Cisco Systems WAVE594K9, 694 manual Inline Interface

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Chapter 5 WAVE Interface Modules

Interface Module Descriptions

Inline Interface

When you configure the WAVE appliance for inline interception mode, you can set attributes to control which interfaces are to be used over which VLANs. By default, the module operates on all inline-capable interfaces and VLANs. You can configure the inline redirection feature using the WAAS CLI or the WAAS Central Manager GUI.

Note Throughout this section, we refer to a WAVE appliance configured for inline interception mode as a WAVE inline appliance.

The WAAS software defines two interface types: A group interface that represents an inline pair grouping and a port interface that represents the individual port. These interfaces are referred to as inlineGroup and inlinePort.

InlineGroup interfaces are numbered using the format slot/group. The slot number is the slot in which the adapter is inserted. Since there is only one slot, the slot number is always 1.

The group number starts from 0 and can go up to 4 on 8-port Interface Modules. For 4-port Interface Modules, the groups are numbered 0 and 1. Groups are numbered from left to right.

InlinePort interfaces are numbered slot/group/lan or slot/group/wan. The last attribute is the LAN or WAN designator.

For copper Interface Modules, the top row consists of WAN ports and the bottom row consists of LAN ports. For fiber Interface Modules, the ports are designated as WAN and LAN form left to right. For example, the four ports on the 4-port fiber Interface Module are designated as “W0 L0 W1 L1” in inline mode:

W0—InlineGroup 1/0/WAN

L0—InlineGroup 1/0/LAN

W1—InlineGroup 1/1/WAN

L1—InlineGroup 1/1/LAN

The inline network adapter also includes an onboard programmable watch dog timer (WDT) controller that allows you to set the time to wait after a failure event, such as a power outage or a kernel crash, before the unit begins to operate in mechanical bypass mode. This can be configured using the inline failover timeout global configuration command:

(config)# inline failover timeout ? <1-1> 1 second

<25-25> 25 seconds <5-5> 5 seconds

In mechanical bypass mode, the traffic is bridged between the LAN and WAN ports of each group. Mechanical bypass mode prevents the WAVE appliance from becoming a single point of failure and allows traffic to continue to flow between the router and the client while it passes through an unresponsive WAVE appliance without being processed.

For more information about configuring the inline network adapter, see the Cisco Wide Area Application Services Configuration Guide.

Cisco Wide Area Virtualization Engine 594 and 694 Hardware Installation Guide

5-4

OL-24619-02

 

 

