Information Update
Page 5
Table 1-1. NOTE: For a detailed mapping of each PowerEdge system, see the document Quadport Capable Hardware For the M1000e Modular Chassis on support.dell.com/manuals. I/O Module Port Mapping (Quad-Port Mezzanine ...Height Blades Blade n A1 Integrated LOM1 Port n Integrated LOM2 Mezz_FAB_B_Blade n_Port1 Mezz_FAB_B_Blade n_Port2 Mezz_FAB_B_Blade n_Port3 Mezz_FAB_B_Blade n_Port4 Mezz_FAB_C_Blade n_Port1 Mezz_FAB_C_Blade n_Port2 Mezz_FAB_C_Blade n_Port3 Mezz_FAB_C_Blade n_Port4 I /O module port mapping for a half-height blade with the quad-port mezzanine card. PowerEdge Blades -...
Table 1-1. NOTE: For a detailed mapping of each PowerEdge system, see the document Quadport Capable Hardware For the M1000e Modular Chassis on support.dell.com/manuals. I/O Module Port Mapping (Quad-Port Mezzanine ...Height Blades Blade n A1 Integrated LOM1 Port n Integrated LOM2 Mezz_FAB_B_Blade n_Port1 Mezz_FAB_B_Blade n_Port2 Mezz_FAB_B_Blade n_Port3 Mezz_FAB_B_Blade n_Port4 Mezz_FAB_C_Blade n_Port1 Mezz_FAB_C_Blade n_Port2 Mezz_FAB_C_Blade n_Port3 Mezz_FAB_C_Blade n_Port4 I /O module port mapping for a half-height blade with the quad-port mezzanine card. PowerEdge Blades -...
Information Update
Page 6
... LOM3 and LOM4 are the LOM ports of blade (n+8) NOTE: For a detailed mapping of each PowerEdge system, see the document Quadport Capable Hardware For the M1000e Modular Chassis on support.dell.com/manuals. I/O Module Port Assignments-Full-Height Blades Blade n and Blade (n + 8) I /O module port mapping for full-height blades with quad-port mezzanine cards. The following table illustrates the...
... LOM3 and LOM4 are the LOM ports of blade (n+8) NOTE: For a detailed mapping of each PowerEdge system, see the document Quadport Capable Hardware For the M1000e Modular Chassis on support.dell.com/manuals. I/O Module Port Assignments-Full-Height Blades Blade n and Blade (n + 8) I /O module port mapping for full-height blades with quad-port mezzanine cards. The following table illustrates the...
Getting Started Guide
Page 16
...drives support through value RAID or performance RAID storage card. NOTE: For all modular systems, SAS and SATA hard drives cannot be mixed within a blade. Drives (continued) PowerEdge M600, M610x, M610 PowerEdge M605 One 2.5-inch SATA hard-disk drive support through value RAID or performance ...performance RAID storage card. NOTE: Hot-plug operation is supported if an optional RAID controller card is installed. Connectors External USB PowerEdge M910, M805, M905, M710 PowerEdge M710HD, M610x, M610, M605, M600 Three 4-pin, USB 2.0 compliant Two 4-pin, USB 2.0 compliant 14 Getting Started ...
...drives support through value RAID or performance RAID storage card. NOTE: For all modular systems, SAS and SATA hard drives cannot be mixed within a blade. Drives (continued) PowerEdge M600, M610x, M610 PowerEdge M605 One 2.5-inch SATA hard-disk drive support through value RAID or performance ...performance RAID storage card. NOTE: Hot-plug operation is supported if an optional RAID controller card is installed. Connectors External USB PowerEdge M910, M805, M905, M710 PowerEdge M710HD, M610x, M610, M605, M600 Three 4-pin, USB 2.0 compliant Two 4-pin, USB 2.0 compliant 14 Getting Started ...
Hardware Owner's Manual
Page 60
NOTE: For a detailed mapping of each PowerEdge system, see the document Quadport Capable Hardware for full-height blades with quad-port mezzanine cards. Table 1-15. Mezz_FAB_B_Blade n_Port1 Port n Mezz_FAB_B_Blade n_Port2 Mezz_FAB_B_Blade n_Port3 Port (n+...Blade n and Blade (n + 8) NOTE: n denotes a variable B1 value from 1 to 8. I /O Module C1 C2 B2 Port n Port (n+16) Port n Port n Port (n+16) Port (n+16) Port (n+8) Port (n+8) Port (n+24) 60 About Your System Quad-Port Mezzanine Cards Table 1-15 illustrates the I/O module port mapping for the M1000e Modular Chassis on support.dell...
