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At T-Mobile, we pride ourselves in having the best wireless network performance. Please select your market to see 4G LTE network performance data for your area. 1.81 pounds Product Dimensions 7.9 x 7.6 x 7.4 inches Item model number 12000 Is Discontinued By Manufacturer No Style Sense Pattern Monitor Voltage 110120 Volts Item Package Quantity 1 Included Components Sense monitor Batteries Included? No Batteries Required?

We’ve all been there—end users are complaining about slow internet, but you thought you had plenty of bandwidth. Over the years, I’ve come to realize you probably do, in most cases. In fact, throwing additional bandwidth at the issue is often an expensive Band-Aid. What you need is to get to the root of performance problems.

If you want to see what’s using your bandwidth, or simply check the bandwidth of your server, you can benefit from implementing a bandwidth monitoring tool. There are several options on the market, varying from the rudimentary to the more analytical. Some are free, and some come with a price tag. What matters is finding the right fit for your business. My overall favorite? SolarWinds^® Network Bandwidth Analyzer Pack.

This comprehensive package allows users to monitor bandwidth as well as identify, diagnose, and resolve network performance issues with ease via its highly intuitive dashboard. The best part? You can try them both by downloading a 30-day, fully functional free trial.

What Is Network Bandwidth Monitoring?
Why Is Network Bandwidth Monitoring Important?
Finding the Right Bandwidth Monitoring Tool
The Takeaway

What Is Network Bandwidth Monitoring?

To understand network bandwidth monitoring, it’s important to take a few steps back and paint the full picture of bandwidth usage in general. Bandwidth refers to a network’s capacity to transfer data between devices or the internet within a given span of time. Higher bandwidth allows data to be transferred at a faster rate and for more devices to connect at once.

I like to refer to networks as highways and bandwidth as the lanes. The more lanes you have on a highway, the more easily traffic can move. The same thing is true of a network. If too many users are watching videos or downloading files—any type of high-data activity—your network speed will lag. This is why you may often notice a slower connection in public places full of users, with their laptops open and tablets in hand, all trying to use the internet at once.

Bandwidth capacity is typically determined by the connection type. Digital subscriber line (DSL) internet relies on telephone lines and has limited capabilities. Cable internet is faster, but fiber-optic speeds trump them all. The exact amount and type of bandwidth your company needs depend on the size of the business, but it’s safe to assume any operation brimming with laptops, phones, tablets, and other devices should be equipped with substantial bandwidth capacity if they want to provide a fast and efficient experience for all end users.

Why Is Network Bandwidth Monitoring Important?

Typically, it takes a network interruption to alert IT technicians to a problem. At that point, they are forced to be reactive rather than proactive. But if you always have your finger on the pulse of the network, you have a distinct advantage—you can spot and address issues more quickly because you know where to look.

This is where network bandwidth monitoring comes into play. With the right network bandwidth monitoring tool, you can:

• Identify bandwidth needs. While servers can be reconfigured if needed, it’s best to calculate your company’s bandwidth requirements at the start to avoid major overhauls down the line. This means determining the bandwidth needs of your enterprise’s local area network (LAN) or wide area network (WAN). A network usage monitor will allow you to monitor WAN bandwidth and LAN bandwidth, glean a comprehensive understanding of the bandwidth capacity your network requires, and better evaluate when it may be time to upgrade your bandwidth—for example, if your company converts to laptops from PCs or adds a new division of employees. When you’re monitoring network performance on an ongoing basis, you’re better prepared to spot trends indicating a need for greater bandwidth far in advance. Put simply, planning for an upgrade should never take place as the result of a crisis.
• Boost network performance. The solutions to bandwidth complaints are often obvious, once you know where to look. Bandwidth analyzers provide a complete picture of your bandwidth and network health, empowering you to identify the applications using the most bandwidth and how they’re being used, spot bottlenecks at a glance, analyze and monitor traffic patterns, track response time, availability, and uptime of routers, switches, and other SNMP-enabled devices, and drill down into all of these details as needed. This allows you to be proactive about spotting emerging problems and quickly get to the root of a performance issue before end users complain and productivity comes to a grinding halt.
• Save your budget. While it’s sometimes necessary to add bandwidth, it can be an expensive undertaking. Before you put extra spend behind your bandwidth, I always recommend leveraging a bandwidth monitoring tool to gather and communicate both granular and big-picture network usage information. Monitoring allows you to head off issues and troubleshoot slowdowns without the added investment in more bandwidth.
• Enhance security. Hackers are abounding, ready to jump on an opportunity to inject malware into your company’s system and prey on highly sensitive data and information. Monitoring bandwidth usage will enable you to readily identify suspicious activity and hosts by providing a detailed snapshot of potentially malicious traffic flows. Armed with this level of insight, you can stop hackers in their tracks and protect your company from a data breach.

