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Radware Solutions for Virtualized Data Centers

Radware Solutions for Virtualized Data Centers

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  • Here are a few facts about us:Radware was founded in 97 and is publicly traded on Nasdaq since 1999.We have 662 employees with a global presence in more the 40 countries worldwideWe cultivated a wide and valued community of customers – included are a few examples from various industries including finance, eCommerce, telecom, and retail.We can boast a long track record of innovation including more than 10 different patents in the field of application delivery and security, which protect our unique technologies. Included is a sample of the technology awards we received during 2008-9 aloneIn addition, we have certified our solution with all the top application vendors such as MS, Oracle and IBM, with additional technology partnerships and OEMs.
  • The first set of challenges, Ensure applications availability and business continuity, means making sure that business-critical applications are highly available to users, partners and employees, everywhere, in order to insure that all business processes operate properly and healthfully. That includes:Successfully meeting Service Level Agreements (SLA)Providing Quality of Service (QoS) based on business requirements – delivering “six 9’s” availability as well as QoS based on users and/or business processes prioritizationBe able to easily, quickly deploy new services and applications - without imposing any performance degradation to existing applications
  • The second set of challenges, Improve applications response times, mainly refer to:Improve the Quality of Experience (QoE) - providing the best response time with minimal latency resulting in the highest end-user satisfaction and the best user experienceRemove network bottle necks originating in network congestion points due to SSL encryption/decryption operations, TCP overhead, large-objects traffic and moreOptimize usage of IT resources – redirect traffic to the most appropriate network devices in order to optimize network traffic and align the network with the business processes
  • So far we talked about Radware as a company; now let’s discuss the main problem we solve.In enterprise DC we have the applications, users and business processes on one side.On the other, we have the DC network and infrastructure such as servers and storage.Click – for first call out:Business applications are typically dynamic and user specific. They are designed assuming that sever and bandwidth resources are available and optimal. Application design usually does not take into account any issues that may happen with these resources.Click for second call out:On the other hand the network and servers are designed for capacity and connectivity, without addressing these issues.Click for third call out:Therefore, there is an inherent gap between application design assumptions and the services offered by the network.Click for forth call out:The result of not addressing this gap is:Application downtimeReduced productivity due to performance issuesSecurity risksOperational overheadHigher costs
  • So.. let’s look into what an ADC provides.First, and foremost, load balancing. Server load balancing that is both application and session aware. Sessions, as you may know from online shopping, is very critical. The ADC will keep you on a server for the whole transaction. Global Server Load Balancing provides data center operators the ability to share traffic between data centers (hot-hot) or, more commonly, provide service with a primary data center and a backup data center (hot-warm), or as a worst case scenario, Disaster Recovery and Business Continuity through either hot-warm or hot-cold environments.
  • VMware HA, How it works:VMware HA restarts a virtual machine on a different host should the initial host failVMware HA restarts a virtual machine on a the same host should the VM operation system failVMware FT:Only protects from physical host failures The VM FT pairs are consuming the same resources on 2 different hosts (CPU,Memory,I/O,Network) A dedicated gigabit NIC is requiredUsed for sending all the very intensive information between 2 VMsSupport only new CPUs models from Intel and AMDFT has stringent requirements – see: http://www.delltechcenter.com/page/VMware+vSphere+Fault+Tolerance   FT can be wasteful because it runs on two hypervisors for one resourceFT bullet #2: in FT there are 2 VM running on 2 different hosts doing the SAME thing - this is a waste of resources. With ADC you need more than 1 VM but each is serving customersFT bullet #3: FT can work only with new hardware (PC hardware)