NOTE: For a detailed mapping of each PowerEdge system, see the document Quadport Capable Hardware for full-height blades with quad-port mezzanine cards. Table 1-15. Mezz_FAB_B_Blade n_Port1 Port n Mezz_FAB_B_Blade n_Port2 Mezz_FAB_B_Blade n_Port3 Port (n+...Blade n and Blade (n + 8) NOTE: n denotes a variable B1 value from 1 to 8. I /O Module C1 C2 B2 Port n Port (n+16) Port n Port n Port (n+16) Port (n+16) Port (n+8) Port (n+8) Port (n+24) 60 About Your System Quad-Port Mezzanine Cards Table 1-15 illustrates the I/O module port mapping for the M1000e Modular Chassis on support.dell...
Hardware Owner's Manual
Page 65
... n_Port1 Mezz_FAB_B_Blade n_Port2 Mezz_FAB_B_Blade n_Port3 Mezz_FAB_B_Blade n_Port4 Mezz_FAB_C_Blade n_Port1 Mezz_FAB_C_Blade n_Port2 Mezz_FAB_C_Blade n_Port3 Mezz_FAB_C_Blade n_Port4 I /O module port mapping for a half-height blade with the quad-port mezzanine card. Quad-Port Mezzanine Cards Table 1-18 illustrates the I /O Module B1 C1 C2 B2 A2 Port .... In the following table, n denotes a variable value from 1 to 16. NOTE: For a detailed mapping of each PowerEdge system, see the document Quadport Capable Hardware For the M1000e Modular Chassis on support.dell.com/manuals.
... n_Port1 Mezz_FAB_B_Blade n_Port2 Mezz_FAB_B_Blade n_Port3 Mezz_FAB_B_Blade n_Port4 Mezz_FAB_C_Blade n_Port1 Mezz_FAB_C_Blade n_Port2 Mezz_FAB_C_Blade n_Port3 Mezz_FAB_C_Blade n_Port4 I /O module port mapping for a half-height blade with the quad-port mezzanine card. Quad-Port Mezzanine Cards Table 1-18 illustrates the I /O Module B1 C1 C2 B2 A2 Port .... In the following table, n denotes a variable value from 1 to 16. NOTE: For a detailed mapping of each PowerEdge system, see the document Quadport Capable Hardware For the M1000e Modular Chassis on support.dell.com/manuals.
Fabric Watch Administrator’s Guide
Page 109
...Backbone causes the Fabric Watch switch status policy for redundancy. Faulty WWN card (applies to modular switches). Hardware-related port faults. Whenever these thresholds are required for redundancy. When intelligent blades like the FR4-18i are in the 48000 chassis, the 48000 operates in high power mode... fail, and goes to assume a policy setting of 2,1, as with the blades listed above. Ports that four power supplies are persistently high, the port is removed, the policy remains set to modular switches). Switch status policy planning Table 27 lists the monitors in the correct ...
...Backbone causes the Fabric Watch switch status policy for redundancy. Faulty WWN card (applies to modular switches). Hardware-related port faults. Whenever these thresholds are required for redundancy. When intelligent blades like the FR4-18i are in the 48000 chassis, the 48000 operates in high power mode... fail, and goes to assume a policy setting of 2,1, as with the blades listed above. Ports that four power supplies are persistently high, the port is removed, the policy remains set to modular switches). Switch status policy planning Table 27 lists the monitors in the correct ...
Fabric Watch Administrator’s Guide
Page 118
... the DCX Backbone. The current overall switch status policy parameters: Down Marginal PowerSupplies 2 1 Temperatures 2 1 Fans 2 1 WWN 0 1 CP 0 1 Blade 0 1 CoreBlade 0 1 Flash 0 1 MarginalPorts 2 1 FaultyPorts 2 1 MissingSFPs 0 0 98 Fabric Watch Administrator's Guide 53-1001770-01 The following example...parameter. For modular switches, the switch status policy report also contains information on the WWN, Blade, and CP. Generating a Switch Status Policy report 1. 9 Switch Status Policy report Standby CP monitor Core blade monitor Blades monitor Flash ...
... the DCX Backbone. The current overall switch status policy parameters: Down Marginal PowerSupplies 2 1 Temperatures 2 1 Fans 2 1 WWN 0 1 CP 0 1 Blade 0 1 CoreBlade 0 1 Flash 0 1 MarginalPorts 2 1 FaultyPorts 2 1 MissingSFPs 0 0 98 Fabric Watch Administrator's Guide 53-1001770-01 The following example...parameter. For modular switches, the switch status policy report also contains information on the WWN, Blade, and CP. Generating a Switch Status Policy report 1. 9 Switch Status Policy report Standby CP monitor Core blade monitor Blades monitor Flash ...
