ICC's Access Control System is a unified wired/wireless system to allow SMB and small enterprise leverage software to control IP data networking centrally or distributed throughout their networks.
Discover the performance advantages of 802.11ac Wave 2 and see what you need to do to prepare your network for a successful deployment.
Miss the webcast? Register to watch the replay here: http://cs.co/9001B1AyR
Go Beyond 802.11ac Wave2 with Innovations for High-Density Networks
Watch the Replay: http://cs.co/9006Bq8bq
This was easily one of our most popular workshops. The slides are here in .pdf form as this is what SlideShare provides…but if you have not listened to the wireless experts we gathered for this one…stop, go to http://cs.co/9006Bq8bq and watch the replay. It is WELL worth your time. (I will post the Q&A we captured from this one soon….right here on Slideshare within a few days).
Three wireless wizards: Bill Rubino, Mark Denny, and Jim Florwick
The marketing description: To meet the needs of today’s demanding user environments, Cisco’s high-speed access points do much more than meet the 802.11ac Wave 2 standard. They go beyond it.
See how these highly intelligent solutions deliver greater flexibility, a more optimized wireless environment, and a better user experience through innovations such as flexible radio assignment, hyperlocation antenna, Bluetooth integration, and more.
Don’t miss this exclusive, in-depth look at the hardware that combines the highest Wi-Fi performance with powerful end-device efficiency. And remember to bring your toughest questions for our live Q&A. Save your spot now.
A few additional resources from TechWiseTV for you:
Two great animations:
- Learn more about MultiGig with our 'Fundamentals of NBaseT" https://youtu.be/87dsbpi3iCw
- "Fundamentals of 802.11ac WAVE 2" https://youtu.be/kjapSG_CvJc
TechWiseTV (The Show)
See the AP’s and Mark Denny: https://youtu.be/H8rPvJLcTww
Great stuff on Wireless Location Services: https://youtu.be/8HHrA1qkdAI
This guide details the advanced guest access features available to organizations through the combination of Aruba’s Amigopod and Mobility Controller solutions. This includes details of workflow management, RADIUS configuration, AAA configuration, and testing of the solution. This guide builds on the network defined in the Campus VRD.
To learn more, visit us at http://www.arubanetworks.com/wlan. Join the discussion at https://community.arubanetworks.com
Wireless Controller Comparative Performance Cisco vs Aruba Miercom ReportCisco Mobility
Miercom was engaged to perform independent, hands-on, comparative testing of performance and features of mid-range and high-end Wireless Controllers from Cisco Systems and Aruba Networks.
This report summarizes the results of the Wireless Controller testing in these areas:
- Data plane: The Wireless Controller’s comparative throughput for varying packet sizes
- Control plane: The Wireless Controller’s capacity and rate for client authentication
- RF (radio frequency) spectrum management: The effect on throughput of channel-bandwidth selection, and the extent that Cisco's Dynamic Bandwidth Selection (DBS) makes a difference.
To learn more information visit:
http://www.cisco.com/c/en/us/products/wireless/5520-wireless-controller/index.html
http://www.cisco.com/c/en/us/products/wireless/8540-wireless-controller/index.html
In today’s Experience Economy, networks must provide a great user experience meeting each individual’s personal expectation. Users do not care about what happens behind the scenes to make everything work; in fact, users don’t even consider it until something breaks. People living in today’s Experience Economy care about simply connecting to a video, where the network is smart enough to remember who they are without a lot of hassle connecting, and then providing a blisteringly fast connection so that there is no interruption to the video stream. Think about what makes you happy when connecting with your own device and then think about what makes you really upset when things are hard, complicated, and slow. If the user has a bad experience in anyone of these areas (simple, fast, and smart), they are likely to leave, share their negative experience, and potentially never return.
Where Does Networking Fit In? To gain the full benefits of cloud computing and virtualization and achieve a business agile IT infrastructure, organizations need a reliable, high-performance data center networking infrastructure with built-in investment protection. Several technology inflection points are coming together that are fundamentally changing the way networks are architected, deployed and operated both in the public cloud as well as the private cloud. From performance, to scale, to virtualization support and automation to simplified orchestration, the requirements are rapidly changing and driving new approaches to building data center networks.
With Extreme Networks, IT can manage more with less. Automated intelligence and analytics for compliance, forensics, and traffic patterns translates into reduced help desk calls. Businesses can predict costs and return on investment, and increase employee productivity by securely onboarding BYOD, increasing both customer and employee satisfaction. A constant risk to the network, and ultimately the hospital, are unapproved applications and rogue devices that may appear on the network and either permit unauthorized access or interfere with other devices. A means to monitor all devices and applications that operate across the network is vital. Just as important are the audit and reporting capabilities necessary to report on who, what, where, when, and how patient data is accessed.
