Automated network mapping software allows you to discover your entire network and create comprehensive, detailed network topology maps. You can also edit node details of map objects and connect network devices manually.
Use network maps to help meet compliance requirements for PCI, SOX, HIPAA, and FIPS 140-2. With NTM, you can directly address PCI compliance and other regulations that require maintenance of an up-to-date network diagram. SolarWinds network topology software is also FIPS 140-2 compliant.
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Perhaps the issue you are having is that your SNMP credentials are working in NPM partially. For example maybe it is able to poll some OIDs but not the OIDs related to the NPM data which is used for Orion Map calculation. -object-IDs-OIDs-does-the-Orion-Platform-poll-for-network-topology-information?language=en_US
You could try in the Solarwinds SNMP viewer or other SNMP tool to poll these OIDs related to mapping with both SNMPv2 and SNMPv3. If you find a difference it maybe an issue with the access given to the SNMPv3 user account on the device.
I am using the new network topology mapper to map out 80 or so switches connected to a core 6509 and from there they are daisy chained ect.....in the NTM and in a Visio export the icons are so small that when i print them on the plotter they are unreadable. Even when I change the print preferences to use smaller dimensions for the drawing it takes up whole page but is just extremely small.......would anyone have any suggestions???
Leveraging a unique multi-level discovery technique, Network Topology Mapper automatically discovers your LAN or WAN and produces comprehensive, easy-to-view network diagrams that integrate OSI Layer 2 and Layer 3 topology data.
Finally, you can put down your whiteboard markers and relax while SolarWinds Network Topology Mapper (NTM) does the network mapping for you. Leveraging a unique multi-layer discovery technique, Network Topology Mapper automatically discovers your LAN or WAN and produces comprehensive, easy-to-view network diagrams that integrate OSI Layer 2 and Layer 3 topology data (including switch-toswitch, switch-to-node, and switch-to-router port connections). With two mouse clicks, this data can be exported into Microsoft Office Visio and easily shared with your colleagues.
Automatically discover network topology using ICMP, SNMP, WMI, CDP, VMware, Microsoft Hyper-V, and more.
Automated network mapping allows you to discover your entire network and create comprehensive, detailed network topology maps. You can also edit node details of map objects and connect network devices manually.
Build many maps without having to re-scan beforehand.
Capable of building loads of useful network diagrams without having to rescan using network topology mapping software. Save valuable resources, bandwidth, and time.
Automatically scan for new devices, changes and unknown systems to ensure an accurate, up-to-date record of your network.
Keep your network up to date by automatically detecting new devices and changes to network topology with scheduled network scanning in the network topology tool.
Use network maps to help meet compliance requirements for PCI, SOX, HIPAA and FIPS 140-2.
Directly address PCI compliance and other regulations that require maintenance of an up-to-date network diagram. SolarWinds network topology software is also FIPS 140-2 compliant.
Manage the size and placement of your icons and surround text.
Advanced icon alignment and arbitrary text placement designed to let you resize and move icons and the text around them using the network topology tool.
A logical map is more abstract than the physical network map. It shows the type of network topology (bus, ring, etc.), and how the data flows between the physical objects in your network. This includes IP addresses, firewalls, routers, subnets and subnet masks, traffic flow, voice gateways, and other segments of the network.
The automatic scanning function is useful if you have an already established network needing to be properly mapped. It automatically detects any changes in your network topology and updates the maps accordingly. You can choose whether you want it to determine your network using SNMP, ICMP, WMI, CDP, or another method of discovery. You can also try NTM free for up to 14 days.
Intermapper allows you to create custom maps quickly and effectively, automatically mapping all the IP-enabled devices in your network. You can customize your maps with colors and different background options, as well as color-coded statuses to show you how the network is performing. It provides you with real-time text or email alerts if there are any issues, helping prevent your users from being affected. Intermapper works for Mac, Linux, and Windows, and offers a 30-day trial, a free version, and an enterprise version.
There are a number of good network map tools on the market, but in my view, some are better equipped to handle the task than others. Some are tools you can use to help you map the network yourself. Others look at your network and map it automatically. Automatic network mappers result in fewer mistakes and missed devices, and are designed to adapt when a new server or node is added to the network. I recommend trying Network Performance Monitor as an all-in-one network map and performance tool for any size environment.
Networks are the backbone of both modern and legacy architecture alike, and it's the spanning of those two generations of systems that a Network Architect has to obsess over. With that in mind, here are five diagramming tools that can help map your network topology and share your vision for evolving your architecture.
The software then generates very detailed and comprehensive network topology maps, diagrams and presentations from the gather information and has the ability to build multiple types of network maps from a Single scan.
Star topologies are easy to set up because each device only needs a single cable to connect to the central hub, so this topology requires fewer cables than others. Star topologies can also simplify the process of troubleshooting network performance problems. Since every network device connects to a single switch, this topology is easy to manage. You can easily add or remove nodes from the central switch without taking the entire network offline. Additionally, if a cable fails, only one device will be affected, offering these topologies protection against failures.
Bus topology is the easiest and cheapest type of topology to install. With a one-to-one ratio of devices to drop lines, this topology requires less cable than other topologies, reducing the installation time and expenses. Adding new devices to the network is also straightforward. Just connect the new device to the central cable with a new drop line.
Ideal for high-value, small to mid-sized networks, mesh topology consists of interconnected nodes, making it a fast and secure choice. In a full mesh network topology, each node is connected to all the other nodes via direct link, creating point-to-point connections. In a partial mesh topology, most nodes are interconnected, but some nodes only connect with a few others via point-to-point links.
As its name implies, ring topology consists of a ring of devices connected to two adjacent devices via point-to-point links, with the first and last nodes linking the loop. You can conveniently monitor your devices and configure the network through one node. Ring topologies are half-duplex, so data can only be sent in one direction at a time, and data will pass through each network node on its way to its target device.
Named for its tree-like shape, the tree network topology has a hierarchical layout with at least three different levels. The tree topology consists of the central hub, secondary hubs, and devices. Data will flow from the central hub to a secondary hub to a device or from a device to a secondary hub to the central hub. The central hub serves as the sole mutual connection between the secondary hubs and their devices, creating parent-child dependencies.
This complicated network topology is difficult to manage and only becomes increasingly difficult to administer as more nodes are added. Consequently, this topology is better suited for networking experts.
When considering which topology to use, you may be wondering What is the most common network topology? While other topologies were used more commonly in the past, these days the star topology is the most common.
Regardless of which network topology your organization uses, monitoring, managing, and mapping your topology is essential. Manually creating a network topology diagram can be a time-consuming and complicated process. I recommend using a tool for this.
With Microsoft Visio, Lucidchart, LibreOffice Draw, and more on the market, there are plenty of tools for network monitoring, mapping, and managing to choose from. However, my favorite topology mapping tool is the comprehensive SolarWinds Network Topology Mapper.
With automated device discovery and mapping SolarWinds Network Topology Mapper (NTM) is a useful tool designed to make creating comprehensive network topology maps simple. You can easily manage, share, encrypt, and print maps with this intuitive network diagram software. 2351a5e196
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