The IBM® System Networking Virtual Fabric 10Gb G8124E RackSwitch™ for IBM System x® delivers exceptional performance that is both lossless and low latency. In addition, the G8124E delivers excellent cost savings as you consider acquisition costs, energy costs, plus its feature-rich design with when it comes to virtualization, CEE/FCoE, high availability, and its enterprise class Layer 2 and Layer 3 functionality.
The IBM® System Networking RackSwitch™ G8124E delivers exceptional performance that is both lossless and low latency. In addition, the G8124E delivers excellent cost savings as you consider acquisition costs, energy costs, plus its feature-rich design with when it comes to virtualization, CEE/FCoE, high availability, and its enterprise class Layer 2 and Layer 3 functionality.
With support for 1G or 10G, this switch is designed for those clients that are leveraging 10G Ethernet today or have plans to in the future. This is the first Top of Rack 10Gb switch for IBM System x® designed to support IBM Virtual Fabric, which helps clients significantly reduce cost and complexity when it comes to the I/O requirements of most virtualization deployments today. Virtual Fabric can help clients reduce the number of multiple I/O adapters down to a single dual-port 10G adapter, in addition to reducing the number of cables and upstream switch ports required. Virtual Fabric allows clients to carve up a dual-port 10G adapter into eight virtual NICs (vNICs) and create dedicated virtual pipes between the adapter and the switch for optimal performance, plus higher availability and better security. This functionality provides the ability to dynamically allocate bandwidth per vNIC in increments of 100 Mb, while being able to adjust over time without downtime. Figure 1 shows the IBM System Networking RackSwitch G8124E.
Figure 1. IBM System Networking RackSwitch G8124E
Did you know
- The G8124E switch is designed to support a number of separate types of configurations from a server or downstream switches: 1 Gb, 10 Gb, virtual NIC, Converged Enhanced Ethernet (CEE/FCoE), and iSCSI. This single switch can handle all these workloads and can connect to an upstream 1 Gb or 10 Gb infrastructure, or both.
- The G8124E is designed to support data center bridging (DCB), which is the IEEE’s group of protocols that provide Lossless Ethernet and allows for clients to reduce the costs of implementing FCoE by leveraging port aggregation before connecting to more costly upstream gateway devices.
- IBM Virtual Fabric helps clients reduce costs and complexity in environments where they need four or more NICs per server. A perfect example is virtualization, where clients often need as many as eight NICs per server.
- IBM is a leader in helping clients reduce the complexity of managing VMs and VM migration with their IBM VMready® product, which makes the network VM aware.
Part number information
Tables 1 and 2 list IBM System x® part numbers and IBM Power Systems™ MTMs and Feature Codes for ordering the modules and additional options. Small form-factor pluggable plus (SFP+) and SFP transceivers are not included.
Table 1. IBM part numbers and feature codes for ordering
|Description||System x part number||Power Systems MTM/FC|
|IBM System Networking RackSwitch G8124DC||7309BD5|
|IBM System Networking RackSwitch G8124E (Rear-to-Front)||7309BR6||1455-24E|
|IBM System Networking RackSwitch G8124E (Front-to-Rear)||7309BF7|
|1 Gb options|
|IBM SFP RJ45 Transceiver||81Y1618||EB29|
|IBM SFP SX Transceiver||81Y1622||EB2A|
|IBM SFP LX Transceiver||90Y9424||ECB8|
|0.6 m Blue Cat5e Cable||40K5679||ECB0|
|1.5 m Blue Cat5e Cable||40K8785||ECB2|
|3 m Blue Cat5e Cable||40K5581||1111|
|10 m Blue Cat5e Cable||40K8927||1112|
|25 m Blue Cat5e Cable||40K8930||1113|
|10 Gb options|
|IBM SFP+ SR Transceiver||46C3447||EB28|
|IBM SFP+ LR Transceiver||90Y9412||ECB9|
|IBM SFP+ ER Transceiver||90Y9415||ECBA|
|1 m IBM Active DAC SFP+ Cable||95Y0323||EN01|
|3 m IBM Active DAC SFP+ Cable||95Y0326||EN02|
|5 m IBM Active DAC SFP+ Cable||95Y0329||EN03|
|0.5 m IBM Passive DAC SFP+ Cable||00D6288||ECBG|
|1 m IBM Passive DAC SFP+ Cable*||90Y9427||ECB4|
|3 m IBM Passive DAC SFP+ Cable*||90Y9430||ECB5|
|5 m IBM Passive DAC SFP+ Cable*||90Y9433||ECB6|
|7 m IBM Passive DAC SFP+ Cable*||00D6151||ECBH|
Table 2 lists IBM part numbers and feature codes for ordering miscellaneous options.
