HP Hewlett Packard Switch 3500yl User Manual

Technical overview  
HP ProCurve Switch 5400zl, 3500yl, and  
6200yl Series  
Table of contents  
Executive summary.............................................................................................. 4  
Introduction.......................................................................................................... 4  
Product positioning.............................................................................................. 5  
Overview.......................................................................................................... 5  
HP ProCurve Switch 5400z and 3500yl Series ................................................ 6  
HP ProCurve Switch 6200yl-24G-mGBIC ...................................................... 6  
ProVision ASIC Architecture .............................................................................. 6  
Inside the ProVision ASIC Architecture .......................................................... 7  
Classification and Lookup ............................................................................ 7  
Policy Enforcement Engine .......................................................................... 8  
Network switch engine programmability...................................................... 8  
Fabric Interface............................................................................................. 8  
ProVision ASIC CPU ................................................................................... 9  
Fabric ASIC.................................................................................................. 9  
Management subsystem ................................................................................... 9  
Advanced capabilities of the product family.................................................... 9  
Versatile Intelligent Port (VIP)..................................................................... 9  
ProVision hardware resiliency...................................................................... 9  
HP ProCurve Switch 5400zl Series ................................................................... 10  
5400zl chassis layout...................................................................................... 11  
5412zl chassis layout...................................................................................... 12  
Power supplies................................................................................................ 13  
Fan tray........................................................................................................... 14  
zl modules ...................................................................................................... 15  
Management module .................................................................................. 15  
Line interface modules ............................................................................... 15  
Power supply configurations.......................................................................... 16  
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Appendix C: Power over Ethernet ..................................................................... 47  
PoE device types ............................................................................................ 47  
Power delivery options................................................................................... 48  
PoE negotiation .............................................................................................. 48  
Additional PoE power—external supplies ..................................................... 48  
Support for pre-802.3af standard powered devices........................................ 49  
Appendix D: PIM Sparse Mode......................................................................... 49  
Appendix E: LLDP-MED.................................................................................. 50  
Appendix F: Virus Throttle security .................................................................. 51  
Response options............................................................................................ 53  
Sensitivity....................................................................................................... 53  
Connection-rate ACL ..................................................................................... 53  
Appendix G: VRRP ........................................................................................... 53  
XRRP support on 5300xl switch.................................................................... 54  
Appendix H: OSPF Equal Cost Multipath......................................................... 55  
Appendix I: Advanced Classifier-Based QoS.................................................... 56  
Appendix J: Server-to-Switch Distributed Trunking ......................................... 57  
Limitations/Restrictions ................................................................................. 57  
Appendix K: Troubleshooting ........................................................................... 58  
LED status indicators for 5400zl series.......................................................... 58  
LED status indicators for 3500yl and 6200yl series....................................... 61  
Part numbers and Field Replaceable Units..................................................... 63  
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Executive summary  
HP ProCurve Networking has an extensive line of networking products built around the concept of the  
HP ProCurve Adaptive EDGE Architecture™ (AEA) that provides the security, mobility, and  
convergence capabilities that businesses demand while giving IT administrators the ability to adapt to  
the changing needs of their organizations and control their infrastructure centrally.  
This guide describes the HP ProCurve Switch 5400zl, 3500yl, and 6200yl series which are built upon  
the principles of the Adaptive EDGE Architecture, bringing intelligence and performance to the Edge  
in a cost-effective way and providing a platform for delivering the full Intelligent Edge capability. The  
foundation for these switches is a purpose-built ProVision™ ASIC that allows the most demanding  
networking features, such as quality of service (QoS) and security, to be implemented in a scalable yet  
granular fashion. With a high-performance architecture, 10-GbE capability, and programmable ASIC,  
these switches offer excellent investment protection, flexibility, and scalability.  
Introduction  
The current revision of this guide covers the following HP ProCurve switch products:  
HP ProCurve Switch 5406zl Intelligent Edge (J8697A)  
The HP ProCurve Switch 5406zl is a 4U switch with six zl line interface module slots designed to  
support up to 144 Gigabit ports or 24 10-Gigabit ports. The throughput of the 5406zl switch fabric is  
capable of up to 214 million (64 byte) packets per second (Mpps) with a backplane speed of 346 Gbps.  
HP ProCurve Switch 5412zl Intelligent Edge (J8698A)  
The HP ProCurve Switch 5412zl is a 7U switch with twelve zl line interface module slots designed to  
support up to 288 Gigabit ports or 48 10-Gigabit ports. The throughput of the 5412zl switch fabric is  
capable of up to 428 Mpps with a backplane speed of 692 Gbps.  
HP ProCurve Switch 3500yl-24G-PWR Intelligent Edge (J8692A)  
The HP ProCurve Switch 3500yl-24G-PWR is a 1U switch designed to support 20 10/100/1000 PoE  
ports, four dual-personality ports, and four 10-Gigabit ports. The throughput of the 3500yl-24G-PWR  
switch fabric is capable of up to 74 Mpps with a backplane speed of 115 Gbps.  
HP ProCurve Switch 3500yl-48G-PWR Intelligent Edge (J8693A)  
The HP ProCurve Switch 3500yl-24G-PWR is a 1U switch designed to support 44 10/100/1000 PoE  
ports, four dual-personality ports, and four 10-Gigabit ports. The throughput of the 3500yl-24G-PWR  
switch fabric is capable of up to 110 Mpps with a backplane speed of 173 Gbps.  
HP ProCurve Switch 6200yl-24G-mGBIC (J8992A)  
The HP ProCurve Switch 6200yl-24G-mGBIC is a 1U switch designed to support up to 24 mini-GBIC  
ports and up to four 10-Gigabit ports. The 6200yl-24G-mGBIC is designed to be deployed as an  
aggregator of traffic from the edge to the core of the network. The throughput of the 6200yl-24G-  
mGBIC switch fabric is capable of up to 74 Mpps with a backplane speed of 115 Gbps.  
This guide is written primarily for technical evaluators and product reviewers of networking equipment  
and solutions.  
This guide provides detailed information and specifications about the HP ProCurve Switch 5400zl,  
3500yl, and 6200yl series products, with the assumption that details about standard protocols can be  
referenced externally by those familiar with general networking.  
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Product positioning  
Overview  
A widely used method for segmenting the areas in which switches are installed calls for three different  
classifications: access, distribution, and core. Access switches provide aggregation of end nodes for  
connection to a distribution or core switch and are usually found in wiring closets. Distribution  
switches aggregate the links from access switches and possibly server farms. Distribution switches  
anchor the network in a building, or, for small networks, across a campus. Core switches provide the  
focal point of the local network, aggregating the distribution switches, providing connectivity for  
central site data centers, and providing connectivity in many cases to the external network.  
Regardless of your network’s architecture—whether you have adopted HP ProCurve’s Adaptive  
EDGE Architecture with its intelligence at the edge, or perhaps you use a traditional architecture that  
concentrates intelligence at the center of the network—you have a choice of wiring topologies to  
implement that architecture.  
The intelligence and throughput of the HP ProCurve Switch 3500yl, 5400zl, and 6200yl Series make  
them suitable for applications at or near the edge of networks of all sizes, or in the center of networks  
that are small-to-moderate in size. The Switch 8200zl offers the same ProVision ASIC intelligence and  
throughput with a redundant management module design and flexible switch fabric modules for  
demanding, high-availability applications, whether at the core, distribution, or edge of your network.  
The modular structure of both the HP ProCurve Switch 8200zl and 5400zl Series gives you the  
flexibility to tailor the switch to match your topology’s requirements. The HP ProCurve Switch  
6200yl, an advanced Layer 3 stackable, is designed to be deployed as an aggregator of traffic from the  
edge to the core of the network. The HP ProCurve Switch 6600, an advanced Layer 3 stackable with  
front-to-back cooling and integrated redundant power, is specifically designed to be deployed as a data  
center top-of-rack switch for high performance server access layer connectivity.  
The foundation for all of these switches is a purpose-built, programmable ProVision ASIC that allows  
the most demanding networking features, such as QoS and security, to be implemented in a scalable  
yet granular fashion. A high-capacity switch fabric, based on the most recent ProVision ASIC  
architecture, is integrated with the switch backplane. The HP ProCurve Switch 3500yl, 5400zl, 6200yl,  
6600, and 8212zl Series have been designed as a product family, using the ProVision ASICs and  
software, providing consistency and scalability across the family.  
The ProVision ASICs are aimed at accomplishing several objectives:  
Provide a great engineering balance between feature capabilities, performance, and price  
Bring sophisticated control features to the edge of the network  
Have programmable features that allow future requirements to be accommodated in the ASICs  
Key features of the HP ProCurve Switch 3500yl, 5400zl, 6200yl, 6600, and 8200 series include:  
Performance—high-capacity switch fabric (from 115 Gbps to 692 Gbps backplane speed),  
bandwidth shaping and control, quality of service, L2 and L3 jumbo frames  
Security—ACLs (per-port or identity-driven); virus throttle; switch CPU protection; detection of  
malicious attacks; DHCP protection; BPDU port protection; Dynamic ARP protection; Dynamic IP  
lockdown; STP root guard; IP and MAC lockdown/lockout; 802.1X, Web, and MAC user  
authentication; USB secure autorun; and management access control (SSH, SSL, TACACS+,  
secure FTP)  
Operational flexibility—high-port density in 4U and 7U form factors, Versatile Intelligent Ports  
(10/100/1000, PoE-enabled), power supply choices for optimum PoE  
Resiliency—redundant power supplies, hot-swappable/hot-insertable modules, MSTP, switch  
meshing, VRRP, OSPF-ECMP  
Layer 2-GVRP, VLAN, Q-in-Q  
IP Routing—RIPv1, RIPv2, OSPF, PIM-SM, PIM-DM, static route  
Solution integration: 8200zl-hosted application/services deployment via HP ProCurve ONE  
Services zl Module  
IPv6-host, IPv4/IPv6 dual stack, ACL, QoS, and MLD snooping  
Convergence-IP multicast snooping (data-driven IGMP), LLDP-MED, RADIUS VLAN, PoE  
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Diagnostic—remote intelligent mirroring, loopback interface, UDLD, sFlow support  
Investment protection—upgradable management engine and CPU (for 5400zl and 8200zl Series),  
upgradable to Premium License feature group, add-in modules and power supplies (for 5400zl and  
8200zl Series), Versatile Intelligent Ports, programmable ASICs  
HP ProCurve Switch 5400zl and 3500yl Series  
The HP ProCurve Switch 5400zl and 3500yl series consist of the most advanced intelligent edge  
switches in the HP ProCurve product line. The 5400zl series includes 6-slot and 12-slot chassis and  
associated zl modules and bundles, and the 3500yl series includes 24-port and 48-port stackables.  
With a variety of Gigabit interfaces, integrated Power over Ethernet (PoE) on all 10/100/1000Base-T  
ports, 10-GbE capability, and a choice of form factors, the 5400zl and 3500yl switches offer excellent  
investment protection, flexibility, and scalability, as well as ease of deployment, operation, and  
maintenance.  
The 5400zl and 3500yl switches are targeted as enterprise-class wiring closet switches—designed for  
low cost with a choice of medium to high port density. Voice, video, and data ready, the HP ProCurve  
Switch 5400zl and 3500yl series offer extensive prioritization features that bring full convergence  
down to the desktop. Integrated PoE minimizes wiring requirements for VoIP phones and wireless  
access points. The HP ProCurve Switch 5400zl and 3500yl series provide fine-grained security at the  
edge of the network to lock out external threats, yet provide appropriate access to employees and  
guests. Collectively, these features make the 5400zl and 3500yl switches well-suited for the access tier.  
For some customers, the Layer 3 features and redundant power supply features of the HP ProCurve  
Switch 5400zl series also make it well-suited as a distribution switch. New to the 5400zl and 3500yl  
series is the optional deployment of a Premium License feature group as opposed to the standard  
offerings of the Intelligent Edge feature group. The Premium License contains all of the Intelligent  
Edge features plus additional features oriented towards routing that are useful when deploying the  
switch at the distribution level of the network. The Premium License feature group includes protocols  
such as PIM-SM, PIM-DM, OSPF-ECMP, and VRRP.  
HP ProCurve Switch 6200yl-24G-mGBIC  
The HP ProCurve Switch 6200yl-24G-mGBIC is an advanced Layer 3 stackable in 1U height. It has  
24 mini-GBIC slots and an expansion slot for an optional 4-port 10-GbE module. Designed to be  
deployed as an aggregator of traffic from the edge to the core of the network, this switch supports a  
variety of Gigabit mini-GBICs, such as SX, LX, LH, and 1000Base-T. The Premium License feature  
group is standard on the HP ProCurve Switch 6200yl-24G-mGBIC.  
Like the 5400zl and 3500yl series switches, the foundation for this switch is a purpose-built ProVision  
ASIC that allows the most demanding networking features, such as QoS and security, to be  
implemented in a scalable yet granular fashion. With its high-performance architecture, 10-GbE  
capability, and programmable ASIC, this switch offers excellent investment protection, flexibility, and  
scalability.  
ProVision ASIC architecture  
The ProVision application-specific integrated circuit (ASIC) architecture is the latest generation HP  
ProCurve ASIC technology and is used in the HP ProCurve Switch 5400zl, 3500yl, and 6200yl series.  
The ProVision ASIC architecture consists of multiple network chips interconnected by an active  
crossbar consisting of the fabric chip. A network chip is implemented on each of the various line  
interface modules (also known as line cards). The fabric chip is integrated on the switch backplane,  
which helps reduce the overall size of the switch.  
Each network chip represents a node in the system with “links” connecting to the interconnect fabric.  
Each link provides approximately 28.8 Gbps of data bandwidth. In addition, a management module  
with a dedicated CPU provides communications control between the network chips and fabric chips.  
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Figure 1. ProVision ASIC Architecture for HP ProCurve Switch 5406zl  
The diagram above illustrates an example of the logical interconnection of the ProVision ASICs on the  
6-slot 5406zl series switch. All of the key elements are connected to the active backplane. The active  
backplane contains the switch fabric and distributes power to all modules. The HP ProCurve Switch  
5412zl, 3548yl, 3524yl, and 6224yl have similar architectural components. The primary difference in  
the illustration would be the number of ports supported.  
Inside the ProVision ASIC Architecture  
Each line interface module contains a full ASIC-based Layer 3 routing switch engine as well as Layer  
4 filtering and metering. These new ProVision ASICs are HP ProCurve’s 4th-generation switching  
ASICs. This network switch engine, in the ProVision ASICs, provides all the packet processing: Layer  
2 and Layer 3 lookups; filtering and forwarding decisions; VLAN, trunking, and priority queuing  
determinations. The ProVision ASIC on each line card contains its own CPU. These features of the  
ProVision ASIC are common for all products in the HP ProCurve Switch 5400zl, 3500yl, and 6200yl  
series.  
Classification and lookup  
When a packet first comes in, the classifier section determines the packet characteristics, its addresses,  
VLAN affiliation, any priority specification, etc. The packet is stored in input memory; lookups into  
the table memory are done to determine routing information; and a ProVision ASIC-specific packet  
header is created for the packet with this information. This header is then forwarded to the Policy  
Enforcement Engine.  
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Policy Enforcement Engine  
The ProVision ASICs on each line interface module contain the Policy Enforcement Engine. This  
engine provides fast packet classification to be applied to ACLs, QoS, Rate Limiting, and some other  
features through an onboard TCAM. Some of the variables that can be used include source and  
destination IP addresses (can follow specific users), TCP/UDP port numbers, and ranges (apply ACLs  
to an application that uses fixed port numbers or ranges). Over 14 different variables can be used to  
specify the packets to which ACL and QoS rules, rate limiting counters, and others are to be applied.  
