Cisco Systems 8xDMT manual Slot, None Global configuration

Page 25

Octal-Port DMT ATU-C Line Card

slot

slot

Syntax Description

To provision a slot for a specific card type, or to change the line coding for a flexi line card, use the slot command.

slot slot# cardtype

slot#

The number of the slot you want to provision. The range is 1 to 38.

 

Note The number of slots varies by chassis. The Cisco 6130 has

 

 

38 slots, the Cisco 6160 has 34 slots, and the Cisco 6260 has

 

 

32 slots.

 

 

cardtype

The line card type for which you want to configure the slot. The

 

valid card types are

 

ATUC-1-4DMT—4-port DMT card

 

ATUC-1-4DMT-I—4-port DMT over ISDN card

 

ATUC-4FLEXICAP—4-port flexi card configured as CAP

 

ATUC-4FLEXIDMT—4-port flexi card configured as DMT

 

ATUC-1-DMT8—8-port DMT card

 

ITUC-1-8IDSL—8-port IDSL card

 

STUC-4-2B1Q-DIR-1—4-port SDSL card

 

Note Some line cards do not function in all NI-2 DSL systems.

 

 

For example, the Cisco 6100 system supports only a

 

 

dual-port CAP ATU-C line card. Consult the hardware

 

 

documentation for your DSL system to determine which line

 

 

cards it supports.

 

 

 

Defaults

Command Modes

Command History

None.

Global configuration.

Release

Modification

12.0(5)DA

This command was introduced.

 

 

12.1(1)DA

New card types were added.

 

 

12.1(6)DA

New card types were added.

 

 

Cisco IOS Release 12.1(6)DA

25

Image 25
Contents Octal-Port DMT ATU-C Line Card Feature OverviewBit Swapping Hs Support ITU G.994.1Fast or Interleaved Path Selection Trellis EncodingHardware Documents Software Documents Minrate-blocking Dmt rate-adaptationDSLAMs Supported PlatformsNumber of Available 8xDMT Chassis Slots Standards Supported Standards, MIBs, and RFCsStandard Mibs Cisco-Derived MibsCommand Purpose Configuration TasksPrerequisites Upstream on the fast path. Automatically configures Enter DSL profile configuration modeSelect the profile that you want to attach to Selected port. The profile name 8xDMT is used asMonitoring and Maintaining the 8xDMT Line Card Current configuration 7019 bytes Configuration ExamplesCommand Reference Alarms AlarmsSyntax Description Defaults Command Modes Command History Release ModificationExamples Command DescriptionDmt bitrate Command Modes Command HistoryThose port settings Path Aggregate Configuration Data Range DefaultDownstream Upstream Path KbpsDmt check-bytes You, use the dmt bitrate command to reduce the bit rateValues for the connection Downstream and 6 upstreamRelated Commands None Dmt margin downstream dmt-marginupstream dmt-margin Dmt marginReleaseModification Command History Release Modification Syntax Description Defaults Command ModesIOS 12.16DA This command was introduced Dmt minrate-blockingDmt overhead-framing Defaults Command Modes Command History Usage GuidelinesSyntax Description Related Commands Description T1.413 and G992.1 G992.2 Framing Mode Downstream UpstreamAdaptation, use the no form of the command Dmt rate-adaptation enableDmt rate-adaptation enable This command has no arguments or keywordsDmt rate-adaptation interval Defaults Command Modes Command HistoryUpstream monitoring interval is 20 seconds Dmt rate-adaptation margin min downstream dB upstream dB Dmt rate-adaptation marginMin Slot None Global configurationUsage Guidelines Examples Glossary Pseudonym for G.992.1 Problem is found Loss Of Delay SynchronizationLoss of signal Loss of Cell DelineationProviding reliable, connection-oriented full-duplex streams LAN. Has no password securityRemote host and act as normal terminal users of that host VCI VPI

8xDMT specifications

Cisco Systems’ 8xDMT, or "Eightfold Digital Multicast Technology," is a pioneering solution designed to optimize multicast traffic management and enhance the scalability of network performance. This technology comes into play primarily in video broadcasting, online gaming, and other applications that require the efficient distribution of data to multiple endpoints, significantly reducing the bandwidth use while improving overall network efficiency.

One of the primary features of Cisco 8xDMT is its ability to support multiple multicast streams concurrently. By using advanced algorithms, 8xDMT ensures that network resources are utilized efficiently, minimizing latency and maximizing throughput. This makes it particularly advantageous for service providers and organizations that deliver high-definition video content or require real-time data transmission across geographic locations.

Another notable characteristic of the Cisco 8xDMT is its integrated Quality of Service (QoS) capabilities. This feature allows for the prioritization of multicast traffic, ensuring that critical data packets are transmitted smoothly without delay, even during peak load times. The QoS management allows administrators to configure settings that guarantee minimal disruptions, providing end users with a seamless viewing or gameplay experience.

Additionally, Cisco 8xDMT takes advantage of Multicast Domain Name System (mDNS), which allows devices on the same network to discover and communicate efficiently. This not only aids in reducing the network load but also simplifies the management of multicast addresses, making it easier for organizations to scale their operations without significant overhead.

The technology also incorporates robust security features, including support for secure multicast transmissions. This ensures that sensitive data remains protected during distribution, addressing the increasing need for security in an era where cyber threats are prevalent.

Furthermore, Cisco Systems emphasizes interoperability with its 8xDMT platform, ensuring easy integration with existing network infrastructure. This is crucial for enterprises looking to modernize their systems without the need for extensive reinvestment in new hardware.

In conclusion, Cisco Systems’ 8xDMT stands out as a versatile and high-performance multicast solution designed to meet modern networking demands. With its ability to manage multiple streams, enforce QoS, simplify multicast management, and secure communications, it holds significant potential for transforming how organizations distribute data efficiently and effectively.