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Contents Cisco Systems, Inc Page N T E N T S Installing Hardware Options for the WAVE-594 and WAVE-6944-1 Humidity Altitude B-2 OL-24619-02 Purpose PrefaceAudience Organization ConventionsChapter Title Description Convention DescriptionScreen examples use the following conventions OL-24619-02 Page Xii Related Documentation XiiiObtaining Documentation and Submitting a Service Request Introducing the Cisco Wide Area Virtualization Engine 594 Hardware FeaturesSupported Products Front Panel Components and LEDs 1shows the front panel componentsLED Color State DescriptionBack Panel Components and LEDs 3shows the back panel componentsLocation of Ports and Connectors Ethernet Port ConnectorsInstalling the Cisco USB Driver Connecting a Console TerminalCabling Softwareid=280836712 OL-24619-02 Preparing to Install the WAVE-594 and WAVE-694 Safety Warnings and CautionsSafety Guidelines General Precautions,Page General Precautions System Reliability Considerations Understanding the Environmental RequirementsProtecting Against Electrostatic Discharge Understanding the Power Requirements Understanding the Grounding RequirementsInstalling the WAVE-594 and WAVE-694 Rack-Mounting Considerations, Parts, and ToolsRack Type Name Description Qty PostMounting in a 4-Post Rack Attaching the BracketsAttaching Rear Rack Mount to the Rack Front-Mounting in a 2-Post Rack Rack-Mounting the ChassisAttaching the Front Brackets Cabling Connecting Power and Booting the System Checking the LEDsRemoving or Replacing a Wave Appliance OL-24619-02 Installing Hardware Options for the WAVE-594 and WAVE-694 Installing a Cisco Wave Interface ModuleReplacing a Hard Disk Drive/Solid State Drive Interface Module-RemovalPress the button and swing the handle out. See Figure Replacing a Fan Replacing a Power Supply Remove the power cord from the power supplyInstalling Memory Removing the CoverInstalling Memory Modules 5shows the memory slot mapping on the system boardSlot A3 Slot A2 Slot A1 Slot B3 Slot B2 Slot B1 Memory Slot MappingInstalling an Rdimm OL-24619-02 Interface Module Descriptions Wave Interface ModulesGigabit Ethernet Interface Module-Copper Gigabit Ethernet Interface Module-Fiber Optic Gigabit Ethernet Interface Module-4-Port CopperGigabit Ethernet Interface Module-Fiber Optic SFP+ Gigabit Ethernet Interface Module-4-Port Fiber OpticInline Interface Ports and LED Indicators Name Color State Description2describes the Gigabit Ethernet port LEDs LEDs Gigabit Ethernet-Copper Network Adapter Cabling RequirementsConnection Required Cable Cable Requirements for Wave Connections Using Fast Ethernet Gigabit Ethernet-Fiber Optic Wave WAN 12 Cabling Between Two Inline WAVEs OL-24619-02 OL-24619-02 Troubleshooting the System Hardware Identifying System ProblemsChecking Connections and Switches Troubleshooting the Ethernet ControllerNetwork Connection Problems Ethernet Controller Troubleshooting ChartUndetermined Problems Ethernet Controller Problem ActionsProblem-Solving Tips Error Symptoms Symptom Cause and ActionSee the Undetermined Problems section on Symptom FRU or Action Console Port Connector section onAppliance Specifications WAVE-594 and WAVE-694 Hardware SpecificationsSpecification Description Specification Description Interface Module Specifications Cisco 10GBASE SFP+ ModulesSpecification Description Maintaining the WAVE-594 and WAVE-694 Maintaining Your Site EnvironmentHumidity TemperatureAltitude Corrosion Dust and ParticlesElectrostatic Discharge Magnetism Electromagnetic and Radio Frequency InterferenceShock and Vibration Using Power Protection Devices Power Source InterruptionsSurge Protectors Uninterruptible Power SuppliesLine Conditioners D E IN-2 IN-3 IN-4
Related manuals
Manual 6 pages 6.06 Kb

694, WAVE594K9 specifications

Cisco Systems WAVE594K9 is a state-of-the-art application delivery controller (ADC) that is designed to optimize the performance and availability of applications across a wide area network. As part of Cisco’s advanced networking solutions, the WAVE594K9 effectively enhances application delivery, ensuring a seamless user experience even under heavy traffic conditions.

One of the primary features of the WAVE594K9 is its ability to provide comprehensive traffic management. This device intelligently load balances incoming requests and distributes them across multiple servers. By optimizing resource allocation, it minimizes response times and maximizes throughput, which is particularly beneficial for organizations dealing with fluctuating traffic patterns.

The WAVE594K9 also excels in application acceleration. This is achieved through various optimization techniques, including compression and caching. By reducing the size of transmitted data and storing frequently accessed content closer to users, the WAVE594K9 significantly speeds up application delivery. As a result, businesses can ensure that their users experience minimal latency, even when accessing resource-intensive applications.

Security is another key characteristic of the WAVE594K9. It integrates advanced security features, such as application layer firewalls, SSL offload capabilities, and DDoS protection. These built-in security measures not only safeguard sensitive data but also improve performance by offloading decryption tasks from application servers, allowing them to focus on processing actual requests.

Moreover, the WAVE594K9 is equipped with robust monitoring and reporting tools. Administrators can gain real-time insights into application performance, user activity, and traffic patterns. This level of visibility enables proactive management and troubleshooting, which helps in identifying and resolving potential issues before they impact end-users.

In terms of scalability, the WAVE594K9 is designed to grow with an organization’s needs. It can easily be integrated into existing IT infrastructures and expanded as traffic demands increase. This flexibility makes it an ideal solution for businesses of all sizes, from small enterprises to large corporations.

To summarize, the Cisco Systems WAVE594K9 is a powerful ADC that enhances application delivery through intelligent traffic management, application acceleration, built-in security features, and comprehensive monitoring tools. Its ability to scale effectively makes it a strategic investment for ensuring optimal application performance in today’s dynamic IT environments.
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