Partially implemented in the initial software release, the Policy Enforcement Engine will provide a  
common front end for the user interface to ACLs, QoS, rate limiting, and some other services. In  
subsequent software releases for the switches, more features can take advantage of the Policy  
Enforcement Engine to provide a powerful, flexible method for controlling the network environment.  
For example, traffic from a specific application can be raised in priority for some users, blocked for  
some other users, and limited in bandwidth for yet other users. After the Policy Enforcement Engine,  
the header is then forwarded to the programmable section of the network switch engine.  
Network switch engine programmability  
Each ProVision ASIC switch engine contains multiple programmable units, making them truly  
Network Processor Units (NPUs). One of the functions of the NPU is to analyze the header of each  
packet as it comes into the switch. The packet’s addresses can be read with the switch making  
forwarding decisions based on this analysis. For example, if a packet’s 802.1Q tag needs to be changed  
to re-map the packet priority, the ProVision ASIC needs to look at each packet to see if any particular  
one needs to be changed. This packet-by-packet processing has to occur very quickly to maintain  
overall wire-speed performance – a capability of the ProVision ASICs.  
To broaden the flexibility of the ProVision ASICs, a programmable function is included for its packet  
processing. This NPU function allows the HP ProCurve designers the opportunity to make some future  
changes or additions in the packet processing features of the ASIC by downloading new software to it.  
Thus, new features needing high-performance ASIC processing can be accommodated, extending the  
useful life of the switch without the need to upgrade or replace the hardware. In the first release of the  
HP ProCurve Switch 5400zl, 3500yl, and 6200yl series, the NPU function within the ProVision ASICs  
is totally unused, awaiting future upgrades.  
The concept of adding the programmable functionality of the NPU within a switching ASIC was  
originally designed and implemented in the popular HP ProCurve Switch 4000M family introduced in  
1998. The programmable capability of the HP ProCurve Switch 5300xl was a second-generation  
design based on the original HP ProCurve Switch 4000M implementation. The programmable  
capability was used to give both the HP ProCurve Switch 4000M and Switch 5300xl new ASIC-related  
features well after initial release of those products. The customers’ investments in the HP ProCurve  
Switch 4000M and 5300xl are preserved by new functionality not otherwise possible without the ASIC  
NPU programmability.  
Being based on the HP ProCurve Switch 4000M and 5300xl implementations, the NPU capabilities of  
the ProVision ASICs used in the HP ProCurve Switch 5400zl, 3500yl, and 6200yl series are a third-  
generation design.  
Fabric Interface  
After the packet header leaves the programmable section, the header is forwarded to the Fabric  
Interface. The Fabric Interface makes final adjustments to the header, based on priority information,  
multicast grouping, etc., and then uses this header to modify the actual packet header as necessary.  
The Fabric Interface then negotiates with the destination ProVision ASICs for outbound packet buffer  
space. If congestion is present on the outbound port, WRED (weighted random early detection) can be  
applied at this point as a congestion-avoidance mechanism. Finally, the ProVision ASICs Fabric  
Interface forwards the entire packet through the Fabric-ASIC to an awaiting output buffer on the  
ProVision ASICs that controls the outbound port for the packet. Packet transfer from the ProVision  
ASICs to the Fabric-ASIC is accomplished using the 28.8 Gbps full-duplex backplane connection, also  
managed by the Fabric Interface.  
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ProVision ASIC CPU  
Each ProVision ASIC contain its own CPU for learning of Layer 2 nodes, packet sampling for the  
XRMON function, handling local MIB counters, and running other module-related operations. Overall,  
the local CPU offloads the master CPU by providing a distributed approach to general housekeeping  
tasks associated with every packet. MIB variables, which need to be updated with each packet, can be  
done locally. The Layer 2 forwarding table is kept fresh through the use of this CPU. Other per-port  
protocols, such as Spanning Tree and LACP, are also run on this CPU. The local CPU, being a full-  
function microprocessor, allows functionality updates through future software releases.  
Fabric ASIC  
The Fabric ASIC, which is located on the backplane of the switch, provides the crossbar fabric for  
interconnecting the modules together. The use of a crossbar allows wire-speed connections  
simultaneously from any module to any other module. As mentioned in the ProVision ASICs section,  
the connection between the Fabric-ASIC and each line interface module’s ProVision ASIC is through a  
28.8 Gbps full-duplex link.  
Management subsystem  
The management subsystem is responsible for overall switch management. The management  
subsystem consists of a CPU, flash memory to hold program code, processor memory for code  
execution, status LEDs and pushbuttons, a console interface, and other system support circuitry to  
interface and control each line interface module. In the case of the 5400zl series switch, the  
management subsystem is on a module that is removable/upgradable. Each 5400zl series chassis  
requires one management module to function. For the HP ProCurve Switch 3500yl and 6200yl series,  
the management subsystem is an integrated component.  
Advanced capabilities of the product family  
The HP ProCurve Switch 5400zl, 3500yl, and 6200yl series product family includes a number of  
advanced capabilities that offer a highly reliable, robust chassis data environment that leads to  
increased network uptime, keeping overall network costs down.  
Versatile Intelligent Port (VIP)  
All Gigabit copper ports are PoE enabled and tie into the overall capabilities of the switch, such as the  
Policy Enforcement Engine. Having the VIP, any port can be connected to any place in the network. If  
a PC needs Gigabit connectivity, it is available. If an AP needs PoE, it is there. And if for some reason,  
these ports need to be swapped on the switch, that can be done by just moving the cables at the switch  
or patch panel.  
The Versatile Intelligent Port provides a high degree of flexibility, makes troubleshooting easier, and  
provides a high degree of future-proofing.  
ProVision hardware resiliency  
Many functions required in a switch have been implemented in the single ASIC on the module. What  
requires a number of chips in other vendor products is achieved in a single ProVision ASIC, which  
keeps the part count low and increases overall reliability of the module by a significant degree.  
Another engineering aspect in the ASIC is hardware error detection with correction in software for the  
memory used by the switch. This capability includes the memory used for forwarding the network  
traffic such as the routing and forwarding tables, the Policy Enforcement Engine information, multicast  
tables, and other data structures. Traffic sent across the backplane uses a protocol to check that there is  
space available at the destination module so that fabric data is not lost.  
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HP ProCurve Switch 5400zl Series  
The HP ProCurve Switch 5400zl series is a high-end edge switch. This switch series has been designed  
to be a feature-oriented high-performance wiring closet switch. It can also be used as a low-to-medium  
distribution switch when used with Premium License, described later in this document.  
The 5400zl series is the latest generation of managed chassis products from HP ProCurve. The 5400zl  
series follows in the evolution of HP ProCurve managed chassis switches, featuring Power over  
Ethernet (PoE) on every copper port, chassis flexibility in the stackable price range, and a scalable  
architecture.  
The 5406zl and 5412zl switches each require a single management module that initializes, controls,  
and monitors the various line and service modules and the switch fabric. The 5406zl switch has six  
slots available for population with interface modules, whereas the 5412zl switch has twelve slots  
available. The 5406zl and 5412zl switches support the same line interface and service modules. The  
line interface modules are the 24-port 10/100/1000, 20-port 10/100/1000 + 4-port mini-GBIC, 24-port  
mini-GBIC, 4-port 10-GbE X2, and 4-port 10-GbE CX4. The service modules include the Wireless  
Edge Services (WESM) zl Module and the HP ProCurve ONE Services zl Module. The 5406zl switch  
supports up to two internal power supplies, and the 5412zl switch supports up to four internal power  
supplies. The power supplies can be used for purposes of power redundancy or for additional PoE  
requirements.  
The base configuration for the 5406zl (J8697A) includes a management module, Intelligent Edge  
software, and 6 open slots. Line interface modules can be added as needed for connectivity. The base  
configuration for the 5412zl (J8698A) includes a management module, Intelligent Edge software, and  
12 open slots. Line interface modules can be added to the 5412zl as needed for connectivity. Note that  
NO power supplies ship with base chassis products—they must be ordered separately.  
The management module monitors the ambient temperature of the system. In the event the temperature  
exceeds a product-specified threshold, an SNMP trap and event log entry are generated.  
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ProCurve Switch 5400zl Chassis  
ProCurve Switch 5406zl  
ProCurve Switch 5400zl Bundles  
ProCurve Switch 5406zl-48G  
(J8699A)  
(J8697A)  
ProCurve Switch 5412zl  
ProCurve Switch 5412zl-96G  
(J8698A)  
(J8700A)  
Figure 2. HP ProCurve Switch 5400zl Chassis and Bundles  
The HP ProCurve Switch 5406zl-48G Intelligent Edge (J8699A) and 5412zl-96G Intelligent Edge  
(J8700A) are preconfigured bundles that offer a pretested environment and a lower cost starter switch  
to which additional modules can be added. The major components of these preconfigured bundles are  
the following:  
5406zl-48G Intelligent Edge  
6-slot chassis  
5412zl-96G Intelligent Edge  
12-slot chassis  
1 management module  
1 fabric module  
1 management module  
2 fabric modules  
48 10/100/1000 PoE ports  
4 open slots  
96 10/100/1000 PoE ports  
8 open slots  
1 fan tray (2 fans)  
1 fan tray (4 fans)  
1 internal 875W power supply  
1 open power-supply slot  
Intelligent Edge software  
2 internal 875W power supplies  
2 open power-supply slots  
Intelligent Edge software  
5400zl chassis layout  
The HP ProCurve Switch 5406zl chassis is rack-mountable with a 4U height, and the Switch 5412zl is  
rack-mountable with a 7U height. The line interface modules are inserted in the front slots, labeled A  
through F on the 5406zl, and A through L on the 5412zl.  
The management module is removable/replaceable and occupies a dedicated slot in the front. The  
switch does not have to be powered-off to remove the management module.  
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However, when the management module is removed, all ports lose communication and the system will  
be powered down.  
Figure 3. HP ProCurve Switch 5406zl chassis layout  
Figure 4. HP ProCurve Switch 5412zl chassis layout  
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The internal power supplies are inserted in the back slots. These slots are labeled PS1 and PS2 on the  
5406zl and PS1 through PS4 on the 5412zl. A power supply is hot-swappable provided at least one  
other power supply is operational. If the 5412zl has only two power supplies and one of them fails,  
then only the upper six slots (slots A through F) will receive power.  
Power supplies  
There are two different power supplies available for the HP ProCurve Switch 5400zl series. Both  
power supplies provide system power (the power needed to run the switch itself) and PoE power (the  
power sent down the Ethernet cable to power the device at the other end). The only difference between  
the two supplies is the amount of PoE power available from the supply.  
All HP ProCurve Switch 5400zl series chassis use the same power supplies. There are two internal  
power supplies available:  
875W (110V/220V)  
1500W (220V)  
As indicated in the following figure, the internal power supply provides both system power as well as  
PoE. The HP ProCurve Switch 5400zl series, as well as the 3500yl series, can power any device that  
adheres to the IEEE 802.1af standard. In addition, devices using pre-standard Cisco PoE power can  
also be powered. The switches will automatically detect what type of power and how much is needed  
when a compatible device is plugged into the port.  
It is recommended that you use the same power supply model for all power supplies installed in a  
given 5400zl series chassis.  
System  
power  
Power supply types  
PoE power  
875W Internal Power Supply  
875W Power Supply  
J8712A  
600W  
273W  
(110/220 VAC)  
1500W Power Supply  
J8713A  
600W  
0
900W  
(220 VAC only)  
HP ProCurve Switch zl  
Power Supply Shelf  
(J8714A)  
Up to 1800W  
Figure 5. Power supply choices  
The internal power supplies provide system power for all internal components (+12V output within +/-  
5% tolerance, regulated) and power for PoE ports (-48V output within +/- 5% tolerance, regulated),  
which meets isolation and noise requirements of the IEEE 802.3af specification.  
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Both internal supplies have over-current, over-temperature, and over-voltage protection, as well as  
integrated fans. Hot swapping is allowed, taking into account that disconnecting the power supplies  
may interrupt PoE operation.  
An external power shelf, the HP ProCurve Switch zl Power Supply Shelf, is available to house up to  
two switch zl power supplies. The power shelf supplies can be connected to one or two switch zl’s to  
provide additional PoE power, either to power additional PoE-powered devices, or to provide more  
power for PoE power redundancy. The supplies in the power shelf are connected to the switch(es) via  
one or two 2m EPS cables. The PoE power provided is added to the internal power supply PoE power  
to figure the total amount of PoE power to the ports in the switch.  
While the connectors on the EPS connector cable will fit the connectors on the 3500 switches, no  
power will flow from the power shelf. Extra PoE power for the 3500 switch can be obtained with the  
HP ProCurve 620 Redundant/External Power Supply.  
Fan tray  
The fan tray assembly contains the cooling fans for the interior of the 5400zl series chassis, but  
excludes the chassis power supplies, which have their own internal cooling fans. The 5406zl fan tray  
consists of 2 variable-speed fans, and the 5412zl fan tray consists of 4 variable-speed fans. The fan  
speed is based on the sensed ambient temperature of the chassis.  
The fan tray is mounted on the left side of the chassis (from a front-view perspective), and the fans  
draw air through ventilation holes to the left and blow the air out through ventilation holes to the right  
(side-to-side airflow).  
The fan tray is hot-swappable in the 5406zl and 5412zl. It can be removed and replaced without  
removing power from the switch. However, the new fan tray should be installed immediately after  
removing the old fan tray to avoid overheating and automatic switch shutdown within three minutes.  
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In the event of an individual fan failure, an SNMP trap and event log entry are generated.  
Figure 6. Fan tray for switch 5406zl (J8697-60005)  
zl modules  
Management module  
All configurations of the HP ProCurve Switch 5400zl series include a single management module that  
oversees the operation of the line interface modules and switch fabric. The management module  
incorporates an RS-232 serial port for local management and configuration. To connect to the console,  
a standard null modem cable is used.  
Figure 7. HP ProCurve Switch 5400zl series management module  
Line interface modules  
The HP ProCurve Switch 5400zl series supports a variety of popular line interface modules, providing  
customers with the ability to change or scale their LAN links and adapt as the needs of the business  
environment change over time.  
A variety of line interface modules are available for HP ProCurve Switch 5400zl series:  
J8702A HP ProCurve Switch 5400zl 24-port 10/100/1000 PoE Module  
J8705A HP ProCurve Switch 5400zl 20-port 10/100/1000 + 4-port Mini-GBIC Module  
J8706A HP ProCurve Switch 5400zl 24-port Mini-GBIC Module  
J8707A HP ProCurve Switch 5400zl 4-port 10-GbE X2 Module  
J8708A HP ProCurve Switch 5400zl 4-port 10-GbE CX4 Module  
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Each of the copper-based line interface modules provides integrated PoE capability.  
20-port 10/100/1000 + 4-port Mini-GBIC  
24-port 10/100/1000  
24-port Mini-GBIC  
4-port 10-GbE CX4  
4-port 10-GbE X2  
Wireless Edge Services Module  
HP ProCurve ONE Services zl Module  
Figure 8. HP ProCurve Switch 5400zl series line interface modules  
Power supply configurations  
The Switch 5406zl provides slots for two internal supplies and requires at least one internal power  
supply. An additional internal power supply may be added for 1+1 redundancy system power or to  
provide additional PoE power.  
The Switch 5412zl provides slots for four internal supplies and requires at least two internal power  
supplies. Two additional internal power supplies may be added for 1+1 system power redundancy or  
to provide additional PoE power.  
1+1 power supply redundancy implies providing twice the minimum number of supplies required to  
power the system.  
