Its quite a long time since Nexus 7000 has been launched and Catalyst 6500 switches have already proved their mettle in various service provider and enterprise networks.However recently I was asked how would I deploy Nexus 7K and 6500 swicthes in my network provided no problem in CAPEX in procuring the nodes.So best part is to go with what are the differences in offering of the two types of switches by Cisco.
The Nexus 7000 and Catalyst, while both highly reliable core switching platforms, have a number of differences in physical construction.
The most important is the forwarding architecture. The Catalyst 6500 can support both centralized forwarding (where the supervisor makes the forwarding decision) or distributed forwarding (where the line card makes the forwarding decision). The Nexus 7000, on the other hand, only uses distributed forwarding.
The Catalyst 6500 integrates its switch fabric onto the supervisor itself, while the Nexus 7000 has the switch fabric located in a separate part of the chassis, independent of other cards. The effect of this is to make the Nexus 7000 supervisor a pure control plane module (i.e., it runs the OS and manages the system), with no forwarding capability on it at all. On the other hand, the Catalyst 6500 supervisor acts in many ways like a line card as well as the supervisor.
When looking at the two platforms, the most striking difference is in the available interfaces for the platforms.
While both the Nexus 7000 and the Catalyst 6500 have 40GbE interfaces available, currently only the Nexus has a 100GbE line card available.
Most deployments still focus on gigabit and 10GbE. Both platforms have the same gigabit capability, with 48-port 10/100/1000 and various SFP cards available. But for 10GbE, the Nexus 7000 has a number of high-density 10GbE options available that the Catalyst 6500 does not, such as 24-, 32-, and 48-port SFP+ as well as a 48 port 10GBase-T line cards. The Catalyst 6500 only has 4-, 8-, or 16-port 10GbE line cards available.
The Nexus 7000 has a fair number of compatibility issues with line cards compared to the Catalyst 6500. Because the various Nexus 7000 line card families present different feature sets, more care needs to go into a Nexus 7000 system to avoid incompatible line cards in the same system. Line card incompatibility can cause a reduction of capabilities or even line cards being shut down by the system.
Both the Nexus 7000 and Catalyst 6500 share a common set of high-end L3 switching features, such as full routing protocol support, MPLS/VRF capabilities, and QoS capabilities. However, each platform has unique capabilities that often influence which platform to use. Here are several common platform-specific features:
VSS (Virtual Switching System)
VSS mode, a Catalyst 6500 feature, allows a pair of Catalyst 6500s to be joined together into one logical switch with a unified control plane. This allows for multi-chassis link aggregation and subsequently high availability, without Spanning Tree concerns. Compared to the vPC feature of the Nexus, the unified control plane aspect of VSS mode allows for the full system capabilities to be used on a multi-chassis EtherChannel, so L3 EtherChannels, MPLS awareness, full QoS capabilities, and other features are usable across both of the systems.
vPC (Virtual Port-Channel)
vPC is one of the most commonly used Nexus features, and like VSS mode, it is used to provide multi-chassis link aggregation. However, vPC mode does operate differently, and as such, it has a different set of uses. The key difference is that vPC does not rely on a unified control plane, so both switches still operate independently. Because of this, layer 3 (L3) multi-chassis EtherChannels are not supported, and for L3 high availability, HSRP, or another router redundancy protocol will still need to be used.
The Catalyst 6500 has the capability to accept a number of service module line cards that can significantly extend the capabilities of the system. Some examples of service modules are the ASA-SM card, which provides high throughput firewall capabilities, and the NAM cards, which provide a direct view of traffic traveling through the switch for reporting and analysis.
Virtual Device Contexts (VDC)
This Nexus 7000 feature allows the user to partition the switch into multiple independent logical switches (up to four for a SUP1- or SUP2-based system, and up to eight for a SUP2E-based system). The VDC feature actually implements a separate control plane for each context, ensuring that each context is kept independent at a very low level. This allows for not just overlapping IP ranges, but also overlapping VLAN ranges. Other organizations use VDCs for device consolidation while maintaining departmental separation (i.e., the storage team only has access to the storage VDC, the security team only has access to the DMZ VDC, and so on). Because of this, there is no possible way to have VDCs communicate with each other, aside from physically connecting a port in one VDC to a port in another VDC.
WAN and Services Interfaces
Through the use of the 7600-SIP-200 or 7600-SIP-400, the Catalyst 6500 can support a wide range of WAN interfaces, from T1 to OC48, allowing even greater flexibility in how the switch can be used. For applications that demand fine-grained QoS or additional Ethernet services, some of the 7600 Ethernet Services cards are also supported.
The Nexus 7000 supports the use of the Nexus 2200 Series fabric extenders to additionally expand the system and provide a large-scale virtual chassis in the data center. Up to 32 of the fabric extenders can be supported by the Nexus, which can greatly simplify management of a data center network.
Software and Licensing
The Catalyst 6500 is an IOS-based platform, providing the same command set and user interface as any other Catalyst series switch. Because the Catalyst 6500 has been in constant usage for over a decade, the software for the platform is a proven component of the switch. All Catalyst 6500 switches rely on Cisco’s traditional right-to-use licensing methodology.
The Nexus 7000, however, runs NX-OS, a fairly new hybrid operating system originally derived from the MDS 9000 line of Fibre Channel/SAN switches, and as such, has only been in use for a limited time in an Ethernet environment and is more likely to be affected by software bugs. NX-OS licenses feature on an à-la-carte basis, each activated via a chassis and feature specific license key. This license key model, like any other form of DRM, is a potential point of failure that can cause the switch to stop forwarding.
Overall if we have got a decent budget we would deploy Nexus 7000 in the datacentre as a aggregation switch and Catalyst 6500 in the access or campus environment.Next switch to look upto is the Nexus 9000 ,which due to Application Centric Infrastructure (ACI) mode, are ideal for traditional or fully automated data center deployments.