Table 2. IBM part numbers and feature codes for ordering miscellaneous options
|Description||System x part number||Power Systems MTM/FC|
|IBM System Networking Adjustable 19" 4 Post Rail Kit||00D6185||EU27|
|1 m LC-LC Fiber Cable (networking) - Optical||88Y6851||ECBC|
|5 m LC-LC Fiber Cable (networking) - Optical||88Y6854||ECBD|
|25 m LC-LC Fiber Cable (networking) - Optical||88Y6857||ECBN|
The G8124E module part numbers include the following items:
- One IBM System Networking RackSwitch G8124E
- Generic Rail Mount Kit (2-post)
- IBM System Networking RackSwitch Mini-USB to DB9 serial cable (3 m)
- IBM limited 3-year hardware warranty with Next Business Day (NBD), 9x5, Customer Replaceable Unit (CRU) warranty service
Models shipped after April 5, 2011 include a 3-year software license, providing entitlement to upgrades over that period.
Power cables need to be ordered separately at no additional charge. Table 3 and Table 4 list these options.
Table 3. Additional cables to be ordered separately for System x
|39Y7917||Power Cord Europe AC plug 10A/250 V; OPT|
|39Y7918||Power Cord Europe (Denmark) AC plug 10A/250 V; OPT|
|39Y7919||Power Cord Europe (Switzerland) AC plug 10A/250 V; OPT|
|39Y7920||Power Cord Europe (Israel) AC plug 10A/250 V; OPT|
|39Y7922||Power Cord Europe (South Africa) AC plug 10A/250 V; OPT|
|39Y7923||Power Cord UK AC plug 13A/250 V; OPT|
|39Y7924||Power Cord Australia AC plug 10A/250 V; OPT|
|39Y7925||Power Cord Korea AC plug 10A/250 V; OPT|
|39Y7926||Power Cord Japan AC plug 10A/250 V; OPT|
|39Y7927||Power Cord India AC plug 10A/250 V; OPT|
|39Y7928||Power Cord China AC plug 16A/250 V; OPT|
|39Y7929||Power Cord Brazil AC plug 16A/250 V; OPT|
|39Y7930||Power Cord Uruguay/Argentina AC plug 16A/250 V; OPT|
|39Y7931||Power Cord US/Canada AC plug 10A/250 V; OPT|
Table 4. Power cords description with IBM Power System and Storage Feature Codes
|Power Cord 4.3m (14-ft), Drawer to Wall/IBM PDU (250V/10A)||6458|
|Power Cord 4.3m (14-ft), Drawer to Wall/OEM PDU (250V/15A) U. S.||6469|
|Power Cord 1.8m (6-ft), Drawer to Wall (125V/15A)||6470|
|Power Cord 2.7m (9-ft), Drawer to Wall/OEM PDU (125V/15A)||6471|
|Power Cord 2.7m (9-ft), Drawer to Wall/OEM PDU (250V/16A)||6472|
|Power Cord 2.7m (9-ft), Drawer to Wall/OEM PDU (250V/10A)||6473|
|Power Cord 2.7m (9-ft), Drawer to Wall/OEM PDU, (250V/13A)||6474|
|Power Cord 2.7m (9-ft), Drawer to Wall/OEM PDU, (250V/16A)||6475|
|Power Cord 2.7m (9-ft), Drawer to Wall/OEM PDU, (250V/10A)||6476|
|Power Cord 2.7m (9-ft), Drawer to Wall/OEM PDU, (250V/16A)||6477|
|Power Cord 2.7m (9-ft), Drawer to Wall/OEM PDU, (125V/15A or 250V/10A)||6488|
|Power Cord 2.7m (9-ft), Drawer to Wall/OEM PDU, (250V/10A)||6493|
|Power Cord 2.7m (9-ft), Drawer to Wall/OEM PDU, (250V/10A)||6494|
|Power Cord 4.3m (14-ft), Drawer to Wall/OEM PDU (125V/15A)||6660|
|Power Cord 2.8m (9.2-ft), Drawer to Wall/IBM PDU, (250V/ 10A)||6665|
|Power Cord 2.7m (9-ft), Drawer to Wall/OEM PDU, (250V/10A)||6680|
|Power Cord 2.7m (9-ft), Drawer to Wall/OEM PDU, (250V/10A)||6671|
|Power Cord 1.5m (5-ft), Drawer to Wall/OEM PDU, (250V/10A)||6672|
The IBM System Networking RackSwitch G8124E offers the following benefits:
- High performance: The 10G Low Latency (as low as 570 nanoseconds) switch provides the best combination of extremely low latency, non-blocking line-rate switching and ease of management.
