Lightstream Troubleshooting Tools; Lightstream Boot Process - Cisco RJ-45-to-AUX Brochure

algorithm to determine the path for any data that arrives and needs to be switched through the network. The
routing algorithm calculates the minimum distance path through the network, verifies the availability of
bandwidth, and then sets up a connection between the two ATM endpoints in the network. The routing
algorithm can use metrics to determine the least−cost route for setting up a virtual connection.
A route that is selected through the route generation function is based on the smallest number of hops to the
destination. If two equal paths exist, the routing algorithm uses the bandwidth of the links as the tie−breaker:
It uses the fastest link with the most available bandwidth.
When a route needs to be generated, the routing algorithm creates the most efficient route based on the
following information:
Source and destination addresses (the internal addresses used to designate the VCC endpoints in the
network)
Bandwidth type (indicates the pool to be used for allocation, data, or control purposes)
Service specification of the desired bandwidth or a minimum acceptable bandwidth
Scaling factors allow for a partial allocation of bandwidth for certain types of data traffic. The primary scaling
factor is not definable and is always set to 1. A secondary scaling factor can be defined by an administrator;
it's typically set to a range of 1 to 2 percent.
When identifying a minimum acceptable bandwidth, you must set a parameter that will be an enforced rate for
the VCC. This parameter will make the routing algorithm choose a link that has bandwidth equal to or greater
than the assigned minimum acceptable bandwidth value. Doing so prevents the possibility of an output port
sending data at a greater rate than an intermediate link can handle and guarantees a certain amount of
bandwidth for those applications that require it.

LightStream Troubleshooting Tools

The LightStream series of Cisco switches has many troubleshooting and monitoring tools. The boot process
can be used to find hardware or software problems, certain protocols can be used for troubleshooting, and a
unique tool called a snooping mechanism allows all or some of the connections to be transparently mirrored to
a port. Let's take a better look at these troubleshooting tools in the following sections.

LightStream Boot Process

When you power−on a LightStream for the first time, you should be able to access the console port. Within
the first few seconds of turning on the power, you should see the following three lines:
System Bootstrp, Version 201 (1025), SOFTWARE
Copyright (c) 1986−1996 by Cisco Systems
ASP processor with 16384 Kbytes of main memory
These lines indicate how much memory is installed in the switch. Checking the amount of memory installed
in the switch against the amount displayed here can identify a hardware problem. If the bootstrap fails to load,
the boot ROM could have a problem. If the switch has no configuration, it will default to setup mode.
If you see the following notice during the boot process and you're prompted to set up the switch, then the
installed nonvolatile RAM (NVRAM) may have a problem—particularly if a saved configuration existed
when the power was recycled. Let's take a look:
Notice: NVRAM invalid, possibly due to a write erase.
— System Configuration Dialog —
At any point you may enter a question mark '?' for help.
Use ctrl−c to abort configuration dialog at any prompt.
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