Network Design Templates Network Design Templates. Templates form the basis for network design and engineering, particularly for offices and data centers. The complete template includes the. PPDIOO Lifecycle Approach to Network Design and Implementation. PPDIOO stands for Prepare, Plan, Design, Implement, Operate, and Optimize. PPDIOO is a Cisco methodology that defines the continuous life-cycle of services required for a network.
Every implementation is different
I'd advise taking a look at some of the templates that MS Project has, and then tailor it to your specific needs.
Here is an example of what they have online: http://office.microsoft.com/en-us/templates/TC010184471033.aspx Hope this helps!
Share Flag
Infrastructure design plan
Implementation Plan for the National Environmental Information Exchange Network Internet x y Partner A x y Partner B Partner D x Partner C Agency Network Node Data Exchange Template Agency System z x y z y y x x z x Approved by the State/EPA Information Management Workgroup on February 12, 2002. Implementation Project Plan Structure. The implementation project plan is a grid made up of columns and rows. Each column represents a different area of information and each row lists the tasks or section header. An example of a project implementation plan may have the. This Implementation Plan template is designed to help IT Architects, Developers, System Administrators, and Project Manager when implementing a new IT System. As this template is easy to modify, you can use it when implementing software, hardware, and networks.
Visio is a good bit of software you can also use to design a layout of the network setup (the roles each device/server will provide) allowing you to see a physical layout of the network.
Just a quick run through that may help you. Licensing factors: Are you going to use a terminal server? (licensing is very different compaired to local licensing on PC's) What software is going to be used & does everyone need the applications. Network Growth: Obsouly how many users are going to be on the network (whilst providing room to grow). Backing up & redundancy: What backup stratagy are you going to use, how many drives will you need and at what rotation will you be using. i.e. mod/wed, tue,wed, fri, monthly. Users PC's: What applications are they going to use, this can influence what hardware is needed i.e. graphic development PC's need better spec's to someone who just need to use office applications. Devices: Will the device you have/or are going to buy provide the services you need, and will they support your network for future growth. i.e. Do you need VPN capabilities, are there enough ethernet ports on the switch to support the current PC's along with future growth. Server: How much space do you need currently How fast is the company's data growing how are you setting up the server(s) drives. i.e. RAID setup RAM, CPU, motherboard compatabilities. Network Speed: If you have a WAN you will want a high speed connection especially if you are using a VPN (the overhead may not be alot but it will still steal bandwidth for you) What type of connection are you or do you have (ADSL, SDSL, ISDN etc..) and what speed is it at. You will also need to take into account things such as will you have telecomuters, or will (if you have a WAN) the head office be hosting a database or anyother application that users will need to access (if so you will want a high speed Synchronous line or at least an ADSL connection with both high upload and download speed)
Share Flag
Hello, we are a system integrator firm in Turkey.
If still you need consultancy and / or installation we can help you.
You can find our facilities below: Telcoset provides end-to-end solutions on Information and Communication Technologies. provides its customers intelligent, fast and value-added solutions and services for their business requirements with its partners nation-wide. Vendor Relations: Microsoft Gold Certified Partner Microsoft Voice Ready Partner Advanced Infrastructure Solutions Competency Network Infrastructure Solutions Competency Security Solutions Competency Information Worker Solutions Competency Cisco Systems Premier Certified Partner SMB Select Partner (Cisco SMB Select Partner of the Year 2004 in EMEA) Advance Unified Communication Specialist Partner HP Prefered Partner Vmware Enterprise Partner Audiocodes Partner Computer Associates Certified Partner APC Elitte Partner AMPnetconnect Authorised Partner. AMPTRAC Certified Installer (First partner in Eastern Europe) VmWare Enterprise partner. Our Solutions: 1) Structural Cabling 2)IP Network & Security 3)Enterprise system solutions 4)Datacenter Solutions With kind regards, Deniz Yavuzyilmaz Account Manager
Share Flag
All networks, regardless of their size, have similar foundational requirements. Embark on a network design project identifying current and future business requirements to ensure you plan the right technology as your business grows. One of the most critical choices is deciding if your business should consolidate voice services over the data network to minimize the cost of the network. When you highlight these types of issues and discuss requirements clearly at the start of the project, you benefit both financial and technical planning.
DesignStep 1
Uncover your small business's requirements for performance, capacity and network ports. Meet with co-workers from each area of your company to understand their application and potential expansion requirements. Local area networks support a single location, like an office or building, using switches that provide ports to connect servers, storage hardware, computers, phones and printers to the network. The LAN itself consists of cabling, switches and routers that provide connectivity to the Internet as well as additional locations, if required, and routing between LAN segments.
Step 2
Plan and design the cable layout. Cabling plays an important part of network design as it provides the physical communication path for your manufacturing company. Consult with a cable design professional experienced in manufacturing areas to minimize the potential for equipment interference. Consulting with a cable company provides peace of mind that you've planned the correct type of cable and included fire code specifications.