What is SDN? What software-defined networking really means has evolved dramatically and now includes automation and virtualization. Hardware is still a critical component in data center networking equipment, but the influence of switch software shouldn’t be overlooked. When everyone began to get excited about SDN a few years ago, we thought of it as only one thing: the separation of network control from network data packet handling. Traditional networks had already started down this path, with the addition of controller cards to manage line cards in scalable chassis-based switches, and with various data center fabric technologies.
Discover the performance advantages of 802.11ac Wave 2 and see what you need to do to prepare your network for a successful deployment.
Miss the webcast? Register to watch the replay here: http://cs.co/9001B1AyR
Go Beyond 802.11ac Wave2 with Innovations for High-Density Networks
Watch the Replay: http://cs.co/9006Bq8bq
This was easily one of our most popular workshops. The slides are here in .pdf form as this is what SlideShare provides…but if you have not listened to the wireless experts we gathered for this one…stop, go to http://cs.co/9006Bq8bq and watch the replay. It is WELL worth your time. (I will post the Q&A we captured from this one soon….right here on Slideshare within a few days).
Three wireless wizards: Bill Rubino, Mark Denny, and Jim Florwick
The marketing description: To meet the needs of today’s demanding user environments, Cisco’s high-speed access points do much more than meet the 802.11ac Wave 2 standard. They go beyond it.
See how these highly intelligent solutions deliver greater flexibility, a more optimized wireless environment, and a better user experience through innovations such as flexible radio assignment, hyperlocation antenna, Bluetooth integration, and more.
Don’t miss this exclusive, in-depth look at the hardware that combines the highest Wi-Fi performance with powerful end-device efficiency. And remember to bring your toughest questions for our live Q&A. Save your spot now.
A few additional resources from TechWiseTV for you:
Two great animations:
- Learn more about MultiGig with our 'Fundamentals of NBaseT" https://youtu.be/87dsbpi3iCw
- "Fundamentals of 802.11ac WAVE 2" https://youtu.be/kjapSG_CvJc
TechWiseTV (The Show)
See the AP’s and Mark Denny: https://youtu.be/H8rPvJLcTww
Great stuff on Wireless Location Services: https://youtu.be/8HHrA1qkdAI
This guide details the advanced guest access features available to organizations through the combination of Aruba’s Amigopod and Mobility Controller solutions. This includes details of workflow management, RADIUS configuration, AAA configuration, and testing of the solution. This guide builds on the network defined in the Campus VRD.
To learn more, visit us at http://www.arubanetworks.com/wlan. Join the discussion at https://community.arubanetworks.com
Wireless Controller Comparative Performance Cisco vs Aruba Miercom ReportCisco Mobility
Miercom was engaged to perform independent, hands-on, comparative testing of performance and features of mid-range and high-end Wireless Controllers from Cisco Systems and Aruba Networks.
This report summarizes the results of the Wireless Controller testing in these areas:
- Data plane: The Wireless Controller’s comparative throughput for varying packet sizes
- Control plane: The Wireless Controller’s capacity and rate for client authentication
- RF (radio frequency) spectrum management: The effect on throughput of channel-bandwidth selection, and the extent that Cisco's Dynamic Bandwidth Selection (DBS) makes a difference.
To learn more information visit:
http://www.cisco.com/c/en/us/products/wireless/5520-wireless-controller/index.html
http://www.cisco.com/c/en/us/products/wireless/8540-wireless-controller/index.html
In today’s Experience Economy, networks must provide a great user experience meeting each individual’s personal expectation. Users do not care about what happens behind the scenes to make everything work; in fact, users don’t even consider it until something breaks. People living in today’s Experience Economy care about simply connecting to a video, where the network is smart enough to remember who they are without a lot of hassle connecting, and then providing a blisteringly fast connection so that there is no interruption to the video stream. Think about what makes you happy when connecting with your own device and then think about what makes you really upset when things are hard, complicated, and slow. If the user has a bad experience in anyone of these areas (simple, fast, and smart), they are likely to leave, share their negative experience, and potentially never return.
Where Does Networking Fit In? To gain the full benefits of cloud computing and virtualization and achieve a business agile IT infrastructure, organizations need a reliable, high-performance data center networking infrastructure with built-in investment protection. Several technology inflection points are coming together that are fundamentally changing the way networks are architected, deployed and operated both in the public cloud as well as the private cloud. From performance, to scale, to virtualization support and automation to simplified orchestration, the requirements are rapidly changing and driving new approaches to building data center networks.
