Table Of Contents
Configuring Generation 2 Switches and Modules
About Generation 2 Modules and Switches
Port Groups
Port Rate Modes
Dedicated Mode
Shared Mode
Dynamic Bandwidth Management
Out-of-Service Interfaces
Buffer Credit Allocation
Buffer Pools
BB_Credit Buffers for Switching Modules
48-port 4-Gbps Fibre Channel Module BB_Credit Buffers
24-port 4-Gbps Fibre Channel Module BB_Credit Buffers
18-Port Fibre Channel/4-Port GigabitEthernet Multiservice Module BB_Credit Buffers
12-Port 4-Gbps Switching Module BB_Credit Buffers
4-Port 10-Gbps Switching Module BB_Credit Buffers
BB_Credit Buffers for Fabric Switches
Cisco MDS 9134 Fabric Switch BB_Credit Buffers
Cisco MDS 9124 Fabric Switch BB_Credit Buffers
Cisco MDS 9222i Multiservice Modular Switch BB_Credit Buffers
Extended BB_Credits
About Combining Generation 1 and Generation 2 Switching Modules
Port Indexes
PortChannels
Configuring Generation 2 Module Interface Shared Resources
Configuration Guidelines for 48-Port and 24-Port 4-Gbps Fibre Channel Switching Modules
Migrating from Shared Mode to Dedicated Mode
Migrating from Dedicated Mode to Shared Mode
Configuration Guidelines for 12-Port 4-Gbps Switching Module Interfaces
Configuration Guidelines for 4-Port 10-Gbps Switching Module Interfaces
Configuring Port Speed
Configuring Rate Mode
Configuring Oversubscription Ratio Restrictions
Disabling Restrictions on Oversubscription Ratios
Enabling Restrictions on Oversubscription Ratios
Configuring Bandwidth Fairness
Enabling Bandwidth Fairness
Disabling Bandwidth Fairness
Upgrade or Downgrade Scenario
Taking Interfaces Out of Service
Releasing Shared Resources in a Port Group
Displaying SFP Diagnostic Information
Default Settings
Configuring Generation 2 Switches and Modules
The Cisco MDS 9500 Series switches and Cisco MDS 9216A and Cisco MDS 9216i switches support a set of modules called Generation 2 modules. This chapter describes how to configure these modules, as well as Generation 2 Multilayer Fabric Switches.
This chapter includes the following sections:
•About Generation 2 Modules and Switches
•Buffer Credit Allocation
•About Combining Generation 1 and Generation 2 Switching Modules
•Configuring Generation 2 Module Interface Shared Resources
•Displaying SFP Diagnostic Information
•Default Settings
About Generation 2 Modules and Switches
Table 22-1 identifies the modules supported by the Cisco MDS 9500 Series switches and Cisco MDS 9216A and Cisco MDS 9216i switches, as well as the Fabric switches:
Table 22-1 Generation 2 Fibre Channel Modules and Fabric Switches
Part Number
|
Product Name/Description
|
Module
|
DS-X9148
|
48-port 4-Gbps Fibre Channel switching module
|
DS-X9134
|
34-port 4-Gbps Fibre Channel switching module
|
DS-X9124
|
24-port 4-Gbps Fibre Channel switching module
|
DS-X9304-18K9
|
18-port 4-Gbps Fibre Channel switching module with 4 GigabitEthernet ports
|
DS-X9112
|
12-port 4-Gbps Fibre Channel switching module
|
DS-X9704
|
4-port 10-Gbps Fibre Channel switching module
|
DS-X9530-SF2-K9
|
Supervisor-2 module (Cisco MDS 9500 Series switches only)
|
Switch
|
DS-C9134-K9
|
Cisco MDS 9134 Fabric switch
32-port 4-Gbps Fabric switch with 2 additional 10-Gbps ports
|
DS-C9124
|
Cisco MDS 9124 Fabric switch
24-port 4-Gbps Fabric switch
|
DS-C9222i-K9
|
Cisco MDS 9222i Multiservice Modular switch
18-port 4-Gbps switch with 4 GigabitEthernet IP storage services ports, and a modular expansion slot to host Cisco MDS 9000 Family Switching and Services Modules
|
Note Generation 2 Fibre Channel switching modules are not supported on the Cisco MDS 9216 switch; however, they are supported by both the Supervisor-1 module and the Supervisor-2 module.
For detailed information about the installation and specifications for these modules and switches, refer to the hardware installation guide for your switch.
This section includes the following topics:
•Port Groups
•Port Rate Modes
•Dynamic Bandwidth Management
•Out-of-Service Interfaces
•Buffer Pools
•Extended BB_Credits
Port Groups
Each module or switch can have one or more ports in port groups that share common resources (such as bandwidth and buffer credits). Table 22-2 shows the port groups for the Generation 2 Fibre Channel switches and modules.
Table 22-2 Bandwidth and Port Groups for Generation 2 FC Modules and Fabric Switches
Part Number
|
Product Name/ Description
|
Number of Ports Per Port Group
|
Bandwidth Per Port Group
|
Maximum Bandwidth Per Port
|
Module
|
DS-X9148
|
Cisco 48-port 4-Gbps Fibre Channel module
48-port 4-Gbps Fibre Channel switching module1
|
12
|
12.8
|
4-Gbps
|
DS-X9124
|
Cisco 24-port 4-Gbps Fibre Channel module
24-port 4-Gbps Fibre Channel switching module
|
6
|
12.8
|
4
|
DS-X9304-18K9
|
Cisco 18-port Fibre Channel /4-port GigabitEthernet Multiservice (MSM-18/4) module
18-port 4-Gbps Fibre Channel switching module with 4 GigabitEthernet ports
|
6
|
12.8
|
4-Gbps
|
DS-X9112
|
Cisco 12-port 4-Gbps Fibre Channel module
12-port 4-Gbps Fibre Channel switching module
|
3
|
12.8
|
4-Gbps
|
DS-X9704
|
Cisco 4-port 10-Gbps Fibre Channel module
4-port 10-Gbps Fibre Channel switching module
|
1
|
10
|
10-Gbps
|
Switches
|
DS-C9134-K9
|
Cisco MDS 9134 Fabric switch
32-port 4-Gbps Fabric switch
|
4
|
16
|
4-Gbps
|
2-port 10-Gbps Fabric switch
|
1
|
10
|
10-Gbps
|
DS-C9124K9
|
Cisco MDS 9124 Fabric switch
24-port 4-Gbps
|
4
|
16
|
4-Gbps
|
DS-C9222i-K9
|
Cisco MDS 9222i Multiservice Modular switch
18-port 4-Gbps
|
6
|
12.8
|
4-Gbps
|
Note Port groups are defined by the hardware and consist of sequential ports. For example, ports 1 through 12, ports 13 through 24, ports 25 through 36, and ports 37 through 48 are the port groups on the 48-port 4-Gbps Fibre Channel switching modules.