  • Radware’s VADI multiple delivery methods consists of three form factors: The single use dedicated ADCA Hypervisor based ADC called the ADC-VXA virtual appliance The dedicated physical ADC device running a single vADC“Siloed” data center architectureHybrid (virtualized and physical) data centerApplications requiring high performance predictabilityRadware ADC-VXTMADC hypervisor running multiplevADCs on a specialized ADC hardwareADC consolidation projectsVirtualized data center requiring high ADC agilityApplications requiring high performance predictabilityRadware ADC-VAvADC on a general server virtualization infrastructureCloud providers & Virtualized data center requiring high ADC agilityDevelopment, testing and QA environmentsWhy are 3 form factors required:Application SLA requirementsNumber of required vADC instancesThroughput capacity each vADC requiresCost savings objectivesData center footprint limitationsApplication deployment model
  • Radware’s VADI multiple delivery methods consists of three form factors: The single use dedicated ADCA Hypervisor based ADC called the ADC-VXA virtual appliance The dedicated physical ADC device running a single vADC“Siloed” data center architectureHybrid (virtualized and physical) data centerApplications requiring high performance predictabilityRadware ADC-VXTMADC hypervisor running multiplevADCs on a specialized ADC hardwareADC consolidation projectsVirtualized data center requiring high ADC agilityApplications requiring high performance predictabilityRadware ADC-VAvADC on a general server virtualization infrastructureCloud providers & Virtualized data center requiring high ADC agilityDevelopment, testing and QA environmentsWhy are 3 form factors required:Application SLA requirementsNumber of required vADC instancesThroughput capacity each vADC requiresCost savings objectivesData center footprint limitationsApplication deployment model
  • vADC on a general server virtualization infrastructureCloud providers & Virtualized data center requiring high ADC agilityDevelopment, testing and QA environmentsApplications requiring only best-effort performanceSoft ADC provided as VMware OVFSupports tiered throughput licenses – 200Mbps, 500Mbps, and 1GbpsSoft ADCs provide the same ADC functionality as traditional physical ADC devices
  • All 3 form factors provide the same ADC functionalityThe form factors differs in:SLA levelPerformanceRack space requirementSolution agilityNumber of virtual ADC instances
  • In order to integrate Radware’s VADI architecture with the virtual data center eco-system, Radware developed vDirectTM Plug-in.
  • vDirect Plug-in eliminates the need for:Frequent manual ADC configuration updatesScripting and manual configuration within the virtual environmentFit any data center and virtual infrastructure size - Radware’s vDirect plug-in is fully integrated with VMware vCenter and vCenter Orchestratorprovides automation and management benefits for any customer using VMware virtualization infrastructure, from SMBs using basic automatic work flows such as on demand VM resources allocation through large enterprises and up to Cloud services providers implementing fully automated service provisioning from VMs and storage to ADCs.Full business agility and resource elasticity - Radware’s vDirect plug-in allows instant provisioning and decommissioning of Radware vADC instances as part of end-to-end service creation.Radware’s vDirect plug-in facilitates virtual infrastructure elasticity by enabling automatic adding/removing computing resources to hosted applications while aligning the ADC configuration with the changes.Drives IT efficiency via workflow automation - Radware’s vDirect plug-in integrates Radware’s ADC into the virtual data center workflow automation, driving greater levels of IT efficiency in the virtualized data center and extracting more value from Radware’s ADC solution.Facilitates the creation of a cross data center service delivery control plane - Radware’s vDirect plug-in allows sharing availability and performance based KPIs with the Cloud orchestration. Allowing creating a service delivery control plane that continuously determines the most adequate data center to serve each end-user.