The table below shows the HP ProCurve Switch 5400zl series minimum and maximum internal power  
supply configurations, as well as internal combined power with external power shelf configurations.  
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Internal +  
external  
Switch model  
Minimum internal  
Maximum internal  
5406zl  
5412zl  
1
2
2
4
4
6
Table 1. Minimum and maximum power supply support  
When deciding on which and how many power supplies to configure for a 5400zl series switch, the  
following criteria can be used to guide the decision:  
How much power will be required for each PoE port, full (15.4 watts) or phone (8 watts) power?  
How many network devices will require power (how many PoE ports are needed)?  
Is redundant power required (for internal power and/or PoE power)?  
Note that the power supplies provide a “pool” of power for all line interface modules to draw from;  
that is, PoE power is not limited on a per line interface module basis.  
Number of PoE ports  
at 15.4W  
Number of PoE ports  
at 8W  
Total PoE  
power  
(watts)  
Power supply  
configuration  
No  
With 1+1  
No  
With 1+1  
redundancy  
redundancy  
redundancy  
redundancy  
1—875W  
(J8712A)  
273  
17  
N/A  
34  
N/A  
2—875W  
(J8712A)  
546  
35  
17  
68  
34  
1—1500W  
(J8713A)  
900  
58  
N/A  
58  
112  
144 *  
144 *  
N/A  
112  
144*  
2—1500W  
(J8713A)  
1800  
3600  
116  
144 *  
4—1500W **  
(J8713A)  
114  
Table 2. Examples of maximum number of PoE ports for 5406zl switch  
* 5406zl switch fully loaded with 6 modules provides up to 144 ports  
** Using the HP ProCurve Switch zl Power Supply Shelf  
The table above shows examples of the maximum number of PoE ports that can be supported by the  
5406zl switch. One section shows the maximum number of PoE ports at full power (Class 0 – 15.4  
watts), and the next section shows the maximum number of PoE ports at phone power (8 watts) for  
each configuration. These categories are further subdivided based on whether a second internal power  
supply is used to provide power redundancy in the event one of the power supplies fails.  
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Note that two 875W internal power supplies cannot supply sufficient PoE power to a 5406zl switch  
fully populated with 24-port line interface modules (144 ports). Two 1500W power supplies can be  
used to supply full PoE power (15.4 watts) to 116 ports.  
Number of PoE ports  
at 15.4W  
Number of PoE ports  
at 8W  
Total  
PoE  
power  
(watts)  
Power supply  
configuration  
No  
With 1+1  
No  
With 1+1  
redundancy  
redundancy  
redundancy  
redundancy  
2875W  
(J8712A)  
546  
35  
70  
17  
68  
34  
4875W  
(J8712A)  
1092  
1800  
3600  
5400  
35  
58  
136  
68  
112  
21500W  
(J8713A)  
116  
233  
288 *  
225  
41500W  
(J8713A)  
116  
165  
288 *  
288 *  
225  
61500W **  
(J8713A)  
288 *  
Table 3. Examples of maximum number of PoE ports for 5412zl switch  
* 5412zl fully loaded with 12 modules provides up to 288 ports  
** Using the HP ProCurve Switch zl Power Supply Shelf  
The table above shows examples of the maximum number of PoE ports that can be supported by the  
5412zl switch. One section shows the maximum number of PoE ports at full power (Class 0 – 15.4  
watts), and the next section shows the maximum number of PoE ports at phone power (8 watts) for  
each configuration. These categories are further subdivided based on whether the internal power  
supplies (1 of 2 or 2 of 4) are to provide power redundancy in the event a power supply fails.  
Note that four 875W internal power supplies cannot supply sufficient PoE power to a 5412zl switch  
fully populated with 24-port line interface modules (288 ports). Four 1500W power supplies can be  
used to supply full PoE power (15.4 watts) to 233 ports.  
For additional information about power supply configurations, see the HP ProCurve Switch  
5400zl/3500yl Series Ordering Guide that can be found in the HP ProCurve Networking Reference  
Specifications  
Management module  
The HP ProCurve Switch 5406zl and 5412zl use a common management module that provides overall  
chassis management. The figure following illustrates the major components of the management  
module.  
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Figure 9. HP ProCurve Switch 5406zl management module block diagram  
Processor  
The CPU processor is a Freescale PowerPC 8540 operating at 667 MHz.  
Memory  
SDRAM  
Synchronous Dynamic RAM is used for the storage of uncompressed executable code and data  
structures. The SDRAM consists of a 256 MB DDR-1 DIMM in the base module, expandable up to 1  
GB. The DDR-1 interface is 64 bits running at 166 MHz bus speed (333 MHz data rate).  
Flash  
The flash consists of a 128 MB Compact Flash expandable up to 1 GB, and a 4 MB mirror-bit flash.  
The mirror-bit flash is used for initial boot code. The Compact Flash is used for non-volatile  
configuration storage, and compresses code storage. The Compact Flash is socketed for future upgrade  
capability.  
The Compact Flash may be programmed in a bulk fashion or one sector at a time. Since all application  
code is executed out of SDRAM, the Compact Flash may be programmed while the router is  
operational. The Compact Flash is sized such that a backup copy of an older revision of application  
code may also be stored.  
Console port  
The management module incorporates one RS-232 serial port for local management and configuration.  
This port uses a DB-9 male connector mounted on the front panel. To connect to the console, a  
standard null modem cable is used equivalent to that used for other HP ProCurve switches like the HP  
ProCurve 5300xl series.  
Auxiliary port  
The management module includes a USB auxiliary port for use in future releases of the software.  
Line interface modules  
The following is a description of the line interface modules supported by the HP ProCurve Switch  
5406zl and 5412zl.  
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HP ProCurve Switch 5400zl 24p 10/100/1000 PoE Module (J8702A)  
Description  
This line interface module has 24 10/100/1000Base-T ports that provide Gigabit-over-copper  
connectivity for wiring closets, enabling high-density Gigabit connectivity to the desktop over  
Category 5 copper cabling. Each port is capable of providing IEEE 802.3af compliant Power over  
Ethernet (PoE) to power IP phones, wireless access points, and other devices. Pre-standard powered  
devices can also be supported.  
Ports  
IEEE Auto-MDI: yes  
Duplex: half or full  
Connectors: RJ-45  
HP ProCurve Switch 5400zl 20-port 10/100/1000 + 4-port Mini-GBIC Module (J8705A)  
Description  
This line interface module has 20 10/100/1000Base-T ports that provide Gigabit-over-copper for  
wiring closets, enabling high-density Gigabit connectivity to the desktop over Category 5 copper  
cabling. Each port is capable of providing IEEE 802.3af compliant Power over Ethernet (PoE) to  
power IP Phones, Wireless Access Points and other devices.  
In addition, this module provides 4 mini-GBIC ports for uplinks and intra-building connections. They  
can be trunked to provide up to 4 Gigabits of connectivity. Two such modules can have their ports  
trunked across both modules to provide module redundancy as well.  
Ports  
4 open mini-GBIC slots  
IEEE Auto-MDI: yes  
Duplex: half or full  
Connectors: RJ-45  
Mini-GBICs supported (ordered separately)  
J4858C HP ProCurve Gigabit-SX-LC Mini-GBIC  
J4859C HP ProCurve Gigabit-LX-LC Mini-GBIC  
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J4860C HP ProCurve Gigabit-LH-LC Mini-GBIC  
J8177C HP ProCurve Gigabit 1000Base-T Mini-GBIC  
J9142B HP ProCurve 1000-BX-D SFP-LC Mini-GBIC  
J9143B HP ProCurve 1000-BX-U SFP-LC Mini-GBIC  
J9099B HP ProCurve 100-BX-D SFP-LC Transceiver  
J9100B HP ProCurve 100-BX-U SFP-LC Transceiver  
J9054B HP ProCurve 100-FX SFP-LC Transceiver  
HP ProCurve Switch 5400zl 24-port Mini-GBIC Module (J8706A)  
Description  
This line interface module has 24 mini-GBIC ports and is appropriate for use as an aggregator in a  
distribution environment. This module supports the same mini-GBICs as the HP ProCurve Switch  
5400zl 20-port 10/100/1000 + 4-port Mini-GBIC module previously described. The mini-GBICs are  
ordered separately.  
Ports  
24 open mini-GBIC slots  
HP ProCurve Switch 5400zl 4-port 10-GbE X2 Module (J8707A)  
Description  
This line interface module has 4 10-GbE X2 Transceiver ports that support any combination of SR,  
LR, ER, or CX4 transceiver types. This provides maximum flexibility for connecting 10-GbE high-  
speed downlinks to any other switch supporting that connection type. The wide variety of distances  
supported makes this module an ideal choice for intra-building connections. Ports can be trunked to  
provide higher throughput. Two such modules can have their ports trunked across both modules to  
provide module redundancy as well.  
Ports  
4 open X2 transceiver slots  
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Transceivers supported (ordered separately)  
J8436A HP ProCurve 10-GbE X2-SC SR Optic  
J8437A HP ProCurve 10-GbE X2-SC LR Optic  
J8438A HP ProCurve 10-GbE X2-SC ER Optic  
J8440A HP ProCurve 10-GbE X2-CX4 Transceiver  
J9144A HP ProCurve 10-GbE X2-SC LRM Optic  
HP ProCurve Switch 5400zl 4-port 10-GbE CX4 Module (J8708A)  
Description  
This line interface module has 4 10-GbE CX4 ports.  
Ports  
4 10-Gigabit Ethernet ports (IEEE 802.3ak Type 10GBase-CX4)  
Connectors: CX4  
Transceivers supported (ordered separately)  
J8439A—HP ProCurve 10-GbE CX4 Media Converter  
Maximum distance  
15 m using CX4 cable  
300 m using optical media converters and multimode fiber cable  
Notes  
Use CX4 10-GbE cable (0.5 m–15 m) or HP ProCurve 10-GbE CX4 Media Converter (J8439A)  
HP ProCurve Wireless Edge Services zl Module (J9051A)  
HP ProCurve Redundant Wireless Services zl Module (J9052A)  
Description  
Working in conjunction with HP ProCurve Radio Ports, the HP ProCurve Wireless Edge Services zl  
Module provides centralized wireless LAN configuration and management of advanced wireless  
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services, enabling a resilient, highly secure, mobile multi-service network. Each “WES” Module can  
control up to 156 HP ProCurve Radio Ports (light access points) to provide Layer 2/3 seamless  
roaming and a secure mobility environment.  
Wireless sFlow support provides leveraged network management for both wired and wireless  
connections.  
Up to four modules can be installed in a single chassis, and a redundant WESM (J9052A) version  
automatically adopts radio ports if the primary module is unavailable or should fail.  
HP ProCurve Radio Ports supported (ordered separately)  
• J9004A HP ProCurve Radio Port 210 (single IEEE 802.11g radio) Integrated antenna  
• J9006A HP ProCurve Radio Port 230 (dual radio a+b/g) Integrated antenna  
• J9005A HP ProCurve Radio Port 220 (dual radio a+b/g) Plenum rated, external antennas required  
Notes  
HP ProCurve Redundant Wireless Services zl Module (J9052A) provides redundancy.  
HP ProCurve ONE Services zl Module (J9289A)  
Description  
Part of the HP ProCurve ONE program that enables secure best-in-class applications and services in  
the ProCurve infrastructure, the HP ProCurve ONE Services zl Module is an x86-based server module  
that provides two 10-GbE network links into the switch backplane and contains a 255 MB 7200 rpm  
SATA hard disk drive. Coupled with ProCurve certified services/applications that can take advantage  
of a switch-targeted API for better performance, this module creates a virtual appliance within a zl  
switch slot to provide solutions for business needs, such as network security. The HP ProCurve  
Services zl Module can be moved to any zl switch in the environment.  
Consult the HP ProCurve Web site for applications available for use with the HP ProCurve Services zl  
Module and for information concerning the HP ProCurve ONE program.  
Notes  
Use of the HP ProCurve Services zl Module restricts the temperature specification for the 5400 switch  
to 50°C if all installed modules are on the left side of the chassis. If any installed module is on the right  
side of the chassis, the temperature specification of the entire switch is limited to 40°C.  
The Services Module can only be used with certified OA services applications. It does not support a  
general application environment.  
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HP ProCurve Switch 3500yl Series  
The HP ProCurve Switch 3500yl series is another of the most advanced intelligent edge switches in the  
HP ProCurve Networking product line. The 3500yl series includes 24-port and 48-port stackables. The  
foundation of these switches is a purpose-built, programmable ProVision ASIC that allows the most  
demanding networking features, such as QoS and security, to be implemented in a scalable yet  
granular fashion.  
The HP ProCurve Switch 3500yl-24G-PWR supports 24 Gigabit interfaces, and the HP ProCurve  
Switch 3500yl-48G-PWR supports 48 Gigabit interfaces. Four of the ports are dual-personality where  
each port can be used as either an RJ-45 10/100/1000 port (IEEE 802.3 Type 10Base-T; 802.3u Type  
100Base-TX; 802.3ab 1000Base-T Gigabit Ethernet) or an open mini-GBIC slot (for use with mini-  
GBIC transceivers).  
Both models provide integrated PoE on all 10/100/1000Base-T ports. Both models also have an  
expansion slot for an optional 4-port 10-GbE module. This line interface module is installed on the  
back panel of the switch.  
The HP ProCurve Switch 3500yl series offers excellent investment protection, flexibility, and  
scalability, as well as ease of deployment, operation, and maintenance.  
HP ProCurve Switch 3500yl-24G-PWR Intelligent Edge (J8692A)  
HP ProCurve Switch 3500yl-48G-PWR Intelligent Edge (J8693A)  
Figure 10. HP ProCurve Switch 3500yl Series  
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The table below shows examples of the maximum number of PoE ports that can be supported by the  
two 3500yl switch models. One column shows the maximum number of PoE ports at full power (Class  
0 – 15.4 watts) and the other column shows the maximum number of PoE ports at typical phone power  
(8 watts).  
For environments needing more PoE power, the HP ProCurve 620 Redundant/External Power Supply  
can be used. It doubles the available PoE power from 398W to 796W for up to two 3500yl switches.  
The HP ProCurve 620 also provides redundant system power for up to two 3500yl switches.  
Switch  
model  
Total PoE power  
(watts)  
Number of PoE  
ports at 15.4 W  
Number of PoE  
ports at 8 W  
3500yl-24G-PWR *  
3500yl-48G-PWR *  
398  
398  
24  
24  
24  
46  
3500yl-48G-PWR +  
HP ProCurve 620  
796  
48  
48  
Table 4. Examples of maximum number of PoE ports for 3500yl series  
* Also number of ports that are 1+1 with the use of the HP ProCurve 620 Redundant/External Power  
Supply  
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Specifications  
Processor  
The CPU processor is a Freescale PowerPC 8540 operating at 667 MHz.  
Memory  
SDRAM  
Synchronous Dynamic RAM is used for the storage of uncompressed executable code and data  
structures. The SDRAM consists of a 256 MB DDR-1 DIMM in the base module, expandable up to  
1 GB. The DDR-1 interface is 64 bits running at 166 MHz bus speed (333 MHz data rate).  
Flash  
The flash consists of a 128 MB Compact Flash expandable up to 1 GB, and a 4 MB mirror-bit flash.  
The mirror-bit flash is used for initial boot code. The Compact Flash is used for non-volatile  
configuration storage, and compresses code storage. The Compact Flash is socketed for future upgrade  
capability.  
The Compact Flash may be programmed in a bulk fashion or one sector at a time. Since all application  
code is executed out of SDRAM, the Compact Flash may be programmed while the router is  
operational. The Compact Flash is sized such that a back up copy of an older revision of application  
code may also be stored.  
