Blue Coat PacketShaper provides visibility and optimization of network applications through application monitoring, traffic shaping, and compression. It automatically classifies network applications, provides quality-of-service controls, and increases WAN capacity. PacketShaper supports application delivery networks through deep application visibility and controls to optimize WAN performance.
Secure Mobility in Cisco Unified WLAN Networks for Mobile DevicesCisco Mobility
Best practices for implementing the latest WLAN security techniques from design to deployment. Includes recommendations for proper authentication and encryption and fast secure roaming. Learn More: http://www.cisco.com/go/wireless
Managing the Mobile Device Wave for Enterpise Wireless Networks: Best PracticesCisco Mobility
Learn how to plan evaluate and implement wireless in demanding high density environments such as lecture halls classrooms and auditoriums. Learn how to evaluate end user throughput requirements and translate this into the number of channels required. Learn how to manage cell size co-channel interference and successfully apply these principles using Cisco´s Unified Wireless Network. Learn More: http://www.cisco.com/go/wireless
Wireless LAN Design and Deployment of Rich Media NetworksCisco Mobility
Technical presentation on Wi-Fi channel designs for voice and video calls, including bandwidth management of the Wi-Fi cell and Wireless LAN Controller configurations for VoWLAN and Wi-Fi SIP calls. Learn More: http://www.cisco.com/go/wireless
Network Configuration Example: Configuring VPLS Pseudowires on MX Series Devi...Juniper Networks
This document includes an overview of dynamic profiles. It highlights what they do, how they work, and how to configure virtual private LAN service (VPLS) pseudowires using dynamic profiles. Example configurations are highlighted at the end.
Deploying the Cisco Mobility Services Engine for Advanced Wireless ServicesCisco Mobility
Learn the fundamentals of advanced wireless services from design to deployment and operation. Includes Context-Aware for wireless location of users, clients and interference events with CleanAir and Adaptive Wireless IPS for advanced security protection. Learn More: http://www.cisco.com/go/wireless
Router Analysis, Inc. tested the Cisco ASR1004 and 1006 routers with the latest RP2, ESP40 and SIP40 hardware. The router was outfitted with Six 5 port GE SPAs and 2 10GE SPAs.
Overall the results were as expected, with the router performing within the specs provided by Cisco. For some tests the router performed at a lesser rate that expected.
Read the report to find out more.
Deploying Cisco ISR G2 and ASR 1000 in the EnterpriseCisco Canada
This presentation discusses the disrupting networking trends that are changing the Enterprise landscape, scope of these changes include the areas of network security, services delivery, application performance optimization and cloud access in tomorrow's borderless networks. The biggest challenge is to help Enterprise IT scale. Borderless Networks is an architectural approach to networking that, if designed correctly, can automate business and network processes driving down operational cost, thus allowing IT to scale. Cisco ISR G2 and ASR 1000 platforms offer the best in class service richness and flexibility that is needed to deliver the promise of borderless networks and allow users to turn on services on-demand.
Secure Mobility in Cisco Unified WLAN Networks for Mobile DevicesCisco Mobility
Best practices for implementing the latest WLAN security techniques from design to deployment. Includes recommendations for proper authentication and encryption and fast secure roaming. Learn More: http://www.cisco.com/go/wireless
Managing the Mobile Device Wave for Enterpise Wireless Networks: Best PracticesCisco Mobility
Learn how to plan evaluate and implement wireless in demanding high density environments such as lecture halls classrooms and auditoriums. Learn how to evaluate end user throughput requirements and translate this into the number of channels required. Learn how to manage cell size co-channel interference and successfully apply these principles using Cisco´s Unified Wireless Network. Learn More: http://www.cisco.com/go/wireless
Wireless LAN Design and Deployment of Rich Media NetworksCisco Mobility
Technical presentation on Wi-Fi channel designs for voice and video calls, including bandwidth management of the Wi-Fi cell and Wireless LAN Controller configurations for VoWLAN and Wi-Fi SIP calls. Learn More: http://www.cisco.com/go/wireless
Network Configuration Example: Configuring VPLS Pseudowires on MX Series Devi...Juniper Networks
This document includes an overview of dynamic profiles. It highlights what they do, how they work, and how to configure virtual private LAN service (VPLS) pseudowires using dynamic profiles. Example configurations are highlighted at the end.
