Dell POWEREDGE M1000E User Manual

Dell PowerEdge M1000e  
Systems  
Configuration Guide  
Contents  
1
About Your System  
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7
System Overview  
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7
LCD Module  
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LCD Module Menus  
12  
Back-Panel Features  
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14  
Blades .  
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CMC Module .  
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22  
23  
iKVM Switch Module  
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25  
2
27  
Before You Begin  
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27  
Network Information .  
Configuring the CMC  
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28  
Initial CMC Network Configuration  
Logging in to the CMC Using the  
28  
Web-Based Interface  
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31  
32  
Adding and Managing CMC Users .  
Configuring iDRAC Networking Using the  
Web-Based Interface  
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33  
Contents  
3
Setting the First Boot Device for Servers  
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34  
35  
Configuring the Optional iKVM Switch Module  
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38  
Enabling iKVM Access to the Dell  
CMC Console .  
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38  
38  
Tiering the Avocent iKVM Switch From an  
Analog KVM Switch  
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39  
Digital KVM Switch .  
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40  
41  
FlexAddress  
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43  
Activating FlexAddress .  
44  
3
47  
Overview .  
49  
Before You Begin  
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52  
52  
Web-Based Interface  
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52  
53  
Dell PowerConnect-KR 8024-k Switch .  
Dell M8428-k 10 Gb Converged  
Network Switch  
Mellanox M2401G DDR Infiniband  
Switch I/O Module  
Mellanox M3601Q QDR Infiniband  
Switch I/O Module  
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55  
57  
58  
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4
Contents  
Switch I/O Module .  
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60  
61  
Cisco Catalyst Ethernet Switch I/O Modules  
PowerConnect M6220 Ethernet Switch  
I/O Module  
I/O Module  
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65  
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PowerConnect M8024 10 Gb Ethernet Switch  
I/O Module  
Brocade M4424 SAN I/O Module  
Brocade M5424 FC8 I/O Module .  
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69  
71  
73  
Dell 8/4 Gbps FC SAN Module  
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75  
Dell 10 GbE KR Pass-Through I/O Module .  
Dell 8/4 Gbps Fibre Channel Pass-Through  
I/O Module  
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77  
79  
81  
10 Gb Ethernet Pass-Through Module II .  
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10 Gb Ethernet Pass-Through I/O Module .  
10/100/1000 Mb Ethernet Pass-Through  
I/O Module  
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83  
85  
4G Fibre Channel Pass-Through I/O Module .  
Contents  
5
6
Contents  
1
About Your System  
System Overview  
Your system can include up to 16 half-height blades (server modules), eight  
full-height blades, or a mixture of the two blade types (see Figure 1-1,  
Figure 1-2, and Figure 1-3). To function as a system, a blade is inserted into a  
Dell PowerEdge M1000e enclosure (chassis) that supports power supplies, fan  
modules, a Chassis Management Controller (CMC) module, and at least one  
I/O module for external network connectivity. The power supplies, fans,  
CMC, optional iKVM module, and I/O modules are shared resources of the  
blades in the enclosure.  
NOTE: To ensure proper operation and cooling, all bays in the enclosure must be  
populated at all times with either a module or with a blank.  
About Your System  
7
   
Figure 1-1. Blade Numbering—Half-Height Blades  
1
2
3
4
5
6
7
8
9
10  
11  
12  
13  
14 15 16  
8
About Your System  
 
Figure 1-2. Blade Numbering—Full Height Blades  
1
2
3
4
5
6
7
8
Figure 1-3. Blade Numbering—Mixed Full-Height and Half-Height Blades  
1
2
3
4
5
6
7
8
13  
14 15 16  
About Your System  
9
   
Figure 1-4 shows the control panel features on the M1000e enclosure panel.  
Figure 1-4. Control Panel Features  
2
3
4
1
5
1
3
5
USB port (mouse only)  
video connector  
2
4
USB port (keyboard only)  
system power button  
system power indicator  
NOTE: The USB and video ports are functional only if an optional iKVM module is  
installed.  
10  
About Your System  
   
LCD Module  
The LCD module provides an initial configuration/deployment wizard, as  
well as access to infrastructure and blade information, and error reporting.  
See Figure 1-5.  
Figure 1-5. LCD Module  
3
2
1
1
3
LCD screen  
2
scroll buttons (4)  
selection ("check") button  
About Your System  
11  
   
LCD Module Menus  
Table 1-1. LCD Module Screen Navigation Keys  
Keys  
Action  
Left and right arrows  
Use the left and right arrow keys to navigate through the  
options in a menu and to scroll text.  
Up arrow or down arrow  
Use the up and down arrow keys to navigate through the  
options in a menu, scroll text or increase a numerical  
value  
.
Center button  
Use this button to select a menu option.  
Main Menu  
The Main Menu options include links to the LCD Setup Menu, Server  
Menu, and Enclosure Menu.  
LCD Setup Menu  
You can change the default language and start-up screen for the LCD menu  
screens using this menu.  
Server Menu  
From the Server Menu dialog box, you can highlight each blade in the  
enclosure using the arrow keys, and view its status.  
A blade that is powered off or booting is designated by a gray rectangle. An  
active blade is indicated by a green rectangle. If a blade has errors, this  
condition is indicated by an amber rectangle.  
To select a blade, highlight it and press the center button. A dialog box  
displays the iDRAC IP address of the blade and any errors present.  
12  
About Your System  
 
Enclosure Menu  
The Enclosure Menu includes options for Module Status, Enclosure Status,  
and Network Summary.  
In the Module Status dialog box, you can highlight each component in the  
enclosure and view its status.  
A module that is powered off or booting is designated by a gray  
rectangle. An active module is indicated by a green rectangle. If a  
module has errors, it is indicated by an amber rectangle.  
If a module is selected, a dialog box displays the current status of the  
module and any errors present.  
In the Enclosure Status dialog box, you can view the enclosure status, any  
error conditions, and power consumption statistics.  
The Network Summary screen lists the IP addresses for the CMC, the  
iDRAC in each blade, and other components in the enclosure.  
About Your System  
13  
Back-Panel Features  
The back panel of the M1000e enclosure supports six I/O modules, one or two  
CMC modules, an optional iKVM module, nine fan modules, and six power  
supply modules. Figure 1-6 shows a fully configured enclosure.  
Figure 1-6. Back Panel Features  
1
2
3
4
5
6
1
3
5
fan modules (9)  
I/O modules (6)  
2
primary CMC module  
optional iKVM module  
power supplies (6)  
4
6
secondary CMC module  
14  
About Your System  
   
Blades  
Figure 1-7. Front Panel Features—PowerEdge M910  
1
2
6
5
4
3
1
3
5
blade-handle release button  
blade status/identification indicator  
blade power button  
2
4
6
hard drives (2)  
USB connectors (3)  
blade power indicator  
About Your System  
15  
 
Figure 1-8. Front Panel Features—PowerEdge M905 and M805  
1
2
6
5
4
3
1
3
5
blade handle release button  
blade status/identification indicator  
blade power button  
2
4
6
hard drives (2)  
USB connectors (3)  
blade power indicator  
16  
About Your System  
Figure 1-9. Front Panel Features—PowerEdge M710HD  
1
2
6
3
5
4
1
3
5
blade power indicator  
hard drives (2)  
2
4
6
blade handle release button  
blade status/identification indicator  
blade power button  
USB connectors (2)  
About Your System  
17  
Figure 1-10. Front Panel Features—PowerEdge M710  
1
2
6
5
4
3
1
3
5
blade handle release button  
USB connectors (3)  
2
4
6
hard drives (4)  
blade status/identification indicator  
blade power indicator  
blade power button  
18  
About Your System  
Figure 1-11. Front Panel Features—PowerEdge M610x  
1
8
7
2
3
4
6
5
1
3
blade handle release button  
2
4
hard drives (2)  
expansion-card filler-bracket  
retention latch with captive screw  
expansion-card slots (2)  
5
7
blade status/identification indicator  
blade power button  
6
8
USB connectors (2)  
blade power indicator  
About Your System  
19  
Figure 1-12. Front Panel Features—PowerEdge M610  
1
6
5
4
3
2
1
3
5
blade handle release button  
blade status/identification indicator  
blade power button  
2
4
6
hard drives (2)  
USB connectors (2)  
blade power indicator  
20  
About Your System  
Figure 1-13. Front Panel Features—PowerEdge M600 and M605  
1
2
6
5
4
3
1
3
5
blade handle release button  
blade status/identification indicator  
blade power button  
2
4
6
hard drives (2)  
USB connectors (2)  
blade power indicator  
About Your System  
21  
CMC Module  
Figure 1-14. CMC Module Features  
3
4
2
1
5
10  
9
8
6
7
1
Ethernet connector Gb1  
link indicator (2)  
2
Ethernet connector STK (used for  
daisy-chaining CMCs in separate  
enclosures)  
3
5
4
6
activity indicator (2)  
DB-9 serial connector for local  
configuration  
optional secondary CMC (CMC 2)  
7
9
primary CMC (CMC 1)  
8
fault indicator  
status/identification indicator  
10  
power indicator  
The CMC provides multiple systems management functions for your  
modular server, including the M1000e enclosure’s network and security  
settings, I/O module and iDRAC network settings, and power redundancy and  
power ceiling settings.  
22  
About Your System  
   
