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Integrated Appliance Solution (IAS) Bladed Hardware Technical Training

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1 Integrated Appliance Solution (IAS) Bladed Hardware Technical Training
May 13, 2010

2 1 2 3 4 Agenda Introducing IAS Bladed Hardware
X-Series: Carrier-Grade Chassis 3 Linear Scalability Architecture 4 Selling IAS Bladed Hardware 2 2 2

3 The New Initiative Check Point and Crossbeam have announced a new partnership Crossbeam X-Series platform is now an integral part of the Check Point portfolio The X-Series products are part of the Check Point price list Hardware/Software/Support all come from Check Point as an integrated package Professional Services/Training can also be sold with the package; will be delivered by Crossbeam -Over the past 8 years, Crossbeam has provided an opportunity for Check Point to scale to scale your solutions to much higher performance levels than previously capable, while Check Point has been able to help introduce us to new customers and new opportunities. -Together, we have been able to build our customer base with more than 900 Global Companies providing a very strong footprint in the market place and solid reputation to our competition. -In teckie speak, there are now over 9,000 active Application Processor Modules that are now running Check Point around the world. -Even with this success, and die to the bandwidth demands that consumers and businesses are placing on corporate networks, there is so much more opportunity for growth.

4 Introducing: IAS Bladed Hardware
NEW! Customized Security Chassis for your Unique Security Needs Designed to meet specific business needs Delivers carrier-grade platform for security flexibility to create customized security solutions designed to meet your specific security needs with 3 key value propositions: Designed to meet an organization’s specific needs Delivers carrier-grade platform for security Provides a single point of contact for hardware, software, and support Single SKU integrated solution and single contact for support

5 Carrier-grade Solution Designed for the Most Demanding Environments
Integrates essential Check Point Security Gateway Software Blades Based on Crossbeam X-series chassis Customer Benefits Integrated carrier-grade chassis solution Meets the needs of the most demanding networks Single source of support Partner Benefits Single SKU ordering and fulfillment Expanded portfolio with scalable chassis solution Software Blade upsell opportunities

6 IAS Bladed Hardware— 2 Bundle Options
Security Gateway SG805 Designed for the most demanding, highest-performance environments VPN-1 Power VSX Dedicated gateway for multi-layer, multi-domain virtualized security Comprehensive, flexible and extensible security The only virtualized security gateway with FW, VPN, IPS, and URLF FW, VPN, IPS, Advanced Networking, and Acceleration & Clustering Best virtualized security performance with linear scalability Ideal for the large campus and data center Conserves power and space by consolidating up to hundreds of gateways on a single platform 6

7 Crossbeam X-Series Integrated superior network processing combined with exceptional application processing on an open architecture X80 Adapt security performance and scaling to fit your business X45 • Adapt security performance and scaling to fit your business • Lower total cost of ownership with dramatic network consolidation and energy consolidation • Extend hardware capital depreciation cycles to 5+ years • Decrease downtime with self-healing platform Lower total cost of ownership with dramatic network consolidation and energy consolidation Decrease downtime with self-healing platform 7

8 Flexibility: Hardware and Software
Modular and Scalable Blade Architecture X-Series Scalable architecture AC/DC power NEBS-compliant Fiber NICs Modular NICs X80 X45 firewall blade IPSec VPN blade IPS blade advanced networking blade acceleration & clustering blade VPN-1 Power VSX

9 V A L U E Customer Benefits Single SKU and vendor
FW, VPN, IPS, ACCL, ADN Better TCO (scalability, lower support rate) V A L U E Integrated solutions with software blades An extended global infrastructure with onsite support

10 1 2 3 4 Agenda Introducing IAS Bladed Hardware
X-Series: Carrier-Grade Chassis 3 Linear Scalability Architecture 4 Selling IAS Bladed Hardware 10 10 10

11 X-Series Components NPM X80 Network connectivity
G ports 10 - 1G ports X80 Customers choose for scale and performance 40Gbps Today “Change-Ready” to 160G APM Application blades run: Security Gateway R70 VSX R65 X45 Customers choose when space is a premium 20G Today “Change-ready” to 80G X45 CPM Control blades Manage and monitor the chassis