With Extreme Networks, IT can manage more with less. Automated intelligence and analytics for compliance, forensics, and traffic patterns translates into reduced help desk calls. Businesses can predict costs and return on investment, and increase employee productivity by securely onboarding BYOD, increasing both customer and employee satisfaction. A constant risk to the network, and ultimately the hospital, are unapproved applications and rogue devices that may appear on the network and either permit unauthorized access or interfere with other devices. A means to monitor all devices and applications that operate across the network is vital. Just as important are the audit and reporting capabilities necessary to report on who, what, where, when, and how patient data is accessed.
What is SDN? What software-defined networking really means has evolved dramatically and now includes automation and virtualization. Hardware is still a critical component in data center networking equipment, but the influence of switch software shouldn’t be overlooked. When everyone began to get excited about SDN a few years ago, we thought of it as only one thing: the separation of network control from network data packet handling. Traditional networks had already started down this path, with the addition of controller cards to manage line cards in scalable chassis-based switches, and with various data center fabric technologies.
The purpose of this guide is to explain the enhancements in 802.11ac standard and provide guidance towards
migrating to 802.11ac with respect to network design, deployment, and configuration best practices for campus environments like offices, university campus, and dorm environments.
This guide covers the following topics in detail:
- Summary of Recommendations
- 802.11ac Features and Benefits
- 802.11ac Planning and Deployment Guidelines
- Best Practice Recommendations for Deploying 802.11ac WLANs
This guide is intended for those who are willing to learn about the 802.11ac standards and understand the best practices in deploying a high-performing 802.11ac
The Aruba Network Rightsizing Best Practices Guide provides an overview of network rightsizing. Network rightsizing is a network capacity planning and cost optimization strategy based on the principle that wired and wireless LANs should be sized and structured to meet current and future demand. After explaining the principles of network rightsizing and how it can benefit your organization, the methodology for analyzing and planning a rightsized network will be discussed. Finally, you will learn how to implement a rightsized yet scalable Aruba 802.11n network.
To learn more, visit us at http://www.arubanetworks.com/wlan. Join the discussion at https://community.arubanetworks.com
The 2.4 point-to-multipoint firmware release enables rapid deployments for multipoint networks, cuts installation time and dramatically improves ease of use. The Mimosa multipoint access solutions already deliver the fastest subscriber speeds, highest capacity, and best price-performance commercially available for wireless broadband networks. Now, you can enjoy the new features in the 2.4 release too.
Breakout - Airheads Macau 2013 - Microsoft Lync, Unified Communications, Cloud Application Control, and Aruba Networks
Included Topics:
Why should I be interested in Lync/UCC?
What challenges will I face?
How do I solve these challenges?
RF Optimization
QoS
Troubleshooting
A collection of several vital configuration tips and tricks which are widely implemented across mid-size to large enterprise WLAN. Primary focus would be on Security as well as Performance characteristics of Aruba WLAN networks. Check out the webinar recording where this presentation was used.
https://community.arubanetworks.com/t5/Wireless-Access/Technical-Webinar-Recording-Slides-Aruba-controller-features/td-p/279274
Register for the upcoming webinars: https://community.arubanetworks.com/t5/Training-Certification-Career/EMEA-Airheads-Webinars-Jul-Dec-2017/td-p/271908
This guide presents a new wireless architecture to deliver a multimedia-grade experience to students living in residence halls. We will show that large numbers of low-power microcells located directly in the student rooms is the only effective solution to fully meet user expectations. We provide simple rules to determine the density of these microcells for different types of construction. We also provide migration options to enable many institutions to deploy this architecture without pulling additional cabling.
To learn more, visit us at http://www.arubanetworks.com/wlan. Join the discussion at https://community.arubanetworks.com
The Aruba Mobility Access Switch family of products provides various features including voice VLAN, Link Layer Discovery Protocol – Media Endpoint Discovery (LLDP-MED), and Quality of Service (QoS) to enable successful deployment of VoIP in enterprise networks. This application note addresses traditional techniques and introduces new device-aware support to deploy VoIP phones. This document is intended for all system engineers and network administrators who are deploying a VoIP solution in an enterprise network.
To learn more, visit us at http://www.arubanetworks.com/wlan. Join the discussion at https://community.arubanetworks.com
This document describes the process for leveraging the ClearPass Guest captive portal to bypass the Captive Network Assistant (web sheet) that is displayed on iOS devices such as iPhone, iPad, and more recently, OS X machines running Lion (10.7) and above.
To learn more, visit us at http://www.arubanetworks.com/wlan. Join the discussion at https://community.arubanetworks.com
This session will introduce the challenges and principles of designing high density WLANs. We'll present examples of VHD deployments in auditoriums or ballrooms, as the principles of deploying in these environments are applicable to any other high density coverage zone. Join us as we explore dimension and design for sites with adjacent auditoriums, best practices for estimating the number of user devices, and choosing between the three major RF coverage strategies.
