Owner's manual

ManualsBrandsHP ManualsComputer Accessories2424M

HP ProCurve Switch 4000M / 8000M / 2424M / 1600M Reviewer’s Guide

Throughput testing using just the installed 24 10/100 ports of the HP ProCurve Switch 2424M shows it

to be media speed under these conditions for all packet sizes.

3.1.3 HP ProCurve Switch 1600M

For the HP ProCurve Switch 1600M, where the port count is lower than the Switch 8000M, throughput

is at full media speed for all ports. The throughput numbers in Appendix A for the HP ProCurve

Switch 1600M are for twenty-four 10/100Mbps ports at half-duplex. The test used to derive this result is

the SmartApplications suite, revision 1.7, from NetCom Systems. This version does not support full

duplex operation. In addition, the test will not test the backplane speed of the Switch 1600M with a

Gigabit port installed because it cannot operate at full duplex. Backplane throughput was tested with

the Gigabit port by using SmartWindows from NetCom Systems, another testing program that operates

at a low level much like a LAN analyzer. SmartWindows, which can handle full duplex traffic, was set

up to send theoretical maximum traffic into the Switch 1600M with the Gigabit module, while

monitoring traffic coming out of the switch. All traffic sent into the switch was observed to also leave

the switch indicating full media speed operation.

3.1.4 Gigabit Port Throughput

As shown in Appendix A, a Gigabit port, on an HP ProCurve switch tests out at ten times the

throughput of a 100 Mbps port. In other words, as far as the throughput tests are concerned, a Gigabit

module is equal to ten 10/100 ports, for both half and full-duplex tests.

3.2 Congestion Control

Congestion occurs any time more packets are destined for a particular segment than that segment can

handle. All switches handle momentary congestion passively through buffering excess packets in

memory. Some switches attempt to handle congestion actively by making a heavily used segment

appear to have numerous collisions, causing all stations on that segment to back off in their sending of

packets. This method is called “backpressure”. Since all nodes on a segment are prevented from talking

during the time the switch is applying backpressure, even traffic not destined for the switch is also

stopped during this time.

Another method of congestion control is to modify the Ethernet backoff algorithm parameters. This

technique, sometimes called “forwardpressure”, makes a switch port more aggressive in getting any

buffered packets out on a segment after a collision has occurred, at the expense of other nodes on that

segment. Since this directly conflicts with Ethernet standards it is strongly criticized and discouraged

by the various Ethernet standards groups. It is, however, very difficult to test for compliance in this

area. HP switches do not employ forwardpressure.

In order to control congestion in a standardized manner, the 802.3x Flow Control standard has been

implemented in the HP ProCurve Switch 4000M/8000M/2424M/1600M. This allows orderly control of

segment traffic by allowing a port on the switch to signal its congestion to the segment and holding off

segment traffic. For 802.3u to work correctly, the node(s) connected directly to switch ports with flow

control enabled also have to support the flow control protocol. Current congestion control testing has

not been done while using 802.3u, but should have similar results to switches employing backpressure.

3.2.1 Unidirectional Congestion Testing

As the HP ProCurve Switch 4000M/8000M/2424M/1600M does not utilize backpressure or

forwardpressure, congestion control is through having adequate buffers available to handle periods of

output port over-subscription or through the use of 802.3u Flow Control. In Section 6 of their 1997

Switched 10Mbps — 100Mbps Evaluation Report, Strategic Networks Consulting Inc., a well-respected

network consultancy, reported that switches with passive congestion control can be as effective as

switches with active congestion control. They further state that such switches “can be deployed

throughout the network with somewhat less regard for the traffic flows and client-server system

configurations.” In other words, deployment of switches with passive congestion control is easier to do

(less upset to the network itself) without any loss in effectiveness of overall congestion control. So