CMC Daisy Chaining (Enclosure Stacking)  
CMC daisy chaining can be utilized to minimize the number of network  
connections required for chassis (enclosure) management, such that only one  
or two network connections (depending on whether or not redundant CMCs  
are installed) are needed for up to four M1000e enclosures.  
Cabling Guidelines  
Follow these guidelines to daisy chain CMC modules from enclosure to  
enclosure:  
CMC Ethernet port GB1 is the Uplink port. It uplinks to either the  
management network, or to receive a cable from the CMC Ethernet port  
labeled STK in the adjacent enclosure.  
The CMC Ethernet port labeled STK is the daisy-chain port. It connects  
only to CMC port GB1 on the adjacent enclosure. Do not connect this  
cable directly to the management network.  
Up to four enclosures can be daisy chained.  
Enclosures can be daisy chained in both redundant and non-redundant  
deployments:  
In a redundant CMC deployment, cable all CMC modules in the  
CMC primary slots together. Cable all CMC modules in the CMC  
secondary slots together.  
NOTE: Do not connect the primary daisy chain with the secondary daisy  
chain (do not cross cable the two sets of CMCs).  
In a non-redundant CMC, cable all CMC modules in the CMC  
primary slots together.  
Figure 1-15 shows four enclosures with redundant CMC modules installed.  
Primary CMC port GB1 in the first enclosure connects to the management  
network. Primary CMC port GB1 in the adjacent enclosure is uplinked into  
the port labeled STK on the primary CMC in the enclosure above it. No cable  
is required in port STK on the fourth enclosure in line. The same cabling  
scheme is valid for the daisy chain of CMC modules in the secondary slot of  
the enclosures.  
About Your System  
23  
 
Figure 1-15. CMC Daisy Chaining—Enclosure With Redundant CMC Modules  
1
2
3
1
3
management network segment  
2
CMC1—cable from connector  
Gb1 to network  
CMC2—cable from connector  
Gb1 to network  
24  
About Your System  
 
iKVM Switch Module  
The optional Avocent iKVM analog switch module provides connections for a  
keyboard, video (monitor), and mouse. It includes the following:  
Local iKVM access can be remotely disabled on a per blade basis, using the  
blade’s iDRAC interface (access is enabled by default).  
NOTE: By default (enabled), a console session to a given blade is available to  
both the iDRAC interface and an iKVM (user connected to a blade's console  
through iDRAC and the iKVM sees the same video and be able to type  
commands). Use the iDRAC console interface to disable the sharing of the  
console session.  
The following connectors:  
One VGA connector. The iKVM supports a video display resolution range  
from 640 x 480 at 60 Hz up to 1280 x 1024 x 65,000 colors at 75 Hz.  
Two USB ports for keyboard and mouse.  
NOTE: The iKVM USB ports do not support storage devices.  
RJ-45 ACI port for tiering with Dell and Avocent analog KVM and  
KVM over IP switches with ARI ports.  
NOTE: Although the ACI port is an RJ-45 connector and uses Cat5 (or better)  
cabling, it is not an Ethernet network interface port. It is only used for  
connection to external KVM switches with Analog Rack Interface (ARI) ports,  
and does not support native KVM over IP.  
The iKVM can also be accessed from the front of the enclosure, providing  
front or rear panel KVM functionality, but not at the same time. For  
enhanced security, front panel access can be disabled using the CMC’s  
interface.  
NOTE: Connecting a keyboard, video, and mouse to the enclosure front panel  
disables video output to the iKVM back-panel port. It does not interrupt iDRAC video  
and console redirection.  
You can use the iKVM to access the CMC using the Command Line  
Interface. For more information, see "Using the iKVM Module" in the CMC  
User’s Guide.  
About Your System  
25  
 
Figure 1-16 shows the external features of the iKVM module.  
Figure 1-16. Avocent iKVM Switch Module  
5
3
4
2
1
1
identification indicator  
2
4
status indicator  
3
ACI port for tiering connection  
only  
USB connectors (2) for keyboard  
and mouse  
5
video connector  
CAUTION: Do not connect the ACI port to a LAN device such as a network hub.  
Doing so may damage the equipment.  
26  
About Your System  
   
2
Initial System Configuration  
Before You Begin  
Power Requirements  
CAUTION: The enclosure power supplies must be connected to a Type B or  
permanently-connected PDU and not directly to an electrical outlet. The power  
supplies require a 100–120 V or 200–240 V power source. You can select only one  
AC power input, as the system does not operate at both ranges simultaneously.  
Network Information  
If your network uses static addressing, you need the IP address, subnet mask,  
and gateway to configure the CMC and other modules in the enclosure.  
Initial Setup Sequence  
1
Unpack the enclosure and install it in a rack.  
For more information, see the Getting Started Guide and Rack Installation  
Guide at  
Initial System Configuration  
27  
         
5
The LCD Configuration Wizard allows you to quickly configure the CMC  
and iDRAC management interfaces and manage the enclosure remotely.  
See "Configuring the CMC Network Settings Using the LCD  
Configuration Wizard" on page 28.  
You can also use a management station and the RACADM CLI to  
configure the CMC. See "Configuring the CMC Network Settings Using a  
Management Station and CLI" on page 30.  
6
7
Configure the IO modules to allow proper network or storage management  
or paths. See "Configuring the I/O Modules" on page 47.  
Once the Ethernet and Fibre Channel switches are configured, you can  
power on your server blades. This allows time for the Ethernet switch to  
boot and allow PXI \UNDI traffic for all blade modules.  
Configuring the CMC  
Initial CMC Network Configuration  
Connecting to the CMC Using a Network Connection and the Default IP Address,  
or a User-Defined IP Address  
The CMC is preset for DHCP. To use a static IP address, you must toggle the  
Configuration Wizard, or by using a management station and CLI  
commands.  
If toggled to use a static address, the CMC IP address defaults to the standard  
IP address settings of 192.168.0.120, 255.255.255.0, and gateway of  
192.168.0.1. You can change this address to an IP address of your choice.  
For initial configuration instructions, see "Configuring the CMC Network  
Settings Using the LCD Configuration Wizard" on page 28. To use a  
management station/local connection and CLI, see "Configuring the CMC  
Network Settings Using a Management Station and CLI" on page 30.  
Configuring the CMC Network Settings Using the LCD Configuration Wizard  
When you first start up your system, the screen on the LCD module directs  
you to configure the CMC network settings.  
28  
Initial System Configuration  
     