Deploying the Cisco Mobility Services Engine for Advanced Wireless ServicesCisco Mobility
Learn the fundamentals of advanced wireless services from design to deployment and operation. Includes Context-Aware for wireless location of users, clients and interference events with CleanAir and Adaptive Wireless IPS for advanced security protection. Learn More: http://www.cisco.com/go/wireless
Router Analysis, Inc. tested the Cisco ASR1004 and 1006 routers with the latest RP2, ESP40 and SIP40 hardware. The router was outfitted with Six 5 port GE SPAs and 2 10GE SPAs.
Overall the results were as expected, with the router performing within the specs provided by Cisco. For some tests the router performed at a lesser rate that expected.
Read the report to find out more.
Deploying Cisco ISR G2 and ASR 1000 in the EnterpriseCisco Canada
This presentation discusses the disrupting networking trends that are changing the Enterprise landscape, scope of these changes include the areas of network security, services delivery, application performance optimization and cloud access in tomorrow's borderless networks. The biggest challenge is to help Enterprise IT scale. Borderless Networks is an architectural approach to networking that, if designed correctly, can automate business and network processes driving down operational cost, thus allowing IT to scale. Cisco ISR G2 and ASR 1000 platforms offer the best in class service richness and flexibility that is needed to deliver the promise of borderless networks and allow users to turn on services on-demand.
Architectural concepts of the branch office WLAN deployments emphasizing the core technologies that drive and enable mobility in retail banking education enterprise or managed WLAN services. Topics covered include in-depth protocol description of H-REAP (FlexConnect) all deployment options in practice and are based on customer case studies for their application into the branch environment. Learn More: http://www.cisco.com/go/wireless
Wireless LAN Security, Policy, and Deployment Best PracticesCisco Mobility
The current state of wireless security, covering wireless device access, preventing rogue threats and addressing wireless attacks. Special focus on device profiling and policy covering how to prevent unauthorized (such as smartphones and tablets) from accessing the network. Learn More: http://www.cisco.com/go/wireless
Don't Lose Your Viewers: Keep Their Attention With High Performance StreamingCompuware APM
Significant effort and investment go into producing great online advertisements, music videos, and trailers for blockbuster movies. If the video stream is not available, you end up with “dead air.” If the stream rebuffers repeatedly, causing users long wait times, you’re creating poor end-user experience and, worse, possibly losing them as customers. Both outcomes are going to result in a negative impact on your brand and your revenue.
Understanding CleanAir Technology to improve Wlan Spectrum Management Cisco Canada
Managing the Radio Frequency and Spectrum is a critical challenge for modern WLAN networks, especially with advanced applications like VoWLAN. This session looks at the theory of operations and best practices for taking advantage of Radio Resource Management and usage of several tools included or available from Cisco like 'Planning Mode' and 'Cisco Spectrum Expert'. This session is updated to reflect new advances contained in release 7.0 of CUWN, like Clean Air, and is of an advanced level.
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.
This reference design helps organizations design and configure a small to midsize data center (be¬tween 2 and 60 server racks) at headquarters or a server room at a remote site. You will learn how to configure the data center core, aggregation and access switches for connectivity to the servers and the campus network.
The Avaya Fabric Connect data center design supports high-speed 10 Gbps Ethernet connect-ed servers. The design can easily scale server bandwidth with link aggregation and servers can be connected to one or more switches in order to provide the level of availability required for the services delivered by the host. The design also supports legacy and low traffic servers that need 1 Gbps Ethernet connectivity,
The reference design presented in this guide is based on common network requirements and pro¬vides a tested starting point for network engineers to design and deploy an Avaya data center net¬work. This guide does not document every possible option and feature used to design and deploy networks but instead presents the tested and recommended options that will meet the majority of customer needs.