The application note focuses on configuration and operation of guest access solutions on ArubaOS. The native guest access solution including configuration of the guest access and guest provisioning profiles, guest administration, and captive portal configuration.
To learn more, visit us at http://www.arubanetworks.com/wlan. Join the discussion at https://community.arubanetworks.com
The purpose of this guide is to explain the enhancements in 802.11ac standard and provide guidance towards
migrating to 802.11ac with respect to network design, deployment, and configuration best practices for campus environments like offices, university campus, and dorm environments.
This guide covers the following topics in detail:
- Summary of Recommendations
- 802.11ac Features and Benefits
- 802.11ac Planning and Deployment Guidelines
- Best Practice Recommendations for Deploying 802.11ac WLANs
This guide is intended for those who are willing to learn about the 802.11ac standards and understand the best practices in deploying a high-performing 802.11ac
The Aruba Network Rightsizing Best Practices Guide provides an overview of network rightsizing. Network rightsizing is a network capacity planning and cost optimization strategy based on the principle that wired and wireless LANs should be sized and structured to meet current and future demand. After explaining the principles of network rightsizing and how it can benefit your organization, the methodology for analyzing and planning a rightsized network will be discussed. Finally, you will learn how to implement a rightsized yet scalable Aruba 802.11n network.
To learn more, visit us at http://www.arubanetworks.com/wlan. Join the discussion at https://community.arubanetworks.com
The 2.4 point-to-multipoint firmware release enables rapid deployments for multipoint networks, cuts installation time and dramatically improves ease of use. The Mimosa multipoint access solutions already deliver the fastest subscriber speeds, highest capacity, and best price-performance commercially available for wireless broadband networks. Now, you can enjoy the new features in the 2.4 release too.
Breakout - Airheads Macau 2013 - Microsoft Lync, Unified Communications, Cloud Application Control, and Aruba Networks
Included Topics:
Why should I be interested in Lync/UCC?
What challenges will I face?
How do I solve these challenges?
RF Optimization
QoS
Troubleshooting
A collection of several vital configuration tips and tricks which are widely implemented across mid-size to large enterprise WLAN. Primary focus would be on Security as well as Performance characteristics of Aruba WLAN networks. Check out the webinar recording where this presentation was used.
https://community.arubanetworks.com/t5/Wireless-Access/Technical-Webinar-Recording-Slides-Aruba-controller-features/td-p/279274
Register for the upcoming webinars: https://community.arubanetworks.com/t5/Training-Certification-Career/EMEA-Airheads-Webinars-Jul-Dec-2017/td-p/271908
This guide presents a new wireless architecture to deliver a multimedia-grade experience to students living in residence halls. We will show that large numbers of low-power microcells located directly in the student rooms is the only effective solution to fully meet user expectations. We provide simple rules to determine the density of these microcells for different types of construction. We also provide migration options to enable many institutions to deploy this architecture without pulling additional cabling.
To learn more, visit us at http://www.arubanetworks.com/wlan. Join the discussion at https://community.arubanetworks.com
The Aruba Mobility Access Switch family of products provides various features including voice VLAN, Link Layer Discovery Protocol – Media Endpoint Discovery (LLDP-MED), and Quality of Service (QoS) to enable successful deployment of VoIP in enterprise networks. This application note addresses traditional techniques and introduces new device-aware support to deploy VoIP phones. This document is intended for all system engineers and network administrators who are deploying a VoIP solution in an enterprise network.
To learn more, visit us at http://www.arubanetworks.com/wlan. Join the discussion at https://community.arubanetworks.com
This document describes the process for leveraging the ClearPass Guest captive portal to bypass the Captive Network Assistant (web sheet) that is displayed on iOS devices such as iPhone, iPad, and more recently, OS X machines running Lion (10.7) and above.
To learn more, visit us at http://www.arubanetworks.com/wlan. Join the discussion at https://community.arubanetworks.com
This session will introduce the challenges and principles of designing high density WLANs. We'll present examples of VHD deployments in auditoriums or ballrooms, as the principles of deploying in these environments are applicable to any other high density coverage zone. Join us as we explore dimension and design for sites with adjacent auditoriums, best practices for estimating the number of user devices, and choosing between the three major RF coverage strategies.
The application note focuses on configuration and operation of guest access solutions on ArubaOS. The native guest access solution including configuration of the guest access and guest provisioning profiles, guest administration, and captive portal configuration.