NOTE: The option to configure the enclosure using the LCD Configuration Wizard is  
only available until the CMC default password is changed or when the LCD  
Configuration Wizard is complete. Thereafter, use the RACADM CLI or the web-  
based GUI to change the CMC settings (see "Configuring the CMC Network Settings  
Using a Management Station and CLI" on page 30).  
NOTE: The serial null modem cable for the CMC is an option. You can access the  
CLI using the 17th Blade feature on the embedded iKVM module. Blade number 17 is  
a direct local connection to the CMC.  
1
2
3
Choose a language from the options presented in the dialog box.  
Start the LCD Configuration Wizard.  
Configure the CMC network settings for your network environment.  
NOTE: The CMC external management network mode is set by default to  
DHCP. To use a static IP address, you must change the setting using the LCD  
Configuration Wizard.  
Network speed  
Duplex mode  
Protocol (IPv4 and/or IPv6)  
Network mode (DHCP or static)  
selected)  
DNS setting, including a registered CMC name, (if DHCP mode was  
selected)  
4
If required, configure the iDRAC network setting for DHCP mode.  
NOTE: You cannot set a static IP address for the iDRAC using the LCD  
Configuration Wizard. See "Configuring iDRAC Networking Using the Web-  
Based Interface" on page 33.  
Initial System Configuration  
29  
5
Review the settings on the Network Summary screen.  
If the settings are correct, press the center button to close the  
configuration wizard and return to the Main Menu  
.
If the settings are not correct, use the left arrow key to return to the  
screen for that setting and correct it.  
The Network Summary screen lists the IP addresses for the CMC and the  
iDRAC network settings.  
After you complete the LCD Configuration Wizard, you can access the CMC  
on the network using the Web-based CMC interface or text-based interfaces  
such as a serial console, Telnet, or SSH.  
Note that if you intend to use static addresses rather than DHCP to access  
the iDRACs, you must configure them using the CMC Web-based interface  
or CLI.  
Configuring the CMC Network Settings Using a Management Station and CLI  
The LCD Configuration Wizard is the quickest way to initially configure the  
CMC network settings. However, you can also use a management station and  
and a local connection to access the CMC. There are two ways to create a  
local connection to the CMC:  
The CMC Console using the optional iKVM. Press <Print Screen> and  
select blade number 17.  
Serial connection using an optional null modem cable (115200 bps, 8 data  
bits, no parity, 1 stop bit, and no flow control).  
Once you have established a connection to the CMC, you can complete the  
initial CMC network configuration:  
1
Log in to the CMC.  
The default user name is rootand the default password is calvin  
.
2
Type getniccfgand press <Enter> to view the current CMC network  
parameters.  
30  
Initial System Configuration  
 
3
Configure the CMC network settings:  
To set a static IP address, type  
setniccfg -s<IP address><network mask><gateway>  
and press <Enter>.  
Use the appropriate settings for your network.  
To configure the CMC to obtain an IP address using DHCP, type  
setniccfg -d  
and press <Enter>.  
The new network settings are activated in a few seconds after configuring  
the network.  
Logging in to the CMC Using the Web-Based Interface  
1
Open a supported Web browser window.  
For more information, see "Supported Web Browsers" in the CMC User’s  
Guide  
.
2
Log in to the CMC.  
If the CMC is accessed using a specific IP address, type the following  
URL in the Address field, and then press <Enter>:  
https://<CMC IP address>  
The default IP address for the CMC is 192.168.0.120. If the default  
HTTPS port number (port 443) has been changed, type:  
https://<CMC IP address>:<port number  
>
where <IP address> is the IP address for the CMC and port  
number is the HTTPS port number.  
If you access the CMC using a registered DNS name, type the CMC’s  
name:  
https://<CMC name  
By default, the CMC name on the DNS server is cmc-<service  
tag>  
The CMC Login page is displayed.  
>
.
Initial System Configuration  
31  
   
NOTE: The default CMC user name is root, and the password is calvin. The  
root account is the default administrative account that ships with the CMC. For  
added security, you should change the default password of the root account during  
initial setup.  
NOTE: The CMC does not support extended ASCII characters, such as ß, å, é, ü, or  
other characters used primarily in non-English languages.  
NOTE: You cannot log in to the Web-based interface with different user names in  
multiple browser windows on a single workstation.  
You can log in as either a CMC user or as Directory Service user in  
Microsoft Active Directory or Lightweight Directory Access Protocol  
Services (LDAP).  
3
4
In the Username field, type your user name:  
CMC user name: <user name>  
Active Directory user name: <domain>\<user name>  
<domain>/<user name>or <user>@<domain>  
,
.
LDAP user name: <user name>  
NOTE: This field is case sensitive.  
In the Password field, type your CMC user password or Active Directory  
user password.  
NOTE: This field is case-sensitive.  
Adding and Managing CMC Users  
From the Users and User Configuration pages in the Web-based interface,  
you can view information about CMC users, add a new user, and change  
settings for an existing user.  
NOTE: For added security, it is highly recommended that you change the default  
password of the root (User 1) account. The root account is the default  
administrative account that ships with the CMC.  
To change the default password for the root account, click User ID 1 to open  
the User Configuration page. Help for that page is available through the Help  
link at the top right corner of the page.  
NOTE: You must have User Configuration Administrator privileges to perform the  
following steps.  
32  
Initial System Configuration  
 
1
Log in to the Web-based interface. See "Logging in to the CMC Using the  
Web-Based Interface" on page 31.  
2
3
Select Chassis in the system tree.  
Click the Network/Security tab, and then click the Users sub-tab. The  
Users page appears, listing each user’s user ID login state, user name, and  
,
CMC privilege, including those of the root user. User IDs available for  
configuration have no user information displayed.  
4
Click an available user ID number. The User Configuration page is  
displayed.  
To refresh the contents of the Users page, click Refresh. To print the  
contents of the Users page, click Print  
.
5
6
Select general settings for the users.  
For details on user groups and privileges, see "Adding and Configuring  
Users" in the CMC User’s Guide  
.
Assign the user to a CMC user group.  
When you select a user privilege setting from the CMC Group drop-down  
menu, the enabled privileges (shown as checked boxes in the list) are  
displayed according to the pre-defined settings for that group.  
You can customize the privileges settings for the user by using the check  
boxes. After you have selected a CMC Group or made Custom user  
privilege selections, click Apply Changes to save the settings.  
Configuring iDRAC Networking Using the Web-Based Interface  
Follow this procedure if you did not configure the iDRAC in the LCD  
Configuration Wizard.  
NOTE: If you did not configure the iDRAC using the LCD Configuration Wizard, the  
iDRAC is disabled until you configure it using the Web-based interface  
NOTE: You must have Chassis Configuration Administrator privileges to set up  
iDRAC network settings from the CMC.  
NOTE: The default CMC user name is root and the default password is calvin.  
1
Log in to the Web-based interface. See "Logging in to the CMC Using the  
Web-Based Interface" on page 31.  
Initial System Configuration  
33  
 
2
Click the plus (+) symbol next to Chassis in the left column, then click  
Servers  
Click Setup  
.
3
4
5
Deploy  
.
Select the protocol for the iDRAC setting (IPv4 and/or IPv6).  
Enable the LAN for the iDRAC on the server by selecting the check box  
next to the server beneath the Enable Lan heading.  
6
7
8
9
Enable or disable IPMI over LAN by using the check box next to the server  
under the Enable IPMI over LAN heading.  
Enable or disable DHCP for the iDRAC by checking or unchecking the  
check box next to the server under the DHCP Enabled heading.  
If DHCP is disabled, enter the static IP address, netmask, and default  
gateway for the iDRAC.  
Click Apply at the bottom of the page.  
Setting the First Boot Device for Servers  
The First Boot Device page allows you to specify the boot device for each  
blade. You can set the default boot device and you can also set a one-time  
boot device so that you can boot a special image to perform tasks such as  
running diagnostics or reinstalling an operating system.  
To set the first boot device for some or all servers in the chassis:  
1
2
Log in to the CMC Web-based interface.  
Click Servers in the system tree and then click Setup  
Device. A list of servers is displayed, one per row.  
Deploy First Boot  
3
4
Select the boot device you want to use for each server from the list box.  
If you want the server to boot from the selected device every time it boots,  
unselect the Boot Once check box for the server.  
If you want the server to boot from the selected device only on the next  
boot cycle, select the Boot Once check box for the server.  
5
Click Apply  
.
34  
Initial System Configuration  
 
