Catalyst is the brand for a variety of network switches sold by Cisco Systems. While commonly associated with Ethernet switches, a number of different network interfaces have been available throughout the history of the brand. Cisco acquired several different companies and rebranded their products as different versions of the Catalyst product line. The original Catalyst 5000 and 6000 series were based on technology acquired from Crescendo Communications. The 1700, 1900, and 2800 series Catalysts came from Grand Junction Networks, and the Catalyst 3000 series came from Kalpana in 1994.
Video Cisco Catalyst
Operating systems
In most cases, the technology for the Catalyst Switch was developed separately from Cisco?s router technology. The Catalyst switches originally ran software called CatOS rather than the more widely known Cisco IOS software used by routers. However, this has changed as the product lines have merged closer together. In some cases, particularly in the modular chassis switches, a configuration called 'Hybrid' has emerged - this is where the layer 2 functions are configured using CatOS, and the layer 3 elements are configured using IOS. Native IOS can also be found with newer software versions that have eliminated CatOS entirely in favor of IOS, even on hardware that originally required CatOS.
Some newer Catalyst switch models (with recent versions of the Cisco IOS) also allow web-based management using a graphical interface (GUI) module which is hosted on a HTTP server located on the switch. The Catalyst 3750-series of switches is an example of a Cisco Catalyst switch that allows this style of GUI via HTTP.
CatOS
CatOS (Catalyst Operating System) is the discontinued operating system for many of the Catalyst brand of legacy network switches. CatOS ran on switches such as 1200, 2948G, 4000, 4500, 5000, 5500, 6000, 6500 series. It was originally called XDI by the switching company Crescendo Communications, Inc. Cisco renamed it to CatOS when they acquired Crescendo in late 1993.
CatOS can still run on some of Cisco's modular switches, "hybrid" mode. In hybrid mode, the NMP (switch processor) runs CatOS and the route processor runs Cisco IOS.
Maps Cisco Catalyst
Interfaces
As Catalyst devices are primarily Ethernet switches, all modern Catalyst models have Ethernet interfaces ranging from 10 Mbit/s to 10 Gbit/s and higher depending on the model. Other models can support T1, E1, and ISDN PRI interfaces to provide connections to the PSTN. Legacy models supported a variety of interfaces, such as token ring, FDDI, Asynchronous Transfer Mode and 100BaseVG, but are no longer sold by Cisco Systems.
All models have basic layer 2 functions and are capable of switching Ethernet frames between ports. Commonly found additional features are VLANs, trunking and QoS. The switches, whether IOS or CatOS, are fully manageable.
Many Catalyst switches that run IOS are also capable of functioning as a router, making them layer 3 devices; when coupled with TCP and UDP filtering, these switches are capable of layer 2-4 operation. Depending on the exact software image, a Catalyst that runs IOS may be able to tackle large-scale enterprise routing tasks, using router technologies like OSPF or BGP.
Most chassis-based Catalyst models have the concept of field-replaceable supervisor and line cards. Mirroring most Cisco router designs, these work by separating the line cards, chassis, and supervisor engine. The chassis provides power and a high-speed backplane, the line cards provide interfaces to the network, and the supervisor engine moves packets, participates in routing protocols, etc. This gives several advantages:
- If a failure occurs, only the failed component needs to be replaced (typically a line card or supervisor). This means faster turnaround than replacing an entire switch.
- A redundant supervisor engine may be installed to rapidly recover from supervisor failures.
- A supervisor engine may be upgraded after purchase, increasing performance and adding features without losing any investment in the rest of the switch.
Additionally, most high-end switches off-load processing away from the supervisors, allowing line cards to switch traffic directly between ports on the same card without using any processing power or even touching the backplane.
Management
Cisco switches are very popular for a number of reasons, including advanced customization and manageability. The switches can be configured using a serial console or a telnet session (or ssh if the correct OS is loaded along with the ssh keys generated). SNMP allows monitoring of many states, and measurement of traffic flows. Many devices can also run an HTTP server, but this is often disabled because of the security problems it creates - either because it's not encrypted, or because of the relatively frequent security vulnerabilities in the Cisco http daemon itself. Some Cisco switches focused on smaller organizations forego a command line interface and offer ONLY a browser-based GUI for configuration and management.
Configuration of the switch is done in plain text and is thus easy to audit - no special tools are required to generate a useful configuration. For sites with more than a few devices it is useful to set up a TFTP server for storing the configuration files and any IOS images for updating. Complex configurations are best created using a text editor (using a site standard template), putting the file on the TFTP server and copying it to the Cisco device. However, it can be noted that a TFTP server can present its own security problems.
Stackwise
Cisco StackWise is a technology offered by Cisco Systems that allows for up to nine Catalyst switch 3750 series switches to operate as though they were one switch. This allows for greater resiliency, and performance.
With a dual redundant loop back plane connection at either 32 Gbit/s or 64 Gbit/s depending on the 3750 model.
One switch from the stack will act as the master switch. The master switch will maintain the stack and allow you to configure and monitor the whole stack as though one via a single console.