  • Best-of-breed self-serving ADCA customer can easily add a new VIP to the ADC representing his hosted applicationThe ADC automatically measures the traffic and number of users for billing purposesFull support for network requirementsFacilitate the generation of new revenue from existing ADC infrastructureApplication delivery as a serviceApplication acceleration capabilities as add-on servicesOn demand throughput and service scalability Cost-effectively accommodate future growth in the number of users, applications, and traffic served by the ADC.Full investment protection, increased asset ROI,and CAPEX savings - no forklift upgrade requiredPay-as-you-grow approach- pay for the exact capacity required, and flexibly scale up when more is needed
  • Align business application requirements with the infrastructureEnsure business applications get the resources they needGuaranteebest response time for the end-userReduce virtual infrastructure OPEX by freeing IT resourcesReal-time alignment of resources with the networkBenefit from Radware’s Global Traffic Redirection Solution between enterprise and Cloud DC
  • Radware ADC adds value to VMware users:Ensure application availability and business continuityEnhance application performance and response timeIntegrate the ADC services into the data center workflow automationEnable higher VM densityEnable greater service agilityIncrease staff efficiency and reduce CAPEX & OPEX

Transcript

  • 1. Presentation NameAuthor - Date
    Radware Solutions for Virtualized Data Centers
    April 25th, 2011
  • 2. Slide 2
    Agenda
    Introduction to Radware
    Application Delivery for VMware based Virtual Data Centers
    Summary
  • 3. Facts About Us
    Slide 3
    Global Technology Partners
    Over 10,000 Customers
    Recognized Technology Leadership
  • 9. Data Center Challenges: Availability
    Slide 4
    The average cost of network downtime for larger corporations is $42,000 per hour ($700 / minute)
  • 10. Data Center Challenges: Performance
    Slide 5
  • 11. Bridging The Application – Network Gap
    Slide 6
    There is a gap between application design assumptions & network services
    Partners &
    Customers
    Employees & Users
    This results in:
    • Application downtime
    • 12. Reduced productivity due to performance issues
    • 13. Security risks
    • 14. Operational overhead
    • 15. Higher costs
    • 16. Business applications and business processes are agile and user specific
    • 17. They are designed assuming server and bandwidth resources are available and optimal
    WEB 2.0
    SOA
    Mobile Users
    Applications &
    Business Processes
    Networks & servers are designed for capacity and connectivity
    Enterprise Network
  • 18. Radware Solutions
    Multi-WAN Link Application Delivery
    Application Security Solution
    Application delivery solution
    Slide 7
    Data Center
    Router
    Web & PortalServers
    Database
    Servers
    Internet
    DefensePro
    LinkProof
    Firewall
    AppDirector
    CRM
    Router
    AppWall
    Oracle-PeopleSoft
  • 19. ISP2
    ISP 3
    ISP1
    Multi-WAN Link Application Delivery
    Mission-critical applications (web-based ERP) are redirected via the high SLA & secure line
    Non-critical applications (web browsing) are redirected via the non-SLA line
    Easily & cost effectively add bandwidth while increasing site availability & performance
    Ensure employee and end-user QoE
    Limit or block non-business critical traffic (e.g. P2P, streaming, downloads)
    Headquarter Local Network
    HTTP for Web browsing
    Router
    Corporate users
    No SLA
    Low cost DSL lines can be aggregated
    for simple andcost-effective
    businessscalability
    LinkProof
    ERP, CRM, email, Web servers
    High SLA
    99.99%
    Router
    HTTP for ERP / CRM
    Slide 8
  • 20. IMDDOS
    2010
    Storm
    (Botnet)
    2007
    Srizbi
    (Botnet)
    2007
    Rustock
    (Botnet)
    2007
    Kracken
    (Botnet)
    2008
    Hackers’ Change in Motivation
    Vandalism and publicity
    “Hacktivism”
    Attack
    Risk
    Financially motivated
    Nimda
    (Installed Trojan)
    2001
    CodeRed
    (Defacing IIS web servers)
    2001
    Slammer
    (Attacking SQL websites)
    2003
    Agobot
    (DoS Botnet)
    Republican
    website DoS
    2004
    Estonia’s Web
    Sites DoS
    2007
    Georgia Web
    Sites DoS
    2008
    July 2009
    Mydoom.EA
    WikiLeaks
    Revenge Attacks
    2010
    Blaster
    (Attacking Microsoft web site)
    2003
    Time
    2011
    2001
    2005
    Slide 9
  • 21. APSolute Vision
    Complete Network & Application Security Solution
    Internet
    AppWall
    DefensePro
    Access Router
    Web Servers
    Firewall
    • Network Attack Prevention solution protecting against:
    • 22. Network DDoS
    • 23. Application DDoS
    • 24. Server Brute Force
    • 25. Application vulnerability scanning