Configuring and Managing Power  
You can use the Web-based and RACADM interfaces to manage and  
configure power controls on the CMC, as outlined in the following sections.  
For detailed information on the various power management options, see  
"Power Management" in the CMC User’s Guide.  
Configuring Power Budget and Redundancy  
The CMC’s power management service optimizes power consumption for the  
entire chassis (the chassis, servers, I/O modules, iKVM, CMC, and PSUs) and  
re-allocates power to different modules based on the demand.  
NOTE: To perform power management actions, you must have Chassis Control  
Administrator privileges.  
1
2
3
Log in to the CMC Web-based interface.  
Select Chassis in the system tree.  
Click the Power Management tab. The Power Budget Status page is  
displayed.  
4
5
6
Click the Configuration sub-tab. The Budget/Redundancy Configuration  
page is displayed.  
Configure the power budget and redundancy settings based on the  
components in the enclosure and your needs.  
Click Apply to save your changes.  
Installing or Updating the CMC Firmware  
NOTE: It is normal for some or all of the fan units to spin at 100 percent during CMC  
or iDRAC firmware updates on a server.  
Updating Firmware in a Redundant CMC Configuration  
NOTE: In redundant CMC configuration, care must be taken to update CMC  
firmware on both modules. Failure to do so may cause unexpected behavior during  
a CMC failover or failback. Use the following procedure for redundant CMC  
deployments.  
Initial System Configuration  
35  
   
1
2
Locate the secondary or standby CMC by using the RACADM getsysinfo  
command, or by using the Chassis Summary page in the Web-based  
interface Visually, the status indicator is solid blue on the primary or  
.
active CMC module and off on the standby or secondary CMC (see  
Figure 1-14).  
CMC Firmware Using RACADM" on page 37.  
3
4
Verify that the secondary or standby CMC’s firmware is at the requested  
level with the getsysinfo command or through the Web-based interface  
.
After the standby CMC has rebooted, update the firmware on the active or  
primary CMC. Please allow 10 minutes for the standby CMC to boot.  
See "Updating the CMC Firmware Using the Web-Based Interface" on  
page 37 or "Updating the CMC Firmware Using RACADM" on page 37.  
5
6
Verify that the active or primary CMC firmware is at the requested level  
using the getsysinfo command or through the Web-based interface  
.
Once both CMCs are updated to the same firmware revision, use the  
cmcchangeover command to reset the CMC in the left slot as primary.  
Downloading the CMC Firmware  
Before beginning the firmware update, download the latest firmware version  
from support.dell.com, and save it to your local system.  
The following software components are included with your CMC firmware  
package:  
Compiled CMC firmware code and data  
Web-based interface, JPEG, and other user interface data files  
Default configuration files  
Use the Firmware Update page to update the CMC firmware to the latest  
revision. When you run the firmware update, the update retains the current  
CMC settings.  
NOTE: The firmware update, by default, retains the current CMC settings. During  
the update process, you have the option to reset the CMC configuration settings  
back to the factory default settings.  
36  
Initial System Configuration  
Updating the CMC Firmware Using the Web-Based Interface  
1
Log in to the Web-based interface. See "Logging in to the CMC Using the  
Web-Based Interface" on page 31.  
2
3
4
Click Chassis in the system tree.  
Click the Update tab. The Updatable Components page is displayed.  
On the Updatable Components page, click the CMC name. The  
Firmware Update page is displayed.  
5
In the Value field, type the path on your management station or shared  
network where the firmware image file resides, or click Browse to navigate  
to the file location.  
NOTE: The default CMC firmware image name is firmimg.cmc and the  
filename should not be changed. Care must be taken to keep different  
firmware revisions separated as the file name always remains the same.  
6
7
Click Update. A dialog box appears asking you to confirm the action.  
Click Yes to continue. The firmware transfer process begins and the status  
displays the message Firmware Update in Progress. Once the  
CMC update is complete, the CMC is reset. Once the reset is complete,  
you must refresh the User Interface page to then log in again.  
Updating the CMC Firmware Using RACADM  
1
2
Open a CMC command line console and log in.  
Type:  
racadm fwupdate -g -u -a <TFTP server IP address>  
-d <filepath> -m <cmc-active|cmc-standby>  
See the latest Dell Chassis Management Controller User's Guide at  
support.dell.com/manuals for complete instructions on how to configure and  
operate the CMC module.  
Initial System Configuration  
37  
   
Configuring the Optional iKVM Switch Module  
Enabling iKVM Access to the Dell CMC Console  
Enabling access to the CMC allows you to access the CMC directly and  
securely through the iKVM’s CMC Console option. To enable the CMC  
Console using the Web-based interface:  
1
2
3
4
5
Log in to the CMC Web-based interface.  
Select iKVM in the system tree. The iKVM Status page is displayed.  
Click the Setup tab. The iKVM Configuration page is displayed.  
Click Apply to save the setting.  
Updating the iKVM Firmware  
NOTE: The iKVM resets and becomes temporarily unavailable after the firmware  
has been uploaded successfully.  
1
Log in to the CMC’s Web-based interface. See "Logging in to the CMC  
Using the Web-Based Interface" on page 31.  
2
3
4
5
Select Chassis in the system tree.  
Click the Update tab. The Updatable Components page is displayed.  
Click the iKVM name. The Firmware Update page is displayed.  
In the Value field, type the path on your management station or shared  
network where the firmware image file resides, or click Browse to navigate  
to the file location.  
NOTE: The default iKVM firmware image name is ikvm.bin. However, the  
iKVM firmware image name can be renamed. If you are unable to locate  
ikvm.bin, determine whether another user has renamed the file.  
6
7
Click Update. A dialog box appears asking you to confirm the action.  
Click Yes to continue.  
When the update is complete, the iKVM resets.  
38  
Initial System Configuration  
     
Tiering the Avocent iKVM Switch From an Analog KVM Switch  
The Avocent iKVM switch can be tiered from analog KVM switches such as  
the Dell 2160AS and 180AS, as well as many Avocent analog KVM switches.  
Many switches may be tiered without the need for a Server Interface Pod  
(SIP) (see Table 2-1).  
Table 2-1. Cabling Requirements for External Analog KVM Switches  
Switch  
Tiering Cabling Requirements  
Dell PowerConnect 180AS, 2160AS Seamless tiering using ACI port and  
(version 1.0.3.2 or later)  
Cat 5 cable  
Avocent Autoview 2020, 2030  
(version 1.6.0.4 or later)  
Avocent Autoview 1400, 1500, 2000, Avocent USB SIP (DSRIQ-USB)  
1415, 1515, 2015 required with Cat 5 cable  
Before connecting the iKVM switch to a supported analog switch, you must  
set the iKVM switch to display in slot order, and set the Screen Delay Time  
to 1 or more seconds:  
1
2
3
4
5
Press <Print Screen> to launch the iKVM Switch OSCAR.  
Click Setup Menu. The Menu dialog box is displayed.  
Select Slot to display servers numerically by slot number.  
Enter a screen delay time of at least 1 second.  
Click OK  
.
Setting the Screen Delay time to 1 second allows you to soft switch to a server  
without launching OSCAR.  
NOTE: Soft switching allows you to switch servers using a hot key sequence. You  
can soft switch to a server by pressing <Print Screen> and then typing the first few  
characters of its name or number. If you have a Delay Time set and you press the  
key sequences before that time has elapsed, OSCAR does not display.  
To configure the analog switch:  
1
2
3
Press <Print Screen> to open the OSCAR Main dialog box.  
Click Setup Devices Device Modify.  
Select the 16-port option to match the number of blades in your system.  
Initial System Configuration  
39  
   
4
5
Click OK to exit OSCAR.  
Press <Print Screen> to verify that the settings have taken effect. The slot  
number of the blade to which the iKVM switch is now attached should be  
expanded to display each of the slot locations of the blades in the system.  
For instance, if the iKVM switch is attached to slot 1, it would now be  
displayed as 01-01 to 01-16.  
To connect the Avocent iKVM switch to a supported analog switch:  
1
If the switch does not require a SIP to connect to the iKVM (see Table 2-1)  
connect a Cat5 (or newer) cable to the RJ-45 ACI port on the iKVM  
module. See Figure 1-16.  
,
Connect the other end of this cable to the ARI port on the external switch.  
If the analog switch requires a USB SIP (see Table 2-1), connect an Avocent  
USB SIP to the iKVM, then connect a Cat5 (or newer) cable to the SIP  
.
Connect the other end of this cable to the ARI port on the external switch.  
2
Connect both the analog switch and the system to an appropriate power  
source.  
3
4
Turn on the system.  
Turn on the external analog switch.  
NOTE: If the external analog switch is powered up before the system, it may result  
in only one blade being displayed in the analog switch OSCAR, instead of 16. If this  
behavior occurs, shut down and restart the switch so the entire complement of  
blades is recognized.  
NOTE: In addition to the steps outlined above, some external analog switches may  
require you to perform additional steps to ensure that the iKVM switch blades  
appear in the external analog switch OSCAR. See the external analog switch  
documentation for additional information.  
Tiering the Avocent iKVM Switch From a Digital KVM Switch  
The iKVM module may also be tiered from a digital KVM switch such as the  
Dell 2161DS-2 or 4161DS, or a supported Avocent digital KVM switch. Many  
switches may be tiered without the need for a SIP (see Table 2-2).  
40  
Initial System Configuration  
 