To learn more, visit us at http://www.arubanetworks.com/wlan. Join the discussion at https://community.arubanetworks.com
Presentación de la campaña de la Semana Mundial de la Lactancia Materna, apoyando a la Alianza Mundial Pro Lactancia Materna (WABA), Municipios Píritu, Peñalver y Carvajal, Estado Anzoátegui - Venezuela
Learn about the exciting new Apex debugger product! See how debugging will work in the new era. We will demonstrate a few different debugging scenarios, discuss future enhancements, and cover how this shared resource will be managed in the multi-tenant environment.
Soon we are leaving for another Comenius meeting. The German teachers of our school have made a presentation to teach all the students about the destination of our meeting.
Unified wired/wireless IP data networking solution designed to increase efficiency by reducing data contention. Combined with an advanced Layer 3 architecture and an IEEE802.11 enterprise wireless LAN management system, icXchange helps ensure content delivery as well as solid connectivity for the user.
An experience is a personal and emotional event we remember. Every experience is established based upon pre-determined expectations we conceive and create in our minds. It’s personal, and therefore, remains a moving and evolving target in every scenario. When our experience concludes and the moment has passed, the outcome remains in our memory. Think about what makes you happy when connecting with your own device and then think about what makes you really upset when things are hard, complicated, and slow. If the user has a bad experience in anyone of these areas (simple, fast, and smart), they are likely to leave, share their negative experience, and potentially never return. Users might forget facts or details about their computing environment but they find it difficult to forgot the feeling behind a bad network experience. When something goes wrong with the network or an application, do you always get the blame?
If the number of spine switches were to be merely doubled, the effect of a single switch failure is halved. With 8 spine switches, the effect of a single switch failure only causes a 12% reduction in available bandwidth. So, in modern data centers, people build networks with anywhere from 4 to 32 spine switches. With a leaf-spine network, every server on the network is exactly the same distance away from all other servers – three port hops, to be precise. The benefit of this architecture is that you can just add more spines and leaves as you expand the cluster and you don't have to do any recabling. Intuition Systems will also get more predictable latency between the nodes.
As a trend, disaggregation seems to be most useful for very large companies like Facebook and Google, or cloud providers. The technology does not necessarily have significant implications for small or medium sized businesses. Historically, however, technology has a way of trickling down from the pioneering phases of existing only within large companies with tremendous resources, to becoming more standardized across the board.
Large venues like stadiums or concert halls are challenging environments for Wi-Fi deployments. Most of today’s phones and tablets carry Wi-Fi interfaces. A safe assumption is that at least one device per person in a stadium carry a Wi-Fi interface. Monetizing those Wi-Fi interfaces with real time information of the event in the venue, targeted advertising, internet access, multimedia and social applications can create new revenues to the owner of the venue, if executed properly.
TechWiseTV Workshop: Cisco Catalyst 9800 Series Wireless ControllerRobb Boyd
A new addition to the Catalyst 9000 family, the Cisco Catalyst 9800 Series Wireless Controllers are the next generation of controllers that bridge Cisco’s intent-based networking portfolio. Powered by the Cisco IOS XE operating system, the 9800 Series Wireless Controllers are always on, secure, and can be deployed anywhere.
Software updates with no disruptions and rolling access point upgrades completely change the definition of “always on.” “Secure” translates to increased threat detections in encrypted traffic and automated macro and micro segmentation. Finally, the ability to deploy in either a private or public cloud promises you the freedom that no other controller currently offers.
In this session we’ll cover the following aspects of Catalyst 9800:
Overview of the Cisco Catalyst 9800 Series Wireless Controller and its features and functionalities
Cisco Catalyst 9800 security, always-on functionality, and the ability to be deployed anywhere, and why these features create a stronger, more efficient wireless network
How the new 9800 controllers fit into the Cisco Catalyst family
Q&A
The AP350 access points are high performance 802.11n access points (APs) with cloud-enabled management, on-demand provisioning, and integrated tools like spectrum analysis and application visibility and control.
The value proposition of enabling IP data networks with intelligent unified solutions. ICC Networking as the best software-driven solution to drive down the cost of connectivity while increasing network elasticity and performance.
We see the need for IT to use best of breed applications in an open standards network, but often times lacking the unified management or staff to efficiently maintain a complex network.
I am fortunate enough to speak with CIOs and IT Directors like yourself, and they tell me that while they may be happy with their current vendor situation they face challenges such as
· We help our customers transform their network architecture as a strategic business asset
· Difficult and complex to gain strategically valuable insight into network usage
· Implementing and controlling BYOD
· Increased volume of devices on the network
· Poor correlation of data and management solutions between third party technologies
· Frustration due to lack of network visibility and application analytics
· Controlling guest and rogue devices on-boarding the network
· Bad user experience causing a poor perception of IT competence
As I mentioned, I’m with Extreme Networks. We are a global leader in high performance wired and wireless networking hardware and software solutions, presently working with ABC University on their stadium wi-fi.
