Network and bandwidth management, Dynamic scpc (dscpc), Dynamic scpc ( d scpc) – Comtech EF Data CDD-56X Series Vipersat User Manual
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Chapter
1 -
General
1-5
MN/22137, rev 1
Product Description
• Single Hop On Demand (SHOD) functions
• 10/100BaseT Ethernet LAN/WAN Interface
• Static IP Routing for Unicast or Multicast
• Header Decompression
• Payload Decompression
• 3xDES Decryption
Network and Bandwidth Management
A Vipersat-powered network solution integrates this advanced demodulator/
router with the powerful network management tool, the Vipersat Management
System (VMS). The VMS provides for traditional monitor and control of the
CDM-570/570L modems and the CDD-56X demodulators, but more than just
an M&C package, the VMS offers unique bandwidth management that is ideal
for IP-switched networks. Short data transfers are typically executed using a
shared Selective Time Division Multiple Access (STDMA) channel, and when
large amounts of data transfer, voice, and/or video communications are needed,
these units can be automatically switched to a dedicated SCPC channel.
Dynamic SCPC (dSCPC)
The VMS provides for dynamic bandwidth allocation while in SCPC mode,
automatically altering the bandwidth based on traffic conditions. This effec-
tively enables the network to better handle connection-oriented applications and
reduce network congestion, jitter, and latency.
In a typical Vipersat application used in conjunction with CDM-570/570L
modems, the CDD-56X demodulators are drawn from a pool for assignment to a
connection-oriented link.
Traffic inbounds from remotes can be switched manually or automatically,
application or load triggered, or scheduled, from shared STDMA (burst) mode
to a dedicated SCPC connection. The VMS automatically assigns a free demod-
ulator at the Hub to a desired remote inbound, completely eliminating manual
intervention. At remote sites, the CDD-56X simplifies Single Hop On Demand
(SHOD) applications with direct remote-to-remote connections that do away
with double-hops. Once the session is completed, the remote is automatically
reverted back to its home state.
The result is an economical and flexible network with bandwidth shared and
directed where it is needed for any mix of IP voice, video, and data traffic.