Table 2-2. Cabling Requirements for External Digital KVM Switches  
Switch  
Tiering Requirements  
Dell PowerConnect 2161DS,  
4161DS, 2161DS-2, 2321DS  
(version 1.3.40.0 or later)  
Seamless tiering using ACI port  
and Cat 5 cable  
Avocent DSR x02x (except 1024),  
x03x (version 3.6 or later)  
Avocent DSR 800, x16x, x010,  
1024  
Avocent USB SIP (DSRIQ-USB)  
required with Cat 5 cable  
To tier the iKVM module from a Dell 2161DS, 180AS, or 2160AS console  
switch:  
If the switch does not require a SIP to connect to the iKVM (see Table 2-2  
connect a Cat5 (or newer) cable to the RJ-45 ACI port on the iKVM  
module. See Figure 1-16.  
),  
If the switch requires a USB SIP (see Table 2-1), connect an Avocent USB  
SIP to the iKVM, then connect a Cat5 (or newer) cable to the SIP. Connect  
the other end of this cable to the ARI port on the external switch.  
Once the KVM switch is connected, the server modules appear in OSCAR.  
NOTE: When the local system is set up, you must also resynchronize the server list  
from the Remote Console Switch software in order to see the list of blades. See  
"Resynchronizing the Server List at the Remote Client Workstation" on page 42.  
Viewing and Selecting Servers  
the M1000e enclosure through the iKVM. You can view the servers by name  
or by slot. The slot number is the chassis slot number the server occupies. The  
Slot column indicates the slot number in which a server is installed.  
NOTE: Server names and slot numbers are assigned by the CMC.  
NOTE: If you have enabled access to the CMC though the iKVM, an additional  
option, Dell CMC Console, is displayed. To enable this feature, see "Enabling iKVM  
Access to the Dell CMC Console" on page 38.  
Initial System Configuration  
41  
   
42  
 
6
Select the type of switch connected to the appliance from the drop-down  
list. If the type you are looking for is not available, you can add it by  
clicking Add  
.
7
8
9
Click Next. The completion dialog box is displayed.  
Click Finish to exit.  
Start up the analog switch and the system.  
FlexAddress  
The FlexAddress feature is an optional upgrade introduced in CMC 1.1 that  
allows server modules to replace the factory assigned World Wide Name and  
Media Access Control (WWN/MAC) network IDs with WWN/MAC IDs  
provided by the chassis.  
Every server module is assigned unique WWN and MAC IDs as part of the  
manufacturing process. Before the FlexAddress feature was introduced, if you  
had to replace one server module with another, the WWN/MAC IDs would  
change and Ethernet network management tools and SAN resources would  
need to be reconfigured to be aware of the new server module.  
FlexAddress allows the CMC to assign WWN/MAC IDs to a particular slot  
and override the factory IDs. If the server module is replaced, the slot-based  
WWN/MAC ID remains the same. This feature eliminates the need to  
reconfigure Ethernet network management tools and SAN resources for a new  
server module.  
Additionally, the override action only occurs when a server module is inserted  
in a FlexAddress enabled chassis; no permanent changes are made to the  
server module. If a server module is moved to a chassis that does not support  
FlexAddress, the factory assigned WWN/MAC IDs are used.  
Prior to installing FlexAddress, you can determine the range of MAC  
addresses contained on a FlexAddress feature card by inserting the SD card  
into an USB Memory Card Reader and viewing the file pwwn_mac.xml. This  
clear text XML file on the SD card contains an XML tag mac_start, which is  
the first starting hex MAC address that will be used for this unique MAC  
address range. The mac_count tag is the total number of MAC addresses that  
the SD card allocates. The total MAC range allocated can be determined by:  
<mac_start> + 0xCF (208 - 1) = mac_end  
Initial System Configuration  
43  
 
For example:(starting_mac)00188BFFDCFA + 0xCF =  
(ending_mac)00188BFFDDC9  
NOTE: You must lock the SD card prior to inserting in the USB "Memory Card  
Reader" to prevent accidently modifying any of the contents. You must unlock the  
SD card before inserting into the CMC.  
FlexAddress Plus  
The FlexAddress Plus is a new feature added to the feature card version 2.0.  
FlexAddress Plus expands the number of MAC addresses to 3136 from the  
original FlexAddress pool of 208.  
Activating FlexAddress  
FlexAddress is delivered on a Secure Digital (SD) card that must be inserted  
into the CMC to provide the chassis-assigned WWN/MAC IDs. To activate  
the FlexAddress feature, perform several required updates; if you are not  
activating FlexAddress, these updates are not required. The updates, which  
are listed in the following table, include server module BIOS, I/O mezzanine  
BIOS or firmware, and CMC firmware. You must apply these updates before  
you enable FlexAddress. If these updates are not applied, the FlexAddress  
feature may not function as expected.  
NOTE: All systems purchased after June 2008 have the correct firmware versions  
installed.  
Component  
Minimum Required Version  
Ethernet mezzanine card - Broadcom  
M5708t  
Boot code firmware 4.4.1 or later  
iSCSI boot firmware 2.7.11 or later  
PXE firmware 4.4.3 or later  
FC mezzanine card - QLogic QME2472 BIOS 2.04 or later  
FC mezzanine card - Emulex LPe1105- BIOS 3.03a3 and firmware 2.72A2 or  
M4  
later  
Server Module BIOS  
(PowerEdge M600) BIOS 2.02 or later  
(PowerEdge M605) BIOS 2.03 or later  
Boot code firmware 4.4.1 or later  
iSCSI boot firmware 2.7.11 or later  
Version 1.11 or later  
PowerEdge M600/M605 LAN on  
motherboard (LOM)  
iDRAC  
44  
Initial System Configuration  
 
Component  
Minimum Required Version  
CMC  
Version 1.10 or later  
NOTE: Components not appearing in the above table require no updates to enable  
the FlexAddress feature.  
Activating FlexAddress Plus  
FlexAddress Plus is delivered on the FlexAddress Plus Secure Digital (SD)  
card along with the FlexAddress feature.  
NOTE: The SD card labeled FlexAddress only contains FlexAddress and the card  
labeled FlexAddress Plus contains FlexAddress and FlexAddress Plus. The card  
must be inserted into the CMC to activate the feature.  
The updates, which are listed in the table below include, BIOS, iDRAC, and  
CMC firmware. As long as FlexAddress is activated, you must apply these  
updates before you can use FlexAddress Plus. If these updates are not applied,  
only FlexAddress works and not FlexAddress Plus.  
Component  
Minimum required version  
PowerEdge M710HD  
Version 3.0 or later  
Version 3.0 or later  
Server Module BIOS  
iDRAC  
CMC  
For more information on the FlexAddress feature, see the following resources:  
The CMC Secure Digital (SD) Card Technical Specification document at  
support.dell.com  
.
The Help link in the CMC Web interface.  
The "Using FlexAddress" chapter in the CMC User’s Guide  
.
Initial System Configuration  
45  
46  
Initial System Configuration  
3
Configuring the I/O Modules  
Overview  
The M1000e enclosure supports three layers of I/O fabric. Each layer may  
contain Ethernet, Infiniband, and Fibre Channel modules. Additional fabrics  
may be supported in the future. You can install up to six hot-swappable I/O  
modules in the enclosure, including Fibre Channel switches, Fibre-Channel  
pass-throughs, Infiniband switches, Ethernet switches, and Ethernet pass-  
through modules. Figure 3-1 shows the numbering of the I/O bays and other  
back-panel features.  
Figure 3-1. I/O Module Bay Numbering  
C2 B2 A2  
CMC 2  
CMC 1  
A1 B1 C1  
iKVM  
3
2
1
5
8
6
9
4
7
1
2
3
4
5
6
Configuring the I/O Modules  
47  
       