Port Rate Modes
The Port rate mode configuration is used to determine the bandwidth allocation for ports in a port group. Two port rate modes are supported: Dedicated Mode and Shared Mode. In Generation 1 modules, port rate mode is not configurable by users; rather, it is determined implicitly based on the port mode and linecard type. In Generation 2 modules, port rate mode is user-configured.
Table 22-3 Port Rate Mode Support on Generation 2 Modules and Switches
Part Number
|
Product Name/
Description
|
Supports Dedicated Rate Mode
|
Supports Shared Rate Mode
|
Modules
|
DS-X9148
|
Cisco 48-port 4-Gbps Fibre Channel module
48-port 4-Gbps Fibre Channel switching module1
|
Yes
|
Yes
|
DS-X9124
|
Cisco 24-port 4-Gbps Fibre Channel module
24-port 4-Gbps Fibre Channel switching module
|
Yes
|
Yes
|
DS-X9304-18K9
|
Cisco 18-port Fibre Channel /4-port GigabitEthernet Multiservice (MSM-18/4) module
18-port 4-Gbps Fibre Channel switching module with 4 GigabitEthernet ports
|
Yes
|
Yes
|
DS-X9112
|
12-port 4-Gbps Fibre Channel module
12-port 4-Gbps Fibre Channel switching module
|
Yes
|
No
|
DS-X9704
|
4-port 10-Gbps Fibre Channel module
4-port 10-Gbps Fibre Channel switching module
|
Yes
|
No
|
Switches
|
DS-C9134-K9
|
Cisco MDS 9134 Fabric switch
32-port 4-Gbps Fabric switch
|
Yes
|
Yes
|
2-port 10-Gbps Fabric switch
|
Yes
|
No
|
DS-C9124
|
Cisco MDS 9124 Fabric switch
24-port 4-Gbps Fabric switch2
|
Yes
|
No
|
DS-C9222i-K9
|
Cisco MDS 9222i Multiservice Modular switch
18-port 4-Gbps Fibre Channel switch with 4 GigabitEthernet IP storage services ports, and a modular expansion slot to host Cisco MDS 9000 Family Switching and Services Modules
|
Yes
|
Yes
|
Note Port rate modes are supported on all Generation 2 modules and fabric switches. Port rate modes are not supported on the Cisco Fabric Switch for HP c-Class BladeSystem, and the Cisco Fabric Switch for IBM BladeCenter.
Dedicated Mode
When port rate mode is configured as dedicated, a port is allocated required fabric bandwidth and related resources to sustain line rate traffic at the maximum operating speed configured for the port. In this mode, ports do not use local buffering and all receive buffers are allocated from a global buffer pool (see the "Buffer Pools" section).
Table 22-4 show the amount of bandwidth reserved for a configured port speed on 4-Gbps switching modules.
Table 22-4 Bandwidth Reserved for the Port Speeds on 4-Gbps Switching Modules
Configured Speed
|
Reserved Bandwidth
|
Auto
|
4 Gbps
|
4-Gbps
|
Auto with 2-Gbps maximum
|
2 Gbps
|
2-Gbps
|
1-Gbps
|
1 Gbps
|
Note 10-Gbps ports in auto mode only support auto speed mode at 10 Gbps.
Shared Mode
When port rate mode is configured as shared, multiple ports within a port group share data paths to the switch fabric so that fabric bandwidth and related resources are shared. Often, the available bandwidth to the switch fabric may be less than the negotiated operating speed of a port. Ports in this mode use local buffering for the BB_credit buffers.
All ports in switching modules where bandwidth is shared support 1-Gbps, 2-Gbps, or 4-Gbps traffic. However, it is possible to configure one or more ports in a port group to operate in dedicated mode with 1-Gbps, 2-Gbps or 4-Gbps operating speed.
Dynamic Bandwidth Management
On port switching modules where bandwidth is shared, the bandwidth available to each port within a port group can be configured based on the port rate mode and speed configurations. Within a port group, some ports can be configured in dedicated mode while others operate in shared mode.
Ports configured in dedicated mode are allocated the required bandwidth to sustain a line rate of traffic at the maximum configured operating speed, and ports configured in shared mode share the available remaining bandwidth within the port group. Fair allocation of bandwidth among a group of ports is determined, in part, by the rate mode and speed configurations. For example, if the set ports in a module are configured with the same rate mode and speed (such as 4 Gbps of shared bandwidth), then all the ports should have fair allocation of bandwidth and eventually, similar throughput. When you enable bandwidth fairness, you should notice a reduction in any disparity that may otherwise exist in similar configurations.
Bandwidth allocation among the shared mode ports is based on the operational speed of the ports. For example, if four ports operating at speeds 1 Gbps, 1 Gbps, 2 Gbps, and 4 Gbps share bandwidth of 8 Gbps, the ratio of allocation would be 1:1:2:4.
Note If dedicated ports are not using all of their allocated bandwidth, the unused bandwidth is made available for use by all ports configured for shared bandwidth mode.
Tip When migrating a host that supports up to 2-Gbps traffic (that is, not 4-Gbps with autosensing capabilities) to the 4-Gbps switching modules, use autosensing with a maximum bandwidth of 2-Gbps.
Note If you configure an interface for autosensing speed with a maximum bandwidth of 2 Gbps and want to change to the default of 4 Gbps, ensure that there are enough shared resources available to support the configuration on the module.
Out-of-Service Interfaces
On supported modules and fabric switches, you might need to allocate all the shared resources for one or more interfaces to another interface in the port group or module. You can take interfaces out of service to release shared resources that are needed for dedicated bandwidth. When an interface is taken out of service, all shared resources are released and made available to the other interface in the port group or module. These shared resources include bandwidth, rate mode, BB_credits, and extended BB_credits. All shared resource configurations are returned to their default values when the interface is brought back into service. Corresponding resources must be made available in order for the port to be successfully returned to service.
Caution If you need to bring an interface back into service, you might disrupt traffic if you need to release shared resources from other interfaces in the same port group.
Buffer Credit Allocation
This sections describe how buffer credits are allocated to switches and modules, and includes the following topics:
•Buffer Pools
•BB_Credit Buffers for Switching Modules
•BB_Credit Buffers for Fabric Switches
Buffer Pools
In the architecture of Generation 2 modules, receive buffers shared by a set of ports are called buffer groups. The receive buffer groups are organized into global and local buffer pools.