Console port  
An RS-232 serial port is supported for local management and configuration. The DB-9 serial port is  
located on the front panel of the HP ProCurve Switch 3500yl-24G-PWR and on the back panel of the  
HP ProCurve Switch 3500yl-48G-PWR. To connect to the console, a standard null modem cable is  
used that is equivalent to the cable used for other HP ProCurve switches like the HP ProCurve 5300xl  
series.  
LED status indicators  
Refer to the appendix for information about the LED status indicators of the HP ProCurve Switch  
3500yl series.  
Additional line interface module  
The HP ProCurve Switch 3500yl series supports one additional line interface module, the HP  
ProCurve Switch yl 10-GbE 2p CX4 + 2p X2 Module that is installed on the back panel of the switch.  
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HP ProCurve Switch yl 10-GbE 2p CX4 + 2p X2 Module (J8694A)  
Description  
This 10-GbE line interface module has two fixed CX4 ports and two X2 slots and is supported in both  
models of the HP ProCurve Switch 3500yl series and also the HP ProCurve Switch 6200yl-24G-  
mGBIC.  
Ports  
2 open X2 transceiver slots  
2 10-Gigabit Ethernet ports (IEEE 802.3ak Type 10Gbase-CX4)  
Duplex: full  
Transceivers supported (ordered separately)  
J8437A HP ProCurve 10-GbE X2-SC LR Optic  
J8436A HP ProCurve 10-GbE X2-SC SR Optic  
J8438A HP ProCurve 10-GbE X2-SC ER Optic  
J9144A HP ProCurve 10-GbE X2-SC LRM Optic  
J8439A HP ProCurve 10-GbE CX4 Media Converter  
J8440A HP ProCurve 10-GbE X2-CX4 Transceiver  
Notes  
Only the two fixed CX4 ports on this module support the HP ProCurve 10-GbE CX4 Media Converter  
(J8439A).  
HP ProCurve Switch 6200yl  
The HP ProCurve Switch 6200yl-24G-mGBIC is an advanced Layer 3 stackable in 1U height. It has  
24 mini-GBIC slots and an expansion slot for an optional 4-port 10-GbE module. Designed to be  
deployed as an aggregator of traffic from the edge to the core of the network, this switch supports a  
variety of Gigabit mini-GBICs, such as SX, LX, LH, and 1000Base-T.  
The 6200yl switch has the same features as the 5400zl and 3500yl switches, but comes standard with  
Premium License features. Thus the routing protocols are already available as part of the aggregator  
switch use model.  
Like the HP ProCurve Switch 5400zl and 3500yl series, the foundation for this switch is a purpose-  
built ProVision ASIC that allows the most demanding networking features, such as QoS and security,  
to be implemented in a scalable yet granular fashion.  
With its high-performance architecture, 10-GbE capability, and programmable ASIC, the HP ProCurve  
Switch 6200yl-24G-mGBIC offers excellent investment protection, flexibility, and scalability.  
The HP ProCurve 620 Redundant/External Power Supply can be used to supply RPS power to the  
Switch 6200yl for high-availability environments.  
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HP ProCurve Switch 6200yl-24G-mGBIC (J8992A)  
Figure 11. HP ProCurve Switch 6200yl  
Processor  
The CPU processor is a Freescale PowerPC 8540 operating at 667 MHz.  
Memory  
SDRAM  
Synchronous Dynamic RAM is used for the storage of uncompressed executable code and data  
structures. The SDRAM consists of a 256 MB DDR-1 DIMM in the base module, expandable up to 1  
GB. The DDR-1 interface is 64 bits running at 166 MHz bus speed (333 MHz data rate).  
Flash  
The flash consists of a 128 MB Compact Flash expandable up to 1 GB, and a 4 MB mirror-bit flash.  
The mirror-bit flash is used for initial boot code. The Compact Flash is used for non-volatile  
configuration storage, and compresses code storage. The Compact Flash is socketed for future upgrade  
capability.  
The Compact Flash may be programmed in a bulk fashion or one sector at a time. Since all application  
code is executed out of SDRAM, the Compact Flash may be programmed while the router is  
operational. The Compact Flash is sized such that a backup copy of an older revision of application  
code may also be stored.  
Console port  
An RS-232 serial port is supported for local management and configuration. The DB-9 serial port is  
located on the front panel of the HP ProCurve Switch 6200yl-24G-mGBIC. To connect to the console,  
a standard null modem cable is used that is equivalent to the cable used for other HP ProCurve  
switches like the HP ProCurve 5300xl series.  
LED status indicators  
The front panel of the HP ProCurve Switch 6200yl-24G-mGBIC has the same LED status indicators as  
the HP ProCurve Switch 3500yl series. Refer to the appendix for information about the LED status  
indicators.  
Additional line interface module  
The HP ProCurve Switch 6200yl-24G-mGBIC supports one additional line interface module, the HP  
ProCurve Switch yl 10-GbE 2p CX4 + 2p X2 Module. This module is installed on the back panel of  
the switch. This is the same module that is supported by the HP ProCurve Switch 3500yl series. Refer  
to the section covering the HP ProCurve Switch 3500yl series for details about this line interface  
module.  
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Overview of features and benefits  
The HP ProCurve Switch 5400zl, 3500yl, and 6200yl series use the same software image base. For the  
HP ProCurve Switch 6200yl, the Premium License feature group is standard. For the HP ProCurve  
Switch 5400zl and 3500yl series, you have the choice of using the Intelligent Edge feature group or the  
Premium License feature group for an additional fee. The Premium License feature group supports  
additional aggregation layer features: Q-in-Q, PIM-SM, PIM-DM, OSPF-ECMP, and VRRP. The  
primary differences among these switch families are hardware related and include such aspects as port  
density and the number of power supplies and fans.  
The following summary of features and benefits applies to the HP ProCurve Switch 5400zl, 3500yl,  
and 6200yl series. Any differences that exist among the switches are noted.  
Performance  
ProVision ASIC technology: powered by the ProVision ASICs, the switch families offer state-of-  
the-art high-capacity switch fabric performance—692 Gbps for the 5412zl, 346 Gbps for the  
5406zl, 173 Gbps for the 3500yl-48G-PWR, and 115 Gbps for the 3500yl-24G-PWR and 6200yl-  
24G-mGBIC.  
Selectable queue configurations: increase performance by selecting the number of queues and  
associated memory buffer that best meet the requirements of network applications.  
Security features  
Virus Throttle: connection Rate Filtering thwarts virus spreading by blocking routing from certain  
hosts exhibiting abnormal traffic behavior  
ICMP throttling: defeats ICMP denial-of-service attacks by enabling any switch port to  
automatically throttle ICMP traffic  
Filtering capabilities: include fast, flexible Access Control Lists (ACLs), up to 3,000 per module (in  
later release, more precise detailed control via the fast Policy Enforcement Engine), source port,  
multicast MAC address, and other protocol-based filtering capabilities  
Switch CPU protection: provides automatic protection against malicious network traffic trying to  
shut down the switch  
Detection of malicious attacks: monitors ten types of network traffic and sends a warning if an  
anomaly occurs, signaling the detection of a potential malicious attacks  
USB secure autorun: uses USB flash drive to deploy, troubleshoot, or update switches; works with  
secure credential to prevent tampering  
STP root guard: protects STP root bridge from malicious attack or configuration mistakes  
DHCP protection: blocks DHCP packets from unauthorized DHCP servers, preventing denial-of-  
service attack  
BPDU port protection: blocks Bridge Protocol Data Unit (BPDU) on ports that do not require  
BPDU, preventing forged BPDU attack  
Dynamic ARP protection: blocks ARP broadcast from unauthorized hosts, preventing  
eavesdropping or data theft of network data  
Dynamic IP lockdown: works with DHCP protection to block traffic from unauthorized host,  
preventing IP source address spoofing  
Identity Driven Manager: supports HP ProCurve Identity Driven Manager (IDM) which can  
dynamically apply per-user security, access, and performance settings to infrastructure devices  
based on approved user, location, and time  
Multiple user authentication methods:  
Multiple IEEE 802.1X users per port: provides authentication of multiple IEEE 802.1X users per  
port; prevents user “piggybacking” on another user’s IEEE 802.1X authentication  
Web-based authentication: authenticates from Web browser for clients that do not support IEEE  
802.1X supplicant; customized remediation can be processed on an external Web server  
Concurrent IEEE 802.1X, Web, and MAC authentication schemes per port: switch port will  
accept up to 32 sessions of IEEE 802.1X, Web, and MAC authentications  
Access control lists (ACLs): provide filtering based on the IP field, source/destination IP  
address/subnet, and source/destination TCP/UDP port number on a per-VLAN or per-port basis  
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Identity-driven ACL: enables implementation of a highly granular and flexible access security  
policy specific to each authenticated network user  
Port security: prevents unauthorized access using MAC address lockdown  
MAC address lockout: prevents configured particular MAC addresses from connecting to the  
network  
Source-port filtering: allows only specified ports to communicate with each other  
Security banner: displays customized security policy when users log in to the switch  
Management Interface Wizard: CLI-based step-by-step configuration tool to ensure that  
management interfaces such as SNMP, telnet, SSH, SSL, Web, and USB are secured to desired  
level  
Management access:  
All access methods—CLI, GUI, or MIB—are securely encrypted through SSHv2, SSL, and/or  
SNMPv3  
RADIUS and TACACS+: can require either RADIUS or TACACS+ authentication for secure  
switch CLI logon  
Secure FTP: allows secure file transfer to/from the switch and protects against unwanted file  
downloads or unauthorized copying of switch configuration file  
QoS functions  
Layer 4 prioritization: enables prioritization based on TCP/UDP ports  
Traffic prioritization: allows real-time traffic classification into 8 priority levels mapped to 8 queues  
Bandwidth shaping using:  
Rate limiting: per-port ingress-based enforced bandwidth maximums  
Guaranteed minimums: per-port, per-queue egress-based guaranteed bandwidth minimums  
Class of Service (CoS): sets 802.1p priority tag based on IP address, IP Type of Service (ToS), L3  
protocol, TCP/UDP port number, source port, and DiffServ  
Policy Enforcement Engine: Policy Enforcement Engine is user configured to select packets that are  
then forwarded or dropped (based on ACLs, QoS, and Rate Limiting). The engine is fast, and can look  
for multiple variables, such as an IP address and port number, in a single pass through a packet. It  
provides a common user experience regardless of which switch the user is connected to.  
Advanced classifier-based QoS:  
Provides finer granularity with multiple match criteria to select and prioritize network traffic  
Integrates QoS functions: select traffic for prioritization and remote mirroring, setting priority, QoS  
policy, and rate limit  
QoS policy can be applied to both IPv4 and IPv6 traffic for each port or VLAN  
Convergence  
IP multicast routing: includes PIM Sparse and Dense modes to route IP multicast traffic  
IP multicast data-driven IGMP: automatically prevents flooding of IP multicast traffic  
RADIUS VLAN for voice: uses standard RADIUS attribute and LLDP-MED to automatically  
configure VLAN for IP phones  
LLDP-MED (Media Endpoint Discovery): a standard extension of LLDP that stores values for  
parameters such as QoS and VLAN to automatically configure network devices such as IP phones  
PoE allocations: supports multiple methods (automatic, 802.3af class, LLDP-MED, or user  
specified) to allocate PoE power for optimal energy saving  
iSCSI support: enables the deployment of Ethernet storage area network solutions using the iSCSI  
standard  
L2/L3 jumbo frames: Layer 2/Layer 3 jumbo frames provide scalability in throughput.  
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Layer 2 switching  
HP ProCurve switch meshing: dynamically load-balances across multiple active redundant links to  
increase available aggregate bandwidth  
VLAN support and tagging: support for complete 802.1Q standard and 2,048 VLANs  
simultaneously  
802.1v protocol VLANs: isolate select non-IPv4 protocols automatically into their own VLANs  
GVRP: Group VLAN Registration Protocol allows automatic learning and dynamic assignment of  
VLANs  
Q-in-Q: increases the scalability of Ethernet network by providing a hierarchical structure; connects  
multiple LANs on high-speed campus or metro Ethernet network  
Bridging protocols  
MSTP: provides high link availability in multiple VLAN environments by allowing multiple  
spanning trees; encompasses 802.1D STP and 802.1w RSTP  
Routing protocols  
RIP (v1, v2, and v1-compatible v2)  
OSPF with host-based ECMP (Equal Cost Multi-Path) and NSSA  
Static IP route: to manually add routes directly to the routing table; includes ECMP  
10,000 network address routes, 65,536 L3 host address routes  
UDP helper function: UDP broadcasts can be directed across router interfaces to specific IP unicast  
or subnet broadcast addresses and prevent server spoofing for UDP services such as DHCP  
Loopback interface address: defines an interface in RIP and OSPF that can always be reachable,  
improving diagnostic capability  
IPv4 routing  
IPv6  
IPv6 host: switches can be deployed and managed at the edge of IPv6 LAN  
IPv4/IPv6 Dual Stack: provides transition mechanism for IPv4 and IPv6  
IPv6 ACL: provides control and security in an IPv6 network  
IPv6 QoS: prioritizes network traffic and enhance performance of applications on the network  
MLD Snooping: prevents multicast traffic from flooding the network  
Multicast protocols  
IGMP data-driven  
PIM-SM, PIM-DM  
High availability and redundancy  
VRRP: Virtual Router Redundancy Protocol (requires Premium License) allows groups of two  
routers to dynamically back each other up to create highly available routed environments  
802.3ad LACP: Link Aggregation Control Protocol and HP ProCurve trunking support up to 36  
trunks, each with up to 8 links (ports) per trunk  
Port trunks, or link aggregation groups, can operate across multiple modules to increase  
redundancy.  
Supports various redundant power supply configurations:  
The 5406zl switch provides slots for two internal supplies. This can provide 1+1 redundancy for  
both PoE and system power needs.  
The 5412zl switch provides slots for four internal supplies. This can provide 1+1 redundancy  
similar to the 5406zl switch. You can use the internal supplies for 1+1 backup; two backing up  
two for both PoE and system power needs.  
Hot-swappable/Hot-insertable line interface modules, so as not to interrupt network operation  
Management module is removable/upgradable: The switch does not have to be powered off to  
remove a management module from a 5400zl series. However, when the management module is  
removed, all ports will lose communication and the system will be powered down.  
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Server-to-Switch Distributed Trunking: enables load-balancing and increases resiliency between a  
server and multiple switches. This feature allows a server to connect to multiple switches with one  
logical trunk that consists of multiple physical connections.  
Other Layer 2 and Layer 3 redundant protocols include MSTP, HP ProCurve switch meshing, and  
OSPF-ECMP.  
Management  
Remote intelligent mirroring: mirrors selected ingress/egress traffic based on ACL, port, MAC  
address, or VLAN to a local or remote 8200/6200/5400/3500 switch anywhere on the network  
RMON, XRMON, and sFlow: provide advanced monitoring and reporting capabilities for statistics,  
history, alarms, and events.  
Command authorization: leverages RADIUS to link a custom list of CLI commands to individual  
network administrator’s login; also provides audit trail  
LLDP: Link Layer Discovery Protocol allows automated device discovery for easy mapping by  
network management applications.  
Friendly port names: allow assignment of descriptive names to ports.  
Dual flash images: provide independent primary and secondary OS files for backup while  
upgrading  
Multiple configuration files: allows multiple configuration files to be stored to flash image  
Uni-Directional Link Detection (UDLD): monitors cable between two switches and shuts down the  
ports on both ends if the cable is broken, turning the bi-directional link into uni-directional; this  
prevents network problems such as loops.  