ICC Networking Link Series unified controller solution
1. Link Series
Access Control Systems
Wired and Wireless Unified IP
Data Access Solution
ADVANCED
EFFICIENT
SOFTWARE-DRIVEN
2. ICX Link Solution Presentation Outline
ICC Solution Objectives
Product Introduction
Technical Specification
Use Cases
Support
How to buy
2Proprietary and Confidential
4. Proprietary and Confidential 4
Customer Objectives
Ensure Declining Cost & Accessibility
Ensure IP Data solution cost continue to decline
while enabling higher Service Levels
Improve Performance & Efficiency
Spend Less Time And Money – Add More Value To
Other Parts Of The Organization
Increase Agility
Quickly Manage and Expand To Meet Changing
Customer Requirements – Premise, Cloud, IP Data
Management…
5. Proprietary and Confidential 5
Achieve 3x consolidation by the unification
of wired, wireless, routing, and basic
provider features like End-to-End Voice
Support and PIM
Improved performance by scaling on-
premise, cloud, and remote management
solution
Advanced Multi-Level Redundancy of 1+1, N+1, or
N+N. APs unique redundant capabilities to connect
to up to 4 different controllers to ensure
connection. Premise-Controllers or the use of
icXcloud
Simplified icXcloud management (Global-Clustering,
AP Emergency Stay Alive and Site Recovery)
Live Redundancy to enable Hosted Control maintenance,
SMNP, MIBS, and icXcloud update
Maximized overall performance by controlling type, class,
policy of content to ensure no dropped IP Packets
Availability
Performance
Consolidation Business Continuity
Load Balance
Maintenance
Application Enablement: Tools
The icXchange® Solution is designed with tools for control content
7. ICC icXchange® Link Series Access Control Systems
Unified IP Data Networking for Small and Large Ecosystems
Objective - Flexible and Smart Software-driven Ecosystem within a Unified
Architecture
• Advanced business performance unified Wired and Wireless LAN with 24 Gigabit
Ethernet Ports, full Layer 3, 32 AP licenses expandable up to 256 APs. Software-driven
and highly flexible, the Link2000ACS expands the Link Series controllers into the
enterprise. The industry’s most flexible platform architecture configures for private
or public wireless cloud management, cloud deployment of controller and/or AP, and
IP Data control to reduce contention and increase usable bandwidth.
Objective - Ensuring feature-rich software control and efficiency in the age of IOT
• Small to Medium business WLAN control system native with 2 Gigabit Ethernet Ports,
full Layer 3, and 16 Access Point licenses expandable up to 128 APs. Software-driven
with advanced features such as advanced Redundancy, WIDS, enhanced IP data
control for RF Management, Load Balancing, and QoS. Designed to recognize user
devices, type of traffic, and administrative policies, the Link1000ACS intelligently
creates efficiency by balancing these factors with a variety of tools from AP, Traffic,
Policy, RF, and strength of client device to ensure that IP data packets are not
dropped. This results in a software-driven system that creates industry-leading
efficiency, reduces contention central cause of performance delays, and increases the
number of users on a network.
Link2000ACSLink1000ACS
Link1000ACS
Performance Edge
WLAN infrastructure
Management,
Monitoring, Policy
Control, and Reporting
On-Premises
Infrastructure
Service Provider
RF Management
IP Data Control
User device Activity
Link1000ACS
ICX/ARC Series
Access Points
icXengine
Policy Manager
Link6024AS-PoE
Switch
Link2000ACS
Performance
Edge WLAN
infrastructure
Management,
Monitoring, Policy
Control, and Reporting
Cloud, Remote, or On-Premise
Infrastructure Management
Service Provider
RF Management
IP Data Control
User device Activity
Link2000ACS
ICX/ARC Series
Access Points
icXengine
Policy Manager
Link6024AS-PoE
Switch
OptionalCloud
Management
Value Benefit
Simple: Wired/Wireless networking Reduce deployment cost, management, and IP data control
Smart: Multi-personality software Dynamically change design, data forwarding, architecture, policy over NAT