The receive buffers allocated from the global buffer pool to be shared by a port group are called a global buffer pool. Global receive buffer pools include the following buffer groups:
•Reserved internal buffers
•Allocated BB_credit buffers for each Fibre Channel interface (user configured or assigned by default)
•Common unallocated buffer pool for BB_credits, if any, to be used for additional BB_credits as needed
•Performance buffers (only used on 12-port 4-Gbps and 4-port 10-Gbps switching modules)
Figure 22-1 shows the allocation of BB_credit buffers on linecards (24-port and 48-port line cards).
Note In some modules, performance buffers are not supported.
Figure 22-1 Receive Buffers for Fibre Channel Ports in a Global Buffer Pool
Figure 22-2 shows the default BB_credit buffer allocation model for 24-port 4-Gbps switching modules. The minimum BB_credits required to bring up a port is two buffers.
Figure 22-2 BB_Credit Buffer Allocation in 24-port 4-Gbps Switching Modules
Note The default BB_credit buffer allocation is the same for all port speeds.
BB_Credit Buffers for Switching Modules
This section describes how buffer credits are allocated to Cisco MDS 9000 switching modules, and includes the following topics:
•48-port 4-Gbps Fibre Channel Module BB_Credit Buffers
•24-port 4-Gbps Fibre Channel Module BB_Credit Buffers
•18-Port Fibre Channel/4-Port GigabitEthernet Multiservice Module BB_Credit Buffers
•Example Speed and Rate Configuration on a 24-Port 4-Gbps Switching Module
•4-Port 10-Gbps Switching Module BB_Credit Buffers
48-port 4-Gbps Fibre Channel Module BB_Credit Buffers
Table 22-5 lists the BB_credit buffer allocation for 48-port 4-Gbps Fibre Channel switching modules.
Table 22-5 48-Port 4-Gbps Switching Module BB_Credit Buffer Allocation Defaults
BB_Credit Buffer Allocation Type
|
BB_Credit Buffers Per Module
|
BB_Credit Buffers Per Port Defaults
|
Dedicated Rate Mode
4-Gbps Speed
|
Shared Rate Mode
4-Gbps Speed
|
|
Fx Port
|
ISL1
|
Fx Port
|
User configurable BB_credit buffers
|
6000
|
125
|
16
|
16
|
16
|
The following considerations apply to BB_credit buffers on 48-port 4-Gbps Fibre Channel switching modules:
•BB_credit buffers for ISL connections can be configured from a minimum of 2 buffers to a maximum of 250 buffers for dedicated rate mode or 16 buffers for shared rate mode.
•BB_credit buffers for Fx port mode connections can be configured. The minimum is 2 buffers and the maximum of 250 buffers for dedicated rate mode or 16 buffers for shared rate mode.
•Performance buffers are not supported on this module.
Each port group on the 48-port 4-Gbps Fibre Channel switching module consists of 12 ports. The ports in shared rate mode have bandwidth oversubscription of 4:1 by default. However, some configurations of the shared ports in a port group can have maximum bandwidth oversubscription of 5:1 (considering that each port group has 12.8-Gbps bandwidth).
The following example configurations are supported by the 48-port 4-Gbps Fibre Channel switching modules:
•Twelve ports with shared rate mode and 4-Gbps speed (4:1 oversubscription) (default)
•One port with dedicated rate mode and 4-Gbps speed plus
11 ports with shared rate mode and 4-Gbps speed (5:1 oversubscription)
•One port with dedicated rate mode and 4-Gbps speed plus
11 ports with shared rate mode and 2-Gbps speed (2.5:1 oversubscription)
•Two ports with dedicated rate mode and 2-Gbps speed plus
10 ports with shared rate mode and 4-Gbps speed (5:1 oversubscription)
•Two ports with dedicated rate mode and 2-Gbps speed plus
10 ports with shared rate mode and 2-Gbps speed (2.5:1 oversubscription)
•Twelve ports with dedicated rate mode and 1-Gbps speed
•Three ports with dedicated rate mode and 4-Gbps speed plus
four ports with shared rate mode and 1-Gbps speed plus
five ports put out-of-service (see Figure 22-3)
Figure 22-3 Example Speed and Rate Configuration on a 48-Port 4-Gbps Switching Module
•Six ports with dedicated rate mode and 2-Gbps speed plus
four ports with shared rate mode and 1-Gbps speed plus
two ports put out-of-service (see Figure 22-4)
Figure 22-4 Example Speed and Rate Configuration on a 48-Port 4-Gbps Switching Module
24-port 4-Gbps Fibre Channel Module BB_Credit Buffers
Table 22-7 lists the BB_credit buffer allocation for 24-port 4-Gbps Fibre Channel switching modules.
Table 22-6 24 Port 4-Gbps Switching Module BB_Credit Buffer Allocation Defaults
BB_Credit Buffer Allocation Type
|
BB_Credit Buffers Per Module
|
BB_Credit Buffers Per Port Defaults
|
Dedicated Rate Mode
4-Gbps Speed
|
Shared Rate Mode
4-Gbps Speed
|
|
Fx Port
|
ISL1
|
Fx Port
|
User configurable BB_credit buffers
|
6000
|
250
|
16
|
16
|
16
|
The following considerations apply to BB_credit buffers on 24-port 4-Gbps Fibre Channel switching modules:
•BB_credit buffers for ISL connections can be configured from a minimum of 2 buffers to a maximum of 250 buffers for dedicated rate mode or 16 buffers for shared rate mode.
•BB_credit buffers for Fx port mode connections can be configured. The minimum is 2 buffers and the maximum of 250 buffers for dedicated rate mode or 16 buffers for shared rate mode.
•Performance buffers are not supported on this module.
Each port group on the 24-port 4-Gbps Fibre Channel switching module consists of six ports. The ports in shared rate mode have bandwidth oversubscription of 2:1 by default. However, some configurations of the shared ports in a port group can have maximum bandwidth oversubscription of 4:1 (considering that each port group has 12.8-Gbps bandwidth). The following example configurations are supported by the 24-port 4-Gbps Fibre Channel switching modules:
•Six ports with shared rate mode and 4-Gbps speed (2:1 oversubscription) (default)
•Two ports with dedicated rate mode and 4-Gbps speed plus
four ports with shared rate mode and 4-Gbps speed (with 4:1 oversubscription)
•One port with dedicated rate mode and 4-Gbps speed plus
three ports with dedicated rate mode and 2-Gbps speed plus
two ports with shared rate mode and 4-Gbps speed (4:1 oversubscription)
•Six ports with dedicated rate mode and 2-Gbps speed
•Three ports with dedicated rate mode and 4-Gbps speed plus
three ports with shared rate mode and 1-Gbps speed (see Figure 22-5)
Figure 22-5 Example Speed and Rate Configuration on a 24-Port 4-Gbps Switching Module
18-Port Fibre Channel/4-Port GigabitEthernet Multiservice Module BB_Credit Buffers
Table 22-7 lists the BB_credit buffer allocation for 18-port 4-Gbps multiservice modules.
