Cisco Systems WAVE594K9 manual Installing the WAVE-594 and WAVE-694

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C H A P T E R 3

Installing the WAVE-594 and WAVE-694

This chapter describes how to install a WAVE-594 and WAVE-694 in an equipment rack. This chapter contains the following sections:

Rack-Mounting Considerations, Parts, and Tools, page 3-1

Rack Mounting and Cabling the WAVE-594 and WAVE-694, page 3-2

Connecting Power and Booting the System, page 3-8

Checking the LEDs, page 3-8

Removing or Replacing a WAVE Appliance, page 3-9

Before you begin the installation, read Chapter 2, “Preparing to Install the WAVE-594 and WAVE-694”and the Regulatory Compliance and Safety Information for Cisco Wide Area Virtualization Engines document.

Warning Read the installation instructions before connecting the system to the power source. Statement 1004.

Rack-Mounting Considerations, Parts, and Tools

To allow for servicing and adequate airflow, observe the following space and airflow requirements when deciding where to install a rack:

Leave a minimum clearance of 63.5 cm (25 in) in front of the rack.

Leave a minimum clearance of 76.2 cm (30 in) behind the rack.

Leave a minimum clearance of 121.9 cm (48 in) from the back of the rack to the back of another rack or row of racks.

The WAVE-594 and WAVE-694 appliance draws in cool air through the front door and expels warm air through the rear door. Therefore, the front and rear rack doors must be adequately ventilated to allow ambient room air to enter the cabinet, and the rear door must be adequately ventilated to allow the warm air to escape from the cabinet.

Caution To prevent improper cooling and damage to the equipment, do not block the ventilation openings.

When vertical space in the rack is not filled by a WAVE appliance or rack component, the gaps between the components cause changes in airflow through the rack and across the WAVE appliances. Cover all gaps with filler panels to maintain proper airflow.

Cisco Wide Area Virtualization Engine 594 and 694 Hardware Installation Guide

 

OL-24619-02

3-1

 

 

 

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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 Audience PrefacePurpose Conventions OrganizationChapter Title Description Convention DescriptionScreen examples use the following conventions OL-24619-02 Page Xii Xiii Related DocumentationObtaining Documentation and Submitting a Service Request Supported Products Hardware FeaturesIntroducing the Cisco Wide Area Virtualization Engine 594 1shows the front panel components Front Panel Components and LEDsColor State Description LED3shows the back panel components Back Panel Components and LEDsEthernet Port Connectors Location of Ports and ConnectorsCabling Connecting a Console TerminalInstalling the Cisco USB Driver Softwareid=280836712 OL-24619-02 Safety Warnings and Cautions Preparing to Install the WAVE-594 and WAVE-694General Precautions, Safety GuidelinesPage General Precautions Protecting Against Electrostatic Discharge Understanding the Environmental RequirementsSystem Reliability Considerations Understanding the Grounding Requirements Understanding the Power RequirementsRack-Mounting Considerations, Parts, and Tools Installing the WAVE-594 and WAVE-694Name Description Qty Post Rack TypeAttaching the Brackets Mounting in a 4-Post RackAttaching Rear Rack Mount to the Rack Rack-Mounting the Chassis Front-Mounting in a 2-Post RackAttaching the Front Brackets Cabling Checking the LEDs Connecting Power and Booting the SystemRemoving or Replacing a Wave Appliance OL-24619-02 Installing a Cisco Wave Interface Module Installing Hardware Options for the WAVE-594 and WAVE-694Interface Module-Removal Replacing a Hard Disk Drive/Solid State DrivePress the button and swing the handle out. See Figure Replacing a Fan Remove the power cord from the power supply Replacing a Power SupplyRemoving the Cover Installing Memory5shows the memory slot mapping on the system board Installing Memory ModulesMemory Slot Mapping Slot A3 Slot A2 Slot A1 Slot B3 Slot B2 Slot B1Installing an Rdimm OL-24619-02 Gigabit Ethernet Interface Module-Copper Wave Interface ModulesInterface Module Descriptions Gigabit Ethernet Interface Module-4-Port Copper Gigabit Ethernet Interface Module-Fiber OpticGigabit Ethernet Interface Module-4-Port Fiber Optic Gigabit Ethernet Interface Module-Fiber Optic SFP+Inline Interface Name Color State Description Ports and LED Indicators2describes the Gigabit Ethernet port LEDs LEDs Connection Required Cable Network Adapter Cabling RequirementsGigabit Ethernet-Copper 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 Identifying System Problems Troubleshooting the System HardwareTroubleshooting the Ethernet Controller Checking Connections and SwitchesEthernet Controller Troubleshooting Chart Network Connection ProblemsEthernet Controller Problem Actions Undetermined ProblemsProblem-Solving Tips Symptom Cause and Action Error SymptomsSee the Undetermined Problems section on Console Port Connector section on Symptom FRU or ActionSpecification Description WAVE-594 and WAVE-694 Hardware SpecificationsAppliance Specifications Specification Description Cisco 10GBASE SFP+ Modules Interface Module SpecificationsSpecification Description Maintaining Your Site Environment Maintaining the WAVE-594 and WAVE-694Altitude TemperatureHumidity Electrostatic Discharge Dust and ParticlesCorrosion Shock and Vibration Electromagnetic and Radio Frequency InterferenceMagnetism Power Source Interruptions Using Power Protection DevicesLine Conditioners Uninterruptible Power SuppliesSurge Protectors D E IN-2 IN-3 IN-4
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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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