Qlogic SANbox 5200 Manuallines
Qlogic sanbox 5200: supplementary guide
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Also See for SANbox 5200:
- User manual (332 pages) ,
- Specifications (2 pages) ,
- Supplementary manual (2 pages)
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Network Traffic
Engineering
Guidelines for Fibre
Channel Switches
Optimizing Performance When Designing Highly
Scalable SAN Solutions: Guidelines for SAN Architects
Executive Summary
traffic engineer to maximize overall performance and to minimize cost.
Key Findings
By following simple network engineering guidelines, SAN switch solutions can be created to balance
scalability and performance:
• Rule A: Localized Traffic. Connect critical server and storage devices connected to a single switch
to maximize throughput and minimize latency.
• Rule B: Remote/ISL Traffic. Avoid oversubscription by utilizing high bandwidth ISLs/trunks and
placing servers and storage across switches so the I/O operations load for remote traffic is less
than or equal to the capacity of inter-switch trunks. The QLogic SANbox 5200, 5600, and 5602
stackable switches also preserve 2Gb/4Gb ports for connections to server and storage devices.
A stackable solution and topology using SANbox 5000 series switches balance overall performance
and cost; whereas fixed-port solutions increase in cost faster and deliver less bandwidth between
switches.
Before the advent of stackable switch solutions, storage area
network (SAN) architects had to trade scalability vs.
performance. Data traffic across the network was limited to
relatively few inter-switch links (ISL).
QLogic stackable switch solutions solve the
scalability/performance dilemma. Each model in the
®
SANbox
5000 series features a 4 pack of high-speed
(10Gb) stacking ports that enable a SAN architect to scale
seamlessly and maintain high performance. Connecting
switches together using the dedicated stacking trunks
preserves all 4Gb ports for use by servers and storage
devices.
QLogic's highly scalable SAN solutions allow your network
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Summary of Contents for Qlogic SANbox 5200
- Page 1 I/O operations load for remote traffic is less than or equal to the capacity of inter-switch trunks. The QLogic SANbox 5200, 5600, and 5602 stackable switches also preserve 2Gb/4Gb ports for connections to server and storage devices.
- Page 2 Now: Stackable Switches Allow Both Scalability and Performance Stackable switch solutions from QLogic were designed specifically to solve the scalability/performance dilemma. Each model in the SANbox switches features a 4 pack of high-speed (10Gb) stacking ports that enable a SAN architect to scale seamlessly and maintain high performance.
- Page 3 Local and remote traffic are defined as follows: • Local traffic I/O operations between servers and storage located on the same switch. • Remote traffic I/O operations between servers and storage located on different switches. For example, the following drawing depicts local data traffic over the hardware path from servers to storage.
- Page 4 Following Rule A, for critical I/O operations, the respective server and storage devices should be attached locally to a single switch, as shown below. This rule applies to all switches (fixed or stackable). In this example, four QLogic SANbox 5602 stackable switches are deployed to create a 64-port SAN.
- Page 5 SAN to ensure maximum performance using the ISLs. Maximum ISL Traffic Load for 4Gb Stackable Switch In the example shown below, using a SANbox 5602 stackable 4Gb switch, the 10Gb trunks (actual bandwidth capability is 12Gb/sec) can support about 75% of the theoretical traffic load to/from the attached server and storage devices.
- Page 6 Guidelines for SAN Architects Maximum ISL Traffic Load for 16-Port Fixed Configuration Switch The following drawing shows a fixed-port switch with 16 ports. To preserve ports for devices, typically no more than two ports are used for ISLs to other switches. These ISLs...
- Page 7 The following drawing shows a fixed-configuration switch with 32 ports. Again, to preserve ports for devices, typically no more than two ports are used for ISLs to other switches. These ISLs can support only about 7% of the theoretical traffic load of each switch. Server And...
- Page 8 Guidelines for SAN Architects Examples of Stackable Switch Configurations The examples in this section are specific to QLogic stackable switches, like the SANbox 5200, 5600, and 5602. These examples are intended as guidelines to optimize scalability and performance when choosing a topology design.
- Page 9 Optimizing Performance When Designing Highly Scalable SAN Solutions: Guidelines for SAN Architects Baseline Configurations The following table shows the topology summary of three baseline configurations. Total 2Gb/4Gb Total Total Device Ports 10Gb Switches Available ISLs SPG-WP06004 Topology Summary SN0130924-00 Rev A...
- Page 10 Optimizing Performance When Designing Highly Scalable SAN Solutions: Guidelines for SAN Architects Maximum Performance Configurations By adding additional ISL trunks, higher remote traffic bandwidth can be supported between switches, as indicated in the following table. Total 2Gb/4Gb Total Total Device Ports 10Gb Switches Available...
- Page 11 ISLs/trunks and placing servers and storage across switches so the I/O operations load for remote traffic is less than or equal to the capacity of inter-switch trunks. The QLogic SANbox 5200, 5600, and 5602 stackable switches also preserve 2Gb/4Gb ports for connections to server and storage devices.
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