Cisco Systems 15454M6DC Manual De Usuario
6-19
Cisco ONS 15454 Installation and Operations Guide
November 2001
Chapter 6 Circuits and Tunnels
Cross-Connect Card Capacities
•
In the
example, three STSs are used at the source and drop nodes and four STSs are used
at pass-through nodes. In
, six STSs are used at the source and drop nodes and four
STSs at the pass-through nodes.
6.8.2 VT Tunnels
To maximize VT matrix resources, you can tunnel VT1.5 circuits through ONS 15454 pass-through
nodes (nodes that are not a circuit source or drop). VT1.5 tunnels provide two benefits:
nodes (nodes that are not a circuit source or drop). VT1.5 tunnels provide two benefits:
•
They allow you to route VT1.5 circuits through ONS 15454s that have XC cards. (VT1.5 circuits
require XCVT or XC10G cards at circuit source and drop nodes.)
require XCVT or XC10G cards at circuit source and drop nodes.)
•
When tunneled through nodes with XCVT or XC10G cards, VT1.5 tunnels do not use VT matrix
capacity, thereby freeing the VT matrix resources for other VT1.5 circuits.
capacity, thereby freeing the VT matrix resources for other VT1.5 circuits.
shows a VT tunnel through the XCVT and XC10G matrices. No VT1.5-mapped STSs are
used by the tunnel, which can carry 28 VT1.5s. However, the tunnel does use two STS matrix ports on
each node through which it passes.
each node through which it passes.
Figure 6-13 A VT1.5 tunnel
shows a six-node ONS 15454 ring with two VT tunnels. One tunnel carries VT1.5 circuits
from Node 1 to Node 3. The second tunnel carries VT1.5 circuits from Node 1 to Node 4.
shows the VT1.5-mapped STS usage at each node in a ring based on protection scheme and use of VT
tunnels. In the
tunnels. In the
example, the circuit travels west through Nodes 2, 3, and 4. Subsequently,
VT-mapped STS usage at these nodes is greater than at Nodes 5 and 6.
61850
STS Matrix
VT Tunnel
VT1.5
VT1.5 Matrix
OC
Trunk
OC
Trunk