    • 26. Server based intrusions
    • 27. WAF protects against:
    - Zero-day web attacks
    • Data leak such as CCN
    • 28. Information theft
    • 29. Web defacement
    • 30. Web attacks such as CSRF, XSS, Injections…
    Assured network and application security solution for Data Centers
    Slide 10
  • 31. AppWall & DefensePro Correlation
    Slide 11
    AppWall blocked attacks
    DefensePro blocked attacks
  • 32. Application Delivery Controllers & VMware Agenda
    Application Delivery – Overview
    Radware Virtual Application Delivery Infrastructure
    Use Cases
    Summary
    Slide 12
  • 33. Application Delivery Controller (ADC) Core Functionality
    Load Balancing
    Application & Session Aware (Layer 4-7)
    Global Server Load Balancing (Multi Site)
    Application Optimization/Acceleration
    SSL Offloading & Acceleration
    Compression
    Caching
    TCP connection multiplexing
    Health Monitoring
    Additional Services
    DoS protection
    QoS/Bandwidth management
    Slide 13
  • 34. Graphical Representations of ADC Functionality
    Slide 14
    Load Balancing
    Offloading (SSL Example)
    Multiplexing
    Compression
  • 35. Addressing Availability Concerns for VMware Environments
    Radware ADC
    • Application Specific Health Checking
    • 36. Zero Downtime
    Slide 15
    Radware ADC
    • Zero downtime even in case of application failure
    • 37. No need for Redundant VMs
    VMware HA
    • OS / Hardware health checks
    • 38. For environments that can tolerate brief interruptions of service
    VMware FT
    • Protects from physical failures
    • 39. No Downtime (OS)
    • 40. 2 Identical VMs
  • Addressing Performance Concerns
    Radware ADC
    • Offload CPU intensive tasks from the virtual resources: SSL offloading, Caching, Content compression, TCP multiplexing
    Slide 16
    VMware vSphere – Superior Performance
  • 41. Addressing Scalability Concerns
    Radware ADC
    • On Demand Scalability – license based services and throughput scalability, zero-downtime
    • 42. Cross data center on demand scalability
    Slide 17
    VMware vSphere – Better Scalability
    • Virtual Machine Scalability
    • 43. Hot-add more resources to a VM
    • 44. Easy provisioning of new VMs to support an application
  • Specific Results with Radware ADC Products
    Slide 18
    Microsoft SharePoint Server 2007
    • Better Quality of Experience (QoE) for end users
    • 45. 300% improvement in page load time for remote (WAN) users
    • 46. Reduce OPEX
    • 47. 65% reduction in bandwidth consumption
    • 48. 40% reduction in CPU utilization
    • 49. 30% increase in TPS per server
    Oracle E-Business Suite (EBS) 12
    • Better Quality of Experience (QoE) for end users
    • 50. 43% improvement in page load time for remote (WAN) users
    • 51. Reduce OPEX
    • 52. 60% reduction in bandwidth consumption thanks to compression
    • 53. 80% request offload from servers thanks to caching
  • Application Delivery Controllers & VMware Agenda
    Application Delivery – Overview
    Radware Virtual Application Delivery Infrastructure
    Use Cases
    Summary
    Slide 19
  • 54. Virtual Application Delivery Infrastructure – Evolution of ADCs
    Slide 20
    Bringing the Business Value of Server Virtualization to the Application Delivery space:
    Cost savings, IT efficiency and Business Agility
  • 55. Virtual Application Delivery Infrastructure Strategy
    Slide 21
    Slide 21
  • 56.
    • Application Delivery Controllers (ADCs) are transformed into virtual ADC instances (vADCs)
    • 57. Each vADC can run on top of a specialized and general purpose computing resources
    • 58. Each vADC provides a consistent set of basic and advanced application delivery features and services, regardless of the computing resources it utilizes:
    • 59. Load Balancing (Local & Global Server Load Balancing)
    • 60. Application Optimization
    • 61. Security/Additional Services
    Virtual ADC Instances (vADC)
    Slide 22
    Slide 22
  • 62. VADI: Computing Resources / Three Form Factors
    Slide 23
    Dedicated ADC
    Radware Supplied Hypervisor (ADC-VX™)
    Third Party Hypervisor SoftADC (Alteon ADC-VA)
  • 63. ADC-VX: Functional Summary
    Slide 24
    Customer Managed
    Customer “Monitor Only”
    Provider Managed
    On Demand
    Services
    On Demand
    Services
    Global SLB, Security, ITM (QoS) and Link Optimizer
    On Demand
    Services
    ITM
    Global SLB
    Security
    Layer 4-7 Services
    Layer 4-7 Services
    Fully featured ADC Health Checks, Layer 7 Configurations, etc.