Configuration, monitoring, and management tasks can be performed using the CLI (through direct  
console or Telnet) connection, Web browser, Menu interface, and HP ProCurve Manager.  
MSTP pre-configuration: reduces MSTP configuration complexity and enhances management  
productivity  
Transceiver pre-configuration: streamlines deployment of switches in remote locations  
Diagnostics  
Core memory dump: preserves system information if the switch failed so that the information can  
be analyzed for diagnostic purposes  
Future-proofing  
Versatile Intelligent Port implies all gigabit copper ports on the 5400zl and 3500yl series are PoE  
enabled.  
The 5400zl series chassis management module is upgradable in order to meet future needs for  
processing power.  
Programmable ASICs allow some future requirements to be implemented without replacing the  
switch.  
Intelligent Edge features can be upgraded to Premium License features on the 5400zl and 3500yl  
series, allowing an edge switch to be redeployed as a distribution switch.  
The base power supply for the 5400zl series provides sufficient power for PoE on some ports.  
Power supplies can be added in order to provide PoE on all copper ports.  
Low cost of ownership  
Industry-leading warranty: lifetime warrantyfeatures next-business-day advance replacement,  
including coverage for fans and power supplies.  
HP ProCurve Switch 3500/5400/6200 lifetime warranty is subject to local law and regulation; see Warranty Statement for  
more details. See www.procurve.com/support for more details on support and software releases.  
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Standards and protocols  
Device management  
RFC 1591 DNS (client)  
HTML and telnet management  
General protocols  
IEEE 802.1ad Q-in-Q (Premium License)  
IEEE 802.1D MAC Bridges  
IEEE 802.1p Priority  
IEEE 802.1Q VLANs  
IEEE 802.1s Multiple Spanning Trees  
IEEE 802.1v VLAN Classification by Protocol and Port  
IEEE 802.1w Rapid Reconfiguration of Spanning Tree  
IEEE 802.3ad Link Aggregation Control Protocol (LACP)  
IEEE 802.3af Power over Ethernet  
IEEE 802.3x Flow Control  
RFC 768 UDP  
RFC 783 TFTP Protocol (revision 2)  
RFC 792 ICMP  
RFC 793 TCP  
RFC 826 ARP  
RFC 854 TELNET  
RFC 868 Time Protocol  
RFC 951 BOOTP  
RFC 1058 RIPv1  
RFC 1350 TFTP Protocol (revision 2)  
RFC 1519 CIDR  
RFC 1542 BOOTP Extensions  
RFC 2030 Simple Network Time Protocol (SNTP) v4  
RFC 2131 DHCP  
RFC 2453 RIPv2  
RFC 2548 (MS-RAS-Vendor only)  
RFC 3046 DHCP Relay Agent Information Option  
RFC 3576 Ext to RADIUS (CoA only)  
RFC 3768 VRRP (Premium License)  
RFC 4675 RADIUS VLAN & Priority  
UDLD (Uni-directional Link Detection)  
IP Multicast  
RFC 2362 PIM Sparse Mode (Premium License)  
RFC 3376 IGMPv3 (host joins only)  
RFC 3973 PIM Dense Mode (Premium License)  
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IPv6  
RFC 1981 IPv6 Path MTU Discovery  
RFC 2460 IPv6 Specification  
RFC 2461 IPv6 Neighbor Discovery  
RFC 2462 IPv6 Stateless Address Auto-configuration  
RFC 2463 ICMPv6  
RFC 2710 Multicast Listener Discovery (MLD) for IPv6  
RFC 2925 Remote Operations MIB (Ping only)  
RFC 3019 MLDv1 MIB  
RFC 3315 DHCPv6 (client only)  
RFC 3513 IPv6 Addressing Architecture  
RFC 3596 DNS Extension for IPv6  
RFC 3810 MLDv2 (host joins only)  
RFC 4022 MIB for TCP  
RFC 4113 MIB for UDP  
RFC 4251 SSHv6 Architecture  
RFC 4252 SSHv6 Authentication  
RFC 4253 SSHv6 Transport Layer  
RFC 4254 SSHv6 Connection  
RFC 4293 MIB for IP  
RFC 4419 Key Exchange for SSH  
RFC 4541 IGMP & MLD Snooping Switch  
MIBs  
RFC 1213 MIB II  
RFC 1493 Bridge MIB  
RFC 1724 RIPv2 MIB  
RFC 1850 OSPFv2 MIB  
RFC 2021 RMONv2 MIB  
RFC 2096 IP Forwarding Table MIB  
RFC 2613 SMON MIB  
RFC 2618 RADIUS Client MIB  
RFC 2620 RADIUS Accounting MIB  
RFC 2665 Ethernet-Like-MIB  
RFC 2668 802.3 MAU MIB  
RFC 2674 802.1p and IEEE 802.1Q Bridge MIB  
RFC 2737 Entity MIB (version 2)  
RFC 2787 VRRP MIB  
RFC 2863 The Interfaces Group MIB  
RFC 2925 Ping MIB  
Network management  
IEEE 802.1AB Link Layer Discovery Protocol (LLDP)  
RFC 2819 Four groups of RMON: 1 (statistics), 2 (history), 3 (alarm), and 9 (events)  
RFC 3176 sFlow  
ANSI/TIA-1057 LLDP Media Endpoint Discovery (LLDP-MED)  
SNMPv1/v2c/v3  
XRMON  
OSPF  
RFC 2328 OSPFv2 (Premium License)  
RFC 3101 OSPF NSSA  
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QoS/Cos  
RFC 2474 DiffServ Precedence, including 8 queues/port  
RFC 2597 DiffServ Assured Forwarding (AF)  
RFC 2598 DiffServ Expedited Forwarding (EF)  
Security  
IEEE 802.1X Port Based Network Access Control  
RFC 1492 TACACS+  
RFC 2138 RADIUS Authentication  
RFC 2866 RADIUS Accounting  
Secure Sockets Layer (SSL)  
SSHv1/SSHv2 Secure Shell  
Performance and capacity  
Capacity and performance features comparison  
The following table provides a comparison of several categories of capacity and performance levels for  
the HP ProCurve Switch 5400zl, 3500yl, and 6200yl series. These include the routing and switching  
capacity (Gbps), switch fabric speed (Gbps), maximum number of 1 Gbps ports that can operate  
concurrently at wire-speed, maximum number of 10 Gbps ports that can operate concurrently at wire-  
speed, and the size of the routing table (entries).  
HP  
HP  
ProCurve  
Switch  
6200yl-24G-  
mGBIC  
HP  
HP  
Capacity/  
Performance  
feature  
HP ProCurve  
Switch 3500yl-  
24G-PWR  
ProCurve  
Switch  
3500yl-48G-  
PWR  
ProCurve  
Switch  
5406zl  
ProCurve  
Switch  
5412zl  
Routing/Switching  
capacity (Gbps)  
288  
346  
144  
12  
576  
692  
288  
24  
101  
115  
24  
148  
173  
48  
101  
115  
24  
Switch fabric speed  
(Gbps)  
Max 1 Gigabit ports  
at wire-speed  
Max 10 Gigabit ports  
at wire-speed  
2
2
2
Routing table size  
(entries)  
10,000  
10,000  
10,000  
10,000  
10,000  
Table 6. Capacity and performance features comparison of 5400zl, 3500yl, and 6200yl series  
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Per-port buffer sizes  
The HP ProCurve Switch 5400zl, 3500yl, and 6200yl series have eight hardware queues to which  
prioritized traffic can be assigned. Software can designate a certain amount of output memory buffer  
for each queue to minimize the impact from events that exceed line rate such as bursty network traffic.  
Users can choose to configure the number of queues—2, 4, or 8—so that they can optimize the amount  
of memory buffer per queue for their applications. For example, if a user has only 2 priorities on the  
network, that user should configure for 2 queues so that all the buffer memory is assigned to only 2  
queues. The table below identifies the buffer sizes allocated on a per-port basis to the normal and other  
priority queues in each configuration.  
Size of normal priority queue  
(KB)  
Size of other priority queues  
(KB)  
Port speed  
1 Gbps  
194 KB (30%)  
225 KB (30%)  
70 KB (10%)  
77 KB (10%)  
10 Gbps  
Table 7a. Per-port priority queue buffer sizes for 8 queues  
Size of normal priority queue  
Size of other priority queues  
(KB)  
Port speed  
(KB)  
1 Gbps  
480 KB (70%)  
538 KB (70%)  
68 KB (10%)  
76 KB (10%)  
10 Gbps  
Table 7b. Per-port priority queue buffer sizes for 4 queues  
Size of normal priority queue  
Size of other priority queues  
(KB)  
Port speed  
(KB)  
1 Gbps  
618 KB (90%)  
691 KB (90%)  
68 KB (10%)  
76 KB (10%)  
10 Gbps  
Table 7c. Per-port priority queue buffer sizes for 2 queues  
Routing and forwarding tables  
The HP ProCurve Switch 5400zl, 3500yl, and 6200yl series have several routing and forwarding table  
features that enhance routing and switching performance.  
Every line interface module has its own “best match prefix” routing table that contains IP routes and is  
used for determining how to route the vast majority of incoming packets. Using the best match prefix  
routing table is extremely fast and enables wire-speed routing to be achieved.  
If the best match prefix routing table does not contain an entry that can be used to determine the route  
of a received packet, then the main routing table is used. The main routing table can contain up to  
10,000 routing table entries.  
For Layer 2 forwarding, each switch has a forwarding or MAC table that can contain up to 65,536  
entries.  
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Optimizing the 10-GbE port configuration  
The 10-GbE modules (J8707A, J8708A, and J8694A) used in the HP ProCurve Switch 3500yl, 5400zl,  
and 6200yl series 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,  
the module supports 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 4-port 10-  
GbE module and the switch fabric.  
Figure 12. 10-GbE module architecture showing ports grouped by 14.4 Gbps channel  
When any two 10-GbE ports on a given module are in a linked state, each port automatically  
operates on its own channel, which guarantees 10 Gbps of bandwidth for each port.  
When more than two ports of a 10-GbE module are in a linked state, ports 1 and 4 are statically  
mapped to share one 14.4 Gbps channel, while ports 2 and 3 are statically mapped to share the other  
14.4 Gbps channel.  
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  
For example, in an application where three ports on the module are needed and it is important to ensure  
that port 1 always has a full 10 Gbps available, the connection choices shown in the next figure would  
be used.  
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Figure 13. Approach for guaranteeing 10 Gbps on a specific port  
Connection choices are also important where equally balanced bandwidth is needed, such as in a  
Virtual Router Redundancy Protocol (VRRP) application. This scenario is illustrated in the next figure.  
Figure 14. Guaranteeing equally balanced bandwidth in a VRRP environment  
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Throughput and latency performance data  
The following three tables describe the performance capabilities of the 10 Gbps, 1 Gbps, and 100  
Mbps line interface module ports of the HP ProCurve Switch 5400zl, 3500yl, and 6200yl series.  
Over a range of packet sizes from 64 bytes to 1518 bytes, the performance levels achieved are  
described in terms of the following metrics:  
Throughput level percentage achieved when performing Layer 2 switching and Layer 3 routing;  
100% in all cases  
Throughput in the form of the number of packets per second when performing Layer 2 switching  
and Layer 3 routing  
Average per-packet latency in microseconds when performing Layer 2 switching and Layer 3  
routing. These values shown are listed for both First In First Out (FIFO) and Last In First Out  
(LIFO) processing. The LIFO values represent the packet transmit time, whereas the FIFO values  
include the switch decision time and the packet transmit time.  
Percentage of packets dropped in a full mesh configuration; 0% in all cases  
The following measurements were performed by HP ProCurve using test equipment manufactured by  
the HP ProCurve Switch 5412zl was used. Proportional performance results at 100% of throughput are  
achieved on the HP ProCurve Switch 5406zl, 3500yl-24G-PWR, 3500yl-48G-PWR, and 6200yl-24G-  
mGBIC for the maximum number of ports supported by each of those models. The 100 Mbps table is  
not applicable to the HP ProCurve Switch 6200yl-24G-mGBIC, since only 1 Gigabit and 10 Gigabit  
ports are supported.  
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Packets per  
second  
Throughput %  
L2/L3  
Latency (FIFO)  
Latency (LIFO)  
10 Gbps  
Full mesh  
% drops  
Packet  
size  
L2  
L3  
(µsecs)  
L2  
L3  
(µsecs)  
L2/L3  
(µsecs)  
(µsecs)  
64 1  
100  
100  
100  
100  
100  
100  
100  
14880952  
8445946  
4528986  
2349624  
1197318  
961538  
0
1.95  
2.05  
1.9  
2.0  
128  
0
0
0
0
0
0
2.01  
2.31  
2.62  
3.73  
4.13  
4.52  
2.11  
2.31  
2.72  
3.73  
4.23  
4.52  
1.9  
2.1  
2.2  
2.9  
3.1  
3.3  
2.0  
2.1  
2.3  
2.9  
3.2  
3.3  
256  
512  
1024  
1280  
1518  
811688  
Packets per  
second  
Throughput %  
L2/L3  
Latency (FIFO)  
Latency (LIFO)  
1 Gbps  
Full Mesh  
% drops  
Packet  
size  
L2  
L3  
L2/L3  
L2/L3  
L2/L3  
2.7  
(µsecs)  
(µsecs)  
64  
100  
100  
100  
100  
100  
100  
100  
1488095  
844595  
452899  
234962  
119732  
96154  
0
0
0
0
0
0
0
3.28  
3.19  
2.7  
2.7  
2.8  
3.0  
3.5  
3.7  
4.0  
128  
256  
512  
1024  
1280  
1518  
3.79  
3.79  
4.91  
7.16  
11.76  
14.2  
16.20  
2.7  
2.8  
3.0  
3.5  
3.9  
4.0  
4.91  
7.16  
11.76  
14.00  
16.20  
81274  
Packets per  
second  
Throughput %  
L2/L3  
Latency (FIFO)  
Latency (LIFO)  
100 Mbps  
Full mesh  
% drops  
Packet  
size  
L2  
L3  
(µsecs)  
L2/L3  
L2/L3  
L2/L3  
(µsecs)  
64  
100  
100  
100  
100  
100  
100  
100  
148810  
84459  
45290  
23496  
11973  
9615  
0
3.28  
3.19  
2.7  
2.7  
2.8  
3.0  
3.5  
3.7  
4.0  
2.7  
2.7  
2.8  
3.0  
3.5  
3.9  
4.0  
128  
256  
512  
1024  
1280  
1518  
0
0
0
0
0
0
3.79  
3.79  
4.91  
7.16  
11.76  
14.2  
16.20  
4.91  
7.16  
11.76  
14.00  
16.20  
8127  
Table 8. Throughput performance  
1 See the explanation about 10 gigabit performance traffic patterns in the next section.  
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10 Gigabit performance traffic patterns  
In the prior table, the performance levels for 10 Gigabit ports assume the underlying traffic patterns  
reflect either one of the following minimum conditions to achieve wire-speed throughput.  
A single source traffic stream with an average packet size of 88 bytes or larger  
Two or more source traffic streams of any packet size down to the minimum value of 64 bytes  
In the unlikely case where the average packet size is consistently smaller, the throughput will be less  
than wire-speed. For example, consider a worst case scenario where the average packet size is 64  
bytes. This would result in a throughput of approximately 70% to 80% of the rated wire-speed  
capacity. HP ProCurve considers such minimum-sized, packet traffic scenarios being realized over an  
extended period of time to be extremely atypical and unlikely to be experienced by customers in the  
field.  
Note that the limits described above do not apply to Gigabit ports.  
Throughput test  
A fully meshed performance test sends packets from each port to every other port during the test. This  
type of test exercises both the modules and the backplane. These tests show the HP ProCurve Switch  
5400zl, 3500yl, and 6200yl series to be wire-speed on all ports simultaneously.  