Fabric OS Command Reference Manual Supporting Fabric
Page 278
...slot] fastwritecfg --show slot Enables a blade for FC FastWrite on modular platforms with one or more Brocade FC-IP/FC Router blades (FR4-18i). FastWrite minimizes storage latency and improves the number of four user ports per blade. When the blade is a valid slot. When FC ...FastWrite. Continue (Y,y,N,n): [ n] 246 Fabric OS Command Reference 53-1001764-02 Refer to a maximum of the affected blade to support a particular feature, the blade must be enabled on a specified slot. Operands This command has the following operands: --enable --disable --show Description...
...slot] fastwritecfg --show slot Enables a blade for FC FastWrite on modular platforms with one or more Brocade FC-IP/FC Router blades (FR4-18i). FastWrite minimizes storage latency and improves the number of four user ports per blade. When the blade is a valid slot. When FC ...FastWrite. Continue (Y,y,N,n): [ n] 246 Fabric OS Command Reference 53-1001764-02 Refer to a maximum of the affected blade to support a particular feature, the blade must be enabled on a specified slot. Operands This command has the following operands: --enable --disable --show Description...
Fabric OS Command Reference Manual Supporting Fabric
Page 452
...the managed entity is the single managed entity supported by the platform and must be executed only on a switch, a control processor (CP), a blade processor (BP), or a standalone application processor (AP). and IP address-specific features of a Brocade DCX. The --delete option deletes a static ...to the Fabric OS Administrator Guide. For complete details, refer to send IP traffic over Fibre Channel rather than through Ethernet connections. On modular platforms, the command can be set the CP IPv6 address, use the -chassis option. - 2 ipAddrSet ipAddrSet Synopsis Sets the Ethernet...
...the managed entity is the single managed entity supported by the platform and must be executed only on a switch, a control processor (CP), a blade processor (BP), or a standalone application processor (AP). and IP address-specific features of a Brocade DCX. The --delete option deletes a static ...to the Fabric OS Administrator Guide. For complete details, refer to send IP traffic over Fibre Channel rather than through Ethernet connections. On modular platforms, the command can be set the CP IPv6 address, use the -chassis option. - 2 ipAddrSet ipAddrSet Synopsis Sets the Ethernet...
Fabric OS Command Reference Manual Supporting Fabric
Page 458
...static 1080::8:800:200c:417a/64 To display all command options are ignored. Refer to be shown with the -slot option. On modular platforms with intelligent blades, the addresses configured for each slot can be displayed (0 or 1). -chassis -slot slot On dual-CP systems, displays the IP... addresses for a blade. -eth0 |-eth1 |-gate For a specified slot, shows only the selected Ethernet interface or the gateway . 2 ipAddrShow • stateless - Acquired through...
...static 1080::8:800:200c:417a/64 To display all command options are ignored. Refer to be shown with the -slot option. On modular platforms with intelligent blades, the addresses configured for each slot can be displayed (0 or 1). -chassis -slot slot On dual-CP systems, displays the IP... addresses for a blade. -eth0 |-eth1 |-gate For a specified slot, shows only the selected Ethernet interface or the gateway . 2 ipAddrShow • stateless - Acquired through...
Fabric OS Message Reference
Page 92
...for high availability management. A service is the Fabric Watch module. Health monitor. ICPD stands for iSCSI gateway daemon on a blade processor (BP). System messages generated by which the active control processor (CP) can synchronize with a neighbor switch, to establish.... Fibre Channel over IP license, tunneling, and port-related messages. FW is a collection of the neighbor switch, and to achieve a modular software architecture. HAM is a module in the Fabric OS, implementing a related set of the iSCSI Gateways. These facilities include version negotiation,...
...for high availability management. A service is the Fabric Watch module. Health monitor. ICPD stands for iSCSI gateway daemon on a blade processor (BP). System messages generated by which the active control processor (CP) can synchronize with a neighbor switch, to establish.... Fibre Channel over IP license, tunneling, and port-related messages. FW is a collection of the neighbor switch, and to achieve a modular software architecture. HAM is a module in the Fabric OS, implementing a related set of the iSCSI Gateways. These facilities include version negotiation,...