12 X-Series—Modules Network Processing Modules (NPMs)
Network connectivity and flow processing Multi-link trunking High-speed packet classification/distribution Intelligent flow sequencing Built in rate-limiting feature (per flow rule) Fully VLAN capable; > VLANs per NPM Multiple port density options Network Processing Modules (NPMs) Virtual Application Processor (VAP) system Best-in-class security engines Full hot-swap with no reconfiguration Seamless failover Warm (license-less) standby Optional local HD, crypto accelerator Application Processing Modules (APMs) Internal chassis management HA monitoring and failover Dynamic load balancing Centralized configuration database Dedicated mgt/logging/HA ports Disk sync between dual CPMs Control Processing Modules (CPMs) Network Processing Modules (NPMs) Physical interface connectivity to network with X-Stream™ Secure Flow Processing Multi-link Trunking (using IEEE 802.3ad LACP) High-speed packet classification and distribution based on user-configurable flow rules Intelligent flow sequencing Built in Rate Limiting feature (per flow rule) Fully VLAN capable, up to 4k VLANs per NPM NPM Models: 8-port GE, 16-port FE, 8-port FE + 1-port GE, 2-port GE Application Processing Modules (APMs) Linux/Pentium-based systems that run best-in-class security engines Stable embedded network design Up to 4 GB DRAM Supports XOS “Virtual Application Processor” (VAP) system for: Full hot-swap with no reconfiguration Seamless fail over Warm (license-less) standby Optional Local HD For IDS and AV Engines Optional Crypto accelerator For VPN Engines Control Processing Modules Internal chassis management HA Monitoring and fail over Dynamic load balancing Centralized configuration database Centralized monitoring point Dedicated Management ports (Ethernet and 2 x Serial per CPM) Dedicated Logging port (Gigabit) Dedicated HA port (for dual-box HA) RAID-1 disk mirroring 12

13 X-Series—Accessories
Optional Extras SFP-Q2-LX-2 Two (2) LX SFP 1G Transceiver (LC Connectors) for NPMs SFP-Q2-SX-2 Two (2) SX SFP 1G Transceiver (LC Connectors) for NPMs SFP-Q2-T-3 Two 10/100/1000 Copper SFP Transceivers (RJ45 Connectors) for use with NPM-8600 or later. XFP-Q2-LR Two (2) LR XFP 10G Transceiver (LC Connector) for NPM-8600 (RoHS Compliant). Use Single Mode fiber XFP-Q2-SR Two (2) SR XFP 10G Transceiver (LC Connector) for NPM-8600 (RoHS Compliant). Use Multi-mode fiber XOS-ARM-710CD X-Series Routing Software version 7.1 on DVD. Requires XOS or higher. Includes PIM Sparse Mode, OSPFv2, RIP-II, and BPG-4. Licensed per X-Series Chassis.

14 The Virtual Infrastructure
What are we solving? How do we solve it? Why is it important? Real use cases Typical multi-box architectures have a lot of duplication and inefficiency FW IPS L2 LB LB Internet The status quo is that in any network there is duplication, inefficiency and box sprawl. Unfortunately, the status quo yields extraordinarily complex data center architectures, leading to wasted data center space, growing power usage and difficulty in fault diagnosis. Moreover, since these devices require connections to switches & load balancers, and have limited networking & application processing power, they essentially become embedded elements in the network – meaning that when the security services need to be expanded or upgraded so does the network. Security changes require network changes causing increased time to change Difficult to add a new security service quickly

15 The Virtual Infrastructure
What are we solving? How do we solve it? Why is it important? Real use cases Crossbeam creates a “Network in a Box” Network Processor Modules Application Processor Modules consolidate Security Gateway Software Blades or VSX Control Processing Modules The X-Series Platform becomes a “virtual infrastructure” integrating both network processing and application processing within a single operating system R70 Blades R70 Blades The X-Series is essentially a “network in a box” that helps solve inefficiencies by optimizing the network & application processing together under one operating system. The X-Series platform allows enterprises and service providers to consolidate network infrastructure (switches, load balancers, patch cabling & power cords) and appliances supporting security applications, “virtualize” the delivery of security applications and dramatically simplify deployment and on-going management. L2 LB LB Internet