- Lower power and better cooling: The G8124E uses as little power as two 60 W light bulbs, which is a fraction of the power consumption of most competitive offerings. Unlike side-cooled switches, which can cause heat recirculation and reliability concerns, the G8124E rear-to-front cooling design reduces data center air conditioning costs by having airflow match the servers in the rack. In addition, variable speed fans assist in automatically reducing power consumption.
- Virtual Fabric can help customers address I/O requirements for multiple NICs while also helping reduce cost and complexity. Virtual Fabric for IBM allows for the carving up of a physical NIC into multiple virtual NICs (2 - 8 vNICs) and creates a virtual pipe between the adapter and the switch for improved performance, availability, and security while reducing cost and complexity.
- VM aware Networking: VMready software on the switch helps reduce configuration complexity while significantly improving security levels in virtualized environments. VMready automatically detects virtual machine movement from one physical server to another, and instantly reconfigures each VM’s network policies across VLANs to keep the network up and running without interrupting traffic or impacting performance. VMready works with all leading VM providers such as VMware, Citrix, Xen, IBM PowerVM®, and Microsoft.
- Layer 3 functionality: The switch includes Layer 3 functionality, which provides security and performance benefits as inter-VLAN traffic stays within the chassis. This switch also provides the full range of Layer 3 protocols from static routes for technologies such as Open Shortest Path First (OSPF) and Border Gateway Protocol (BGP) for enterprise customers.
- Seamless Interoperability: IBM switches interoperate seamlessly with other vendors' upstream switches. For more information, see Tolly Reports: Tolly Functionality and Certification: RackSwitch G8000 and G8124 and Cisco Catalyst Interoperability Evaluation. For more information, visit the following website:
- Fault tolerance: These switches learn alternate routes automatically and perform faster convergence in the unlikely case of a link, switch, or power failure. The switch uses proven technologies, such as L2 trunk failover, advanced VLAN-based failover, VRRP, HotLink, Uplink Failure Detection (UFD), IGMP V3 snooping, and OSPF.
- Converged fabric: The switch is designed to support CEE/DCB and connectivity to FCoE gateways. CEE helps enable clients to combine storage, messaging traffic, VoIP, video, and other data on a common data center Ethernet infrastructure. FCoE helps enable highly efficient block storage over Ethernet for consolidating server network connectivity. As a result, clients can deploy a single server interface for multiple data types, which can simplify both deployment and management of server network connectivity, while maintaining the high availability and robustness required for storage transactions.
- Transparent networking capability: With a simple configuration change to Easy Connect mode, the RackSwitch G8124E becomes a transparent network device, invisible to the core, eliminating network administration concerns of Spanning Tree Protocol configuration/interoperability, VLAN assignments and avoids any possible loops.
By emulating a host NIC to the data center core, it accelerates the provisioning of VMs by eliminating the need to configure the typical access switch parameters.
Features and specifications
The following sections list the features and specifications.
The performance specifications are:
- 100% line rate performance
- Latency of 570 nanoseconds
- 480 Gbps non-blocking switching throughput (full duplex)
Features are listed for the following models:
- IBM System Networking RackSwitch G8124DC (DC Power): IBM PN 7309CD9
Rear-to-front airflow is ideal for servers or blade chassis with ports in back of rack.
Features are also listed for the enhanced models:
- IBM System Networking RackSwitch G8124E (Rear-to-Front): IBM PN 7309BR6 or MTM 1455-24E
Rear-to-front airflow is ideal for servers or blade chassis with ports in back of rack.
- IBM System Networking RackSwitch G8124E (Front-to-Rear): IBM PN 7309BF7
Front-to-rear airflow is ideal for IBM iDataplex or when needing ports in front of rack.