This design uses Avaya Fabric Connect in order to provide benefits over traditional data center design.
IT departments face several challenges in today’s data center:
· Data center traffic flow is not the same as campus traffic flow. Over 80% of the traffic is east-west, server-to-server, vs. north-south, client-to-server, like in a campus.
· Server virtualization allows a virtual machine or workload to be located anywhere in the physi¬cal data center. Data center networks can make it difficult to extend virtual local area networks (VLANs) and subnets anywhere in the data center.
· Server virtualization means that new services can be brought online in minutes or migrated in real time. Reconfiguring the network to support this is difficult because it can interrupt other services.
· Server virtualization means that the load on a physical box is much higher. Physical servers regularly host 10-50 workloads, driving network utilization well past 1 Gbps.
Architectural concepts of the branch office WLAN deployments emphasizing the core technologies that drive and enable mobility in retail banking education enterprise or managed WLAN services. Topics covered include in-depth protocol description of H-REAP (FlexConnect) all deployment options in practice and are based on customer case studies for their application into the branch environment. Learn More: http://www.cisco.com/go/wireless
Wireless LAN Security, Policy, and Deployment Best PracticesCisco Mobility
The current state of wireless security, covering wireless device access, preventing rogue threats and addressing wireless attacks. Special focus on device profiling and policy covering how to prevent unauthorized (such as smartphones and tablets) from accessing the network. Learn More: http://www.cisco.com/go/wireless
Don't Lose Your Viewers: Keep Their Attention With High Performance StreamingCompuware APM
Significant effort and investment go into producing great online advertisements, music videos, and trailers for blockbuster movies. If the video stream is not available, you end up with “dead air.” If the stream rebuffers repeatedly, causing users long wait times, you’re creating poor end-user experience and, worse, possibly losing them as customers. Both outcomes are going to result in a negative impact on your brand and your revenue.
Understanding CleanAir Technology to improve Wlan Spectrum Management Cisco Canada
Managing the Radio Frequency and Spectrum is a critical challenge for modern WLAN networks, especially with advanced applications like VoWLAN. This session looks at the theory of operations and best practices for taking advantage of Radio Resource Management and usage of several tools included or available from Cisco like 'Planning Mode' and 'Cisco Spectrum Expert'. This session is updated to reflect new advances contained in release 7.0 of CUWN, like Clean Air, and is of an advanced level.
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.
This reference design helps organizations design and configure a small to midsize data center (be¬tween 2 and 60 server racks) at headquarters or a server room at a remote site. You will learn how to configure the data center core, aggregation and access switches for connectivity to the servers and the campus network.
The Avaya Fabric Connect data center design supports high-speed 10 Gbps Ethernet connect-ed servers. The design can easily scale server bandwidth with link aggregation and servers can be connected to one or more switches in order to provide the level of availability required for the services delivered by the host. The design also supports legacy and low traffic servers that need 1 Gbps Ethernet connectivity,
The reference design presented in this guide is based on common network requirements and pro¬vides a tested starting point for network engineers to design and deploy an Avaya data center net¬work. This guide does not document every possible option and feature used to design and deploy networks but instead presents the tested and recommended options that will meet the majority of customer needs.
This design uses Avaya Fabric Connect in order to provide benefits over traditional data center design.
IT departments face several challenges in today’s data center:
· Data center traffic flow is not the same as campus traffic flow. Over 80% of the traffic is east-west, server-to-server, vs. north-south, client-to-server, like in a campus.
· Server virtualization allows a virtual machine or workload to be located anywhere in the physi¬cal data center. Data center networks can make it difficult to extend virtual local area networks (VLANs) and subnets anywhere in the data center.
· Server virtualization means that new services can be brought online in minutes or migrated in real time. Reconfiguring the network to support this is difficult because it can interrupt other services.
· Server virtualization means that the load on a physical box is much higher. Physical servers regularly host 10-50 workloads, driving network utilization well past 1 Gbps.