Fabric A  
Fabric A is a redundant Gb Ethernet fabric, supporting I/O module slots A1  
and A2. The integrated Ethernet controllers in each blade dictate Fabric A as  
an Ethernet-only fabric.  
NOTE: Fabric A supports KR (10 Gbps standard) if the midplane version in the  
enclosure is 1.1 or later. To identify the midplane version, see "Identifying Midplane  
Version" on page 49.  
NOTE: Modules designed specifically for Fabric B or Fabric C cannot be installed in  
slots A1 or A2, as indicated by the color-coded label on the faceplate of each module.  
Fabric B  
Fabric B is a 1 to 40 Gb/sec redundant fabric, supporting I/O module slots B1  
and B2. Fabric B currently supports 1 Gb or 10 Gb Ethernet, DDR/QDR  
Infiniband, and 4 Gbps or 8 Gbps Fibre Channel modules. Additional fabric  
types may be supported in the future.  
NOTE: Fabric B supports up to 16 Gbps Fibre Channel, Infiniband FDR (14 Gbps  
standard), and KR (10 Gbps standard) if the midplane version in the enclosure is 1.1  
or later. To identify the midplane version, see "Identifying Midplane Version" on  
page 49.  
To communicate with an I/O module in the Fabric B slots, a blade must have  
a matching mezzanine card installed in a Fabric B mezzanine card location.  
Modules designed for Fabric A may also be installed in the Fabric B slots.  
Fabric C  
Fabric C is a 1 to 40 Gb/sec redundant fabric, supporting I/O module slots C1  
and C2. Fabric C currently supports 1 Gb or 10 Gb Ethernet, DDR/QDR  
Infiniband, and 4 Gbps or 8 Gbps Fibre Channel modules. Additional fabric  
types may be supported in the future.  
NOTE: Fabric C supports up to 16 Gbps Fibre Channel, Infiniband FDR (14 Gbps  
standard), and KR (10 Gbps standard) if the midplane version in the enclosure is 1.1  
or later. To identify the midplane version, see "Identifying Midplane Version" on  
page 49.  
To communicate with an I/O module in the Fabric C slots, a blade must have  
a matching mezzanine card installed in a Fabric C mezzanine card location.  
Modules designed for Fabric A may also be installed in the Fabric C slots.  
48  
Configuring the I/O Modules  
For more information about I/O module installation guidelines, see your  
Hardware Owner’s Manual.  
Identifying Midplane Version  
The version of the midplane installed in the enclosure is displayed in the  
Midplane Revision field under the Summary tab of the CMC web-based  
interface.  
You can also view the icons at the back of the enclosure to identify the version  
of the midplane. See Table 3-1.  
Table 3-1. Identifying Midplane Version  
Marking  
Description  
Midplane Version  
I/O module slots A1, A2  
1.1  
I/O module slots B1, B2, C1,  
and C2  
1.1  
I/O module slots A1, A2  
1.0  
1.0  
I/O module slots B1, B2, C1,  
and C2  
See Figure 3-2 and Figure 3-3 to locate the midplane identification labels on  
the enclosure.  
Configuring the I/O Modules  
49  
   
Figure 3-2. Identifying Midplane Version 1.1  
1
1
midplane identification labels (2)  
50  
Configuring the I/O Modules  
 
Figure 3-3. Identifying Midplane Version 1.0  
1
1
midplane identification labels (2)  
Configuring the I/O Modules  
51  
 
Before You Begin  
Network Information  
You can configure your I/O switch modules using:  
The CMC (see "Configuring a Switch Module Network Ethernet Port  
Using the Web-Based Interface" on page 52).  
NOTE: The default IP address for the CMC is 192.168.0.120.  
The CMC CLI using serial console redirection.  
Direct access to the I/O module’s serial port (if supported).  
The I/O module’s default IP address (if supported).  
Switch Modules  
Configuring a Switch Module Network Ethernet Port Using the  
Web-Based Interface  
You can use the CMC Web-based interface to configure an I/O module’s  
Ethernet port.  
NOTE: Use this procedure to configure the switch’s out-of-band Ethernet port. The  
switch’s in-band management IP address is configured through the switch’s  
external ports. These two IP addresses must be different, and on different  
networks.  
NOTE: To change settings on the I/O module configuration page, you must have  
Fabric Administrator privileges for the particular Fabric in which the module is  
installed.  
NOTE: The network IP address set on the I/O module by the CMC is not saved to a  
configuration file. To save the IP address configuration permanently, use the  
connect switch-nRACADMcommand, or use a direct interface to the I/O  
module GUI.  
NOTE: Do not attempt to configure I/O module network settings for Ethernet pass-  
through or Infiniband switches.  
1
2
Log in to the CMC’s Web-based interface. See "Logging in to the CMC  
Using the Web-Based Interface" on page 31.  
Select I/O Modules in the Chassis menu in the system tree.  
52  
Configuring the I/O Modules  
       
3
4
Select the Setup tab. The Configuring I/O Modules Network Settings  
page is displayed.  
Configure the switch for integration into your network.  
Select DHCP Mode Enabled if your network uses a DHCP server to  
assign IP addresses.  
If your network uses static IP addressing, enter an IP address, subnet  
mask and gateway.  
5
6
When you have finished, click Apply  
.
Click the Deploy sub-tab.  
After all I/O modules have been configured and connected, the enclosure’s  
blades can be inserted and booted with full network communication.  
Dell PowerConnect-KR 8024-k Switch  
The PowerConnect M8024-k switch provides 16 internal 10 GbE ports, four  
external 10 GbE SFP+ ports, and one 10 GbE expansion slot for 10 GbE  
external uplinks. The expansion slot on the front panel can support:  
A 10 Gb Ethernet module with four optical SFP+ connectors  
A 10 Gb Ethernet module with three copper CX4 uplinks  
A 10 Gb Ethernet module with two copper 10GBASE-T uplinks  
This module is hot-swappable and may be installed in Fabric A, B, or C.  
Configuring the I/O Modules  
53  
 
Figure 3-4. Dell PowerConnect-KR 8024-k Switch  
5
1
2
4
3
1
3
5
SFP+ ports (4)  
2
4
console management connector  
power indicator  
status/identification indicator  
expansion slot  
54  
Configuring the I/O Modules  
Dell M8428-k 10 Gb Converged Network Switch  
The Dell M8428-k 10 Gb Converged Network switch module supports FCoE  
protocols and allows Fibre Channel traffic to travel over 10 Gbps Enhanced  
Ethernet (DCB) networks. This module consists of:  
Four 8 Gbps external autosensing Fibre Channel ports.  
Eight 10 Gb Enhanced Ethernet (DCB) optical SFP+ port connectors.  
Sixteen internal 10 Gb Enhanced Ethernet (DCB/FCoE) ports that link to  
the blades in the enclosure.  
One serial port with an RJ-45 connector.  
NOTE: This switch module includes Short Wave Small Form Factor Pluggable (SFP)  
optical transceivers in the Fibre Channel ports. To ensure proper Fibre Channel  
functionality, use only SFPs provided with this module.  
This module can be installed in Fabric A, B, or C.  
Configuring the I/O Modules  
55  
 
Figure 3-5. Dell M8428-k 10 Gb Converged Network Switch  
1
2
7
6
5
3
4
1
3
5
LED status indicators (12)  
module status indicator  
power indicator  
2
4
6
serial port (RJ-45 connector)  
status indicator  
8 Gb Fibre Channel ports  
(ports 25–27 and port 0)  
7
10 GbEE ports (ports 17–24)  
56  
Configuring the I/O Modules  
Mellanox M2401G DDR Infiniband Switch I/O Module  
The Mellanox M2401G Infiniband switch I/O module includes 24 4x DDR  
Infiniband ports. Eight ports are external uplink ports, while 16 internal ports  
provide connectivity to the blades in the enclosure.  
Figure 3-6. Mellanox M2401G Infiniband Switch Module  
1
2
3
4
5
1
3
5
Infiniband ports (8)  
2
4
port link status indicators (8)  
port activity indicators (8)  
module status indicator  
module diagnostic power indicator  
Configuring the I/O Modules  
57  
 