If one switch fails the remaining switches will continue to operate by looping back any information that would normally traverse the failed switch, effectively bypassing it. If the master switch fails, the next switch in the stack will automatically take over as master. This feature means greater redundancy, as one switch's failure will not bring about a failure of the entire stack.
As each switch contains the entire configuration for the stack, one of the benefits of this technology is the ability to replace a faulty switch (any--including master) with a new un-programmed switch. The stack will configure the new switch on-the-fly to accommodate minimal downtime and reduce manual input configuration errors.
StackWise effectively replaced the GigaStack found on lower-price models such as Catalyst 35xx and 29xx series.
Recently, there is a new variation of the technology, known as Cisco Stackwise Plus, offering 64 Gbit/s nonblocking switching fabric speed.
Master Selection
The master switch of a stack is determined in the following order:
- User specified.
- The switch with the most advanced IOS, i.e. Advanced IP Services IPv6 (AIPv6), then Enhanced Multilayer Software Image (EMI) and then Standard Multilayer Software Image (SMI).
- Programmed switch. A configured switch will preside over a switch with just the defaults.
- Uptime. The switch that has been running the longest.
- MAC address. The switch with the lowest MAC address.
Models
There are two general types of Catalyst switches: fixed configuration models that are usually one or two rack units in size, with 12 to 80 ports; and modular switches in which virtually every component, from the CPU card to power supplies to switch cards, are individually installed in a chassis.
In general, switch names start with WS-C, followed by the model line (2960). A letter at the end of this number signifies a special feature, followed by the number of ports (usually 24 or 48) and additional nomenclature indicating other features.
Fixed configuration switches
As of 2011, the most popular fixed configuration switches are the WS-C2960, WS-C3560 and WS-C3750 series at the high end, an entry level managed "express" series - with models beginning WS-CE (configurable by web interface only, no command line interface), the "ME" metroline series of switches, and a new "Small Business" series coming from Cisco's acquisition of Linksys. In addition, there are many legacy switches suitable for most business and service provider needs no longer offered directly through Cisco (WS-C2950, WS-C3550 for example).
Cisco Catalyst 2960 Series
Layer 2 switch.
- 2960 - WS-C2960 and WS-C2960PD are available in various configurations as indicated by model names TT-L, TC-L, TC-S, -S, TT-S, PST-L, PC-L, LT-L, PST-S, PC-S and LC-S: 8, 24 or 48 ports; LAN Base or LAN Lite; with and without Power over Ethernet (PoE); uplink of 10/100/1000BASE-T, SFP, or dual purpose.
- 2960G
- 2960-S
- 2960-SF
- 2960-X
- 2960-X
- 2960-XR
Cisco Catalyst 3560
Layer 2 and layer 3 switch.
Cisco Catalyst 3750
Layer 2 and layer 3 switch.
Modular switches
Cisco modular switches are much larger and are entirely configurable, beginning with a chassis, power supplies, the choice of supervisory engines (CPU mainboards), and switch modules. Among Cisco's modular series are:
- The 1000 switch family is considered an edge device, having many functionalities that can be built as the device is very modular. The 1900 line as a whole is past end-of-sale and end-of-life, and is considered a retired product line.
- 1700: 24 10BaseT ports, 1 switchable MDI/MDIX uplink 10baseT/AUI/BNC port, and 2 Fast Ethernet ports. Runs neither CatOS nor IOS. Is a first-generation carryover from Cisco's acquisition of Grand Junction Networks.
- 19xx: 12 or 24 10BaseT ports and 2 Fast Ethernet ports. ISL trunking on the 100 Mbit/s ports. Runs neither CatOS nor IOS.
- The Cisco Catalyst 3000 and 3100 series switches are switches for use in blade-enclosures: the Catalyst 3032 is a Layer2 switch and the Catalyst 3130x and 3130G are blade-switches for the Dell M1000e enclosure.
- The Cisco Catalyst 4500 Series is a mid-range modular chassis network switch. The system comprises a chassis, power supplies, one or two supervisors, line cards and service modules. The Series includes the E-Series chassis and the Classic chassis which is manufactured in four sizes: ten-slot, seven-slot, six-slot, and three-slot.
- The Cisco Catalyst 4900 series is a fixed-configuration switch. Uplink interfaces are either SFP ports or 10 Gigabit Ethernet, with 48 copper ports of 10/100/1000 Ethernet.
- The Cisco Catalyst 5500 Series and Cisco Catalyst 5000 Series is a chassis-based switch family. The Cisco Catalyst 5000 Series is acquired from another company. This entire series has now reached end-of-sale.
- The Cisco Catalyst 6500 Series is a chassis-based switch family. This series can support interfaces up to 10 Gigabit Ethernet in speed and redundant Supervisor modules.
End-of-Life Switches
Current Switches
Sources
- Cisco Systems Fourth Quarter and Fiscal Year 2006 Earnings
- Cisco's Catalyst 6500 Remains the Network hhSwitch to Beat
- 10-Gigabit Ethernet Poised To Take Data Centers By Storm
References
External links
- Cisco Systems
- Cisco's Product Documentation Website for Catalyst Switches
- Cisco-centric Open Source Community
Source of the article : Wikipedia