Hardware features are as follows:
- Interface options
- Twenty-four 10G SFP+ Ethernet ports
- 2x 10/100/1000 Ethernet RJ45 ports for Management
- One mini-USB Console port for management
- Server-like port orientations, enabling short and simple cabling
- Active DAC support for interoperability with Cisco Nexus 5k and Brocade
- Dimensions: 17.3” wide, 15” deep, 1 RU high
- Weight: 6.40 kg (14.08 lb)
- Rack Installation Kit
- Generic Rail Mount Kit (2-post)
- Optional IBM System Networking Adjustable 19" 4 Post Rail Kit
- System LEDs to indicate status
- LEDs to indicate master/member
- Rear-to-front or front-to-rear cooling
- Redundant variable speed fans for reduced power draw
- The AC-powered G8124E has dual load-sharing internal power modules, 50 - 60 Hz, 100 - 240 VAC auto-switching per module.
- The DC-powered G8124E has dual load-sharing internal -48 V DC power supplies, input voltage ranging from 42 V dc to 60 V dc per module.
- The nominal power for the G8124E ranges from 115 W to 168 W depending on the speed of the port (1G/10G), type of transceivers (SR or DAC), and number of active ports.
- Mean time between failures (MTBF): 189,060 hrs with ambient operating temperature of 40ºC MTBF is calculated using the Telcordia Technologies Reliability Prediction Procedure for Electronic Equipment (SR-332 issue 2), Parts Count (method 1 case 1) failure rate data.
- Environmental specifications
- Temperature: ambient operating: 0º C to +40º C
- Relative humidity: non-condensing, operating 10 to 90%
- Altitude: operating 2000 m (6561 feet)
- Acoustic noise: less than 65 dB
- Heat dissipation: 1100 BTU/hour (maximum)
Software features are as follows:
- Wire speed filtering: allow and deny
- SSH v1, v2
- HTTPS Secure BBI
- Secure interface login and password
- MAC address move notification
- Shift B Boot menu (password recovery/factory default)
- Port-based VLANs
- 4096 VLAN IDs supported
- 1 k VLANs (802.1Q)
- Private VLAN Edge
- FCoE/Lossless Ethernet
- 802.1 Data Center Bridging
- Priority-based Flow Control (PFC)
- Enhanced Transmission Selection (ETS)
- Data Center Bridge Exchange protocol (DCBX)
- FIP Snooping
- Fibre Channel over Ethernet
- Converged Enhanced Ethernet
- Static Trunks (EtherChannel)
- Configurable Trunk Hash algorithm
- Spanning Tree
- Multiple Spanning Trees (802.1s)
- Rapid Spanning Tree (802.1w)
- Fast Uplink Convergence
- BPDU guard
- Quality of service
- QoS 802.1p (priority queues)
- DSCP remarking
- Routing protocols
- RIP v1/v2
- High availability
- Uplink failure detection
- Virtual Router Redundancy support (VRRP)
- Active MultiPath (AMP)
- IGMP Snoopingv1, v2, and v3 with 2 K IGMP groups
- Protocol Independent Multicast (PIM sparse mode/dense mode)
- Port mirroring
- ACL-based mirroring
- sFlow Version 5
- VMready with VI API support
- vNIC MIB support for SNMP Management features
- System Networking Switch Center (SNSC)
- isCLI (Cisco-like)
- Scriptable CLI
- Browser-based client or Telnet
- Standard protocols
- SNMP v1, v2c, and v3
- Secondary NTP support
- Accept DHCP
- DHCP Relay
- 16 K MAC table
- 9 K jumbo frames
- 802.3X flow control
- Upgrade firmware via serial or TFTP
- Dual software images
The following sections describe popular configurations.
Virtual Fabric configuration
IBM Virtual Fabric for IBM System x is built using industry standards and is an ideal solution for customers that require more than two NICs per server. Over the past couple of years many clients have seen their I/O requirements per server increase anywhere from four to six to eight, or even more, NICs per server, especially with the adoption of virtualization. IBM Virtual Fabric allows clients the ability to use a virtual NIC approach using10G Ethernet technology to help reduce cost and complexity, and achieve better performance and more flexibility. For example:
- Reduce costs: (acquisition and operating) by using fewer adapters, cables, and upstream switch ports.
- Reduce complexity: Fewer items to manage, based on industry standards making thing easier to manage with the addition of high availability and better security.
- Better performance: Significantly more I/O bandwidth per server and lower latency than traditional 1G Ethernet.