Anuta Networks at Networking Field Day 14Kiran Sirupa
Anuta NCX is designed to offer multi-vendor network orchestration across a variety of deployments, including campus, data centers, and carrier networks. Case Studies include branch automation with a Tier 1 MSP, enterprise connectivity in a managed data center, and a real world deployment with Telstra Managed Services. Anuta NCX uses a layered model driven architecture that allows for it users to work with services across multiple network vendors. NCX is built to model all of these and reconcile any differences completely autonomously, without the customer having to intervene. Any SLAs or other configuration can be done, as NCX has support standard YANG based orchestration.
This hands on workshop for OpenContrail will be led by Sreelakshmi Sarva & Aniket Daptari.
This is a labs session so we will have hard RSVP limits. Please RSVP only if you are confident that you will be able to attend.
About Sreelakshmi Sarva
Sree is currently working as part of solution engineering team at Juniper’s Contrail team. She is responsible for delivering & managing SDN solutions & partnerships relating to Contrail. She has been with Juniper for the last 13 years working on various Routing, Switching, Network programmability & virtualization platforms. Prior to Juniper, She worked at Nortel networks in the Systems Engineering group. Sree received her Masters in Computer Science from University of Texas at Dallas and Bachelor’s in Computer Science from India.
About Aniket Daptari
Aniket is currently working as part of Juniper Networks' Contrail Cloud Solutions team. He is responsible for delivering SDN solutions and technology partnerships related to Contrail. He has been with Juniper for the last 3 years working on various Network programmability & virtualization platforms. Prior to Juniper, he worked at Cisco Systems in the Internet Systems Business Unit (Catalyst 6500). Aniket received his Masters in Computer Science from University of Southern California and a graduate certificate in Management Science and Engineering from Stanford University.
Course Abstract
This session will be the first of a series of OpenContrail hands-on tutorials for developers who want to get deep into OpenContrail code.
This “Basic OpenContrail Programming” Hands-on Session will focus on making developers proficient in writing and contributing code for our OpenContrail Project.
Session will cover the following areas
1) Contrail Overview
· Use Cases
· Architecture recap
2) Contrail Hands on
· Demo + Hands on - Configuration , VN, VM, Network Policies etc
· DevStack introduction
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.
With uCPE/SD-WAN taking center stage in enabling software-defined Cloud services to enterprise branch offices globally, this session will provide a uCPE review from a solution, deployment and reference design standpoint.
Speaker: Sab Gosal, Segment Manager
Network Platforms Group (NPG), September 2018
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.
Watch the full OnDemand Webcast: http://bit.ly/wcincreasing80211
Making the move to 802.11n? Though the rewards are significant, they come with a cost. The increased complexity of 802.11n can be a bit maddening, and it will definitely impact the way you design, monitor, and maintain your WLAN. MIMO? Channel bonding? Aggregation? If these terms aren’t currently part of your WLAN vocabulary, they certainly will be by the time you make the move. And even though the specification has been ratified for some time now, 802.11n hardware continues to evolve.
Join us as we explore the number of MIMO streams, channel bonding, guard interval lengths, and other characteristics that define your WLAN capabilities. We’ll also characterize the current state of commercially available 802.11n hardware, arming you with the information you need to determine if, when, and how you want to make the move.
In these slides, we will cover:
- Key technologies that are new to 802.11n
- The relative importance of each technology in contributing to increased performance
- The current “state of the art” of commercially available 11n equipment
What you will learn:
- What new 11n technologies are most important to you
- When to use the various 11n technologies
- How to monitor and analyze WLANs – both mixed-mode and Greenfield 11n
Watch the full webcast at: http://bit.ly/80211nIncreasedSpeedComplexity.
Acetabularia Information For Class 9 .docxvaibhavrinwa19
Acetabularia acetabulum is a single-celled green alga that in its vegetative state is morphologically differentiated into a basal rhizoid and an axially elongated stalk, which bears whorls of branching hairs. The single diploid nucleus resides in the rhizoid.