Table 22-7 18-Port 4-Gbps Multiservice Module BB_Credit Buffer Allocation Defaults
BB_Credit Buffer Allocation Type
|
BB_Credit Buffers Per Module
|
BB_Credit Buffers Per Port Defaults
|
Dedicated Rate Mode
4-Gbps Speed
|
Shared Rate Mode
4-Gbps Speed
|
|
Fx Port
|
ISL1
|
Fx Port
|
User configurable BB_credit buffers
|
4509
|
250
|
16
|
16
|
16
|
The following considerations apply to BB_credit buffers on18-port 4-Gbps Fibre Channel switching modules:
•BB_credit buffers for ISL connections can be configured from a minimum of 2 buffers to a maximum of 250 buffers for dedicated rate mode or 16 buffers for shared rate mode.
•BB_credit buffers for Fx port mode connections can be configured. The minimum is 2 buffers and the maximum of 250 buffers for dedicated rate mode or 16 buffers for shared rate mode.
•Performance buffers are not supported on this module.
12-Port 4-Gbps Switching Module BB_Credit Buffers
Table 22-8 lists the BB_credit buffer allocation for 12-port 4-Gbps switching modules.
Table 22-8 12-Port 4-Gbps Switching Module BB_Credit Buffer Allocation Defaults
BB_Credit Buffer Allocation Type
|
BB_Credit Buffers Per Module
|
BB_Credit Buffers Per Port Defaults
|
Dedicated Rate Mode
4-Gbps Speed
|
|
Fx Port
|
User configurable BB_credit buffers
|
5488
|
250
|
16
|
Performance buffers
|
512 (shared)
|
145
|
12
|
The following considerations apply to BB_credit buffers on 12-port 4-Gbps switching modules:
•BB_credit buffers for ISL connections can be configured from a minimum of 2 buffers to a maximum of 250 buffers.
•BB_credit buffers for Fx port mode connections can be configured from a minimum of 2 buffers to a maximum of 250 buffers.
•By default, 512 performance buffers are preallocated and are shared by all the ports. These buffers are configurable and the buffers are assigned to the port based on the availability of the buffers in the shared pool.
•There are 2488 extra buffers available as extended BB_credit buffers after allocating all the default BB_credit buffers for all the ports in ISL mode (5488 - (250 * 12)).
Note Extended BB_credits are allocated across all ports on the switch. That is, they are not allocated by port group.
Note By default, the ports in the 12-port 4-Gbps switching modules come up in 4-Gbps dedicated rate mode but can be configured as 1-Gbps and 2-Gbps dedicated rate mode. Shared mode is not supported.
4-Port 10-Gbps Switching Module BB_Credit Buffers
Table 22-9 lists the BB_credit buffer allocation for 4-port 10-Gbps switching modules.
Table 22-9 4-port 10-Gbps Switching Module BB_Credit Buffer Allocation Defaults
BB_Credit Buffer Allocation Type
|
BB_Credit Buffers Per Module
|
BB_Credit Buffers Per Port Defaults
|
Dedicated Rate Mode
4-Gbps Speed
|
|
|
User configurable BB_credit buffers
|
5488
|
250
|
16
|
Performance buffers
|
512 (shared)
|
145
|
12
|
Note The ports in the 4-port 10-Gbps switching module only support 10-Gbps dedicated rate mode. FL port mode and shared rate mode are not supported.
The following considerations apply to BB_credit buffers on 4-port 10-Gbps switching modules:
•BB_credit buffers for ISL connections can be configured from a minimum of 2 buffers to a maximum of 250 buffers.
•BB_credit buffers for Fx port mode connections can be configured from a minimum of 2 buffers to a maximum of 250 buffers.
•By default, 512 performance buffers are preallocated and are shared by all the ports. These buffers are configurable and the buffers are assigned to the port based on the availability of the buffers in the shared pool.
•There are 4488 extra buffers available as extended BB_credits after allocating all the default BB_credit buffers for all the ports in ISL mode (5488 - (250 * 4)).
Note Extended BB_credits are allocated across all ports on the switch. That is, they are not allocated by port group.
BB_Credit Buffers for Fabric Switches
This section describes how buffer credits are allocated to Cisco MDS 9000 Fabric switches, and includes the following topics:
•Cisco MDS 9134 Fabric Switch BB_Credit Buffers
•Cisco MDS 9124 Fabric Switch BB_Credit Buffers
•Cisco MDS 9222i Multiservice Modular Switch BB_Credit Buffers
Cisco MDS 9134 Fabric Switch BB_Credit Buffers
Table 22-10 lists the BB_credit buffer allocation for 32-port 4-Gbps Fibre Channel switches.
Table 22-10 32-Port 4-Gbps Switching Module BB_Credit Buffer Allocation Defaults
BB_Credit Buffer Allocation Type
|
BB_Credit Buffers Per Port Group
|
BB_Credit Buffers Per Port Defaults
|
|
|
Fx Port
|
User configurable BB_credit buffers
|
64
|
64
|
64
|
The following considerations apply to BB_credit buffers on 32-port 4-Gbps switches:
•BB_credit buffers for connections can be configured from a minimum of 2 buffers to a maximum of 250 buffers per port.
•BB_credit buffers for Fx port mode connections can be configured from a minimum of 2 buffers to a maximum of 250 buffers.
Cisco MDS 9124 Fabric Switch BB_Credit Buffers
Table 22-11 lists the BB_credit buffer allocation for 24-port 4-Gbps Fibre Channel switches.
Table 22-11 24-Port 4-Gbps Switching Module BB_Credit Buffer Allocation Defaults
BB_Credit Buffer Allocation Type
|
BB_Credit Buffers Per Port Group
|
BB_Credit Buffers Per Port Defaults
|
|
|
Fx Port
|
User configurable BB_credit buffers
|
64
|
16
|
16
|
Cisco MDS 9222i Multiservice Modular Switch BB_Credit Buffers
Table 22-12 lists the BB_credit buffer allocation for 18-port 4-Gbps Multiservice Modular switches.