Mellanox M3601Q QDR Infiniband Switch I/O Module  
The Mellanox M3601 Infiniband switch I/O module includes 32 4x QDR  
Infiniband ports. Of these, 16 ports are external uplink ports, while 16  
internal ports provide connectivity to the blades in the enclosure. This  
module occupies two I/O module slots. By default, the M3610Q module  
plugs into I/O module slot C1, but occupies both slots B1 and C1. It can also  
be plugged into I/O module slot B1 (occupying slots A1 and B1) or slot B2  
(occupying slots B2 and C2).  
58  
Configuring the I/O Modules  
 
Figure 3-7. Mellanox M3601Q Infiniband Switch Module  
1
2
3
4
5
1
3
5
Infiniband ports (16)  
2
4
port link status indicators (16)  
port activity indicators (16)  
module status indicator  
module diagnostic power indicator  
Configuring the I/O Modules  
59  
Cisco SFS M7000e Infiniband Switch I/O Module  
The Cisco SFS M7000e Infiniband switch module includes 24 4x DDR  
Infiniband ports. Eight ports are external uplink ports, and 16 internal ports  
provide connectivity to the blades in the enclosure. This switch module is  
hot-swappable, and may be installed in Fabric B or Fabric C.  
Figure 3-8. Cisco SFS M7000e Infiniband Switch Module Features  
1
2
3
4
1
3
Infiniband ports (8)  
2
4
port status indicator (8)  
power indicator  
diagnostic status indicator  
60  
Configuring the I/O Modules  
 
Cisco Catalyst Ethernet Switch I/O Modules  
Your system supports three Cisco Catalyst Blade Switch (CBS) versions:  
The Cisco 3130G-S switch includes four 10/100/1000 Mb Ethernet uplink  
ports and two Stackwise Plus ports.  
The Cisco CBS 3130X-S switch includes four 10/100/1000 Mb Ethernet  
uplink ports, two 10 Gb uplink ports, and two Stackwise Plus ports.  
The Cisco CBS 3032 switch includes four 10/100/1000 Mb Ethernet  
uplink ports.  
The two option bays support the following module options:  
Cisco X2 10 Gb transceiver modules (CBS 3130X-S only)  
Cisco TwinGig converter modules  
All three switches include an RJ-45 console connector for switch  
management. Sixteen internal Gb Ethernet connectors link to the blades in  
the enclosure.  
For additional information about the Cisco CBS Ethernet switch modules,  
see the documentation that shipped with the module.  
Configuring the I/O Modules  
61  
 
Figure 3-9. Cisco Catalyst Ethernet Switch Module Features  
1
2
3
4
5
6
7
8
1
Stackwise Plus connectors (not  
enabled in CBS 3032)  
2
10/100/1000 Mb Ethernet  
connectors (4)  
3
5
option bays (2)  
mode button  
4
6
Cisco status indicators  
console port for switch  
management  
7
power indicator  
8
status/identification indicator  
62  
Configuring the I/O Modules  
PowerConnect M6220 Ethernet Switch I/O Module  
The PowerConnect M6220 Ethernet switch module includes four external  
10/100/1000 Mbps Ethernet connectors and one USB type A form factor serial  
connector. Two option bays support the following modules:  
A resilient stacking module with 2 x 24 Gb stacking ports  
A 10 Gb Ethernet module with two 10 Gb optical XFP uplinks  
A 10 Gb Ethernet module with two copper CX4 uplinks  
A 10 Gb Ethernet module with two copper 10GBASE-T uplinks  
A 10 Gb Ethernet module with two SFP+ (optical or direct-attach copper)  
uplinks  
Installing two optional modules provides additional stacking and redundancy  
support. Sixteen internal Gb Ethernet connectors link to the blades in the  
enclosure.  
For additional information about the PowerConnect M6220 Ethernet switch  
module, see the documentation that shipped with the module.  
Configuring the I/O Modules  
63  
 
Figure 3-10. PowerConnect M6220 Ethernet Switch Module Features  
1
2
3
4
5
1
3
5
optional module (2) (dual 10 Gb  
Ethernet uplink module shown)  
2
4
standard 10/100/1000 Mb Ethernet  
connectors (4)  
serial connector (USB type-A form  
factor)  
power indicator  
status/identification indicator  
64  
Configuring the I/O Modules  
PowerConnect M6348 1 Gb Ethernet Switch I/O Module  
The PowerConnect M6348 is a hot-swappable 48-port 1 Gb Ethernet switch.  
While 16 ports are external uplink ports, the remaining 32 internal ports  
provide connectivity to the blades within the enclosure with a maximum  
bandwidth of 1 Gbps each. The PowerConnect M6348 switch also supports:  
Two integrated 10 Gb Ethernet SFP+ connectors  
Two integrated CX4 connectors for stacking or 10 Gb uplinks  
One console management connector  
It is recommended that you use the PowerConnect M6348 switch with  
quad-port mezzanine cards for maximum functionality. The quad-port  
mezzanine cards and the PowerConnect M6348 Ethernet switch enable an  
increased bandwidth (two 1 Gbps lanes), higher port density, and server  
module consolidation.  
Configuring the I/O Modules  
65  
 
Figure 3-11. PowerConnect M6348 Switch Module  
1
2
3
4
5
6
1
standard 10/100/1000 Mb  
Ethernet connectors (16)  
2
SFP+ connectors (2)  
3
5
CX4 stacking connectors (2)  
power indicator  
4
6
console management connector  
status/identification indicator  
66  
Configuring the I/O Modules  
PowerConnect M8024 10 Gb Ethernet Switch I/O Module  
The PowerConnect M8024 switch module incorporates two optional bays  
that support the following modules:  
A 10 Gb Ethernet module with four optical SFP+ connectors  
A 10 Gb Ethernet module with three copper CX4 uplinks  
A 10 Gb Ethernet module with two copper 10GBASE-T uplinks  
The modules can be used in any combination and are sold separately.  
You can initially configure the switch using either of two methods:  
Connect an external management system to the switch using an optional  
USB type-A form factor serial cable, and configure the switch using a  
terminal application.  
Use the iKVM CMC console (“17th blade”) and the connect switch-  
CMC CLI command. For more information, see the CMC User’s Guide  
n
.
Once an IP address is assigned to the management VLAN or interface and the  
switch is connected to a management network, both Telnet and http are  
available through the network.  
Configuring the I/O Modules  
67  
 
Figure 3-12. PowerConnect M8024 Switch Module  
1
2
3
4
5
1
3
5
optional module with four SFP+  
ports  
2
4
optional module with three CX4  
ports  
serial connector for optional USB  
type-A form-factor cable  
power indicator  
status/identification indicator  
68  
Configuring the I/O Modules  
Brocade M4424 SAN I/O Module  
The Brocade M4424 SAN I/O module includes eight external autosensing  
Fibre Channel ports (four ports are enabled in the standard configuration and  
four additional ports may be enabled as an optional upgrade), 16 internal  
ports, and one serial port with an RJ-45 connector. The external Fibre  
Channel ports operate at 1 Gb/sec, 2 Gb/sec, or 4 Gb/sec. The Fibre Channel  
switch module is hot-swappable, and may be installed in Fabric B or Fabric C.  
NOTE: The Fibre Channel switch module includes Short Wave Small Form Factor  
Pluggable (SFP) optical transceivers. To ensure proper functionality, use only SFPs  
provided with this module.  
Configuring the I/O Modules  
69  
 