Step 3
Create a spreadsheet to gather key details needed for the design. Information collected must include the number of users per location, their roles, LAN port speeds and node types, such as printers and any hardware that will be connected to the network. Other network requirements include programmable logic controllers for robotics or other automated systems requiring network connectivity. Configure the spreadsheet by listing physical locations across the top columns and creating row categories for users. List the total number of users per site and classification type, such as office, engineering and manufacturing. Another classification section should address the computer room, identifying each server and the applications hosted, as well as operating systems and network card speeds. Also document the computer room’s environmental services for air conditioning, electrical capacity and controls to monitor humidity and temperature levels.
Step 4
Analyze network performance in its current state. Use protocol analyzers and network management software and perform the analysis at various times of a business day, such as at the start of shifts, after lunch and during periods that typically result in increased traffic, such as running month-end financial processes or moving complex engineering data over the network. This activity provides information associated with LAN and WAN performance, protocols used and areas in the existing topology that create performance bottlenecks along with application characteristics. The protocol analyzer may be able to identify protocols running by default on some nodes that create overhead and can be turned off.
Step 5
Collect your existing physical and logical network diagrams to support the current state design. Identify routers, switches, LAN uplink bandwidth, network equipment cabinets, power and cooling information, and current standards for the fiber and the copper cable plant. For the logical design, obtain current information for the IP address design for the LAN including virtual LAN information and connectivity requirements, if more than one building is present. Document protocols used in the network, including routing protocols used for connectivity between buildings.
Step 6
Determine the number of LAN switch ports required currently and projected over the next 24 months for each location. Even though this is a small manufacturing company, the building may include one or more telecommunication closets called intermediate distribution frames. The telecommunication closets provide copper network cables to each employee’s desk if the distance from the computer room exceeds cable limits. The closet also serves as the installation location for LAN access layer switches that provide the connection ports for wireless access points, computers, printers and other network hardware your company may use. The access layer switches will connect to the computer room switches using multi-mode fiber optics.
Step 7
Select access layer switches based on your projected growth requirements for network ports and future expectations for wireless network service, voice and video integration and quality of service. This approach ensures that network hardware meets the needs of the company and supports the addition of new features without hindering performance. Plan enough strands of fiber between the access layer and the computer room switches for growth as well as ensuring that the fiber uplinks and switch ports will support bandwidth requirements.
![]() Step 8
Select switches and routers, introducing standards for each layer of the network. For the access layer, consider standardizing on a chassis based switch for areas of the building where you need to support future expansion and added ports or features. Use smaller switches in other areas. When you create a standard for network hardware, you reduce variations and ease support as staff members are familiar with the equipment. Network switches and routers must support immediate port requirements and have the ability to expand when new features are introduced. Determine if the manufacturing portion of the network will require switches that tolerate environments that produce higher temperatures or conditions that will require a hardened industrial-based switch.
Step 9
Select computer room switches. Evaluate dual switches designed to support fiber connections from each access layer telecommunication closet. Plan the port density and speeds to support the servers in a combined distribution and core layer. A dual switch configuration in the computer room provides redundancy and scalability when you use chassis-based switches. As an alternate approach, consider a single enterprise-class switch to reduce cost and support future progression to a dual switch design. Present both options to the management team, identifying the benefits, risks and costs of each option.
Step 10
Develop an IP address design that meets growth requirements and selects a routing protocol for the network to support fast convergence with ease of management. If you're designing to support multiple buildings, select a network transport service and bandwidth based on your performance requirements and growth projections, including planned new applications. When making WAN transport selections to connect buildings, consider the flexibility of the service that will support bandwidth changes to meet future requirements.
Step 1![]()
Plan a phased approach to implementation. Introduce the computer room core switches first, providing connectivity to the servers. Depending on the size of the company and business process needs, it might be possible to immediately follow this activity on the same day by implementing the new access layer switches. Schedule wide area connectivity following the introduction of the core switches in the computer room, selecting a time that does not conflict with the access layer installation. Coordinate wide area connectivity with the telecommunication vendor providing this portion of the network service.
Step 2
Inform all employees of the scope of implementation for each phase, along with dates and times. Implementation of new equipment generally means systems and data will not be available at the time of the change. This gives employees the opportunity to plan their work around the resulting downtime.
Step 3
Pre-configure network equipment and test it prior to implementation.
Step 4
Schedule the personnel and support needed from among IT department staff members and any vendor staff that must support the implementation.
TipIt Network Implementation Plan Templates
ReferencesAbout the Author
Michael Lawrence holds a B.S. in computer information systems and an M.B.A. in strategic management. He has held technical and leadership roles in the field of information technology for more than 20 years. Lawrence has certifications in project management, enterprise architecture and Six Sigma.
Photo CreditsNetwork Implementation Project Plan
More ArticlesComments are closed.
|
Details
AuthorWrite something about yourself. No need to be fancy, just an overview. ArchivesCategories |