Specifications
Table Of Contents
- HP 8200 zl Switches
- Installation and Getting Started Guide
- Contents
- Introducing the HP 8200 zl Switches
- Installing the HP 8200 zl Switches
- Included Parts
- Power Cords
- Installation Procedures
- Summary
- Installation Precautions
- 1. Prepare the Installation Site
- 2. Mount the Switch Chassis
- 3. Install the Switch Modules
- 4. Install the Power Supplies
- 5. Verify the Switch Passes Self Test
- 6. Install the Grounding Wire
- 7. Connect the Switch to a Power Source
- 8. (Optional) Connect a Power Supply Shelf to the switch
- 9. Connect the Network Devices
- 10. (Optional) Connect a Console to the Switch
- Hot Swapping Switch Modules
- Example Network Topologies
- Getting Started With Switch Configuration
- Replacing Components
- Troubleshooting
- Specifications
- Switch Ports and Network Cables
- Cabling and Technology Information Specifications
- Mode Conditioning Patch Cord
- Twisted-Pair Cable/Connector Pin-Outs
- Safety and Regulatory Statements
- Recycle Statements
- Index
- Installation and Getting Started Guide
2-34
Installing the HP 8200 zl Switches
Example Network Topologies
Installing the HP 8200 zl
Switches
The illustration shows the 10-gig modules in different slots. However, for best
performance, they should be mounted in one of the first six slots in case of a
single power supply running the chassis.
Optimizing the 10-GbE Port Configuration
with standard zl modules
The 10-GbE ports on the HP 8200 zl switches are designed to deliver full 10
Gbps wire-speed to each port, where either one or two ports are in a linked
state with another device. When three or four 10-GbE ports are in a linked
state, when using an X2 (J8708A), CX4 (J8707A), or SFP+ (J9308A) module,
the 10-GbE ports support an aggregate bandwidth of 28.8 Gbps across the
linked ports.
As illustrated in the figure below, internally, there are two 14.4-Gbps channels
between each of the 4 10-GbE ports and the switch fabric.
Figure 2-18. 10-GbE port architecture showing ports grouped by 14.4 Gbps channel.
When any two 10-GbE ports are in a linked state, each port automatically
operates on its own channel, which guarantees 10 Gbps of bandwidth for each
port. However, when more than two ports are in a linked state, ports A1 and
A4 are statically mapped to share one 14.4 Gbps channel, while ports A2 and
A3 are statically mapped to share the other 14.4 Gbps channel.
To summarize:
■ If only one port in a given channel is in a linked state, then that port
operates at wire speed and the other port uses no bandwidth.
■ If both ports in a given channel are in a linked state, then the 14.4 Gbps of
bandwidth is balanced fairly between the two ports.