 18,9,10,11,12,13,14,15,16,17,19,20,21,22,23,24->- unicast-ranging dbc cmRejected TXP 2023-03-16 13:47:41
347a.6022.5467 14->14 3,4->3,4,2,1 18,9,10,11,12,13,14,15,16,17,19,20,21,22,23,24->- unicast-ranging dbc cmRejected TXP 2023-03-16 13:47:43
347a.6022.5467 14->14 3,4->3,4,2,1 18,9,10,11,12,13,14,15,16,17,19,20,21,22,23,24->- unicast-ranging dbc cmRejected TXP 2023-03-16 13:47:51
347a.6022.5467 14->14 3,4->3,4,2,1 18,9,10,11,12,13,14,15,16,17,19,20,21,22,23,24->- unicast-ranging dbc cmRejected TXP 2023-03-16 13:47:53
347a.6022.5467 14->14 3,4->3,4,2,1 18,9,10,11,12,13,14,15,16,17,19,20,21,22,23,24->- unicast-ranging dbc cmRejected TXP 2023-03-16 13:48:01
347a.6022.5467 14->14 3,4->3,4,2,1 18,9,10,11,12,13,14,15,16,17,19,20,21,22,23,24->- unicast-ranging dbc cmRejected TXP 2023-03-16 13:48:03
347a.6022.5467 14->14 3,4->3,4,2,1 18,9,10,11,12,13,14,15,16,17,19,20,21,22,23,24->- unicast-ranging dbc cmRejected TXP 2023-03-16 13:48:11
347a.6022.5467 14->14 3,4->3,4,2,1 18,9,10,11,12,13,14,15,16,17,19,20,21,22,23,24->- unicast-ranging dbc cmRejected TXP 2023-03-16 13:48:13
347a.6022.5467 14->14 3,4->3,4,2,1 18,9,10,11,12,13,14,15,16,17,19,20,21,22,23,24->- unicast-ranging dbc cmRejected TXP 2023-03-16 13:48:21
347a.6022.5467 14->14 3,4->3,4,2,1 18,9,10,11,12,13,14,15,16,17,19,20,21,22,23,24->- unicast-ranging dbc cmRejected TXP 2023-03-16 13:48:23
347a.6022.5467 14->14 3,4->3,4,2,1 18,9,10,11,12,13,14,15,16,17,19,20,21,22,23,24->- unicast-ranging dbc cmRejected TXP 2023-03-16 13:48:23
347a.6022.5467 14->14 3,4->3,4,2,1 18,9,10,11,12,13,14,15,16,17,19,20,21,22,23,24->- unicast-ranging dbc cmRejected TXP 2023-03-16 13:48:23
347a.6022.5467 14->14 3,4->3,4,2,1 18,9,10,11,12,13,14,15,16,17,19,20,21,22,23,24->- unicast-ranging dbc cmRejected TXP 2023-03-16 13:48:31
347a.6022.5467 14->14 3,4->3,4,2,1 18,9,10,11,12,13,14,15,16,17,19,20,21,22,23,24->- unicast-ranging dbc cmRejected TXP 2023-03-16 13:48:33
347a.6022.5467 14->14 3,4->3,4,2,1 18,9,10,11,12,13,14,15,16,17,19,20,21,22,23,24->- unicast-ranging dbc cmRejected TXP 2023-03-16 13:48:41
347a.6022.5467 14->14 3,4->3,4,2,1 18,9,10,11,12,13,14,15,16,17,19,20,21,22,23,24->- unicast-ranging dbc cmRejected TXP 2023-03-16 13:48:43
347a.6022.5467 14->14 3,4->3,4,2,1 18,9,10,11,12,13,14,15,16,17,19,20,21,22,23,24->- unicast-ranging dbc cmRejected TXP 2023-03-16 13:48:51
347a.6022.5467 14->14 3,4->3,4,2,1 18,9,10,11,12,13,14,15,16,17,19,20,21,22,23,24->- unicast-ranging dbc cmRejected TXP 2023-03-16 13:48:53
347a.6022.2a07 14->14 1,2,3,4->3,4 19,9,10,11,12,13,14,15,16,17,18,20,21,22,23,24->- direct dbc Success TXP 2023-03-16 13:55:59
347a.6022.2a07 14->14 3,4->3,4,2,1 19,9,10,11,12,13,14,15,16,17,18,20,21,22,23,24->- unicast-ranging dbc Success TXP 2023-03-16 13:56:01
bcc8.1010.cdd6 14->14 2,1,3,4->2,1,3 3,2,1,4,5,6,7,8->- direct dbc cmRejected TXP 2023-03-16 14:34:53
347a.6023.89d7 14->14 1,2,3,4->3 18,9,10,11,12,13,14,15,16,17,19,20,21,22,23,24->- direct dbc Success TXP 2023-03-16 14:49:56