16 Network Processing Module (NPM)
What are we solving? How do we solve it? Why is it important? Real use cases Provides switching fabric for data plane Switching fabric connects all NPMS and APMs 5 Gb/s throughput per NPM-8620 Provides 10 Gb/s throughput per NPM-8650 Provides 40 Gb/s throughput per chassis (4 NPM-8650) Provides physical network interfaces NPM-8620 has 10 x 1GbE SFP interfaces NPM-8650 has 10 x 1GbE SFP and 2 x 10GbE XFP interfaces Load balancing distributes traffic Scales throughput by distributing traffic across APMs Re-distributes traffic around failed APMs Consolidates network infrastructure Virtualizes switches, load balancers, patch and power cords Eliminates common network devices Network Processing Module (NPM) NPM, or Network Processing Module. This blade provides the switching fabric, or the interconnectivity, between the NPMs and APMs, the blades that handle the traffic on the chassis. There are two different models of NPM, the NPM and the NMP 8650, The NPM 8620 provides 5 Gb/s of throughput per blade and the 8650 provides 10Gb/s throughput per blade, with the total of 40Gb/s being able to be reached with the usage of 4 NPM modules in each chassis. The NPM 8620 contains ten, one gb/s SFP interfaces and each NPM 8650 blade contains ten, one gb/s SFP interfaces along with two 10 Gb/s XFP interfaces. The NPM can send traffic to a specific application and/or send traffic between applications such as first to a firewall, then to an IPS. It scales throughput by distributing traffic across APMs and it can re-distribute traffic around an APM if the CPM has detected that it has failed. One of the most important points about the NPM is that it consolidates a customer’s network infrastructure. The NPM replaces all of the load balancers, patch panels, cables, power cords and other devices in a customer’s network – saving management costs as well as physical space and heating and cooling costs in the data center. The NPM allows the applications on the Crossbeam chassis to scale without the usage of multiple amounts of networking equipment as is needed in a typical appliance configuration. 16 16

17 Application Processing Module (APM)
What are we solving? How do we solve it? Why is it important? Real use cases Hosts applications Supports “Virtual Application Processor” (VAP) Application runs within each VAP Scales performance Multiple APMs allow multiple VAPs These application instances share the traffic load Allows layered security Different APMs can run different applications NPM’s network virtualization provides connectivity between layers Provides application redundancy VAPs can run on any APM APMs can be re-provisioned on-the-fly Un-provisioned APMs automatically assume warm-standby role The APM, or Application Processing Module is the last blade we’re going to look at in detail. The APMs have chips with Intel architecture on the blade, and each one can run one instance of an application. APMs do support our virtual application processors, which we’re going to talk about in more detail in the next set of slides. There is a maximum number of 10 APMs that are able to be put into an X 80 Chassis. All 10 blades can be dedicated to a single application which allows for the application to have tremendous scalability. It also enables the ability to have extra APMs in the chassis for failover and redundancy. The APMs can also be divided among applications which enable your customer to have layered security and run firewall, IPS and web application firewall all in one chassis. Each APM can have an installed instance of our best in class ISV partners simultaneously running on the same chassis, a point unique to the Crossbeam X series chassis. APMs can be reconfigured while the chassis is running so if one application needs more processing power, another APM blade can be provisioned to have that application instance on it, giving the application the power it needs. Extra APMs can be put into the chassis for failover, they run in the chassis on warm standby mode and automatically take over if an active APM with an application that is on it fails. This allows a customer not to have any sacrifice the performance of the application or any performance within the chassis. 17 17

18 Control Processing Module (CPM)
What are we solving? How do we solve it? Why is it important? Real use cases System management Provides out-of-band management of chassis Centralized configuration of all elements in the system Provision applications based on configuration Ensures desired configuration Health monitoring Continuously checks health of APMs, and NPMs Failover control Collects statistics (CPU, I/O, etc) from all other modules Routes around failures CPM, or Control Processor Module. The CPM does the system management of the chassis and has a separate network for internal communication and another one for external communication. The management of the chassis takes place on a private network; it’s not on the same path as the data to be processed, which provides a higher level of security for data management and processing. All configuration of the chassis is done via the CPM. The CPM is also used to the initial install and configuration of the applications on the chassis. The CPM continuously checks and monitors the health of the chassis, including the health of the APMs and NPMs. The CPM can also check how busy each module is, and its goal is to best optimize the chassis’ performance. The CPM will detect any failures and can re-provision different blades to work around a failure to ensure the chassis continues to perform. data and configuration kept identical. When there are two CPMs, one will be the active CPM keeping the configurations and doing the monitoring and will constantly send this information to the other CPM in the chassis 18 18