Fabric OS Message Reference
Page 266
Recommended Action Reboot or power cycle the active CP (for modular systems) or the switch (for function name and description of problem are: • setSoftState: bad object • setSoftState: invalid type or unit • media_sync: Media ...], ,, WARNING, , : Media state is repetitive or if the fabric failed, fail over or reboot the switch. If the message persists, run the firmwareDownload command to blade driver Recommended Action If the message is isolated, monitor the error messages on the switch. This could be any whole number. 27 FABS-1005 FABS...
Recommended Action Reboot or power cycle the active CP (for modular systems) or the switch (for function name and description of problem are: • setSoftState: bad object • setSoftState: invalid type or unit • media_sync: Media ...], ,, WARNING, , : Media state is repetitive or if the fabric failed, fail over or reboot the switch. If the message persists, run the firmwareDownload command to blade driver Recommended Action If the message is isolated, monitor the error messages on the switch. This could be any whole number. 27 FABS-1005 FABS...
Fabric OS MIB Reference
Page 139
...a power-supplying component. The physical entity class is a device for aggregating and forwarding networking traffic, such as a shared backplane in a modular Ethernet switch. If it is removable, then it should not be modeled within any other physical entities, but does not match any of ...is associated with the Entity MIB. The physical entity class is , SNMPv3 not supported). • For the Brocade 3016 or Brocade 4020 blades, the snmpEngineID takes the UUID value. Only chassis entities should be modeled directly within a chassis or stack). Note that is a self-...
...a power-supplying component. The physical entity class is a device for aggregating and forwarding networking traffic, such as a shared backplane in a modular Ethernet switch. If it is removable, then it should not be modeled within any other physical entities, but does not match any of ...is associated with the Entity MIB. The physical entity class is , SNMPv3 not supported). • For the Brocade 3016 or Brocade 4020 blades, the snmpEngineID takes the UUID value. Only chassis entities should be modeled directly within a chassis or stack). Note that is a self-...
Fabric OS Troubleshooting and Diagnostics Guide
Page 65
... OS Troubleshooting and Diagnostics Guide 51 53-1001769-01 Brocade configuration form 4 Brocade configuration form Use this form as a hard copy reference for the various blades. In the hardware reference manuals for the Brocade 48000, DCX, and DCX-4S modular switches there is a guide for FC port setting tables.
... OS Troubleshooting and Diagnostics Guide 51 53-1001769-01 Brocade configuration form 4 Brocade configuration form Use this form as a hard copy reference for the various blades. In the hardware reference manuals for the Brocade 48000, DCX, and DCX-4S modular switches there is a guide for FC port setting tables.
Technical Guide
Page 4
... 13. Figure 14. Figure 16. Figure 19. Table 2. Table 7. Figure 7. Figure 18. Figure 20. Table 4. Figure 12. Figure 15. Dell 12.1 Overview 53 12.2 Rails ...53 12.3 Cable Management Arm (CMA 54 12.4 Rack View 55 13 Virtualization 57 14 Systems Management 59 14... 23 LCD Panel Capabilities 24 Power Supplies in M1000e 26 M1000e Power Supply Rear View 27 PowerEdge M1000e Technical Guide 3 Figure 21. Figure 4. Blade Server Rack-Level Specification Comparison 6 Feature Summary 9 Dimensions 10 Typical Modular Server System Rack Height and Cable Reduction 13...
... 13. Figure 14. Figure 16. Figure 19. Table 2. Table 7. Figure 7. Figure 18. Figure 20. Table 4. Figure 12. Figure 15. Dell 12.1 Overview 53 12.2 Rails ...53 12.3 Cable Management Arm (CMA 54 12.4 Rack View 55 13 Virtualization 57 14 Systems Management 59 14... 23 LCD Panel Capabilities 24 Power Supplies in M1000e 26 M1000e Power Supply Rear View 27 PowerEdge M1000e Technical Guide 3 Figure 21. Figure 4. Blade Server Rack-Level Specification Comparison 6 Feature Summary 9 Dimensions 10 Typical Modular Server System Rack Height and Cable Reduction 13...
Technical Guide
Page 10
... third-party 2000mm depth racks. 3.2 Product Features Summary Table 3. Feature Summary Feature Chassis Size Blades per Chassis Total Blades in enterprise server architecture. PowerEdge M1000e Technical Guide 9 Dell 3 System Information 3.1 Overview The Dell PowerEdge M1000e Modular Server Enclosure is a breakthrough in a 42U Rack Total I /O, and management technologies. These technologies are packed into a highly available rack dense package that comes...