Table 22-12 18-Port 4-Gbps Switching Module BB_Credit Buffer Allocation Defaults
BB_Credit Buffer Allocation Type
|
BB_Credit Buffers Per Port Group
|
BB_Credit Buffers Per Port Defaults
|
|
|
Fx Port
|
User configurable BB_credit buffers
|
4509
|
250
|
16
|
Extended BB_Credits
Note Extended BB_credits are not supported on the Cisco MDS 9124 Fabric Switch, Cisco MDS 9134 Fabric Switch, Cisco MDS 9222i Fabric Switch, the Cisco Fabric Switch for HP c-Class BladeSystem, and the Cisco Fabric Switch for IBM BladeCenter.
To facilitate BB_credits for long haul links, the extended BB_credits feature allows the user to configure the receive buffers above the maximum value on all Generation 2 switching modules (see the "Buffer Credit Allocation" section). When necessary, you can reduce the buffers on one port and assign them to another port, exceeding the default maximum. The minimum extended BB_credits per port is 256 and the maximum is 4095.
In general, the user can configure any port in a port group to dedicated mode. To do this, you must first release the buffers from the other ports before configuring larger extended BB_credits for a port.
Note The ENTERPRISE_PKG license is required to use extended BB_credits on Generation 2 switching modules. Also, extended BB_credits are not supported by ports in shared rate mode.
All ports on the Generation 2 switching modules support extended BB_credits. There are no limitations for how many extended BB_credits you can assign to a port (except for the maximum and minimum limits). If necessary, you can take interfaces out of service to make more extended BB_credits available to other ports.
About Combining Generation 1 and Generation 2 Switching Modules
You can combine Generation 1 and Generation 2 switching modules, with either Supervisor-1 modules or Supervisor-2 modules. However, combining switching modules and supervisor modules has the following port index limitations:
•Supervisor-1 modules only support a maximum of 252 port indexes, regardless of the type of switching modules.
•Supervisor-2 modules support a maximum of 1020 port indexes when all switching modules in the chassis are Generation 2.
•Supervisor-2 modules only support a maximum of 252 port indexes when only Generation 1 switching modules, or a combination of Generation 1 and Generation 2 switching modules, are installed in the chassis.
Port Indexes
Cisco MDS 9000 switches allocate index identifiers for the ports on the modules. These port indexes cannot be configured. You can combine Generation 1 and Generation 2 switching modules, with either Supervisor-1 modules or Supervisor-2 modules. However, combining switching modules and supervisor modules has the following port index limitations:
•Supervisor-1 modules only support a maximum of 252 port indexes, regardless of the type of switching modules.
•Supervisor-2 modules support a maximum of 1020 port indexes when all switching modules in the chassis are Generation 2.
•Supervisor-2 modules only support a maximum of 252 port indexes when only Generation 1 switching modules, or a combination of Generation 1 and Generation 2 switching modules, are installed in the chassis.
Note On a switch with the maximum limit of 252 port index maximum limit, any new module that exceeds the limit when installed does not power up.
Generation 1 switching modules have specific numbering requirements. If these requirements are not met, the module does not power up. The port index numbering requirements include the following:
•If port indexes in the range of 256 to 1020 are assign to operational ports, Generation 1 switching modules do not power up.
•A block of contiguous port indexes is available. If such a block of port indexes is not available, Generation 1 modules do not power up. Table 22-13 shows the port index requirements for the Generation 1 modules.
Note If the switch has Supervisor-1 modules, the block of 32 contiguous port indexes must begin on the slot boundary. The slot boundary for slot 1 is 0, for slot 2 is 32, and so on. For Supervisor-2 modules, the contiguous block can start anywhere.
Table 22-13 Port Index Requirements for Generation 1 Modules
Generation 1 Module
|
Number of Port Indexes Required
|
Supervisor-1 Module
|
Supervisor-2 Module
|
16-port 2-Gbps Fibre Channel module
|
16
|
16
|
32-port 2-Gbps Fibre Channel module
|
32
|
32
|
8-port Gigabit Ethernet IP Storage Services module
|
32
|
32
|
4-port Gigabit Ethernet IP Storage Services module
|
32
|
16
|
32-port 2-Gbps Fibre Channel Storage Services Module (SSM).
|
32
|
32
|
14-port Fibre Channel/2-port Gigabit Ethernet Multiprotocol Services (MPS-14/2) module.
|
32
|
22
|
The allowed mix of Generation 1 and Generation 2 switching modules in a chassis is determined at run-time, either when booting up the switch or when installing the modules. In some cases, the sequence in which switching modules are inserted into the chassis determines if one or more modules is powered up. When a module does not power up because of a resource limitation, you can . see the reason by viewing the module information in the Information pane.
For information on recovering a module powered-down because port indexes are not available, refer to the Cisco MDS 9000 Family Troubleshooting Guide, Release 3.x.
PortChannels
PortChannels have the following restrictions:
•The maximum number of PortChannels allowed is 256 if all switching modules are Generation 2.
•The maximum number of PortChannels allowed is 128 if the switching modules are Generation 1 or both Generation 1 and Generation 2.
•You must reserve the resources on the Generation 2 switching module interfaces to be used in the PortChannel.
Note The number of PortChannels allowed does not depend on the type of supervisor module.
When configuring PortChannels on switches with both Generation 1 and Generation 2 switching modules, configure the PortChannel and Generation 2 switching modules interfaces to auto with a maximum of 2 Gbps or configure the Generation 1 switching modules followed by the Generation 2 switching modules.
Note Generation 1 switching module interfaces do not support auto speed with max 2Gbps. Also, Generation 2 switching module interfaces cannot be forcefully added to a PortChannel if sufficient resources are not available.
Table 22-14 describes the results of adding a member to a PortChannel for various configurations.