Figure 3-13. Brocade M4424 SAN I/O Module  
1
2
3
4
5
6
7
1
3
Fibre Channel port (8)  
2
4
6
Fibre Channel port status  
indicator (8)  
Fibre Channel port speed  
indicator (8)  
serial port (RJ-45 connector)  
5
7
module status indicator  
power indicator  
status/identification indicator  
70  
Configuring the I/O Modules  
Brocade M5424 FC8 I/O Module  
The Brocade M5424 I/O module includes eight external autosensing Fibre  
Channel ports (four ports are enabled in the standard configuration and four  
additional ports may be enabled as an optional upgrade), 16 internal ports,  
and one serial port with an RJ-45 connector. The external Fibre Channel ports  
operate at 8 Gb/sec, 4 Gb/sec, or 2 Gb/sec.  
NOTE: CMC firmware version 1.3 is required to support FC8 mezzanine cards and  
I/O modules.  
NOTE: This Fibre Channel switch module includes Short Wave Small Form Factor  
Pluggable (SFP) optical transceivers. To ensure proper functionality, use only SFPs  
provided with this module.  
Configuring the I/O Modules  
71  
 
Figure 3-14. Brocade M5424 FC8 I/O Module  
1
2
3
4
5
6
7
1
3
Fibre Channel port (8)  
2
4
6
Fibre Channel port status  
indicator (8)  
Fibre Channel port speed  
indicator (8)  
serial port (RJ-45 connector)  
5
7
module status indicator  
power indicator  
status/identification indicator  
72  
Configuring the I/O Modules  
Dell 8/4 Gbps FC SAN Module  
The Dell 8/4 Gbps FC SAN module (see Figure 3-15) includes 24 total  
autosensing Fibre Channel ports (12 ports are enabled in the standard  
configuration and 12 additional ports may be enabled as an optional upgrade)  
and one serial port with an RJ-45 connector. The internal Fibre Channel ports  
operate at 8 Gb/sec or 4 Gb/sec. The external Fibre Channel ports operate at  
8 Gb/sec, 4 Gb/sec, or 2 Gb/sec.  
NOTE: CMC firmware version 1.3 is required to support FC8 mezzanine cards and  
I/O modules.  
NOTE: This Fibre Channel switch module includes Short Wave Small Form Factor  
Pluggable (SFP) optical transceivers. To ensure proper functionality, use only SFPs  
provided with this module.  
Configuring the I/O Modules  
73  
 
Figure 3-15. Dell 8/4 Gbps FC SAN Module  
1
2
3
4
5
6
7
1
3
Fibre Channel port (8)  
2
4
6
Fibre Channel port status  
indicator (8)  
Fibre Channel port speed  
indicator (8)  
serial port (RJ-45 connector)  
5
7
module status indicator  
power indicator  
status/identification indicator  
74  
Configuring the I/O Modules  
 
Pass-Through Modules  
Dell 10 GbE KR Pass-Through I/O Module  
The 10 GbE KR pass-through module supports 10 Gb connections and  
provides a direct connection between the optional internal Ethernet KR  
mezzanine card or KR network daughter card in the blade and an external  
Ethernet device. This module has 16 external SFP+ ports on the front panel  
and sixteen 10 GbE KR internal ports through the backplane. This module  
enables you to use optical SFP+ (short reach or long reach) and direct-attached  
copper (DCA) SFP+ modules.  
The Ethernet pass-through module is hot-swappable and may be installed in  
Fabric A, B, or C. The pass-through module does not support 1G mezzanine  
or network daughter cards in blades.  
Configuring the I/O Modules  
75  
   
Figure 3-16. Dell 10 GbE KR Pass-Through I/O Module  
1
2
4
3
1
3
SFP+ ports (16)  
2
4
green/amber indicators (two per  
port)  
status/identification indicator  
power indicator  
76  
Configuring the I/O Modules  
Dell 8/4 Gbps Fibre Channel Pass-Through I/O Module  
The 8G Fibre Channel pass-through module provides a bypass connection  
between a Fibre Channel mezzanine card in the blade and optical  
transceivers. The bypass connection enables a direct connection to a Fibre  
Channel switch or a storage array. The 16 pass-through ports on this module  
can negotiate speeds of 2, 4, and 8 Gbps. The 8G Fibre Channel pass-through  
module is hot-swappable and may be installed in Fabric B or Fabric C.  
NOTE: To ensure proper functionality, use only the Short Wave Small Form Factor  
Pluggable (SFP) transceivers provided with this module.  
Configuring the I/O Modules  
77  
 
Figure 3-17. Dell 8/4 Gbps Fibre Channel Pass-Through I/O Module  
1
2
4
3
1
3
Fibre Channel ports (16)  
2
4
port status indicators  
power indicator  
status/identification indicator  
78  
Configuring the I/O Modules  
10 Gb Ethernet Pass-Through Module II  
The Dell 10 Gb Ethernet pass-through module II supports 10 Gb connections  
and provides a direct connection between the optional internal Ethernet  
mezzanine card in the blade and an external Ethernet device. The Ethernet  
pass-through modules are hot-swappable and may be installed in Fabric B or  
Fabric C.  
The 10 Gb Ethernet pass-through module II enables you to use optical SFP+  
(short reach or long reach) and direct-attached copper (DCA) SFP+  
modules. The Ethernet pass-through module does not support 1G mezzanine  
or network daughter cards in blades.  
Configuring the I/O Modules  
79  
 
Figure 3-18. 10 Gb Ethernet Pass-Through Module II  
1
2
3
4
1
3
SFP+ cages (16)  
2
4
green/amber indicators (two per  
port)  
status/identification indicator  
power indicator  
80  
Configuring the I/O Modules  
10 Gb Ethernet Pass-Through I/O Module  
The 10 Gb Ethernet pass-through module supports 10 Gb connections  
and provides a direct connection between the optional internal Ethernet  
mezzanine card in the blade and an external Ethernet device. The Ethernet  
pass-through modules are hot-swappable and may be installed in Fabric B or  
Fabric C.  
The 10 Gb Ethernet pass-through I/O module enables you to use optical SFP,  
SFP+, and direct-attached copper (DCA) SFP+ modules. To operate the I/O  
module and the SFP+ modules at 10 Gbps, you must use either optical SFP+  
short reach (SR), long reach multimode (LRM), or DCA SFP+ modules. This  
module does not support 1G mezzanine or network daughter cards in blades.  
Configuring the I/O Modules  
81  
 
Figure 3-19. 10 Gb Ethernet Pass-Through I/O Module  
1
2
3
4
1
3
SFP+ cages (16)  
power indicator  
2
4
green/amber indicators (two per  
port)  
status/identification indicator  
82  
Configuring the I/O Modules  
10/100/1000 Mb Ethernet Pass-Through I/O Module  
The Ethernet pass-through module supports 10/100/1000 Mb connections  
and provides a direct connection between the optional internal Ethernet  
mezzanine card in the blade and an external Ethernet device. The Ethernet  
pass-through modules are hot-swappable and may be installed in any of the  
three Fabrics.  
Configuring the I/O Modules  
83  
 
Figure 3-20. Ethernet Pass-Through Module  
1
2
5
3
4
1
3
5
link indicator (16)  
power indicator  
2
4
RJ45 Ethernet connector (16)  
status/identification indicator  
activity indicator (16)  
NOTE: Connectors on the Ethernet pass-through module correspond directly to the  
blade number. For example, blade 5 is connected to port 5 on the Ethernet pass-  
through module. Integrated network adapter 1 maps to I/O slot A1. Integrated  
network adapter 2 maps to I/O slot A2.  
84  
Configuring the I/O Modules  
4G Fibre Channel Pass-Through I/O Module  
The 4G Fibre Channel pass-through module provides a bypass connection  
between a Fibre Channel mezzanine card in the blade and optical transceivers.  
The bypass connection enables a direct connection to a Fibre Channel switch  
or a storage array. The 16 pass-through ports on this module can negotiate  
speeds of 1, 2, or 4 Gbps. The 4G Fibre Channel pass-through module is  
hot-swappable, and may be installed in Fabric B or Fabric C.  
NOTE: To ensure proper functionality, use only the Short Wave Small Form Factor  
Pluggable (SFP) transceivers provided with this module.  
Configuring the I/O Modules  
85  
 
Figure 3-21. 4G Fibre Channel Pass-Through Module  
1
2
3
4
1
3
SFP Fibre Channel connector (16)  
power indicator  
2
4
Fibre Channel green/amber  
indicators (two per port)  
status/identification indicator  
86  
Configuring the I/O Modules  

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