347a.6022.2a07 14->14 4,2,3,1->2,3,1 19,9,10,11,12,13,14,15,16,17,18,20,21,22,23,24->- direct dbc Success TXP 2023-03-16 15:14:36
347a.6022.2a07 14->14 1,2,3->1,2 19,9,10,11,12,13,14,15,16,17,18,20,21,22,23,24->- direct dbc Success TXP 2023-03-16 15:14:56
347a.6022.2a07 14->14 1,2->1,2,3,4 19,9,10,11,12,13,14,15,16,17,18,20,21,22,23,24->- unicast-ranging dbc Success TXP 2023-03-16 15:15:20
347a.6022.2a07 14->14 1,2,3,4->1 19,9,10,11,12,13,14,15,16,17,18,20,21,22,23,24->- direct dbc Success TXP 2023-03-16 15:15:46
347a.6023.89d7 14->14 3->3,2,1,4 18,9,10,11,12,13,14,15,16,17,19,20,21,22,23,24->- unicast-ranging dbc Success TXP 2023-03-16 15:18:05
788d.f74c.0d10 14->14 2,1,3,4->1,3,4 9,2,3,4,5,6,7,8,1,10,11,12,13,14,15,16->- direct dbc Success PSR 2023-03-16 15:22:52
788d.f74c.0d10 14->14 1,3,4->1,3,4,2 9,2,3,4,5,6,7,8,1,10,11,12,13,14,15,16->- unicast-ranging dbc Success PSR 2023-03-16 15:23:12
bcc8.1010.cdd6 14->14 4,2,3,1->4,2 2,1,3,4,5,6,7,8->- direct dbc Success TXP 2023-03-16 15:40:09
bcc8.1010.cdd6 14->14 4,2->4,2,3,1 2,1,3,4,5,6,7,8->- unicast-ranging dbc Success TXP 2023-03-16 15:40:13
Don't see anything damning in there, all the load-balancing seems to be working, 2 modems have the lion share of the issues, both with Transmit Power (TXP), I also see some partial-service-recovery in there as well (PSR)
For the upstream, I suspect, you have a few modems that are stuck in Partial service, can you try manually bringing one out?
cable modem 3c9a.7716.7ebf partial-service-recovery upstream 1
cable modem 3c9a.7716.7ebf partial-service-recovery upstream 2
cable modem 3c9a.7716.7ebf partial-service-recovery upstream 3
cable modem 3c9a.7716.7ebf partial-service-recovery upstream 4
(this is assuming those are your US indexes in the Docsis-Mac)
Does it stay out of partial service or does it go back in, may need to let it run a while.
That's right, manually take the four upstreams again.
I'm checking that I don't have the loopback interface configured for the remote-queries, are these important for the CMTS's decision-making?
! cable modem remote-query configuration
cable modem remote-query 300 "snmp community"
remote-query only affect the ability for CM specific values like sysDescr, DS SNR, US TX Power to be visible when running scm verbose, or scm phy.
you may need to manually recover the remaining partial service, the partial-service dbc recovery is working now, but was not specified previously. When recovering from partial service if you did not have the dbc recovery enabled, it would try a few times and if it could not recover it would give up. The dbc recover option tells it to keep trying every 900 secs. You should disable cable partial-service continue-ranging if you have that set, that is known to also cause modems to get stuck in partial service.
Thanks Kwesibrunee , i manually recover CMs through the command ccm partial-service reset and only have 18 CMs now in partial mode , previously had 1000 CMs.
Thanks again.