- Flexibility: The ability to carve up a dual-port 10G adapter into 4 - 8 virtual NICs and create virtual pipes between the adapter and switch for higher availability and security. Not only can customers dynamically allocate I/O bandwidth to each virtual NIC, Virtual Fabric also provides the ability to change those allocations as needed. For example, a customer may have one configuration for workload during the day and another during the evenings. Virtual Fabric has the ability to make those changes on the fly without downtime.
IBM Virtual Fabric (Figure 2) is designed in partnership with Emulex. The components needed for this solution are as follows:
- Emulex 10Gb Virtual Fabric Adapter for IBM System x (for more information, see http://www.redbooks.ibm.com/Redbooks.nsf/RedbookAbstracts/tips0762.html?Open)
- IBM System Networking RackSwitch G8124E
Figure 2. IBM Virtual Fabric Adapter topology
Rack-optimized server aggregation: 10-GbE attached rack servers
Aggregation and servers are as follows:
- Concentration of rack-optimized servers, for example:
- IBM 1U or 2U servers with a 10G adapter installed
- IBM BladeCenter® using any of the following modules in the chassis:
- IBM BladeCenter 1/10Gb Uplink Ethernet Switch Module
- IBM BladeCenter Virtual Fabric 10Gb Switch Module
- 10Gb Ethernet Pass-Thru Module for IBM BladeCenter
- IBM Flex System™ using any of the following Ethernet modules in the chassis:
- IBM Flex System EN2092
- IBM Flex System Fabric EN4093/EN4093R
- Low-profile, high-performance, 24-port 10-GbE switch needed to perform aggregation function per rack
Figure 3 shows a G8124E top-of-rack switch.
Figure 3. G8124E top-of-rack switch
Table 5 lists the features and benefits of the switch.
Table 5. Features and benefits
|Line-rate, non-blocking, all 24-ports||Supports massive compute and virtualization workloads.|
|Less than 600 nano-second latency||Faster application response times.|
|Support for IGMP Snooping and L3 forwarding||Enables high-bandwidth, low-latency multicast applications.|
|Standards-based Layer 2/3 protocols, industry standard CLI||Interoperates with existing network. No learning curve.|
The design goal is a G8124E (10GbE) switch at Distribution Layer and G8000 (1GbE) at Edge/Access (Figure 4):
- Logical configuration: Configure G8000s for Layer 2 and apply static routes for L3 forwarding.
- Full Layer 2/3 feature set: STP, MSTP, RSTP, PVRST+;RIP v1/2, static routes, OSPF.
- Security: 802.1X; RADIUS/TACACS+; Wire Speed ACLs, SSH v1, v2; HTTPS Secure BBI.
- QoS: Up to eight queues/port, IEEE 802.1p and DiffServ prioritization.
Figure 4. Rack-optimized server aggregation logical design
10-GbE departmental cluster or server aggregation (option 1—L2 Config.)
Figure 5 shows the 10-GbE departmental cluster or server aggregation. Design goals are as follows:
- Less than 600 ns port-to-port latency
- Link aggregation of trunk connections: IEEE 802.3ad
- No STP uplink failure detection (UFD) to enable redundant paths
Figure 5. 10-GbE departmental cluster or server aggregation
Table 6 lists the items, descriptions, and quantities.
Table 6. Items, descriptions, and quantities
|Spine and leaf switches||G8124E||6|
|Interconnect cabling||SFP+ DAC||48|
IP storage over 10-GbE: Changing the economics of storage
G8124E benefits for IP storage applications (Figure 6):
- Lossless Ethernet Fabric
- Ultra-low latency for time-sensitive disk reads/writes
- Line-rate, high-bandwidth performance
- Low power consumption with fewer components
- Low-cost, pay-as-you-grow 10G storage network
Figure 6. G8124E benefits for IP storage over 10 GbE
For more information, visit http://www-947.ibm.com/support/entry/portal/Documentation to see the following IBM RackSwitch G8124E product resources:
- IBM RackSwitch G8052 Installation Guide:
- IBM RackSwitch G8124E isCLI Command Reference
- IBM RackSwitch G8124E Application Guide
- IBM RackSwitch G8124E Browser-Based Interface Quick Guide
- IBM RackSwitch G8124E Menu-Based Command Reference
For more information, see the following resources:
This material has not been submitted to any formal IBM test and is published AS IS. It has not been the subject of rigorous review. IBM assumes no responsibility for its accuracy or completeness. The use of this information or the implementation of any of these techniques is a client responsibility and depends upon the client's ability to evaluate and integrate them into the client's operational environment.