Latency measurements  
Latency is commonly measured as the amount of time it takes for a byte inside a packet to enter and  
then leave the switch. Latency statistics are typically documented as including both the processing time  
of the switch as it makes its forwarding decision and the time for the packet itself to enter and leave the  
switch. In the prior tables, this definition of latency corresponds to the FIFO latency statistics. The  
LIFO latency statistics that are also listed in the tables represent only the packet transmission time.  
Almost all switches currently on the market are store and forward, so the entire packet is received into  
the switch before the switch begins to transmit the packet out the egress port. Including the packet  
receive time in the FIFO latency statistics is appropriate since this extra time is a contributing  
component of the overall transit time of the packet as it moves through the network.  
The latency figures for the HP ProCurve Switch 5400zl series are consistently low. Latencies this low  
will not be a factor in general network operation, even with streaming video or VoIP applications. The  
LIFO latency values are fairly consistent across all packet sizes because ingress and egress packet  
processors operate on the header of the frame (not the whole frame), while the full frame is buffered in  
and out of packet buffer memory. Memory transfers are scheduled to fit a full 1518-byte frame, so  
frames are transferred in and out of memory in approximately the same amount of time regardless of  
packet size. While the frame headers are being looked up and actions required for the frame on egress  
are being coordinated among interface modules, the frame is transferred through the switching fabric  
module.  
The architecture used for ACL storage and processing is different among the HP ProCurve switches  
listed in table 9. The HP ProCurve Switch 5400zl and 3500yl series have the additional performance  
advantage gained through the use of the TCAM (see the appendix for more details). The HP ProCurve  
Switch 5400zl and 3500yl series also have an additional performance advantage in the processing of  
the routing table through the use of a “best match prefix” table (described previously in this section).  
The HP ProCurve Switch 5400zl and 3500yl series support the use of PIM-SM and PIM-DM, but not  
concurrently.  
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HP ProCurve warranty and support  
Industry-leading warranty  
HP ProCurve Networking products come with warranties you would expect from HP.  
HP ProCurve Lifetime Warrantyfeatures next-business-day advance replacement  
HP ProCurve warranty includes coverage for the fans and power supplies  
Software release notification upon registration on the My.ProCurve.com Web site Limited  
electronic or telephone support is available from HP. Refer to the HP Web site  
www.procurve.com/support for details on the support provided and the period during which  
support is available. Details on the software releases provided and the period during which software  
releases are available are also found at this Web site.  
Refer to the HP Web site www.procurve.com/services for details on the service-level descriptions  
and product numbers. For details about services and response times in your area, please contact  
your local HP sales office http://welcome.hp.com/country/us/en/wwcontact.  
HP ProCurve technical support.  
For as long as you own the product, with next-business-day advance replacement (available in most countries). The following hardware products and their  
related series modules have a one-year hardware warranty with extensions available: HP ProCurve Routing Switch 9300m series, HP ProCurve Switch  
8100fl series, and HP ProCurve Network Access Controller 800. The following hardware mobility products have a one-year hardware warranty with  
extensions available: HP ProCurve M111 Client Bridge, HP ProCurve MSM3xx-R Access Points, HP ProCurve MSM7xx Mobility and Access Controllers,  
HP ProCurve RF Manager IDS/IPS Systems, HP ProCurve MSM Power Supplies, and HP ProCurve 1 Port Power Injector. Disk drives in the HP ProCurve  
ONE Services zl modules have a five year hardware warranty. Standalone software, upgrades, or licenses may have a different warranty duration. For  
details, refer to the HP ProCurve Software License, Warranty, and Support booklet at http://www.procurve.com/warranty.  
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Appendix A: Premium License  
This section of the Technical Overview provides additional background information about the HP  
ProCurve Switch 5400zl, 3500yl, and 6200yl series products.  
Intelligent Edge and Premium License  
Introduced with the HP ProCurve Switch 5400zl and 3500yl series is the option of implementing  
Intelligent Edge or Premium License. For the HP ProCurve Switch 6200yl, Premium License is  
standard due to its recommended deployment at the distribution level as an aggregator of traffic from  
the edge to the core.  
In the case of the 5400zl and 3500yl switches, Premium License implies the switch can run  
aggregation layer features that include Q-in-Q, OSPF-ECMP, PIM-SM, PIM-DM, and VRRP. All the  
product features are included in the firmware image installed on the switch, but Premium License  
features require a license for those features to be enabled.  
For HP ProCurve, moving to Premium License creates a distinction between the terms “Upgrade” and  
“Update.” Upgrade means licensing Premium License features which add significant new functionality  
to the switch for an additional fee. Update means installing the latest version of firmware such as bug  
fixes.  
HP ProCurve has taken a flexible approach with Premium License. For example, in the 5400zl and  
3500yl series, all switches can run the Intelligent Edge feature group initially. A switch can later be  
upgraded to run the Premium License feature group, if its advanced features are needed. Also, if  
network configurations change, a Premium License can be transferred to another switch, as long as the  
license stays in the same hardware family.  
There are two ways you can manage Premium Licenses:  
Manually—You use the My ProCurve portal and the switch CLI. This is a good method to use if  
you are managing a small number of licenses and do not already use the HP ProCurve Manager  
network management software.  
PCM—You use HP ProCurve Manager to perform the most common licensing functions. If you  
are already using PCM, this is more convenient than the manual method. There is a free copy of HP  
ProCurve Manager on the CD-ROM that accompanies your premium license.  
For the manual method, you will require manager privilege level access on the switches to perform  
several CLI commands related to licensing. For the PCM method, PCM requires configured access to  
the devices.  
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Two methods for managing Premium Edge licensing on ProCurve Switch  
5400zl and 3500yl series  
Manually using ProCurve web portal and CLI commands  
Good for small number of licenses, requires manager level access  
ProCurve Manager (PCM)  
Convenient for may licenses, handles most aspects  
Requires PCM configured for access to each device and My ProCurve account  
information  
Either method requires that you be registered on the My ProCurve web portal  
Manual  
Method  
Using  
PCM  
Task  
Install a license  
Yes  
Yes  
Yes  
Yes  
Yes  
Yes  
Yes  
Uninstall a license  
View available registration IDs  
View license history  
No *  
No *  
No *  
Export license history  
* Can access via My ProCurve web portal  
To use HP ProCurve Manager to install a Premium License, you first select the 5400zl or 3500yl  
switch in the PCM navigation tree and right-click it. Then, you select Config Manager > License  
Software on the pop-up menus. The easy-to-use License Configuration Wizard window will then be  
displayed so that you can start the license installation process.  
Note that before attempting to install a Premium License using HP ProCurve Manager, HP ProCurve  
Manager must be configured for device access to the 5400zl or 3500yl switch and your “My  
ProCurve” account (member ID and password) information.  
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On a subsequent window, you select premium-edge for the Feature Group and type the registration ID  
you received with the purchase of the Premium License. The registration ID is found on a plastic  
laminated card that is shipped with the HP ProCurve switch.  
After you agree to the terms of the License Agreement, the wizard will display the status of the license  
installation process. As part of this process the following events occur:  
First, the Hardware ID is retrieved from the switch.  
Secondly, the license key is retrieved from the My ProCurve Web portal.  
Lastly, the Premium License feature group is activated and the license is installed.  
Appendix B: Policy Enforcement Engine  
The ProVision ASIC architecture used in the HP ProCurve Switch 5400zl, 3500yl, and 6200yl series  
brings a number of advanced capabilities to the network that offer a highly reliable, robust  
environment that leads to increased network uptime, keeping overall network costs down. One major  
feature is the ProVision Policy Enforcement Engine which is implemented in the ProVision ASIC of  
each line interface module.  
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Policy Enforcement Engine benefits  
The Policy Enforcement Engine has several benefits:  
Granular policy enforcement  
The initial software release on these products takes advantage of a subset of the full Policy  
Enforcement Engine capabilities, which will provide a common front end for the user interface to  
ACLs, QoS, Rate-Limiting, and Guaranteed Minimum Bandwidth controls. Fully implemented in  
later software releases, the Policy Enforcement Engine provides a powerful, flexible method for  
controlling the network environment. For example, traffic from a specific application (TCP/UDP  
port) can be raised in priority (QoS) for some users (IP address), blocked (ACL) for some other  
users, and limited in bandwidth (Rate-Limiting) for yet other users.  
The Policy Enforcement Engine provides fast packet classification to be applied to ACLs and QoS  
rules, and Rate Limiting and Guaranteed Minimum Bandwidth counters. Parameters that can be  
used include source and destination IP addresses, which can follow specific users, and TCP/UDP  
port numbers and ranges, which are useful for applications that use fixed port numbers. Over 14  
different variables can be used to specify the packets to which ACL, QoS, Rate Limiting, and  
Guaranteed Minimum Bandwidth controls are to be applied.  
Hardware-based performance  
As mentioned above, the Policy Enforcement Engine is a part of the ProVision ASIC. The packet  
selection is done by hardware at wire-speed except in some very involved rules situations.  
Therefore, very sophisticated control can be implemented without adversely affecting performance  
of the network.  
Works with Identity Driven Manager  
HP ProCurve Identity Driven Manager (IDM) provides the centralized command from the center to  
define the user policies to be used with each user. The IDM policy requests sent down to the switch  
are used to set up the user profile in the Policy Enforcement Engine so that the per-user ACL, QoS,  
and Rate-Limiting parameters can be used from the actual policy defined in IDM.  
Wire-speed performance for ACLs  
At the heart of the Policy Enforcement Engine is a memory area called the Ternary Content  
Addressable Memory (TCAM) that is contained within the ProVision ASIC along with the  
surrounding code for the Policy Enforcement Engine.  
It is this specialized memory area that helps the ProVision ASIC achieve wire-speed performance  
when processing ACLs for packets. In fact, multiple passes through the TCAM can be performed for  
packet sizes that are typically found in customers’ production networks. For the typical network, the  
average packet size will tend to be about 500 bytes. When maximum lookups are enabled, the  
ProVision ASIC performance is optimal for an average packet length of 200 bytes or more, which  
includes the range of packet sizes in typical networks.  
The TCAM can support approximately 3,000 data entries that may be used to represent various traffic  
controls, including ACLs. For most customers, this quantity of entries will be more than adequate to  
ensure wire-speed performance for ACL processing. Keep in mind that each ACL entry may consist of  
multiple criteria such as a specific IP address and TCP or UDP port number.  
In the initial release, the contents of the TCAM are common among the multiple line interface modules  
that a switch may have installed. For example, a HP ProCurve Switch 5406zl may have up to 6 line  
interface modules, and a HP ProCurve Switch 5412zl may have up to 12 line interface modules.  
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Appendix C: Power over Ethernet  
The IEEE 802.3af standard for Power over Ethernet (PoE) enables Ethernet switches to provide power,  
as well as network signals, for compliant devices over existing CAT-5 cable. Implementing devices  
that support integrated PoE, such as the HP ProCurve Switch 5400zl and 3500yl series, has several  
benefits:  
Lower-cost installations because a single cable provides power along with data connectivity  
No need to modify existing network cabling  
Provides a truly international standard for power distribution  
Enables remote reset and power-off capability  
PoE device types  
There are two types of devices that are defined for PoE implementations. The first type, called the  
powered device (PD), receives power from the second type, called the power sourcing equipment or  
PSE. Powered devices include any Ethernet device capable of receiving power through a data port such  
as IP telephones, IP cameras, PDAs, and tablet PCs.  
Power sourcing equipment, such as HP ProCurve switches with PoE support, must meet IEEE 802.3af  
specifications for voltage (47 to 57 volts DC) and wattage (up to 15.4 watts), with further limitations  
on the devices that receive power.  
HP ProCurve switches that are PoE-enabled support both IEEE 802.3af-compliant devices as well as  
some pre-802.3af standard devices.  
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Power delivery options  
The 802.3af standard provides two options for providing power over CAT 5 Ethernet cable. They are:  
Unused pairs—This option takes advantage of the fact that 10Base-T and 100Base-TX signals use  
only two of the four twisted pairs in the cable. In this option, the pins on pairs 1/2 and 3/6 are used  
for data, and the pins on pairs 4/5 and 7/8 are used for power. The 4/5 pair is twisted together to  
form the positive supply, and the 7/8 pair is twisted together to form the negative supply.  
Data pairs—This option provides power over pairs that also provide data and is necessary because  
1000Base-T signals use all four pairs. In this option, either the 1/2 pair or the 3/6 pair can form the  
positive supply.  
The 802.3af standard requires power sourcing equipment (PSE) to choose between the options. It is not  
possible to mix and match or to use all pairs for power transmission. HP ProCurve switches provide  
power over the data pairs. However, the standard requires PDs to be able to accept power over either  
data pairs or unused pairs.  
PoE negotiation  
In most networks, PSE will be connected to some devices that support PoE and some that do not.  
Consequently, in order to prevent damage to non-PoE devices, the 802.3af specification includes a  
negotiation mechanism between PSEs and the stations connected to them. Under the specification,  
PSEs apply a slight voltage on the power-delivery pairs. If there is a valid PD on the cable, it will  
present a resistance and a capacitance.  
Typically, this discovery process requires approximately 500 milliseconds. The PSE will apply the full  
wattage if it discovers a PD, but the flow is current-limited to prevent damage to cable and equipment  
under fault conditions.  
After discovery, a PD must draw a minimum current for the power flow to remain active. If, for  
example, the PD is unplugged, the PSE will discontinue power supply over the cable. The discovery  
process will be repeated when the PD is returned to service.  
The HP ProCurve switches described in this document that are PoE enabled are:  
HP ProCurve Switch 5406zl—supports up to 144 PoE ports  
HP ProCurve Switch 5412zl—supports up to 288 PoE ports  
HP ProCurve Switch 3500yl-24G-PWR—supports up to 24 PoE ports  
HP ProCurve Switch 3500yl-48G-PWR—supports up to 48 PoE ports  
Additional PoE power—external supplies  
The HP ProCurve 620 Redundant/External Power Supply can be used with up to two 3500yl Switches  
as an external supply providing an extra 398 W of PoE power for each switch. This extra power can be  
used to provide full PoE power redundancy at 15.4 W for all ports for the 3500yl-24G-PWR. It can  
also be used to provide full 15.4 W to all 48 ports on the 3500yl-48G-PWR, or full PoE power  
redundancy at 15.4 W for 24 ports on the 48-port switch.  
The HP ProCurve Switch zl Power Supply Shelf provides a 3U-high enclosure to hold up to two extra  
zl switch power supplies to provide additional PoE power to zl switches beyond the PoE power  
available through the switch’s internal power supplies alone. These extra supplies can also be used to  
provide PoE power redundancy beyond what is possible with switch internal supplies. Large Switch zl  
VoIP installations are ideal environments for the HP ProCurve Switch zl Power Supply Shelf.  
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Support for pre-802.3af standard powered devices  
The HP ProCurve Switch 5400zl and 3500yl series also support a number of pre-802.3af standard  
powered devices. These include:  
Cisco 7902G, 7905G, 7912G, 7940G, 7960G IP Phones  
Cisco Aironet 350, 1100, 1200, 1230AG Access Points  
The Cisco pre-802.3af standard IP phones require the use of a straight-through cable for connectivity  
to the PSE. These IP phones are dependent on the polarity of the DC voltage (a violation of the IEEE  
802.3af standard) and will not work properly if the Data Pairs (wires 1 and 2, and 3 and 6) are crossed  
over anywhere in the cable plant between the IP phone and power sourcing equipment.  