    Layer 4-7 Services
    Oracle
    SharePoint
    Marketing Applications
    Network
    Network
    VLANs, ARP tables,
    Virtual routing and forwarding tables
    Network
    IP Domain 2
    IP Domain 1
    IP Domain 3
    Infrastructure
    Infrastructure
    Physical Resources (CPU, Memory, SSL)
    Infrastructure
    2Gbps
    1Gbps
    2Gbps
    Private:
    config file
    logging
    statistics
    Private:
    config file
    logging
    statistics
    Private:
    config file
    logging
    statistics
    ADC-VX Hypervisor
  • 64. VADI: Computing Resources / Three Form Factors
    Slide 25
    Radware Supplied Hypervisor (ADC-VX™)
    Third Party Hypervisor SoftADC (Alteon ADC-VA)
  • 65. VADI: Computing Resources / Alteon ADC-VA (SoftADC)
    Internet
    Enterprise
    Data Center
    Testing and QA
    • Soft ADC provided as a deployable VMware OVA appliance
    • 66. Supports tiered throughput licenses – 200Mbps, 500Mbps, and 1Gbps
    Slide 26
  • 67. Alteon ADC-VA – Overall Summary
    Slide 27
    Full ADC feature set
    Local and Global SLB
    Application Acceleration
    SSL offloading, Compression, Caching, Header and Body modifications
    All functions utilizes Software functions, no Hardware base acceleration is provided
    Hypervisor Support
    VMware ESX/ESXi 4.0/4.1 - Released
    KVM - Target: Q2 2011
    Virtual Machine Requirements
    CPU:: 2 vCPUs
    Memory : 3.6 GB
    Logical Disk: 4 GB
    Network: 3 virtual interfaces (Management, Clients, Servers)
    Performance (on 4 CPU core PC)
    Throughput: Up to 1Gbps
    Layer 4: Up to 40,000 CPS
    Layer 7: Up to 25,000 CPS
  • 68. VADI: Three Form Factors – Putting It Together
    Slide 28
    Virtual Data Center
    Radware ADC-VX
    ADC
    Soft ADC
    Application A – Partitioned High SLA Service
    Application B – Partitioned High SLA Service
    Application C - Dedicated High SLA Service
    Application D - Lower SLA Service
    (Best Effort)
  • 69. VADI: Orchestration & Automation
    Slide 29
    Slide 29
  • 70. VADI: Integration to Virtual Data Center Eco-System
    • Orchestration systems provide –
    • 71. End-to-end management of mission-critical applications and services
    • 72. Work flows which can provision a new service based on business events
    • 73. Radware VADI ADCs are fully integrated with the orchestration system through Radware’s vDirectTM plug-in.
    • 74. vDirect plug-in is a first-to-market vADC management orchestration plug-in.
    • 75. Designed specifically for virtual data centers.
    • 76. Fits any data center and virtual infrastructure size -
    • 77. SMBs using basic automatic work flows
    • 78. Large enterprises and xSP full service provisioning
    Slide 30
  • 79. vDirect plug-in provides all the building blocks, workflows and management interfaces required to manage Radware’s VADI vADCs:
    Provision / Decommission / Update vADC
    Create / Remove server
    Create / Remove / Update service (Web, etc)
    Automatic service elasticity
    vDirect plug-in is free of charge
    First release of vDirect plug-in is fully integrated with VMware vCenter and VMware vCenter Orchestrator systems.
    Slide 31
    VADI: Orchestration & Automation / vDirect Specifics
  • 80. vDirect Integration Into VMware vSphere Orchestrator
    Slide 32
  • 81. vDirect – Creating a ADC-VA in vSphere Orchestrator
    Slide 33
  • 82. VADI: Orchestration & Automation / vDirect Plug-in Benefits
    Eliminates the need for frequent manual vADC configuration updates.
    Facilitates end-to-end service provisioning.
    Fully integrating Radware’s vADC into data center’s workflow automation.