Finding the Right Bandwidth Monitoring Tool

A wide variety of network traffic monitoring tools and bandwidth monitors are on the market. Some are more robust and comprehensive in their service offerings, while others are lean. Some involve a fair amount of spend, and others are free or open-source. Finding the right fit for your business boils down to the level of monitoring you hope to achieve and what your company’s budget (or lack thereof) will allow. Here are my picks for the top 9 tools to monitor bandwidth and network usage:

1. Network Bandwidth Analyzer Pack

I’m a big fan of this bandwidth monitoring software bundle from SolarWinds because of its ability to detect, diagnose, and resolve network performance issues before end users can begin finger-pointing.

Network Bandwidth Analyzer Pack (BAP) combines the power of SolarWinds Network Performance Monitor and NetFlow Traffic Analyzer (which I’ll dive into later), equipping you with the resources needed to monitor bandwidth use by application, protocol, and IP address group. Leverage the platform to view both IPv4 and IPv6 flow records and monitor Cisco NetFlow, Juniper J-Flow, sFlow, Huawei NetStream, and IPFIX flow data, allowing you to easily identify the applications and protocols consuming the most bandwidth.

More than a net meter bandwidth monitor, the toolset is equipped to not only display traffic patterns but also correlate them into a visual, usable format via a web-based interface featuring bold charts and graphs. The interactive and highly intuitive dashboard boasts a drag-and-drop feature, so you can easily connect the dots between varying performance metrics spanning months, days, or even minutes. Drilling down in this way is essential for any team looking to quickly identify service provider issues and applications hogging the bandwidth.

From a security standpoint, BAP will automatically alert you when application traffic suddenly increases, decreases, or disappears completely. High traffic spikes indicate cyberattackers at work, so having access to this type of instant update can help you act fast and stop hackers before they unleash too much damage. Unexpected decreases in traffic, as well as a complete lack of traffic, are evidence of a larger performance problem.

2. NetFlow Traffic Analyzer

NetFlow Traffic Analyzer (NTA) is another solid offering from the team at SolarWinds. This comprehensive platform is slightly less robust than Network Bandwidth Analyzer Pack (of which it’s an integral component) but no less sophisticated.

With NTA, you get all of the bandwidth monitoring, network analysis, and intelligent alerts in Bandwidth Analyzer Pack, minus the in-depth wireless and multi-vendor network monitoring and network performance baselines.

In other words, if you’re looking for an in-depth, single-vendor network architecture bandwidth analyzer, SolarWinds NetFlow Traffic Analyzer is for you. The platform features the visual correlation I love, complete with the drag-and-drop network performance analysis dashboard so you can drill into any network element and analyze traffic patterns over months, days, or minutes. With NetFlow Traffic Analyzer, you can quickly identify bandwidth use by application, protocol, and IP address group to identify where bandwidth is being zapped. This level of analysis, paired with customizable network traffic reports displaying historical data and identifying peak bandwidth usage, empower you to adjust policies for better bandwidth management and avoid spending extra on additional bandwidth.

Beyond these features, if your business regularly uses cloud-based applications, like VoIP or e-commerce systems, the software can also be leveraged to verify prioritized traffic moves smoothly through the network. This is an essential part of CBQoS policy optimization.

3. PRTG Network Monitor

PRTG Network Monitor from Paessler is a comprehensive yet strikingly simple tool for monitoring your entire IT infrastructure. This internet usage monitoring software allows you to measure all the traffic in your network by monitoring the data directly on your routers. PRTG Network Monitor also helps you determine how much bandwidth your devices and applications are using and monitor heavy overloads, so you can quickly and accurately pinpoint bottlenecks. Depending on your network and hardware, you can use different protocols, like SNMP, flow, or packet sniffing, to leverage the tool and determine who or what is using your bandwidth. Once you’ve identified the root of the problem, you can act swiftly, putting new bandwidth usage management policies in place without having to put additional spend behind greater bandwidth.

This all-in-one solution goes beyond bandwidth analysis and monitors SQL, Exchange, and server software as well as all your cloud and virtualization applications, making it an elaborately in-depth service offering. You can even use the tool as a network speed monitor.