Macroeconomics- Movie Location
This will be used as part of your Personal Professional Portfolio once graded.
Objective:
Prepare a presentation or a paper using research, basic comparative analysis, data organization and application of economic information. You will make an informed assessment of an economic climate outside of the United States to accomplish an entertainment industry objective.
Francesca Gottschalk - How can education support child empowerment.pptxEduSkills OECD
Francesca Gottschalk from the OECD’s Centre for Educational Research and Innovation presents at the Ask an Expert Webinar: How can education support child empowerment?
The French Revolution, which began in 1789, was a period of radical social and political upheaval in France. It marked the decline of absolute monarchies, the rise of secular and democratic republics, and the eventual rise of Napoleon Bonaparte. This revolutionary period is crucial in understanding the transition from feudalism to modernity in Europe.
For more information, visit-www.vavaclasses.com
Model Attribute Check Company Auto PropertyCeline George
In Odoo, the multi-company feature allows you to manage multiple companies within a single Odoo database instance. Each company can have its own configurations while still sharing common resources such as products, customers, and suppliers.
1. blue coat packetshaper
Visibility and OptimizatiOn fOr netwOrked applicatiOns
Blue Coat PacketShaper is part of the Application Delivery Network (ADN), an infrastructure that provides complete
application visibility, acceleration and security. PacketShaper supports ADN with unmatched visibility to optimize WAN
performance. With PacketShaper, you can automatically classify and measure network applications, provide quality-of-
service (QoS) provisioning to control traffic and increase WAN capacity with compression capabilities.
Critical applications need to move loss for voice and video conferencing can guarantee per flow bandwidth
at the speed of business. Blue Coat traffic over Real Time Protocol – for and automatically enforce appropriate
PacketShaper provides WAN Optimization real traffic in real time. transfer rates for computers at the far
functionality through a series of modules All of these capabilities can integrate end of the network to deliver true bi-
– monitoring, shaping and compression. into your performance management directional QoS.
FEATURES environment, including intelligent -> Fix critical application performance
thresholds and alerts when problems issues by allocating bandwidth to ensure
Monitoring Module are about to occur. applications perform.
Before you can optimize application -> Identify and classify applications Compression Module
performance, you need an accurate with Layer 7 Plus technology.
The Blue Coat PacketShaper
picture of network traffic. Blue Coat Monitor performance in real time
Compression Module instantly increases
PacketShaper automatically classifies and the information you need to solve
WAN capacity, improving application
and measures network applications, performance issues.
performance and user response
providing the insight of a probe but
with deeper, application-intelligent
Shaping Module times. Using a symmetric, application
The Blue Coat PacketShaper Shaping intelligent architecture and multiple data
Layer 7 Plus visibility. In addition to
Module provides QoS provisioning. This reduction methods, the Compression
delivering network and application
helps control traffic and assures that Module intelligently selects what traffic
utilization and performance data, the
latency-sensitive, customer-critical to compress and which technology to
Monitoring Module validates common
applications get the bandwidth they need use – increasing capacity from two to ten
protocols and tracks what happens to
to perform at their peak, while preventing times, reducing bandwidth usage and
each connection established by each
recreational traffic from consuming minimizing WAN latency.
application. Monitoring also breaks
down traffic per application and per too much bandwidth. With patented -> Create more bandwidth from existing physical
site at a granular level, recording peak TCP rate control, the Shaping Module links and enhance the user experience.
and average utilization rates, bytes
transmitted, availability, utilization, top Blue Coat PacketShaper Dashboard
talkers/listeners, network efficiency
and much more.
Once traffic has been identified,
PacketShaper monitors performance –
over 100 stats per application class – in
real time. Track how much bandwidth
applications are using, the response
times of key applications broken down
by network and server delay and key
stats like TCP Healthy, efficiency and
retransmissions to aid troubleshooting.
Targeted packet traces can be captured
for use with protocol analysis tools.
Voice level intelligence tracks Mean
Opinion Scores (MOS), jitter, delay and