Table 22-14 PortChannel Configuration and Addition Results
PortChannel Members
|
Configured Speed
|
New Member Type
|
Addition Type
|
Result
|
PortChannel
|
New Member
|
No members
|
Any
|
Any
|
Generation 1 or Generation 2
|
Force
|
Pass
|
Auto
|
Auto
|
Generation 1 or Generation 2
|
Normal or force
|
Pass
|
Auto max 2000
|
Auto
|
Generation 1
|
Normal or force
|
Pass
|
Auto max 2000
|
Auto
|
Generation 2
|
Normal
|
Fail
|
Force
|
Pass
|
Auto
|
Auto max 2000
|
Generation 2
|
Normal
|
Fail
|
Force
|
Pass or fail1
|
Generation 1 interfaces
|
Auto
|
Auto
|
Generation 2
|
Normal
|
Fail
|
Force
|
Pass
|
Auto max 2000
|
Auto
|
Generation 1
|
Normal or force
|
Pass
|
Auto max 2000
|
Auto
|
Generation 2
|
Normal
|
Fail
|
Force
|
Pass or fail1
|
Generation 2 interfaces
|
Auto
|
Auto
|
Generation 1
|
Normal or force
|
Fail
|
Auto max 2000
|
Auto
|
Generation 1
|
Normal or force
|
Pass
|
Auto max 2000
|
Auto
|
Generation 2
|
Normal
|
Fail
|
Force
|
Pass
|
Auto
|
Auto max 2000
|
Generation 2
|
Normal
|
Fail
|
Force
|
Pass
|
Configuring Generation 2 Module Interface Shared Resources
This section describes how to configure Generation 2 module interface shared resources and contains the following sections:
•Configuration Guidelines for 48-Port and 24-Port 4-Gbps Fibre Channel Switching Modules
•Configuration Guidelines for 12-Port 4-Gbps Switching Module Interfaces
•Configuration Guidelines for 4-Port 10-Gbps Switching Module Interfaces
•Configuring Port Speed
•Configuring Rate Mode
•Configuring Oversubscription Ratio Restrictions
•Configuring Bandwidth Fairness
•Taking Interfaces Out of Service
•Releasing Shared Resources in a Port Group
Configuration Guidelines for 48-Port and 24-Port 4-Gbps Fibre Channel Switching Modules
The 48-port and 24-port 4-Gbps Fibre Channel switching modules support the following features:
•1-Gbps, 2-Gbps, and 4-Gbps speed traffic
•Shared and dedicated rate mode
•ISL (E or TE) and Fx (F or FL) port modes
•Extended BB_credits
Migrating from Shared Mode to Dedicated Mode
To configure 48-port and 24-port 4-Gbps Fibre Channel switching modules when starting with the default configuration or when migrating from shared rate mode to dedicated rate mode, follow these guidelines:
1. Take unused interfaces out of service to release resources for other interfaces, if necessary.
See the "Taking Interfaces Out of Service" section.
2. Configure the traffic speed to use (1 Gbps, 2 Gbps, 4 Gbps, or autosensing with a maximum of 2 Gbps or 4 Gbps).
See the "Configuring Port Speed" section.
3. Configure the rate mode (dedicated or shared) to use.
See the "Configuring Rate Mode" section.
4. Configure the port mode.
See the "About Interface Modes" section on page 20-4.
Note ISL ports cannot operate in shared rate mode.
5. Configure the BB_credits and extended BB_credits, as necessary.
See the "Extended BB_Credits" section.
Migrating from Dedicated Mode to Shared Mode
To configure 48-port and 24-port 4-Gbps Fibre Channel switching modules migrating from dedicated rate mode to shared rate mode, follow these guidelines:
1. Take unused interfaces out of service to release resources for other interfaces, if necessary.
See the "Taking Interfaces Out of Service" section.
2. Configure the BB_credits and extended BB_credits, as necessary.
See the "BB_Credit Buffers for Switching Modules" section, "BB_Credit Buffers for Fabric Switches" section, and the "Extended BB_Credits" section.
3. Configure the port mode.
See the "About Interface Modes" section on page 20-4.
Note ISL ports cannot operate in shared rate mode.
4. Configure the rate mode (dedicated or shared) to use.
See the "Configuring Rate Mode" section.
5. Configure the traffic speed (1 Gbps, 2 Gbps, 4 Gbps, or autosensing with a maximum of 2 Gbps or 4 Gbps) to use.
See the "Configuring Port Speed" section.
Configuration Guidelines for 12-Port 4-Gbps Switching Module Interfaces
The 12-port 4-Gbps switching modules support the following features:
•1-Gbps, 2-Gbps, and 4-Gbps speed traffic
•Only dedicated rate mode
•ISL (E or TE) and Fx (F or FL) port modes
•Extended BB_credits
•Performance buffers
To configure 4-port 10-Gbps switching modules when starting with the default configuration, follow these guidelines:
1. Configure the traffic speed (1 Gbps, 2 Gbps, 4 Gbps, or autosensing with a maximum of 2 Gbps or 4 Gbps) to use.
See the "Configuring Port Speed" section.
2. Configure the port mode.
See the "About Interface Modes" section on page 20-4.
3. Configure the BB_credits, performance buffers, and extended BB_credits, as necessary.
See the "BB_Credit Buffers for Switching Modules" section, "BB_Credit Buffers for Fabric Switches" section, and the "Extended BB_Credits" section.
Note If you change the port bandwidth reservation parameters on a 48-port or 24-port module, the change affects only the changed port. No other ports in the port group are affected.
Configuration Guidelines for 4-Port 10-Gbps Switching Module Interfaces
The 4-port 10-Gbps switching modules support the following features:
•Only 10-Gbps speed traffic
•Only dedicated rate mode
•ISL (E or TE) and F port modes
•Extended BB_credits
•Performance buffers
Use the following guidelines to configure 4-port 10-Gbps switching modules when starting with the default configuration:
1. Configure the port mode.
See the "About Interface Modes" section on page 20-4.
2. Configure the BB_credits, performance buffers, and extended BB_credits, as necessary.
See the "BB_Credit Buffers for Switching Modules" section, "BB_Credit Buffers for Fabric Switches" section, and the "Extended BB_Credits" section.
Configuring Port Speed
The port speed on an interface, combined with the rate mode, determines the amount of shared resources available to the ports in the port group on a 48-port or 24-port 4-Gbps Fibre Channel switching module. Especially in the case of dedicated rate mode, the port group resources are reserved even though the bandwidth is not used. For example, if an interface is configured for autosensing (auto) and dedicated rate mode, then 4 Gbps of bandwidth is reserved even though the maximum operating speed is 2 Gbps. For the same interface, if autosensing with a maximum speed of 2 Gbps (auto max 2000) is configured, then only 2 Gbps of bandwidth is reserved and the unused 2 Gbps is shared with the other interface in the port group.
Caution Changing port speed and rate mode disrupts traffic on the port. Traffic on other ports in the port group is not affected.
Note The 4-port 10-Gbps switching module supports 10-Gbps traffic only.
To configure dedicated bandwidth on an interface using Fabric Manager, follow these steps
Step 1 Select a switch from the Fabric pane, or select a group of switches (SAN, fabric, VSAN) from the Logical Domains pane.
Step 2 Expand Switches, expand Interfaces and select FC Physical from the Physical Attributes pane.
You see the FC Physical > General tab in the Interfaces pane.
