Reference Guide

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Table Of Contents

FEC modes supported in OS10:

● CL74-FC — Supports 25G

● CL91-RS — Supports 100G

● CL108-RS — Supports 25G

● off — Disables FEC

NOTE: OS10 does not support FEC on 10G and 40G.

Configure FEC

OS10(config)# interface ethernet 1/1/41

OS10(conf-if-eth1/1/41)# fec CL91-RS

View FEC configuration

OS10# show interface ethernet 1/1/41

Ethernet 1/1/41 is up, line protocol is up

Hardware is Dell EMC Eth, address is e4:f0:04:3e:1a:06

Current address is e4:f0:04:3e:1a:06

Pluggable media present, QSFP28 type is QSFP28_100GBASE_CR4_2M

Wavelength is 64

Receive power reading is

Interface index is 17306108

Internet address is not set

Mode of IPv4 Address Assignment: not set

Interface IPv6 oper status: Disabled

MTU 1532 bytes, IP MTU 1500 bytes

LineSpeed 100G, Auto-Negotiation on

FEC is cl91-rs, Current FEC is cl91-rs

Flowcontrol rx off tx off

ARP type: ARPA, ARP Timeout: 60

Last clearing of "show interface" counters: 00:00:17

Queuing strategy: fifo

Input statistics:

7 packets, 818 octets

2 64-byte pkts, 0 over 64-byte pkts, 5 over 127-byte pkts

0 over 255-byte pkts, 0 over 511-byte pkts, 0 over 1023-byte pkts

7 Multicasts, 0 Broadcasts, 0 Unicasts

0 runts, 0 giants, 0 throttles

0 CRC, 0 overrun, 0 discarded

Output statistics:

15 packets, 1330 octets

10 64-byte pkts, 0 over 64-byte pkts, 5 over 127-byte pkts

0 over 255-byte pkts, 0 over 511-byte pkts, 0 over 1023-byte pkts

15 Multicasts, 0 Broadcasts, 0 Unicasts

0 throttles, 0 discarded, 0 Collisions, 0 wred drops

Rate Info(interval 30 seconds):

Input 0 Mbits/sec, 0 packets/sec, 0% of line rate

Output 0 Mbits/sec, 0 packets/sec, 0% of line rate

Time since last interface status change: 00:00:13

--more--

Energy-efficient Ethernet

Energy-efficient Ethernet (EEE) reduces power the consumption of physical layer devices (PHYs) during idle periods. EEE

allows Dell Networking devices to conform to green computing standards.

An Ethernet link consumes power when a link is idle. EEE allows for Ethernet links to use the regular power mode only during

data transmission. EEE is enabled on devices that support LOW POWER IDLE (LPI) mode. Such devices can save power by

entering LPI mode during periods when no data is transmitted.

In LPI mode, systems on both ends of the link saves power by shutting down certain services. EEE transitions into and out of

LPI mode transparently to upper-layer protocols and applications.

EEE advertises during the auto-negotiation stage. Auto-negotiation detects abilities supported by the device at the other end of

the link, determines common abilities, and configures joint operation.

Interfaces