office
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office [2023/03/26 16:00] – sysadm | office [2023/05/24 11:01] – sysadm | ||
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+ | * Destination IP table: | ||
+ | * | ||
+ | * Name | ||
+ | * IP | ||
+ | * Expected Latency(ms) | ||
+ | * EAST-BING | ||
+ | * 13.107.21.200 | ||
+ | * 45 | ||
+ | * EAST-TWITTER | ||
+ | * 117.18.232.102 | ||
+ | * 45 | ||
+ | * EAST-ZENLAYER | ||
+ | * 129.227.71.27 | ||
+ | * 70 | ||
+ | * EAST-FAR-EDGECAST | ||
+ | * 117.18.232.184 | ||
+ | * 45 | ||
+ | * INDIA-AKAMAI | ||
+ | * 23.9.65.23 | ||
+ | * 40 | ||
+ | * WEST-UK-VIJU-CLOUD | ||
+ | * 176.58.109.199 | ||
+ | * 185 | ||
+ | * WEST-USA-IMO | ||
+ | * 192.12.31.101 | ||
+ | * 300 | ||
+ | * WEST-UK-TELEGRAM | ||
+ | * 149.154.167.151 | ||
+ | * 185 | ||
+ | * WEST-UK-AMAZON | ||
+ | * 54.239.34.171 | ||
+ | * 200 | ||
+ | |||
+ | |||
* | * | ||
* CLR LINK P2P check | * CLR LINK P2P check | ||
Line 133: | Line 167: | ||
* # | * # | ||
* return | * return | ||
+ | |||
+ | **3db attenuator** | ||
+ | |||
+ | In some cases, the signal strength of the incoming signal may be too strong for the receiving device if the distance between the two devices is too short. Using an attenuator can help reduce the signal strength to a more appropriate level. | ||
+ | |||
+ | * [~DHPALPLR-03]display optical-module base information interface 100GE0/10/1 | ||
+ | * Optical Transceiver Base Information | ||
+ | * Card10-Port1 | ||
+ | * Factor/ | ||
+ | * Standard | ||
+ | * Vendor PN : 6C-QSFP28-LR4 | ||
+ | * Vendor Name : 6COM | ||
+ | * Transceiver Maximal BW : 100G | ||
+ | * Transceiver Mode : SingleMode | ||
+ | * Connector Type : LC | ||
+ | * WaveLength | ||
+ | * Transceiver Distance | ||
+ | * Rx Optical Power Total : 8.29dBm | ||
+ | * Tx Optical Power Total : 8.33dBm | ||
+ | * Rx Power Warning Range : [-11.598, | ||
+ | * Tx Power Warning Range : [-5.300, | ||
+ | * Rx Optical Power[0] | ||
+ | * Tx Optical Power[0] | ||
+ | * Rx Optical Power[1] | ||
+ | * Tx Optical Power[1] | ||
+ | * Rx Optical Power[2] | ||
+ | * Tx Optical Power[2] | ||
+ | * Rx Optical Power[3] | ||
+ | * Tx Optical Power[3] | ||
+ | * The Optical Match Result | ||
+ | * The Vendor Private Information : NA | ||
+ | * | ||
+ | * | ||
+ | * [~DHPALPLR-03]display optical-module base information interface 100GE0/10/1 | ||
+ | * | ||
+ | * Optical Transceiver Base Information | ||
+ | * | ||
+ | * Card10-Port1 | ||
+ | * | ||
+ | * Factor/ | ||
+ | * Standard | ||
+ | * Vendor PN : 6C-QSFP28-LR4 | ||
+ | * Vendor Name : 6COM | ||
+ | * Transceiver Maximal BW : 100G | ||
+ | * Transceiver Mode : SingleMode | ||
+ | * Connector Type : LC | ||
+ | * WaveLength | ||
+ | * Transceiver Distance | ||
+ | * Rx Optical Power Total : 7.20dBm | ||
+ | * Tx Optical Power Total : 8.33dBm | ||
+ | * Rx Power Warning Range : [-11.598, | ||
+ | * Tx Power Warning Range : [-5.300, | ||
+ | * Rx Optical Power[0] | ||
+ | * Tx Optical Power[0] | ||
+ | * Rx Optical Power[1] | ||
+ | * Tx Optical Power[1] | ||
+ | * Rx Optical Power[2] | ||
+ | * Tx Optical Power[2] | ||
+ | * Rx Optical Power[3] | ||
+ | * Tx Optical Power[3] | ||
+ | * The Optical Match Result | ||
+ | * The Vendor Private Information : NA | ||
+ | |||
+ | |||
+ | |||
+ | |||
+ | * as-path-set CHINA-TELECOM-EQUINIX-AS-BLOCK | ||
+ | * | ||
+ | * | ||
+ | * | ||
+ | * | ||
+ | * | ||
+ | * | ||
+ | * | ||
+ | * | ||
+ | * | ||
+ | * | ||
+ | * // ios-regex ' | ||
+ | * end-set | ||
+ | * ! | ||
+ | |||
+ | |||
+ | * display | ||
+ | * As path filter name: BTTB-RAMNA-AS-IN | ||
+ | * | ||
+ | * | ||
+ | * | ||
+ | * | ||
+ | * | ||
+ | |||
+ | |||
+ | * RP/ | ||
+ | * Tue Mar 14 19: | ||
+ | * interface TenGigE0/ | ||
+ | * description @@ SMW5-LINK20-TO-UTTARA-AGG-VIA-EQUINIX-SG3-SMW5-BSCCL-SCL @@ | ||
+ | * ipv4 address 103.199.87.72 255.255.255.254 | ||
+ | * ipv6 address 2405: | ||
+ | * ipv6 enable | ||
+ | * **carrier-delay up 20000 down 20000** | ||
+ | * shutdown | ||
+ | * load-interval 30 | ||
+ | * ipv4 access-group BTRC-NEW-BLOCK ingress | ||
+ | * ipv4 access-group BTRC-NEW-BLOCK egress | ||
+ | * ! | ||
+ | |||
+ | The hold up time and hold down time can be used to prevent routing loops and to improve the stability of the network. For example, if a router has a hold up time of 10 seconds and a hold down time of 20 seconds, and it declares a neighbor down, it will wait 10 seconds for a hello packet from the neighbor before declaring the neighbor down. If the router does not receive a hello packet from the neighbor within 10 seconds, it will wait 20 seconds before trying to re-establish the neighbor adjacency. This helps to prevent routing loops from occurring if the neighbor is only temporarily unavailable. | ||
+ | |||
+ | The hold up time and hold down time can also be used to improve the stability of the network by preventing flapping. Flapping occurs when a routing loop is created and then broken, and then created again. This can happen if a router is constantly declaring neighbors down and then up again. The hold up time and hold down time can help to prevent flapping by preventing a router from declaring a neighbor down too quickly. |
office.txt · Last modified: 2024/05/05 16:51 by sysadm