Appendix D: PIM Sparse Mode  
In Protocol Independent Multicast-Sparse Mode (PIM-SM), the assumption is that there are no hosts  
that want the multicast traffic unless they specifically ask for it. In contrast, PIM Dense Mode (PIM-  
DM) assumes downstream router membership unless it receives an explicit prune message. PIM-SM is  
appropriate for wide-scale deployment for both densely and sparsely populated groups and is the  
optimal choice for all production networks regardless of size and membership density.  
The operation of PIM-SM centers on the use of a shared tree, with a router functioning as a rendezvous  
point (RP), the root of the tree. A shared tree prevents each router from maintaining source and group  
state information for every multicast source. Regardless of the number or location of multicast  
receivers, multicast senders register with the RP and send a single copy of multicast data through it to  
the registered receivers. Also, regardless of the location or number of sources, group members register  
to receive data and always receive it through the RP.  
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In order to receive a multicast stream, routers explicitly join the stream by sending join messages to the  
RP. This join message is analogous to a unicast router following a default route to a destination.  
Effectively, the function of the RP is a place for multicast sources and receivers to meet.  
PIM-SM is extremely memory and CPU efficient. Since the only thing that most routers need to know  
is how to reach the RP, memory requirements are greatly reduced. There are several methods that can  
be used by routers in a PIM-SM domain to learn where to find the RP. Probably the simplest  
mechanism is statically configuring all routers to reach the RP. However, if the routers are statically  
configured to an RP and the RP fails, then the multicast network is no longer functional.  
Alternatively, the RP can be learned dynamically through the PIM-SM bootstrap mechanism. Since  
this bootstrap mechanism is dynamic, it allows for network changes and redundancy. The PIM-SM  
bootstrap mechanism is generally the recommended approach for simplicity and redundancy.  
Appendix E: LLDP-MED  
IEEE 802.1AB Link Layer Discovery Protocol (LLDP) provides a standards-based method that  
enables devices such as HP ProCurve switches to advertise themselves to adjacent devices and to learn  
about adjacent LLDP devices. An LLDP packet transmitted by a HP ProCurve switch contains data  
about the switch and port. The switch advertises itself to adjacent (neighbor) devices by transmitting  
LLDP data packets out all ports on which outbound LLDP is enabled, and reading LLDP  
advertisements from neighbor devices on ports that are inbound LLDP-enabled. An LLDP-enabled  
port receiving LLDP packets inbound from neighbor devices stores the packet data in a neighbor  
database (MIB).  
LLDP provides the base capabilities for network devices, but was not considered sufficient for IP  
telephony devices. As a result, in 2004, an initiative by Mitel, HP ProCurve, Avaya, and Enterasys was  
undertaken to enhance LLDP so that it could better support IP telephony devices. The development of  
LLDP-Medium Endpoint Discovery (LLDP-MED) (ANSI/TIA-1057/D6) extended the LLDP standard  
to support advanced features on the network edge for VoIP endpoint devices with specialized  
capabilities and LLDP-MED standards-based functionality. The extensions to LLDP include the  
specification of additional TLV (type, length, and value) entries specifically for VoIP management.  
LLDP-MED benefits include:  
Plug-and-play provisioning for MED-capable, VoIP endpoint devices  
Simplified, vendor-independent management enabling different IP telephony systems to  
interoperate on one network  
Automatic deployment of convergence network policies that include voice VLANs, Layer 2/CoS  
priority, and Layer 3/QoS priority  
Configurable endpoint location data to support the Emergency Call Service (ECS) such as  
Enhanced 911, 999, and 112  
Detailed VoIP endpoint data inventory readable via SNMP from the switch  
Power over Ethernet (PoE) status and troubleshooting support via SNMP  
Support for IP telephony network troubleshooting of call quality issues via SNMP  
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LLDP-MED endpoint devices are located at the network edge and communicate using the LLDP-MED  
framework. Any LLDP-MED endpoint device belongs to one of the following three classes:  
Class 1 (Generic Endpoint Devices): These devices offer the basic LLDP discovery services,  
network policy advertisement (VLAN ID, Layer 2/802.1p priority, and Layer 3/DSCP priority), and  
PoE management. This class includes such devices as IP call controllers and communication-related  
servers.  
Class 2 (Media Endpoint Devices): These devices offer all Class 1 features plus media streaming  
capability, and include such devices as voice/media gateways, conference bridges, and media  
servers.  
Class 3 (Communication Devices): These devices are typically IP phones or end-user devices that  
otherwise support IP media and offer all Class 1 and Class 2 features, plus location identification  
and emergency 911 capability, Layer 2 switch support, and device information management.  
Appendix F: Virus Throttle security  
Virus Throttle is based on the detection of anomalous behavior of network traffic that differs from a  
normal activity. Under normal activity, a computer will make fairly few outgoing connections to new  
computers, but instead is more likely to regularly connect to the same set of computers. This is in  
contrast to the fundamental behavior of a rapidly spreading worm, which will attempt many outgoing  
connections to new computers. For example, while computers normally make approximately one  
connection per second, the SQL Slammer virus tries to infect more than 800 computers per second.  
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Virus Throttle works by intercepting IP connection requests, that is, connections in which the source  
subnet and destination address are different. The Virus Throttle tracks the number of recently made  
connections. If a new, intercepted request is to a destination to which a connection was recently made,  
the request is processed as normal. If the request is to a destination that has not had a recent  
connection, the request is processed only if the number of recent connections is below a pre-set  
threshold. The threshold specifies how many connections are to be allowed over a set amount of time,  
thereby enforcing a connection rate limit. If the threshold is exceeded, because requests are coming in  
at an unusually high rate, it is taken as evidence of a virus. This causes the throttle to stop processing  
requests and, instead, to notify the system administrator.  
This capability can be applied to most common Layer 4 through 7 session and application protocols,  
including TCP connections, UDP packets, SMTP, IMAP, Web Proxy, HTTP, SSL, and DNS—  
virtually any protocol where the normal traffic does not look like a virus spreading. For Virus Throttle  
to work, IP routing and multiple VLANs with member ports must first be configured.  
Note that some protocols, such as NetBIOS and WINS, and some applications such as network  
management scanners, notification services, and p2p file sharing are not appropriate for Virus Throttle.  
These protocols and applications initiate a broad burst of network traffic that could be misinterpreted  
by the Virus Throttle technology as a threat.  
On the HP ProCurve Switch 5400zl, 3500yl, and 6200yl series, Virus Throttle is implemented through  
connection-rate filtering. When connection-rate filtering is enabled on a port, the inbound routed traffic  
is monitored for a high rate of connection requests from any given host on the port. If a host appears to  
exhibit the worm-like behavior of attempting to establish a large number of outbound IP connections in  
a short period of time, the switch responds one the basis of how connection-rate filtering is configured.  
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Response options  
The response behavior of connection-rate filtering can be adjusted by using filtering options. When a  
worm-like behavior is detected, the connection-rate filter can respond to the threats on the port in the  
following ways:  
Notify only of potential attack: While the apparent attack continues, the switch generates an Event  
Log notice identifying the offending host source address (SA) and (if a trap receiver is configured  
on the switch) a similar SNMP trap notice.  
Notify and reduce spreading: In this case, the switch temporarily blocks inbound routed traffic  
from the offending host source address for a “penalty” period and generates an Event Log notice of  
this action and a similar SNMP trap notice if a trap receiver is configured on the switch. When the  
penalty period expires, the switch re-evaluates the routed traffic from the host and continues to  
block this traffic if the apparent attack continues. During the re-evaluation period, routed traffic  
from the host is allowed.  
Block spreading: This option blocks routing of the host’s traffic on the switch. When a block  
occurs, the switch generates an Event Log notice and a similar SNMP trap notice if a trap receiver  
is configured on the switch. Note that system personnel must explicitly re-enable a host that has  
been previously blocked.  
Sensitivity  
The ability of connection-rate filtering to detect relatively high instances of connection-rate attempts  
from a given source can be adjusted by changing the global sensitivity settings. The sensitivity can be  
set to low, medium, high, or aggressive as described below:  
Low: sets the connection-rate sensitivity to the lowest possible sensitivity, which allows a mean of  
54 routed destinations in less than 0.1 seconds, and a corresponding penalty time for Throttle mode  
(if configured) of less than 30 seconds  
Medium: sets the connection-rate sensitivity to allow a mean of 37 routed destinations in less than  
1 second, and a corresponding penalty time for Throttle mode (if configured) between 30 and 60  
seconds  
High: sets the connection-rate sensitivity to allow a mean of 22 routed destinations in less than 1  
second, and a corresponding penalty time for Throttle mode (if configured) between 60 and 90  
seconds  
Aggressive: sets the connection-rate sensitivity to the highest possible level, which allows a mean  
of 15 routed destinations in less than 1 second, and a corresponding penalty time for Throttle mode  
(if configured) between 90 and 120 seconds  
Connection-rate ACL  
Connection-rate ACLs are used to exclude legitimate high-rate inbound traffic from the connection-  
rate filtering policy. A connection-rate ACL, consisting of a series of access control entries, creates  
exceptions to these per-port policies by creating special rules for individual hosts, groups of hosts, or  
entire subnets. Thus, the system administrator can adjust a connection-rate filtering policy to create and  
apply an exception to configured filters on the ports in a VLAN.  
Appendix G: VRRP  
Virtual Router Redundancy Protocol (VRRP) is designed to eliminate the single point of failure  
inherent in the static default routed environment. In a VRRP environment, two or more “virtual”  
routers cooperate to provide a high-availability capability on a LAN. VRRP specifies an election  
protocol that dynamically assigns routing responsibility to one of the virtual routers on a LAN.  
A virtual router consists of a set of router interfaces on the same network that share a virtual router  
identifier (VRID) and a virtual IP address. One router in the group becomes the VRRP Master and the  
other routers are designated as VRRP Backups. The VRRP Master controls the IP addresses associated  
with a virtual router.  
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The VRRP Master router periodically sends advertisements to a reserved multicast group address. The  
VRRP Backup routers listen for advertisements and one of the backups will assume the Master role, if  
necessary. A VRRP router can support many virtual router instances, each with a unique VRID/IP  
address combination. The election process provides dynamic failover to one of the remaining VRRP  
Backups should the Master become unavailable.  
The virtual IP address shared by a group of VRRP routers on a given network segment functions as the  
next-hop IP address used by neighboring hosts. The VRRP Master router simply forwards packets that  
have been received from hosts using the VRRP Master as the next-hop gateway. The existence of a  
VRRP Master and one or more VRRP Backups is transparent to the neighboring hosts.  
The advantage gained from using VRRP is a default path with higher availability, but without  
requiring configuration of dynamic routing or router discovery protocols on every end host.  
VRRP on HP ProCurve switches is interoperable with other routers that support RFC 3768.  
VRRP operational aspects include:  
Preempt delay timer to allow other protocols to complete their convergences  
Preemptive mode can be disabled to prevent VRRP router flapping  
Default Advertisement interval of 1 second  
Default Detection time of 3.6 seconds  
XRRP support on 5300xl switch  
Similar in concept to VRRP, the HP ProCurve XL Router Redundancy Protocol (XRRP) provides the  
equivalent mechanism in the HP ProCurve Switch 5300xl series for backup functionality. Like VRRP,  
XRRP presents a virtual router to the end node connections whose IP and MAC address can transition  
from the master HP ProCurve Switch 5300xl to the backup HP ProCurve Switch 5300xl in the event  
the master HP ProCurve Switch 5300xl interface fails.  
XRRP does not interoperate with VRRP, but can coexist in a VRRP environment without interference.  
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Appendix H: OSPF Equal Cost Multipath  
In Open Shortest Path First (OSPF), if different subnet destinations in a network are reachable through  
multiple equal-cost paths, the router chooses a single path for each destination subnet. (A trunk is  
considered a path even though a trunk consists of multiple links).  
With OSPF Equal Cost Multipath (OSPF-ECMP), routers support optional load-sharing across  
redundant paths to the same subnet. All traffic for different hosts in the same subnet may go through a  
different next-hop router. Multiple paths are balanced, based on destination IP address.  
HP ProCurve’s OSPF-ECMP feature is interoperable with OSPF-ECMP implementations from various  
vendors including Cisco, 3Com, and Extreme. The HP ProCurve implementation supports up to four  
ECMP paths.  
The example shows that there are three equal-cost, next-hop paths from Router A to the destination  
subnets with load-sharing across redundant paths. Router A can route packets based on destination IP  
address as follows:  
Destination IP  
10.1.1.1  
Next hop  
Router C  
Router B  
Router B  
Router B  
Router C  
Router B  
10.1.1.2  
10.1.2.3  
10.32.1.1  
10.32.1.2  
10.32.1.3  
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Appendix I: Advanced Classifier-Based QoS  
Released with software version K.14, the Advanced Classifier-Based QoS provides:  
A finer granularity than globally configured features for classifying network traffic (IPv4 or IPv6)  
into classes that can be used in cross-feature software configurations  
Traffic selection based on multiple match criteria:  
IP source address (IPv4 and IPv6)  
IP destination address (IPv4 and IPv6)  
Layer 2 802.1Q VLAN ID  
Layer 3 IP protocol  
Layer 3 IP precedence bits  
Layer 3 DSCP bits  
Layer 4 UDP/TCP application port (including TCP flags)  
VLAN ID  
Additional policy actions to manage selected traffic, such as rate-limiting and IP precedence  
marking  
Configuring service policies for features such as quality of service (QoS) and traffic mirroring  
The application of service policies to specific inbound traffic flows on individual port and VLAN  
interfaces (rather than only on switch-wide or port-wide traffic)  
1. Determine the traffic  
you want to manage  
match Commands  
2. Configure a traffic  
class (IPv4 or IPv6)  
ignore Commands  
rate-limit Command  
priority Command  
QoS (policy qos)  
ip-precedence Command  
3. Configure a policy  
for one or more  
dscp Command  
classes  
destination Command  
Mirroring (policy mirror)  
default-class action  
Command  
Default class (at end of  
policy configuration)  
Ports  
4. Apply a service  
policy to an interface  
VLANs  
Advanced Classifier-Based QoS model  
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Appendix J: Server-to-Switch Distributed Trunking  
Distributed Trunking is a link aggregation technique where two or more links across two switches are  
aggregated together to form a trunk. This feature overcomes the limitation in IEEE 802.3ad that  
specifies all links of a trunk have to be from a single switch. Distributed Trunking improves resiliency  
and load balancing in a layer 2 network.  
Distributed Trunking (DT) is included in switch software starting with version K.14. In this initial  
release, only Server-to-Switch Distributed Trunking is supported. For each downstream server, it sees  
the aggregated links as coming from a single switch, which makes any servers that support standard  
802.3ad interoperate with Distributed Trunking.  
Distributed trunks can be grouped together by configuring two individual DT-LACP trunks with the  
common trunk group name. DT ports will be aggregated dynamically after the configuration. The  
server/switch should support standard 802.3ad LACP on the links connecting DT switches. It is  
assumed LACP on the servers are configured manually on the server with a list of links to be part of  
the LACP trunk.  
DT offers load balancing of traffic over multiple physical links. From the server to the switch, the  
traffic is balanced according to the load-balancing scheme configured on the server NIC. From the  
switch to the server, traffic is balanced according to the MAC DA and SA pair.  
Two DT switches can be connected via only one Inter-Switch Connection (ISC) and DT ports can be  
connected only to servers. Following is the topology supported.  
Limitations/Restrictions  
Meshing and Distributed Trunking features are mutually exclusive.  
Routing and Distributed Trunking features are mutually exclusive.  
IGMP and DHCP snooping, ARP-protect, and STP are not supported on DT trunks.  
Q-in-Q in mixed VLAN mode and DT are mutually exclusive.  
