Lucent Technologies Definity Enterprise Communication Server 8.2 Manual Do Utilizador
DEFINITY ECS Release 8.2
Administrator’s Guide
Administrator’s Guide
555-233-506
Issue 1
April 2000
Managing data calls
430
Wideband Switching
15
N x DS0
For the N x DS0 multi-rate service, a trunk group parameter determines whether a
floating or a flexible trunk allocation scheme is to be used. The algorithm to
satisfy an N x DS0 call is either floating or flexible.
floating or a flexible trunk allocation scheme is to be used. The algorithm to
satisfy an N x DS0 call is either floating or flexible.
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Floating (Contiguous) — In the floating scheme, an N x DS0 call is placed
on a contiguous group of B-channels large enough to satisfy the requested
bandwidth without any constraint being put on the starting channel (that is,
no fixed starting point trunk).
on a contiguous group of B-channels large enough to satisfy the requested
bandwidth without any constraint being put on the starting channel (that is,
no fixed starting point trunk).
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Flexible — In the flexible scheme, an N x DS0 call is placed on any set of
B-channels as long as the requested bandwidth is satisfied. There is
absolutely no constraint such as contiguity of B-channels or fixed starting
points. Of course, as with all wideband calls, all the B-channels comprising
the wideband call must reside on the same ISDN facility.
B-channels as long as the requested bandwidth is satisfied. There is
absolutely no constraint such as contiguity of B-channels or fixed starting
points. Of course, as with all wideband calls, all the B-channels comprising
the wideband call must reside on the same ISDN facility.
Regardless of the allocation scheme employed, the N x DS0 algorithm, like
the H11 and H12 algorithms, attempts to preserve idle facilities when
offered B, H0, and N x DS0 calls. This is important so that N x DS0 calls,
for large values of N, have a better chance of being satisfied by a given
trunk group. However, if one of these calls cannot be satisfied by a
partially-contaminated facility and an idle facility exists, a trunk on that
idle facility is selected, thus contaminating that facility.
the H11 and H12 algorithms, attempts to preserve idle facilities when
offered B, H0, and N x DS0 calls. This is important so that N x DS0 calls,
for large values of N, have a better chance of being satisfied by a given
trunk group. However, if one of these calls cannot be satisfied by a
partially-contaminated facility and an idle facility exists, a trunk on that
idle facility is selected, thus contaminating that facility.
There are additional factors to note regarding specific values of N and the
N x DS0 service:
N x DS0 service:
— N = 1 — this is considered a narrowband call and is treated as any
other voice or narrowband-data (B-channel) call.
— N = 6 — if a trunk group is optioned for both H0 and N x DS0
service, a 384-kbps call offered to that trunk group is treated as an
H0 call and the H0 constraints apply. If the H0 constraints cannot be
met, then the call is blocked.
H0 call and the H0 constraints apply. If the H0 constraints cannot be
met, then the call is blocked.
— N = 24 — if a trunk group is optioned for both H11 and N x DS0
service, a 1,536-kbps call offered to that trunk group is treated as an
H11 call and the H11 trunk allocation constraints apply.
H11 call and the H11 trunk allocation constraints apply.
— N = 30 — if a trunk group is optioned for both H12 and N x DS0
service, a 1,920-kbps call offered to that trunk group is treated as an
H12 call and the H12 trunk allocation constraints apply.
H12 call and the H12 trunk allocation constraints apply.