Scalable: Deploy up to 10,000 devices Private or icXcloud Management, PIM, Clustering, Redundancy, and more
Performance: More people, more devices icXengine increases performance and reduces contention to lower cost
Unified Software-driven
Wired, Wireless, &PolicyServices
Link1000ACS Link2000ACS
Private Cloud
Wireless Management over NAT
8. Proprietary and Confidential 8
VOICE VIDEO
SIP Phone
SoftPhone
SmartPhone
3G/4G Offload
Host PBX Cases
Streaming Content Control
Social Media
Marketing
IPTV
Internet Video Use Cases
Network Access
Replication
Over WAN
Content ManagementFull Queue Control
Traffic Policing
Disaster Recovery,
Long-Term Retention
End-to-End QoS
On Premise or Private Cloud
Flow ClassificationIP Data
Controls Client Policy
Gateway
Application Enablement: Link1000ACS Advanced Content Capabilities
Cloud Managed APOn-Premise or Private Cloud
Controller Managed AP
icXcloud
icXmanager
9. Proprietary and Confidential 9
VOICE VIDEO
SIP Phone
SoftPhone
SmartPhone
3G/4G Offload
Host PBX Cases
Streaming Content Control
Social Media
Marketing
IPTV
Internet Video Use Cases
Network Access
Replication
Over WAN
Content ManagementFull Queue Control
Traffic Policing
Disaster Recovery,
Long-Term Retention
End-to-End QoS
On Premise or Private Cloud
Flow ClassificationIP Data
Controls Client Policy
Gateway
Application Enablement: Link2000ACS Unified IP Data Capabilities
Cloud Managed AP
On-Premise or Private Cloud
Controller Managed AP
DATA
Large file processing
Desktop SoftPhone
Integration of Services
Up to 10G
Performance icXcloud
icXmanager
10. Proprietary and Confidential 10
VOICE VIDEO
SIP Phone
SoftPhone
SmartPhone
3G/4G Offload
Host PBX Cases
Streaming Content Control
Social Media
Marketing
IPTV
Internet Video Use Cases
Network Access
Content ManagementFull Queue Control
Traffic PolicingEnd-to-End QoS Flow ClassificationIP Data
Controls Client Policy
Gateway
Application Enablement: Link3000SP SDN WLAN Control System
icXcloud
icXmanager
DATA
Large file processing
Desktop SoftPhone
Integration of Services
Up to 10G
Performance
Service Provider Cloud
11. Proprietary and Confidential 11
11N 11AC ICX Unified Access Device (UAD)
Unified IP Data Solution
Linear Scaling Of Performance And Capacity
Ideal For Cost-effective,
Large-capacity requirements
ICXCLOUD-Series
Capacity
Performance
Flexible Solution For High
Concurrent And Sequential
Throughput Applications
LINK1000-Series Layer3 Unified IP Data
Control for onsite
deployment of
Wired/Wireless Performance
LINK2000-Series
12. (Up to 1024)
Proprietary and Confidential 12
Features Support Real Time Content, Security, and Routing
13. Proprietary and Confidential 13
Dimension
328mm × 170mm × 42.2mm
12.9in x 6.6in x 1.66in
Ethernet ports
2 ports, auto MDX, auto-sensing
10/100/1000 Mbps, RJ-45
Management port
1 console port(RJ-45)
Power
100 – 240V AC Universal, IEC 320 connector
Power consumption
11W
Operating temperature
32°F (0°C) – 122°F (50°C)
-40°F (-40°C) — 158°F (+70°C)
Operating humidity
5% ~90% non-condensing
Standard features
Default Managed APs
16
Upgradable AP step
16
Max. managed APs
128
Max. controller clustering
64
Concurrent stations
5K
VLAN
4K
ACL
4K
MAC address table
32K
ARP table
8K
Roaming
Less than 30ms
IEEE standards and protocols
802.3 (10Base-T)
802.3u (100Base-TX)
802.3z (1000BASE-X)
802.3ab (1000Base-T)
802.1Q (VLAN)
802.1p (COS)
802.3x (Flow Control)
GVRP
Broadcast storm control
Routing
RIPv1/v2, OSPF, VRRP, IGMP v1/v2/v3
ARP, ARP Proxy, PBR
PIM-SM, PIM-DM, PIM-SSM
802.11
802.11a
802.11b
802.11g
802.11n
802.11d
802.11h
802.11i
802.11e
802.11k
AP Discovery & Control
Layer-2 or Layer-3
AP discovers ACS automatically
AP download firmware from ACS
AP download configuration from ACS
automatically
Roaming
Roaming within ACS
Roaming between ACSs
Key Cache roaming
IP multicasting
MLD Snooping
IGMP Snooping
IPv6
DHCPv6, DNSv6,
ICMPv6,ACLv6, TCP/UDP for IPv6, SNMP v6,
Ping /Trace, Route v6, RADIUS, Telnet/ SSH v6,
NTP v6, IPv6 MIB support for SNMP, VRRP for
IPv6,
IPv6 QoS, Static Routing, OSPFv3, IPV6 Security RA