Step 3 Scroll until you see the row containing the switch and port you want to configure.
Step 4 Select auto, 1Gb, 4Gb, or autoMax2G from the Speed Admin column (see Figure 22-6).
Figure 22-6 Speed Admin column in Port Configuration
The auto parameter enables autosensing on the interface. The autoMax2G parameter enables autosensing on the interface with a maximum speed of 2 Gbps.
Note If you change the port bandwidth reservation parameters on a 48-port or 24-port 4-Gbps Fibre Channel switching module, the change affects only the changed port. No other ports in the port group are affected.
Step 5 Click the Apply Changes icon.
Configuring Rate Mode
To configure the rate mode (dedicated or shared) on an interface on a 48-port or 24-port 4-Gbps Fibre Channel switching module using Fabric Manager, follow these steps:
Step 1 Select a switch from the Fabric pane, or select a group of switches (SAN, fabric, VSAN) from the Logical Domains pane.
Step 2 Expand Switches > Interfaces and then select FC Physical from the Physical Attributes pane.
You see the FC Physical > General tab in the Interfaces pane.
Step 3 Scroll until you see the row containing the switch and port you want to configure.
Step 4 Select dedicated or shared from the Rate Mode column (see Figure 22-7).
Figure 22-7 Rate Mode Port Configuration
Step 5 Click the Apply Changes icon.
Caution Changing port speed and rate mode disrupts traffic on the port.
Configuring Oversubscription Ratio Restrictions
The 48-port and 24-port 4-Gbps Fibre Channel switching modules support oversubscription on switches with shared rate mode configurations. Table 22-15 describes the bandwidth allocation for oversubscribed interfaces configured in shared mode.
Table 22-15 Bandwidth Allocation for Oversubscribed Interfaces
Switching Module Type
|
Configured Speed
|
Reserved Bandwidth (Gbps)
|
Maximum Bandwidth (Gbps)
|
Ratios enabled
|
Ratios disabled
|
48 ports
|
Auto 4 Gbps
|
0.8
|
0.09
|
4
|
Auto (maximum is 2 Gbps) 2 Gbps
|
0.4
|
0.045
|
2
|
1 Gbps
|
0.2
|
0.0225
|
1
|
24 ports
|
Auto 4 Gbps
|
1
|
0.27
|
4
|
Auto (maximum is 2 Gbps) 2 Gbps
|
0.5
|
0.135
|
2
|
1 Gbps
|
0.25
|
0.067
|
1
|
By default, all 48-port and 24-port 4-Gbps Fibre Channel switching modules have restrictions on oversubscription ratios enabled.
As of Cisco SAN-OS Release 3.1(1) and later, you can disable restrictions on oversubscription ratios. All ports in 48-port and 24-port modules can be configured to operate at 4 Gbps in shared mode-even if other ports in the port group are configured in dedicated mode-regardless of available bandwidth. However, when oversubscription ratio restrictions are enabled you may not have all shared ports operating at 4 Gbps. For example, oversubscription ratios are enabled, and you have configured three 4 Gbps dedicated ports in one port group, no other ports in the same port group can be configured to operate at 4 Gbps.
For dedicated ports, oversubscription ratio restrictions do not apply to the shared pool in port groups. So if oversubscription ratio restrictions are disabled, and you've configured three 4 Gbps dedicated ports in one port group, then you can configure all other ports in the same port group to operate at a shared rate of 4 Gbps.
When disabling restrictions on oversubscription ratios, all ports in shared mode on 48-port and 24-port 4-Gbps Fibre Channel switching modules must be shut down. When applying restrictions on oversubscription ratios, you must take shared ports out of service.
Note When restrictions on oversubscription ratios are disabled, the bandwidth allocation among the shared ports is proportionate to the configured speed. (If the configured speed is auto, then bandwidth is allocated assuming a speed of 4 Gbps.) For example, if you have three shared ports configured at 1, 2, and 4 Gbps, then the allocated bandwidth ratio is 1:2:4. In Cisco SAN-OS Release 3.0 and later (or when restrictions on oversubscription ratios are enabled), port bandwidths are allocated in equal proportions, regardless of port speed, so, the bandwidth allocation for the same three ports mentioned in the example would be 1:1:1.
Disabling Restrictions on Oversubscription Ratios
Before disabling restrictions on oversubscription ratios, ensure that you have explicitly shut down shared ports. To disable restrictions on oversubscription ratios on multiple 48-port or 24-port 4-Gbps Fibre Channel switching modules using Device Manager, follow these steps:
Step 1 Choose Physical > Modules.
You see the Module dialog box as shown in Figure 22-8.
Figure 22-8 Module Dialog Box
Caution This feature is only supported on 48-port and 24-port 4-Gbps Fibre Channel switching modules.
Step 2 Select disabled from the RateModeOversubscriptionLimit drop-down list for each module for which you want to disable restrictions on oversubscription ratios.
Step 3 Click Apply to save the changes.
To disable restrictions on oversubscription ratios on a single 48-port or 24-port 4-Gbps Fibre Channel switching module using Device Manager, follow these steps:
Step 1 Right-click a module and select Configure.
You see the Module dialog box as shown in Figure 22-9.
Figure 22-9 Module Dialog Box
Step 2 Click the disabled radio button to disable restrictions on oversubscription ratios.
Step 3 Click Apply to save the changes.
Enabling Restrictions on Oversubscription Ratios
Caution You must enable restrictions on oversubscription ratios before you can downgrade modules to a previous release.
Before enabling restrictions on oversubscription ratios, ensure that you have explicitly configured shared ports to out-of-service mode. To enable restrictions on oversubscription ratios on multiple 48-port or 24-port 4-Gbps Fibre Channel switching modules using Device Manager, follow these steps:
Step 1 Choose Physical > Modules.
You see the Module dialog box as shown in Figure 22-8.
Step 2 Select enabled from the RateModeOversubscriptionLimit drop-down list for each module for which you want to enable restrictions on oversubscription ratios.
Step 3 Click Apply to save the changes.
To enable restrictions on oversubscription ratios on a single 48-port or 24-port 4-Gbps Fibre Channel switching module using Device Manager, follow these steps:
Step 1 Right-click a module and select Configure.
You see the Module dialog box as shown in Figure 22-9.
Step 2 Click the enabled radio button to enable restrictions on oversubscription ratios.
Step 3 Click Apply to save the changes.
