The document discusses preparing a network proposal which includes organizing existing information, creating an implementation plan, and identifying support contract options. The implementation plan should include timelines, installation methods, and cost estimates. Support options like SMARTnet provide software and hardware support. Finally, the proposal should be presented to the customer, including the network design, implementation schedule, and gaining approval.
WebEx Avago Presentation for Eccolo Media 2010Matthew McHale
Designed and animated pre selected graphics and copy with the direction of Chris Jensen's from Eccolo Media, our goal was to show a simple and clean presentation that was direct, to the point and short.
Attendees in this session will enhance their skills and job relevancy by gaining new knowledge and skills using the Oracle Public Cloud within their job role through actual use cases .
Will detail how backup to the cloud can be used to meet different needs of their organization and how to justify use of new technology within their business. Learn how to create a storage container, setup OS secure authentication and configure RMAN to use the Oracle Cloud. Perform a backup to the Oracle Cloud and recover from it back to your on-premise server. Learn how to migrate from an on-premise Oracle Database 12c to a pluggable Oracle Database 12c (PDB) in the Oracle Cloud. Then move a PDB in which Developers have completed their work in the Oracle Cloud back on-premise and into production
Packet Tracer 6.2 new features.
Original PPT file available on https://www.netacad.com/documents/300006/233106968/Packet+Tracer+6.2+New+Features.pptx/2c7a445c-bc47-44e4-a648-45141426d1a2?version=1.1
Cisco Spark and Tropo and the Programmable WebCisco DevNet
Learn how Cisco Spark and Tropo collaboration features can be easily combined with hundreds of cloud APIs to build sophisticated, flexible workflows via a new breed of programmable web solutions from 'Integration Platform as a Service (iPaaS)' partners like Built.io, Zapier and IFTTT. This session covers multiple real-world Cisco+iPaaS use-cases, and includes a hands-on walk-through demonstrating how to build a Spark+Tropo sample application using Built.io.
Watch the BRK-DEV2004 replay from the Cisco Live On-Demand Library at: https://www.ciscolive.com/online/connect/sessionDetail.ww?SESSION_ID=92557&backBtn=true
Check out more and register for Cisco DevNet: http://ow.ly/jCNV3030OfS
Meer data, applicaties, apparaten en gebruikers drijven veel organisatie naar de cloud. Cloud computing met haar ingebakken elasticiteit kan bedrijven immers helpen om op die uitdagingen in te spelen. De vraag is echter:
- Hoe komt een organisatie van haar legacy-omgeving naar de private cloud?
- Hoe creëert dit een shift in focus van beheer naar innovatie?
Leer in deze sessie de praktische handvatten van een private cloud implementatie: van standaardisatie, via consolidatie en virtualisatie naar het volledig automatiseren van IT. Want een private cloud heeft enorme kostenvoordelen, maar deze voordelen behaal je alleen als je verregaand standaardiseert en beheersmatig automatiseert.
First Step in Media-over-IP Network Design: What Should You Do?Koji Oyama
One of the current biggest issues in the design and development of the SMPTE ST-2110-based broadcasting facilities is the shortage of Media-over-IP (MoIP) network design engineers who understand both broadcasting and network communications. This is the topic that has been discussed for several years, and I have been working to train engineers over the past years through my experience of the MoIP network design, the situation is getting worse and more serious as the number of the facility developments increases.
This presentation can help the target audience, broadcast engineers, who are studying or to study MoIP network technology. When trying to build an actual ST-2110-based network, the first question would be how we design a specific IP network. Unlike peer-to-peer SDI network where we can focus on the physical connection, the data on the MoIP network can be transmitted with inbounded multiple streams in an Ethernet optical cable, and multicast routing settings are required in its network switches. In other words, not only physical design but also logical design becomes more important. The more complicated the system becomes, the more complicated the logical configuration becomes. The network architecture design and its IP addressing could be a key to success of the reliable and scalable network. These technique and idea would be similar as the ones in software engineering, which kind of knowledge and skill set has never been needed by broadcast engineers before.
If the SDN controller manages the configuration of its network switches in the near future, it may be possible to build a system without knowing specifically how to implement the logic network design. However, once the network occurs in trouble, engineers who don’t have the network design skill would be at a loss, there should be a risk that we would not be able to analyze to take workarounds. For this reason, I believe it is necessary to study the fundamental skill of such appropriate MoIP network design.
At the previous NAB2022 and IBC2022 IPShowcase, I introduced the essential terminologies for configuring network switches that network engineers should know (VLAN, VRF, Multicast routing, IGMP, PIM, OSPF, LAG/LACP etc.), and how to design and verify the logical network. In addition, I shared some information about the actual issues I have faced so far.
In this presentation, after summarizing the previous two talks, I will focus on the ‘design’ that engineers should think a little more, such as network architecture, network switch selection, physical connection design, and logical connection design including IP address assignment. I would also like to explain some more tips on how to do the design. In addition, I would like to talk about things to be careful about in the design, and things to think about in the future, such as safety design to prevent unexpected failures and errors.