The Windows-based PRTG tool comes in two editions: a free version for monitoring up to 100 sensors and a commercial edition for those who need to monitor a greater number of sensors. But depending on the volume of sensors you need to monitor, the software can quickly become a drain on your budget.

4. NetFlow Analyzer

ManageEngine NetFlow Analyzer touts itself as a complete traffic analytics tool, and for good reason. The platform leverages flow technologies, including NetFlow, sFLow, IPFIX, NetStream, J-Flow, and Appflow, to provide real-time visibility into network bandwidth performance. Once you have access to analytics, you can classify applications hogging your network bandwidth and even reconfigure your policies via application-level QoS shaping, helping you regain control over those bandwidth-hungry applications.

With real-time insights and detailed analytics letting you drill down and discover traffic patterns and device performance as well as historical bandwidth reports, you’ll have the information you need for more informed capacity planning. You’ll know when it’s time to grow your bandwidth, and when it’s best to implement a new policy or shut down a specific device.

The security features of this bandwidth monitoring tool are also worth noting. NetFlow Analyzer’s Continuous Stream Mining Engine helps you detect external and internal threats, track network anomalies, and identify zero-day intrusions, so you can jump into action when needed.

5. FREE Real-Time Bandwidth Monitor

While many of the more robust products come with a price tag, there are some great free options for IT technicians looking to capture the basics. SolarWinds Real-Time Bandwidth Monitor is one of those tools. This free bandwidth usage meter allows you to check server bandwidth usage in real-time and monitor multiple interfaces simultaneously.

All bandwidth usage data is displayed visually via graphs to help you perform more critical analysis. You can even leverage the platform to create custom bandwidth thresholds, so you’ll receive an alert as soon as usage is out of bounds.

This tool is free and straightforward to use. Simply enter the IP address of the network device and associated SNMP credentials, then select the interfaces you want to monitor, and a graph will populate with bandwidth usage in real-time—no complicated install processes to worry about here.

However, the tool won’t tell you which application is eating up your bandwidth or exactly how it’s doing so. But if simple bandwidth polling is what you’re after, then you can’t go wrong with Real-Time Bandwidth Monitor.

6. FREE Network Analyzer & Bandwidth Monitoring Bundle

Another high-quality, no-cost bandwidth monitoring option is SolarWinds Network Analyzer & Bandwidth Monitoring Bundle. This free tool combines two popular free network monitoring tools offered by SolarWinds: Real-Time NetFlow Analyzer and Real-Time Bandwidth Monitor (which I already reviewed above).

Leveraging both tools makes it easy to quickly identify the types of network traffic by flow data capture—including NetFlow, J-FLow, and sFlow data—and provides multi-interface monitoring for bandwidth usage in real-time. It offers a bit more detail than some of the other free options out there by allowing you to see traffic by conversation, app, domain, and endpoint.

Equipped with this level of information, you’ll be better prepared to quickly diagnose network problems and avoid bottlenecks. The Network Analyzer & Bandwidth Monitoring Bundle can also record up to 60 minutes of data, a great feature for those looking to review some data trends.

I’m a big fan of this option, especially for those looking to dip their toes into network monitoring. Once you’re comfortable leveraging the data in this free tool, SolarWinds makes it easy to take it to the next level and glean more in-depth traffic analysis and performance statistics by upgrading to Network Bandwidth Analyzer Pack.

7. ntopng

Formerly called ntop, ntopng (“ng” is for “next generation”) is a simple, to-the-point traffic probe that uses libpcap, a tool for packet capture, to report on network traffic and usage. The platform allows users to sort network traffic according to a wide range of criteria, including IP address, port, L7 protocol, autonomous systems, and more. Ntopng displays network traffic and active hosts in real time, so you can stay up to date while producing historical reports to review data and better identify trends. Although this reporting capability isn’t as robust as some of the other products I’ve discussed, it does a fair job and can track data such as application protocols and throughput.

ntopng has a commercial version called ntopng pro with some additional bells and whistles, but the open-source version is good enough to quickly gain insight into traffic behavior. It can also integrate with external monitoring applications such as Nagios for alerting and provide data for monitoring.

8. Cacti

Cacti is mainly an open-source, front-end graphing tool for system data, but it can also handle data collection. The software leverages RRDTool, a data logging and graphing system, so you can collect data from almost any infrastructure element, including load balancers and servers, routers and switching systems, firewalls, and so on, and display it in different graphical formats.