Configuring Bandwidth Fairness
As of Cisco SAN-OS Release 3.1(2) and later, all 48-port and 24-port 4-Gbps Fibre Channel switching modules, as well as 18-port Fibre Channel/4-port GigabitEthernet Multiservice modules, have bandwidth fairness enabled by default, which improves fairness of bandwidth allocation among all ports and provides better throughput average to individual data streams. Bandwidth fairness can be configured per module.
Caution When you disable or enable bandwidth fairness, the change does not take effect until you reload the module.
Note This feature is only supported onthe 48-port and 24-port 4-Gbps Fibre Channel switching modules, as well as the 18-port Fibre Channel/4-port GigabitEthernet Multiservice module.
Enabling Bandwidth Fairness
To enable bandwidth fairness on multiple 48-port or 24-port 4-Gbps Fibre Channel switching modules using Device Manager, follow these steps:
Step 1 Choose Physical > Modules.
You see the Module dialog box as shown in Figure 22-10.
Figure 22-10 Module Dialog Box
Step 2 Select enable from the BandwidthFairnessConfig drop-down list for each module for which you want to enable bandwidth fairness.
Step 3 Click Apply to save the changes.
To enable bandwidth fairness on a single 48-port or 24-port 4-Gbps Fibre Channel switching module using Device Manager, follow these steps:
Step 1 Right-click a module and select Configure.
You see the Module dialog box as shown in Figure 22-11.
Figure 22-11 Module Dialog Box
Step 2 Click the enable radio button to enable bandwidth fairness.
Step 3 Click Apply to save the changes.
Disabling Bandwidth Fairness
Note If you disable bandwidth fairness, up to a 20 percent increase in internal bandwidth allocation is possible for each port group; however, bandwidth fairness is not guaranteed when there is a mix of shared and full-rate ports in the same port group.
To disable bandwidth fairness on multiple 48-port or 24-port 4-Gbps Fibre Channnel switching modules using Device Manager, follow these steps:
Step 1 Choose Physical > Modules.
You see the Module dialog box as shown in Figure 22-10.
Step 2 Select disable from the BandwidthFairnessConfig drop-down list for each module for which you want to disable bandwidth fairness.
Step 3 Click Apply to save the changes.
To disable bandwidth fairness on a single 48-port or 24-port 4-Gbps Fibre Channel switching module using Device Manager, follow these steps:
Step 1 Right-click a module and select Configure.
You see the Module dialog box as shown in Figure 22-11.
Step 2 Click the disable radio button to disable bandwidth fairness.
Step 3 Click Apply to save the changes.
Upgrade or Downgrade Scenario
When you are upgrading from a release earlier than Cisco SAN-OS Release 3.1(2), all modules operate with bandwidth fairness disabled until the next module reload. After the upgrade, any new module that is inserted has bandwidth fairness enabled.
When you are downgrading to a release earlier than Cisco SAN-OS Release 3.1(2), all modules keep operating in the same bandwidth fairness configuration prior to the downgrade. After the downgrade, any new module that is inserted has bandwidth fairness disabled.
Taking Interfaces Out of Service
You can take interfaces out of service on Generation 2 switching modules. When an interface is out of service, all the shared resources for the interface are released as well as the configuration associated with those resources.
Note The interface must be disabled before it can be taken out of service.
Caution Taking interfaces out of service releases all the shared resources to ensure that they are available to other interfaces. This causes the configuration in the shared resources to revert to default when the interface is brought back into service. Also, an interface cannot come back into service unless the default shared resources for the port are available. The operation to free up shared resources from another port is disruptive.
Note The interface cannot be a member of a PortChannel.
To take an interface out of service using Fabric Manager, follow these steps:
Step 1 Select a switch from the Fabric pane, or select a group of switches (SAN, fabric, VSAN) from the Logical Domains pane.
Step 2 Expand Switches, expand Interfaces and select FC Physical in the Physical Attributes pane.
You see the FC Physical > General tab in the Information pane.
Step 3 Scroll down until you see the row containing the switch and port you want to configure.
Step 4 Scroll right (if necessary) until you see the Status Service column.
Step 5 Select in or out from the Status Service column.
Step 6 Click the Apply Changes icon.
Releasing Shared Resources in a Port Group
When you want to reconfigure the interfaces in a port group on a Generation 2 module, you can return the port group to the default configuration to avoid problems with allocating shared resources.
Note The interface cannot be a member of a PortChannel.
Caution Releasing shared resources disrupts traffic on the port. Traffic on other ports in the port group is not affected.
To release the shared resources for a port group using Fabric Manager, follow these steps:
Step 1 Select a switch from the Fabric pane, or select a group of switches (SAN, fabric, VSAN) from the Logical Domains pane.
Step 2 Expand Switches > Interfaces and then select FC Physical from the Physical Attributes pane.
You see the FC Physical > General tab in the Information pane.
Step 3 Scroll down until you see the row containing the switch and port you want to configure.
Step 4 Scroll right (if necessary) until you see the Status Service column (see Figure 22-12).
Figure 22-12 Status Service Column for FC Physical
Step 5 Select the out status from the Status Service column.
Step 6 Click the Apply Changes icon.
Step 7 Select the in status from the Status Service column.
Step 8 Click the Apply Changes icon.
Displaying SFP Diagnostic Information
To view diagnostic information for multiple ports using Device Manager, follow these steps:
Step 1 Choose Interface > FC All and click the Diagnostics tab or hold down the Control key, and then click each port for which you want to view diagnostic information.
Step 2 Right-click the selected ports, select Configure, and click the Diagnostics tab.
You see the FC Interfaces dialog box shown in Figure 22-13.
Figure 22-13 FC Interfaces Dialog Box
Step 3 Click Refresh to view the latest diagnostic information.
To view diagnostic information for a single port using Device Manager, follow these steps:
Step 1 Right-click a port, select Configure, and click the Diagnostics tab.
You see the port licensing options for the selected port shown in Figure 22-14.
Figure 22-14 Diagnostics Tab for Selected Port
Step 2 Click Refresh to view the latest diagnostic information.
Default Settings
Table 22-16 lists the default settings for Generation 2 interface parameters.
Table 22-16 Default Generation 2 Interface Parameters
Parameter
|
Default
|
48-Port 4-Gbps Switching Module
|
24-Port 4-Gbps Switching Module
|
12-Port 4-Gbps Switching Module
|
4-Port 10-Gbps Switching Module
|
Speed mode
|
auto1
|
auto1
|
auto1
|
auto2
|
Rate mode
|
shared
|
shared
|
dedicated
|
dedicated
|
Port mode
|
Fx
|
Fx
|
auto3
|
auto4
|
BB_credit buffers
|
16
|
16
|
250
|
250
|
Performance buffers
|
-
|
-
|
1455
|
1455
|