19 Secure Flow Processing
XOS What are we solving? How do we solve it? Why is it important? Real use cases Optimizes data flow between the network and application processors Protects and ensures optimum network processing Optimizes and controls flows between apps Provides Superior Network Performance Network Processing Environment Chassis Resource Protection Secure Flow Processing Switched Data Path Management Ensures Exceptional Application Processing Automatic performance capacity restoration Allows application performance to scale independently Provides a responsive system to application processing needs Application Processing Environment Self-Healing Virtual Application Processor / Grouping Dynamic Resource Allocation At Crossbeam, we believe the secret to a successful platform is its Operating System. That’s why we have spent the last 10 years perfecting our creation. We built an operating system that allowed multiple best-of-breed applications to live on the same platform and work together seamlessly with the ability to centralize control and visibility of the entire system. 500 man-years of effort later, XOS was born and is being used by some of the largest banks, service providers, mobile operators, schools and governments around the world. What makes XOS so special is the ability to consolidate multiple best-of-breed applications on to a single chassis. With XOS, a Virtual Infrastructure was created allowing customers to move, add and change applications onto the same hardware within minutes and to do so without fear to downtime. In effect, XOS created a new genre of Network Security Platforms. Bottom line – In order to best leverage your assets and maximize system life, it’s all about control Open Secure OS Broad support of best-in-class security applications

20 The Virtual Infrastructure
What are we solving? How do we solve it? Why is it important? Real use cases A virtual infrastructure Creates a very responsive on-demand architecture Move, add, remove applications without impacting the network Create logical application groups that can be scaled or changed depending upon performance demands Self-healing architecture The Virtual Infrastructure that Crossbeam creates provides a very responsive architecture that allows any application to be added, changed or removed at any time. The virtual system also provides the ability to alter performance on the fly; adding or changing how much processing power each application needs becomes very simple; saving time in planning and changes to the network design. Green Zone: Fundamentally, by creating a system that can collapse several functions into one platform “Network in a Box” it reduces inefficiencies of processors having to do work twice and move data around a network through infrastructure devices such as switches and routers. Green Zone Reduces waste by removing network inefficiencies Reduce # Ethernet connections to a single “virtual infrastructure”

21 Simplifying the Complex
What are we solving? How do we solve it? Why is it important? Real use cases Which Network Rack can be Upgraded Faster? The X-Series Platform is the entire infrastructure—a single management interface for all security and network changes Firmware and system software upgrades only need to be applied once using the Automated Workflow System

22 The Virtual Infrastructure
What are we solving? How do we solve it? Why is it important? Real use cases The Technical Problem Current managed firewall service to local government education agency was overly complex, requiring 12 operational staff to maintain Solving the Problem Crossbeam collapsed 800 Cisco ASA Firewall appliances into 4 X80 chassis running Check Point VSX National Communications Co. now scales without adding additional hardware Business Outcome National Telco was able to reduce the staff required for manage this service from 12 to just 3 Crossbeam Validation Crossbeam was able to validate up to 250 virtual firewalls running on each X80 Chassis

23 1 2 3 4 Agenda Introducing IAS Bladed Hardware
X-Series: Carrier-Grade Chassis 3 Linear Scalability Architecture 4 Selling IAS Bladed Hardware 23 23 23

24 Linear Scalability Architecture
What are we solving? How do we solve it? Why is it important? Real use cases  Excellent for controlling the flow of data packets  Poor at actually processing the data  Excellent for processing the data  Poor at controlling the flow of latency-sensitive data Networking Platforms Application Server Platforms Due to the complex nature of data communications, systems are typically designed perform one action extremely well, OR they are designed to perform multiple actions in a mediocre fashion. This is very true of any processing based system. Network platforms, that rely of ASIC and FPGA designs can move data extremely quickly with very small latency, however they can not much else. Conversely, off-the-shelf Application Servers can process data very well, but they can’t manage massive data flows at any great speed or control latency. In network security, you need to maintain a strict relationship between Network Processing and Application Processing in order to achieve optimum performance, not only at 1 performance level, but overtime as demand increases. Need to Maintain a Perfect Relationship Between Network and Application Processing in Order to Optimize a System

25 Linear Scalability Architecture
What are we solving? How do we solve it? Why is it important? Real use cases System Performance Connections per Second Total Connections Latency Mixed Packet Size Throughput Application Inspection Throughput Application Throughput Under Load Performance of the system (Network and Application Processing) also has to be measured in several ways; Application Throughput, Connections per Second, Total Connections etc. True system scalability demands that every performance factor scales linearly