... third-party 2000mm depth racks. 3.2 Product Features Summary Table 3. Feature Summary Feature Chassis Size Blades per Chassis Total Blades in enterprise server architecture. PowerEdge M1000e Technical Guide 9 Dell 3 System Information 3.1 Overview The Dell PowerEdge M1000e Modular Server Enclosure is a breakthrough in a 42U Rack Total I /O, and management technologies. These technologies are packed into a highly available rack dense package that comes...
Technical Guide
Page 27
... optimization, and this aspect was a focal point throughout the M1000e's conceptualization and development. A modular system has many advantages over standard rack mount servers in M1000e PowerEdge M1000e Technical Guide 26 Dell 5 Power, Thermal, Acoustic Built on Dell Energy Smart technology, the M1000e is one of the most power-efficient blade solutions on external power connection accessories. 5.1 Power Supplies The...
... optimization, and this aspect was a focal point throughout the M1000e's conceptualization and development. A modular system has many advantages over standard rack mount servers in M1000e PowerEdge M1000e Technical Guide 26 Dell 5 Power, Thermal, Acoustic Built on Dell Energy Smart technology, the M1000e is one of the most power-efficient blade solutions on external power connection accessories. 5.1 Power Supplies The...
Technical Guide
Page 30
...as they enable is a more aggressive utilization of resources in the modular server, distributing power across the system without these features. The system administrator can set power policies on . PowerEdge M1000e Technical Guide 29 Once this feature. This power measurement is used ...is compliant with the CMC, iDRAC hardware constantly monitors actual power consumption at the blade server level, so components like processer, memory can throttle down under the cap. Dell 5.1.3 Power Management Power is no danger of exceeding power capacity availability, which confirms...
...as they enable is a more aggressive utilization of resources in the modular server, distributing power across the system without these features. The system administrator can set power policies on . PowerEdge M1000e Technical Guide 29 Once this feature. This power measurement is used ...is compliant with the CMC, iDRAC hardware constantly monitors actual power consumption at the blade server level, so components like processer, memory can throttle down under the cap. Dell 5.1.3 Power Management Power is no danger of exceeding power capacity availability, which confirms...
Technical Guide
Page 34
Concurrently, each blade. 5.8 Acoustics The M1000e is engineered for the Dell M1000e Modular Server Enclosure - Selection and Installation. 5.7 Power-Up Sequence The following : • Server module level thermal monitoring by the iDRAC • I/O module ...5. Firmware is optimized to the CMC. Dell This hardware design is coupled with the Dell Enterprise acoustical specification. This request is based on temperature conditions on an individual server module level and sends a request to choose the lowest fan speeds and PowerEdge M1000e Technical Guide 33 The first power supply ...
Concurrently, each blade. 5.8 Acoustics The M1000e is engineered for the Dell M1000e Modular Server Enclosure - Selection and Installation. 5.7 Power-Up Sequence The following : • Server module level thermal monitoring by the iDRAC • I/O module ...5. Firmware is optimized to the CMC. Dell This hardware design is coupled with the Dell Enterprise acoustical specification. This request is based on temperature conditions on an individual server module level and sends a request to choose the lowest fan speeds and PowerEdge M1000e Technical Guide 33 The first power supply ...
Technical Guide
Page 45
... an efficient way to consolidate links from each LOM/mezzanine card port on the I/O module options, see the PowerEdge M-Series Blades I/O Guide. 9.3 Supported Mezzanine Cards and Switches Dell supports one mezzanine design standard and one I /O Modules are used as pairs, with two modules servicing each server...8226; 1Gb Ethernet Pass-Through Module • 10Gb Ethernet Pass-Through Module (SFP+) • Brocade® 8Gb Fibre Channel Switch PowerEdge M1000e Technical Guide 44 All 1GbE • Cisco Catalyst 3130g Switch; Dell I /O Module design standard for true modular computing.
... an efficient way to consolidate links from each LOM/mezzanine card port on the I/O module options, see the PowerEdge M-Series Blades I/O Guide. 9.3 Supported Mezzanine Cards and Switches Dell supports one mezzanine design standard and one I /O Modules are used as pairs, with two modules servicing each server...8226; 1Gb Ethernet Pass-Through Module • 10Gb Ethernet Pass-Through Module (SFP+) • Brocade® 8Gb Fibre Channel Switch PowerEdge M1000e Technical Guide 44 All 1GbE • Cisco Catalyst 3130g Switch; Dell I /O Module design standard for true modular computing.