    Full application delivery resource elasticity according to business application requirements
    The result:
    Greater IT efficiency
    Higher business agility
    Slide 34
  • 83. VADI – Orchestration & Automation
    Slide 35
    Slide 35
  • 84. VADI: Unique Services
    Slide 36
    • Provisioning and Decommissioning
    • 85. Eliminates the need for manual provisioning and reduces IT OPEX
    • 86. Improves IT responsiveness to business needs
    • 87. Dynamic resource allocation
    • 88. Improves service levels for all applications
    • 89. Ensures each vADC has sufficient resources at any point in time
    • 90. Ensures the correct distribution of resources across VADI
    • 91. vADC Migration
    • 92. Simplifies ADC P2V migration
    • 93. Streamlines the deployment of new applications and servicesthrough simple migration of a vADC instance from testing to production
    • 94. Enables scheduling ADC maintenance with zero downtime
  • Agenda
    Application Delivery Overview
    Radware Virtual Application Delivery Infrastructure
    Use Cases
    Summary
    Slide 37
  • 95. Extending Cloud Solutions with VADI
    Slide 38
    Network & Storage
    Network & Storage
    Cloud Provider
    Cloud Data Center 2
    Cloud Data Center 1
    Orchestration System
    Orchestration System
    Virtualized Application Delivery Infrastructure
    Virtualized Application Delivery Infrastructure
    SAN
    SAN
    Radware Service Delivery Control Plane
    Provides information to Cloud Orchestration on need for Disaster Recovery, Cloud Burst
    Provide KPIs to Cloud orchestration:
    • Application performance per data center
    • 96. Cloud data center availability
    • 97. Cloud data center capacity
    • 98. Proximity to end user
    Cloud Orchestration System
  • 99. Service Migration
    Slide 39
    Internet
    IaaS / Secondary
    Data Center
    Orchestration System
    Orchestration System
    • Simplifyservice migration to the Cloud
    • 100. Benefit from identical ADC experience in both DC and Cloud
    • 101. ImproveIT efficiency through automated migration work flows
    • 102. Strengthen synergy between enterprise DC and Cloud DC
    Firewall
    Enterprise
    Data Center
    Orchestration system migrates the Web application to the Cloud and creates a Soft ADC in the Cloud
    IT manager migrates the Web application to the Cloud in order to reduce OPEX - using the Orchestration system
    Database
    Servers
    Firewall
    Radware ADC-VX
  • 103. OnDemand Self Service ADC – 1/2
    Step #1
    Customer-A provisions a new high SLA service via the self service portal
    IaaS Provider
    Data Center
    Self Service Portal
    Step #2
    The self Service portal instructs the Orchestration system to provision a new application VMs and vADC instance
    Step #4
    The self service portal instructs the orchestration system to provision a new application VMs and Soft ADC instance
    Orchestration System
    Firewall
    Radware ADC-VX
    Internet
    Step #3
    Customer-B provisions a new low SLA service via the self service portal
    Application B
    Application A
    Soft ADC
    vADC-1
    Slide 40
  • 104. OnDemand Self Service ADC – 2/2
    IaaS Provider
    Data Center
    Self Service Portal
    Step #2
    The self service portal provisions a new VMs, and adds more capacity to the vADC-2
    Orchestration System
    Step #1
    Customer provisions a new VMs to support more traffic
    • Best-of-breed self-serving ADC
    • 105. Open API for external ADC management
    • 106. Generatenew revenue from existing ADC infrastructure
    • 107. Support any service SLA requirements
    • 108. On demand throughput and service scalability
    • 109. Full investment protection, increased asset ROI,and CAPEX savings
    • 110. Pay-as-you-grow approach
    Firewall
    Radware ADC-VX
    Internet
    Application 1
    Application 2
    vADC-1
    vADC-2
    Slide 41
  • 111. Dynamic Application and Resource Alignment – 1/2
    Slide 42
    Internet
    Orchestration System
    Step #2
    Orchestration System
    Periodically monitors ADC-VX’s performance metrics
    Notices a traffic overload in the Web application
    Step #3
    Orchestration system adds computing resources to application and updates ADC-VX
    Virtual
    Data Center
    Radware ADC-VX
    Firewall
    Step #1
    User accesses hosted application at Cloud data center
    Step #4
    Redirect traffic to new resource
    Database
    Servers
  • 112. Dynamic Application and Resource Alignment – 2/2
    Slide 43
    Internet
    IaaS Provider
    Data Center
    Orchestration System
    Orchestration System
    Firewall
    Step #2
    Orchestration System
    Periodically monitors ADC-VX’s performance metrics
    Notices a traffic overload in the Web application
    Senses local data center resources are maxed out
    Enterprise
    Data Center
    Orchestration system initiates a Cloud Burst of the Web application and provisions a Soft ADC
    Database
    Servers
    Radware ADC-VX
    Firewall
  • 113. Agenda
    Application Delivery Overview
    Radware’s Virtual Application Delivery Infrastructure
    Use Cases
    Summary
    Slide 44
  • 114. Summary
    Slide 45
    Enterprise/Virtual Data Center
    Customers
    ADC
    Employees & Users
    Mobile Users
    • Ensure Application availability
    • 115. Maximize business continuity
    • 116. Enhance application performance
    • 117. Reduced VM CPU load
    • 118. Cost-effective scaling
    • 119. Full integration with VMware management tools
    • 120. Enable workflow Automation
  • Thank YouEnd Slide