26 Linear Scalability Architecture
What are we solving? How do we solve it? Why is it important? Real use cases Networking Platforms X-Series Architecture Application Server Platforms Crossbeam achieves an optimum performance across all metrics by ensuring a strict relationship between application performance and network performance. Integrated network and application processing facilitates true linear scalability 26 26

27 Linear Scalability Architecture
What are we solving? How do we solve it? Why is it important? Real Use-Cases Traffic flow controlled down to the individual processor core NPM APM Switched Data Paths (SDP) NPM 8650 NPM 8620 Up to 10 Gbps Processing Up to 5Gbps Processing 10 Million Flows 8 Million Flows 105,000 Connections per second 45,000 Connections per second 320,000 Connections per second / Chassis APM 8650 Up to 8 CPU Cores per Module Up to 80 CPU Cores per Chassis Up to 12.8 Gbps of Backplane Connectivity Up to 16 GB of Memory Diskless Design Optional up to 2 HDD‘s available with Raid 1/0 Fully Hot-Swappable The NPM provides the Network Processing. The APM provides the Application processing. Crossbeam intelligently controls the flow of traffic between these critical components via Switched Data Paths (SDPs) Traffic flow controlled down to the individual processor core 27

28 Check Point R70 Performance
What are we solving? How do we solve it? Why is it important? Real use cases The X-Series can scale to 40Gbps firewall throughput with iMIX UDP traffic The X-Series also is the fastest firewall platform on the market in small packet performance, capable of scaling to 18M Packets Per Second with 64 byte packets

29 Throughput…Think Real World
What are we solving? How do we solve it? Why is it important? Real use cases The X80 Achieves the Maximum Throughput of 40Gbps with Real-World Packet Sizes, Not Just with Large Packets X80 with NPM and APM 8650 Modules Running Check Point R70 iMIX Performance Gigabits Per Second Packet Size

30 Check Point Firewall + IPS on X80 has always outperformed SRX
Platform Performance The Honeymoon is Over for the SRX We must push back on overinflated SRX performance claims SRX throughput for iMIX traffic plummets by nearly 65% Clear demonstration of how unrealistic the 120Gb claim is X80 iMIX performance doesn’t budge from our max throughput of 40Gbps Gigabits per Second SRX performance drops even further when IPS is turned on Check Point Firewall + IPS on X80 has always outperformed SRX

31 Platform Performance— Packet Forwarding Rate
At 18 Million Packets per Second, the X-Series is the Fastest Firewall on the Market! Packet Forwarding Rate (64 byte packets) Packet forwarding rate directly affects real-world throughput This performance is achieved with 8-core APM-8650 modules Utilizing Check Point CoreXL technology Millions of Packets per Second

32 Scaling Against Juniper SRX
What are we solving? How do we solve it? Why is it important? Real use cases X-Series Wins Against the SRX X80 SRX (November 2009 Datasheet) Packet Rate 18 Million PPS 15 Million PPS iMIX Throughput 40 Gigabit / Second 45 Gigabit / Second Firewall + IPS Throughput 30 Gigabit / Second Connections per Second 320,000 CPS 350,000 CPS Total Concurrent Connections 10 Million Large Packet Throughput 120 Gigabit / Second

33 IAS Bladed Hardware— Performance Bundles
What are we solving? How do we solve it? Why is it important? Real Use-Cases The 5 Gbit/s solution—running on an X45 5 Gbit Solution The 10 Gbit/s solution—running on an X45 or X80 10 Gbit Solution The 20 Gbit/s solution—running on an X45 or X80 20 Gbit Solution The 40 Gbit/s solution—running on an X80 40 Gbit Solution 1-2-1 2-2-1 2-4-1 4-6-1

34 Linear Scalability Architecture
What are we solving? How do we solve it? Why is it important? Real Use-Cases A linear scalable architecture Provides ability to create an accurate performance budget and planning for future expansion Dedicated resources can be allocated to specific applications ensuring performance service levels Scalability is critically important in any data center today as it provides the ability to correctly and accurately provision and plan for future growth. Due to the way the Crossbeam platform is architected, the processing resources are used very efficiently via the SDPs and due to this control, Crossbeam can achieve Linear Scalability ensuring every $ spent on processors is utilized. Green Zone Crossbeam switched data paths dramatically increase the efficiency of multi-core processor systems

