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Cisco Systems 6400 appendix Abrfc Abrnfc, UBR.1 UBR.2 VBR.1 VBR.2 VBR.3 Other

Models: 6400

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Appendix A Attribute Reference

Cross Connection

Table A-8 Cross Connection (continued)

Attributes

Acceptable

Default Values

 

Values

 

 

 

 

Maximum Burst Size (cells) [raaz_mbs]

Numb (10)

0

MBS is the maximum number of cells that can be received at the PCR. This

Range=0-214748

 

allows a burst of cells to arrive at a rate higher than the SCR. If the burst is

3647

 

larger than anticipated, the additional cells are either tagged or dropped.

 

 

This parameter applies only to VBR traffic.

 

 

W P

 

 

 

 

 

CDVT (microseconds) [raaz_cdvt]

Numb (10)

0

Cell Delay Variation Tolerance establishes the time scale over which the

Range=0-214748

 

3647

 

PCR is policed. This is set to allow for jitter (CDV).

 

 

 

W P

 

 

 

 

 

Traffic Desc [raaz_tdtype]

Enum (7) "None"

 

This is the traffic descriptor type which describes the specified traffic

"ABR_FC"

 

"ABR_NFC"

 

parameters for the service (for more information consult the ATM Service

 

"CBR.1"

 

Application Solutions Guide).

 

"UBR.1"

 

M W P

 

"UBR.2"

 

 

 

 

"VBR.1"

 

 

"VBR.2"

 

 

"VBR.3" "Other"

 

 

 

 

Z to A Direction

 

 

 

 

 

Bandwidth (kbits/s) [srza_bandwidth]

Numb (10)

 

This is the bandwidth consumed by the A endpoint in the Z to A direction.

Range=0-214748

 

M W

3647

 

 

 

 

 

 

Primary logical port [srz_primtp]

Text (44)

 

This is the logical port used as the primary Z side termination point when

 

 

this NC is using a backup UNI logical port.

 

 

R A

 

 

 

 

 

Sustainable Cell Rate (cells/s) [raza_scr]

Numb (10)

0

SCR is the maximum average cell transmission rate that is allowed over a

Range=0-214748

 

3647

 

given period of time on a given circuit. It allows the network to allocate

 

 

 

sufficient resources for guaranteeing the network performance objectives

 

 

are met.

 

 

W P

 

 

 

 

 

Peak Cell Rate (cells/s) [raza_pcr]

Numb (10)

0

PCR is the maximum allowed cell transmission rate. It defines the shortest

Range=0-214748

 

time period between cells and provides the highest guarantee that network

3647

 

performance objectives (based on cell loss ratio) will be met.

 

 

W P

 

 

 

 

 

Cisco 6400 Equipment Module Configuration Guide

 

A-20

OL-1812-01

 

 

 

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Cisco Systems 6400 appendix Abrfc Abrnfc, UBR.1 UBR.2 VBR.1 VBR.2 VBR.3 Other
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6400 specifications

Cisco Systems 6400, part of Cisco's robust networking portfolio, is a high-performance platform designed to facilitate advanced network services and operations. This versatile router is built to meet the demands of modern data networks, providing exceptional scalability, reliability, and flexibility for businesses of all sizes.

One of the key features of the Cisco 6400 is its modular architecture. This design allows businesses to customize their networking requirements by adding or removing various modules as needed. With multiple slots available, users can integrate a range of services including security, routing, switching, and WAN optimization, ensuring that the device can grow alongside the organization’s evolving needs.

In terms of performance, the Cisco 6400 boasts impressive throughput capabilities. It is engineered to handle significant data traffic volumes, making it suitable for enterprise-level applications. This is particularly vital in environments that rely on high-speed data transfer and require minimal latency, such as data centers and cloud service providers.

The Cisco 6400 leverages advanced technologies to optimize network operations. Stateful packet inspection and application awareness contribute to enhanced security, allowing users to monitor and control data flow effectively. This is further augmented by Cisco's extensive security offerings, which provide comprehensive defenses against evolving cybersecurity threats.

Another notable characteristic of the Cisco 6400 is its support for software-defined networking (SDN). This feature enables IT departments to manage network resources dynamically through a centralized interface, allowing for increased agility and automation in network management. Coupled with Cisco's identity services and policy management tools, the 6400 facilitates granular control over user access and network segmenting.

The device is also designed with energy efficiency in mind. Its architecture helps to minimize power consumption while maximizing performance, which is a critical consideration for organizations seeking to reduce their carbon footprint.

In summary, the Cisco Systems 6400 stands out as a powerful and versatile networking solution. Its modular design, high throughput capacity, advanced security features, support for software-defined networking, and energy-efficient operations make it a compelling choice for organizations aiming to future-proof their network infrastructure while meeting current demands. Whether scaling up to support new applications or ensuring robust security, the Cisco 6400 offers the capabilities needed to thrive in today’s digital landscape.