Data forwarding
Distributed forwarding architecture
Centralized architecture
Authentication
MAC Filtering
802.1x Authentication
(EAP-TLS, EAP- TTLS, EAP-PEAP, EAP-MD5)
Captive Portal
AAA
RADIUS Client
LDAP
Local Authentication (5000 user entries)
Accounting server
802.11 security
BSSIDs (Up to 32 for dual band AP, 16 for
single band AP)
802.11i (802.1x Authentication and PSK
Authentication)
Hidden SSID
WEP (WEP64/WEP128), WPA, WPA2, TKIP, AES
WIDS
Rogue AP detection
Rogue DHCP Server detection
DoS attack prevention
DDoS
Password guessing protection
Rate limiting
Access Lists (ACLs)
Layer-2 (MAC address based ACL)
Layer-3 (IP address based ACL)
Load balance
Load balance based on sessions/flows
Load balance based on throughput
RF management
Supports country code settings
Supports RF power adjust automatically/ manually
Supports RF channel adjust
automatically/manually
Multi-Media & QoS
WMM (802.11e)
Class-of-Service: voice, video, best effort and
background
Redundancy
1+1, N+1, N+N
Management
Web user Interface
SNMP
CLI (Telnet, SSH)
HTTP/HTTPs FTP/TFTP
SNTP v4
NTP v4
Reliability
ULSM
MRPP
EMI & Safety
FCC
CE
TUV
14. 14
SECONDARY DC SITE
PRIMARY HQ
(Global locations)
Expanding Profitability and
shifting OPEX spending to CAPEX
Associated Facilities
Management Groups
Multi-location – Satellite
Locations
Distributed Ecosystem
SECURITY
Confidential
PERFORMANCE
SITES LARGE REMOTE
OFFICE
VALUE
FEATURES
End-to-end Voice
Q-in-Q
WMM
QoS/ToS/CoS
Flexible Forwarding
Service Tagging
Auto/Real Time Configuration
AAA
LDAP
Radius (Client/Server)
Local Authentication
802.11i (802.1x)
BSSIDs
WEP/WPA/WPA2
Redundancy
RF Management
Seamless Roaming
Layer 2 Isolation
Priority Mapping
Remotely deploy AP
Manage Policy and Security
4 Levels of redundancy
Deploy at partner locations
AC/DC, 10G
64 Cluster Support, Redundancy
Software-driven end-to-end flexibility
Configurations to match IT designs while enabling more
applications
15. 15
Layer 3 Routing and IP
ForwardingA
Application visibilityB
UADOS AP level
Bandwidth Management
C
Location, Presence, Splash
Portal and Tenant other
Service options
D
ICC icXchange® Ecosystem
Software-driven and unified IP data networking
16. Proprietary and Confidential 16
Content Identification, Policy Control,
Authorization, and Validation
Distributed, and Centralized IP Forwarding
to ensure shortest path
Layer 3 Routing, Content Management (QoS,
VLAN, End-to-End Voice and Video, Real Time APP
Support
Rate Limiting, Bandwidth Management,
Load Balancing
One System
Many Layers of Control
Voice Video Data Voice Video Data
Section 1 Section 2
Corporate Network
17. Proprietary and Confidential 17
ICC Unified Software-driven Solution vs the Competition
Ideal For Cost-effective, Large-
capacity requirement
ICXCLOUD-Series
Unified Efficient
NO
Multiple hops, not a
switched platform,
Licensing,
No IP Traffic
Optimization
Separate
Wired/Wireless
More hops, power, and
nodes to manage
Performance
Unified Efficient
Wired & Wireless
Premise & Cloud
Centralized Control
Switched Platform, IP
Traffic Control, Least
Path Routing, Packet
Control
Switched Ecosystem
Performance RF and
Power management
with standards-based
Beamforming 11ac
Performance
Logical & Virtual
Routing
Software-driven IP
control to manage the
new network issue:
The Content Flood
Traditional and
Singular value to solve
a fading issue:
Getting Connected
VS
Traditional Connection-
based Vendor
18. ICC icXchange® Link Series Access Control System
vs. the competition
ICC Link Series
Y
Y
Y
Y
Y
Y
Y
Y (Link2000ACS)
Y
Y
20. Product Information
Proprietary and Confidential 20
Product Family: icXchange®
Model Name: Link1000ACS
Model Name: Link2000ACS
MSRP
SKU # Description Price
Link1000ACS
Small Business Unified Access Control System with both Wired/Wireless Layer3, 2 Gigabit
Ports, 16 AP licenses (up to 128 capable), and 4k VLANs $1,699.00
Link2000ACS
Enterprise Business Unified Access Control System with both Wired/Wireless Layer3, 24
Gigabit Ports (4 combo SFP with optional 10G), 32 AP licenses (up to 256), and WIDS $4,199.00