35 Linear Scalability Architecture
What are we solving? How do we solve it? Why is it important? Real use cases The Technical Problem Critical need to continually increase throughput and concurrent connections to keep pace with 3G devices on the mobile network Solving the Problem Crossbeam used 4th-generation blades to scale the O2 Internet-facing firewalls to accommodate 6.5 million concurrent connections Business Outcome O2 is now able to continue to service their existing subscriber base of 22 million and expand service to remain competitive in the UK market Crossbeam have worked closely with O2 throughout a period of enormous growth in their network data requirements in order to innovate and provide a firewall design that could accommodate current needs and predictably scale into the future as needs change. O2 have seen significant growth in their network data due to the focus on providing high end smart phone handsets (iPhone, palm Pre, etc) and competitive tariff packages alongside data dongles, this has produced high growth in the data traffic handled on the network and also on the internet firewalls. Crossbeam provided a solution by suggesting a non synched firewall cluster allowing O2 to scale past the limitations of a single synched cluster, demonstrating a solution that scales to 7.5 million concurrent connections on a NAT firewall. Crossbeam Validation Utilized the Linear Scalability validation test plan to show all performance metrics increased as firewall VAP group members were added

36 1 2 3 4 Agenda Introducing IAS Bladed Hardware
X-Series: Carrier-Grade Chassis 3 Linear Scalability Architecture 4 Selling IAS Bladed Hardware 36 36 36

37 Product Solution Examples
List Price X80 Chassis 4 NPM 8650 8 APM 8650 1 CPM 8600 3 P/S 4-8-1 Solution Example: CPAP-X45-2B-SG805 : Check Point IAS X45 Bladed Architecture with 2 Security Gateways (FW, VPN, IPS, ACCL, ADN) $640K X80 Chassis 2 NPM 8650 4 APM 8650 1 CPM 8600 2 P/S 2-4-1 X45 Chassis 2 NPM 8620 2 APM 8650 1 CPM 8600 2 P/S 2-2-1 $345K P/S = Power Supply units $185K NOTE: These are example configurations. Each deal will require some customization (10G) (20G) (40G) iMIX Performance 37

38 IAS Bladed Hardware—SG805
High-performance Security Gateway for the Most Demanding Environments Indicates number of APMs Check Point Bladed Hardware Integrated Appliance Solution is a value add integrated solution that combine the proven security of Check Point Software on high performance bladed Chassis with a single point of contact for fulfillment and support. It enables organizations to quickly deploy VPN-1® Power™ and VPN-1 Power VSX™ on a reliable, performance-oriented bladed hardware architecture backed by Check Point security and support.

39 IAS Bladed Hardware—VSX
Dedicated Gateway for Multi-layer, Multi-domain Virtualized Security Check Point Bladed Hardware Integrated Appliance Solution is a value add integrated solution that combine the proven security of Check Point Software on high performance bladed Chassis with a single point of contact for fulfillment and support. It enables organizations to quickly deploy VPN-1® Power™ and VPN-1 Power VSX™ on a reliable, performance-oriented bladed hardware architecture backed by Check Point security and support.

40 Beating the Competition
Strategy for Success Beating the Competition Juniper SRX Real-world performance – Performance hit to firewall when measured against real world traffic Management interface – Cumbersome interface/menus loosely unifies ScreenOS and JunOS High availability limitations – Choice between high availability and performance Inspection performance – Traffic throughput drops when IPS turned on Cisco ASA Performance – Security technology lags in the industry Complexity and cost – Security embedded in each appliance requiring many appliances Security – May know the network, but not strong around network security

41 24/7 Support for the Most Critical Environments
OTTAWA TAC STOCKHOLM Endpoint escalation Award-winning support Always-on 24 X 7 coverage Best-in-class electronic support tools World-wide material inventory Online support in 150 countries / 1,000 metropolitan areas Check Point provides only Co-Premium and Premium support for the solution (any lower plan needs Amnon approval) Regarding the onsite options: TBD PS to be offered by Check Point until otherwise indicated DALLAS TAC TEL AVIV TAC TOKYO TAC

42 Sales Tools Sales Tools are available on PartnerMap
Customer presentation Technical presentation At-a-glance sales guides And more… For additional information please contact your Check Point Channel Representative

43 Summary: IAS Bladed Hardware
NEW! Customized Security Chassis for your Unique Security Needs Designed to meet specific business needs Delivers carrier-grade platform for security flexibility to create customized security solutions designed to meet your specific security needs with 4 key value propositions: Designed to meet an organization’s specific needs Delivers carrier-grade platform for security Provides a single point of contact for hardware, software, and support Single SKU integrated solution and single contact for support


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