ISC ports will be part of all VLANs—i.e., they will become members of a VLAN once that VLAN  
is configured.  
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ISC port can be an individual port or a manual LACP trunk, but a dynamic LACP trunk can’t be  
configured as an ISC port.  
Maximum of 8 links in a DT trunk across two switches is supported with a maximum of 4 links per  
DT switch  
The current limitation of 60 manual trunks in a switch will now include DT manual trunks too.  
One ISC is supported per switch for a maximum of 60 DT trunks supported in the switch.  
Spanning Tree Protocol is disabled (i.e., PDUs are filtered) on DT ports.  
An example of upstream traffic forwarding is as follows  
Assuming the uplink connected to Switch B is blocked by STP and only an uplink in Switch A is  
active. Server 1 sent traffic with load-balance across its 802.3ad LACP links. If the receiving switch is  
Switch A, which learns the destination MAC from any of the upstream links, it will forward the unicast  
frames to destination directly via its upstream link. If Switch B receives the unicast frame from the  
server and it learns DA (destination address) MAC from Switch A, Switch B will forward the frames  
to Switch A, and in turn Switch A forwards the frames to the destination via its upstream link. Thus,  
unicast frames are always forwarded by only one of the DT switches.  
Appendix K: Troubleshooting  
LED status indicators for 5400zl series  
The HP ProCurve Switch 5400zl series management module has various LED status indicators that are  
described in the following table.  
LED  
State  
Indication  
Power  
On (green)  
Off  
The switch is receiving power.  
The switch is NOT receiving power.  
Fault  
On (orange)  
On briefly at the beginning of switch self-test after the switch is  
powered on or reset. If on for a prolonged time, the switch has  
encountered a fatal hardware failure, or has failed its self-test.  
Off  
The normal state; indicates there are no fault conditions on the  
switch.  
Blinking  
(orange)  
A fault has occurred on the switch, one of the switch modules, an  
individual port, a power supply, or a fan. The Status LED for the  
module or other device with the fault will flash simultaneously.  
Test  
On (green)  
The switch self-test and initialization are in progress after you have  
power cycled or reset the switch. The switch is not operational until  
this LED goes off. The Self Test LED also comes on briefly when  
you “hot swap” a module into the switch and the module is  
automatically self-tested.  
Off  
Normal operation; the switch is not undergoing self-test.  
Blinking  
(orange)  
A component of the switch has failed its self-test. The status LED  
for that component (for example, a switch module) and the switch  
Fault LED will flash simultaneously.  
DIMM  
On (green)  
Off  
Normal operation.  
DIMM status is unknown.  
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LED  
State  
Indication  
Blinking  
(orange)  
If DIMM, Fault, and Self Test LEDs are blinking, DIMM failed  
self-test.  
If DIMM and Fault LEDs are blinking, an operational fault has  
occurred.  
If blinking at a fast rate, an operational alert occurred and is  
unresolved.  
Flash  
On (green)  
Off  
Flash Card status is known and fault free.  
Flash Card status is unknown.  
Blinking  
(orange)  
If Flash, Fault, and Self Test LEDs are blinking, Flash Card failed  
self-test.  
If Flash and Fault LEDs are blinking, an operational fault has  
occurred.  
If blinking at a fast rate, an operational alert occurred and is  
unresolved. For example, Flash Card is not present.  
Mgmt  
On (green)  
Off  
A Management module is present and fault free.  
The switch is powered off.  
Blinking  
(orange)  
There is a fault on the Management module.  
LED  
State  
Indication  
PoE  
On (green)  
Off  
If any PoE modules are installed.  
If no PoE modules are installed.  
Internal PoE fault, external load fault, or denied PoE power.  
Blinking  
(orange)  
Temp  
Fan  
On  
Internal temperature is normal.  
Blinking  
(orange)  
An over temperature condition has been detected.  
On (green)  
Normal operation.  
Blinking  
(orange)  
One or more of the switch’s fans have failed. The switch Fault LED  
will be blinking simultaneously.  
Internal Power  
(numbers  
corresponding to  
the power supply  
positions)  
On (green)  
A power supply is installed in the position in the back of the switch  
corresponding to the number, and the supply is plugged in to an  
active AC power source. As shipped, the switch has a single power  
supply in position 1.  
Off  
A power supply is not installed in the position corresponding to the  
number.  
Blinking  
(orange)  
The power supply installed in the position corresponding to the  
number is not plugged in to an active AC power source, or has  
experienced a fault. The switch Fault LED will be blinking  
simultaneously.  
EPS  
On (green)  
Off  
An external power supply is connected.  
An external power supply is not connected.  
Blinking  
(orange)  
The external power supply has a fault, or is connected but not  
plugged into AC power.  
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Modules  
A, B, C, D, E, F,  
G, H, I, J, K, L  
On (green)  
Off  
A module is installed in the switch module slot corresponding to the  
letter and the module is undergoing or has passed self-test. This also  
occurs when you install a module when the switch is already  
powered on (“hot swap”).  
A module is not installed in the switch module slot corresponding  
to the letter.  
Blinking  
(orange)  
The module status LED flashes very briefly when a module is being  
hot swapped. If the LED flashes for a prolonged time, the module in  
the slot corresponding to the letter has failed self-test or  
encountered some other fault condition.  
Modules in PoE  
Mode  
On (green)  
Off  
PoE is normal for this slot.  
The module in this slot is not a PoE module.  
Blinking  
(orange)  
If any port has an internal hardware failure, blinks once every 1.6  
seconds. If any port is denied PoE power or detecting an external  
PD fault, blinks once every 0.5 seconds.  
LED  
State  
Indication  
LED Mode Select  
Act (green)  
Flickers to show relative activity.  
FDx (green)  
PoE (green)  
Flickers to show relative activity.  
Indicates which ports are supplying power:  
• If the Mode LED is on, the port is providing PoE power.  
• If the Mode LED is off, the port is not providing PoE power.  
• If the Link LED is on, the port is enabled for PoE.  
• If the Link LED is off, the port is disabled for PoE.  
• If the Link LED is blinking, the port has an error or the port is  
denied power due to insufficient power.  
Spd (green)  
Usr (green)  
Indicates speed of operation of each port:  
• If the Port LED is off, the port is operating at 10 Mbps.  
• If the Port LED is blinking, the port is operating at 100 Mbps.  
• If the Port LED is on continuously, the port is operating at  
1000 Mbps.  
Reserved for future development.  
Table 10. LED status indicators for HP ProCurve Switch 5400zl series—management module  
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The LED status indicators for the HP ProCurve Switch 5400zl series switch modules are described in  
the following table.  
LED  
State  
Indication  
Link  
On (green)  
Indicates the port is enabled and receiving a link beat signal  
(for the twisted-pair ports), or a strong enough light level (for  
the fiber-optic ports) from the connected device  
Off  
Indicates no active network cable is connected to the port, the  
port is not receiving link beat or sufficient light, or the port has  
been disabled  
Blinking (orange)  
If the port LED is blinking simultaneously with the Fault LED,  
the corresponding port has failed its self-test.  
Mode  
Depending on the mode selected, displays:  
• Network activity information  
• Whether the port is configured for Full Duplex operation  
• Maximum speed operation  
• Whether PoE power is being supplied or not  
Table 11. LED status indicators for HP ProCurve Switch 5400zl series—switch modules  
LED status indicators for 3500yl and 6200yl series  
The front panel of the HP ProCurve Switch 3500yl and 6200yl series has various LED status indicators  
that are described in the following table.  
LED  
State  
Indication  
Power  
On (green)  
Off  
The switch is receiving power.  
The switch is NOT receiving power.  
Fault  
On (orange)  
On briefly after the switch is powered on or reset, at the  
beginning of switch self-test. If this LED is on for a  
prolonged time, the switch has encountered a fatal hardware  
failure, or has failed its self-test.  
Off  
The normal state; indicates there are no fault conditions on  
the switch.  
Blinking (orange)  
A fault has occurred on the switch, one of the switch ports,  
module in the rear of the switch, or the fan. The status LED  
for that component will blink simultaneously.  
Test  
On (green)  
The switch self-test and initialization are in progress after the  
switch has been power cycled or reset. The switch is not  
operational until this LED goes off. The Self Test LED also  
comes on briefly when you “hot swap” a mini-GBIC into the  
switch; the mini-GBIC is self-tested when it is hot swapped.  
Off  
The normal operational state; the switch is not undergoing  
self test.  
Blinking (orange)  
A component of the switch has failed its self-test. The status  
LED for that component will blink simultaneously.  
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LED  
State  
Indication  
Temp  
On (green)  
Internal temperature is normal.  
Blinking (orange)  
On (green)  
An over temperature condition has been detected.  
Normal operation.  
Fan Status  
PoE Status  
Blinking (orange)  
One of the unit’s fans has failed. The switch Fault LED will  
be blinking simultaneously.  
On (green)  
Off  
If any ports are supplying PoE power.  
If no ports are supplying PoE power. Should be off only  
during the boot process.  
Blinking (orange)  
If any port has an internal hardware failure, blinks once every  
1.6 seconds. If any port is denied PoE power or detecting an  
external PD fault, blinks once every 0.5 seconds.  
LED  
State  
Indication  
RPS Status  
On (green)  
Normal operation. RPS is connected and operating correctly.  
RPS could be powering the unit.  
Off  
RPS is not connected or is not powered on.  
RPS is connected, but has experienced a fault.  
Connected to an EPS, and receiving power.  
The switch is not connected to an EPS.  
Blinking (orange)  
On (green)  
Off  
EPS Status  
Blinking (orange)  
The EPS is connected but has experienced a fault or is  
unplugged.  
Mdl—Module  
Status  
On (green)  
Expansion module is plugged in to expansion slot and  
operating correctly.  
Off  
Expansion module is not plugged in to expansion slot.  
Blinking (orange)  
Expansion module is plugged in to expansion slot but has  
experienced a fault.  
Port LEDs  
(Link and  
Mode)  
Link (green)  
Indicates the port LEDs are displaying link information:  
• If the port LED is on, the port is enabled and receiving a  
link indication from the connected device.  
• If the port LED is off, the port has no active network cable  
connected, or is not receiving link beat or sufficient light.  
Otherwise, the port may have been disabled through the  
switch console, the Web browser interface, or HP ProCurve  
Manager.  
If the port LED is blinking (orange) simultaneously with the  
Fault LED, the corresponding port has failed its self-test.  
Mode (green)  
The operation of the Mode LED is controlled by the LED  
Mode select button, and the current setting is indicated by the  
LED Mode indicator LEDs near the button. Press the button  
to step from one view mode to the next. The default view is  
Activity (Act).  
LED Mode  
Select  
Act (green)  
FDx (green)  
Flickers to show relative activity.  
Flickers to show relative activity.  
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LED  
State  
Indication  
PoE (green)  
Indicates which ports are supplying power:  
• If the Mode LED is on, the port is providing PoE power.  
• If the Mode LED is off, the port is not providing PoE power.  
• If the Link LED is on, the port is enabled for PoE.  
• If the Link LED is off, the port is disabled for PoE.  
• If the Link LED is blinking, the port has an error or  
the port is denied power due to insufficient power.  
Spd (green)  
Usr (green)  
Indicates speed of operation of each port:  
• If the Port LED is off, the port is operating at 10 Mbps.  
• If the Port LED is blinking, the port is operating at  
100 Mbps.  
• If the Port LED is on continuously, the port is operating at  
1000 Mbps.  
Reserved for future development.  
Table 12. LED status indicators for HP ProCurve Switch 3500yl and 6200yl series  
Part numbers and Field Replaceable Units  
The table below lists various part numbers and Field Replaceable Units (FRUs) for the HP ProCurve  
Switch 5400zl series.  
Part number  
Component  
J8702-69001  
J8705-69001  
J8707-69001  
J8726-69001  
J8697-60005  
J8698-60005  
5070-1056  
HP ProCurve Switch 5400zl 24-Port Gig-T PoE Module  
HP ProCurve Switch 5400zl 20-Port Gig-T + 4-Port Mini-GBIC Module  
HP ProCurve Switch 5400zl 4-Port 10G X2 Module  
Management Module without CF Card  
Fan Tray Assembly for 5406zl  
Fan Tray Assembly for 5412zl  
Programmed CF kit for Management Module  
High-Power PoE Supply 1500 W  
J8713-69001  
J8712-69001  
5184-1894  
875 W Power Supply  
Console Cable  
5069-8561  
Two-Post Rack Mounting Kit for 5406zl  
Two-Post Rack Mounting Kit for 5412zl  
Four-Post Rack Rail Mounting Kit for 5406zl and 5412zl  
5069-8562  
356578-B21  
Table 13. Part numbers and FRUs for HP ProCurve Switch 5400zl series  
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The switches normally ship with a rack-mounting kit that allows installation into a two-post, 19-inch  
data communications rack. If installation into a 10K four-post 19-inch rack or a four-post rack meeting  
the standard EIA unit of measurement is desired, a rack-mounting kit is available providing rails that  
give sturdy support for the switch along its entire length.  
The table below lists various part numbers and FRUs for the HP ProCurve Switch 3500yl and 6200yl  
series.  
Part number  
Component  
J8692-69001  
J8693-69001  
HP ProCurve Switch 3500yl-24G-PWR Intelligent Edge  
HP ProCurve Switch 3500yl-48G-PWR Intelligent Edge  
J8992-69001  
J8694-69001  
J8696-69001  
5069-8589  
HP ProCurve Switch 6200yl-24G Mini-GBIC  
HP ProCurve Switch 3500yl/6200yl 2p 10GbE X2 + 2p CX4 Module  
HP ProCurve 620 Redundant/External Power Supply  
Fan Tray Assembly for 3500yl and 6200yl  
Console Cable  
5184-1894  
5069-5705  
Two-Post Rack Mounting Kit  
356578-B21  
Four-Post Rack Rail Mounting Kit  
Table 14. Part numbers and FRUs for HP ProCurve Switch 3500yl and 6200yl series  
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The table below lists the part numbers of power cords that can be used with the HP ProCurve Switch 5400zl, 3500yl, and 6200yl  
series products. The power cords available for these switches are sized for the increased current that can be drawn, meeting the needs  
of PoE. As a result, these power cords may not be found in a typical environment, and power cords “borrowed” from other products  
will not work in most instances.  
HP ProCurve Switch 5400zl  
HP ProCurve Switch  
Country  
3500yl and 6200yl  
875 W power  
supply  
1500 W power  
supply  
UK, Hong Kong, Singapore  
Australia, New Zealand  
8120-5334  
8120-5335  
8120-5334  
8120-5335  
8120-6898  
8121-0871  
Europe  
8120-5336  
8120-5336  
8120-6899  
US, Canada, Mexico  
Japan  
8121-0914  
8120-5342  
8120-1034  
8120-5341  
8121-5339  
8120-5340  
8121-0973  
8120-5342  
8120-8385  
8120-5341  
8121-5339  
8120-5340  
8121-6903  
8120-6903  
8120-0924  
8120-0915  
8121-0915  
8120-6897  
China  
South Africa, India  
Switzerland  
Denmark  
Table 15. Power cords for HP ProCurve Switch 5400zl, 3500yl, and 6200yl series  
For more information  
To learn more about HP ProCurve Networking, please visit ProCurve.com  
© Copyright 2008 Hewlett-Packard Development Company, L.P. The information contained herein is subject to change without notice. The only warranties for HP products and services are set forth in the  
express warranty statements accompanying such products and services. Nothing herein should be construed as constituting an additional warranty. HP shall not be liable for technical or editorial errors or  
omissions contained herein.  
4AA0-5388ENW Rev. 2, December 2008  
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