Cacti also supports SNMP polling, which itself covers a wide range of network devices. This feature allows you to monitor bandwidth usage by graphing it on an interface. The simple yet powerful line graphs Cacti produces can show spikes and dips in traffic, but they don’t offer the thorough performance analysis of the graphs and charts featured in many of the paid options listed here. This is a smart, free option for those who want a high-level view of their bandwidth. It can be installed on either Unix or Windows OS.

9. BandwidthD

BandwidthD is a free, starkly simple tool for bandwidth monitoring. While the program hasn’t been updated since 2013, it still maintains a steady stream of network and traffic data by tracking usage of TCP/IP network subnets and building HTML files, complete with graphs to display utilization. When launching the platform, you may find it a little finicky—you’ll need a relatively sound knowledge base for setting up manual configurations. But it’s effective if all you’re looking for is a no-cost, straightforward solution.

BandwidthD runs on most platforms, including Windows. Just remember it requires winpcap or libpcap for Linux and Unix users.

The Takeaway

Regardless of size or budget, all companies should implement bandwidth monitoring. Monitoring your bandwidth will help you boost network performance and identify bandwidth needs, potentially save your business money, and add an extra layer of security to your everyday activities. With the right tool, you will be empowered to quickly identify performance issues and even stop them in their tracks, before they bring end-user productivity to a standstill.

While there are a number of good bandwidth monitoring tools on the market, my favorite is by far SolarWinds Network Bandwidth Analyzer Pack. This robust offering makes it easy to drill down into the data and analyze your applications and bandwidth traffic via a clear, intuitive web-based dashboard. It’s well worth the investment and could save your company from having to invest in additional bandwidth. If you’re still unsure, I recommend downloading a free trial or starting with one of the free tools like Network Analyzer & Bandwidth Monitoring Bundle.

Recommended Reading

Ultimate Guide to Network Monitoring – If you’re looking for comprehensive information on how to monitor and take care of your network, I’ve put together a beginner’s guide followed by more expert-level instructions covering everything you need to know.

Updated: January 1, 2021 Home » Freeware and Software Reviews » Wireless WiFi Optimization & Network

How to test internal LAN network speed? In order to test and troubleshoot networks we need tools that allow us to generate network traffic and analyze the network’s throughput performance. This is true for both wired and wireless networks. In order to properly troubleshoot a wireless (or wired) network we need a way to benchmark its performance, so as modifications are made we can determine whether or not they really make a difference in the network’s performance.

Related Article ➤ 4 Free P2P Intranet Software – Create Home Office File Sharing Network

This is where these LAN benchmarking tools fits in to test network speed between two computers. The concept is you install a new wireless network and it works perfectly. Run these tools and record the benchmark results for later reference. Sometime in the future when either you or others suspect performance has declined then run these tools again and compare the latest results with those you gathered when the network was first installed and working perfectly.

↓ 01 – LAN Speed Test Lite Windows macOS

LAN Speed Test was designed from the ground up to be a simple but powerful tool for measuring file transfer, hard drive, USB Drive, and Local Area Network (LAN) speeds (wired & wireless). First, you pick a folder to test to. This folder can be on a local drive or USB drive, etc. to test the drive speed, or a shared folder on your network to test your network speed.

Next, LAN Speed Test builds a file in memory, then transfers it both ways (without effects of Windows/Mac file caching) while keeping track of the time, and then does the calculations for you. For more advanced users, you can test to LAN Speed Test Server instead of a shared folder to take the slower hard drives out of the process as you are testing from one computer’s RAM to another computer’s RAM. Simple concept and easy to use. You’ll find that LAN Speed Test will quickly become one of your favorite network tools!

• Test the speed of your Local Network by testing to/from network shared folders
• Test the speed of your local drives (USB Drives, hard drives, etc.)
• Compatible with LST Server (v1.5 or later) for real network performance results without hard drive limitations – Even test your WAN (Internet) speed with LST Server
• Ability to choose Network Interface Card for computers with multiple NICs

↓ 02 – HELIOS LanTest Windows macOS

HELIOS LanTest is a very popular network performance and reliability testing solution for Mac and Windows clients. It is very easy to use within seconds and scales from single local disk testing, to testing performance of a network volume, as well as multi-user concurrent client testing against a single server volume.

HELIOS LanTest can be downloaded via HELIOS WebShare at Server: http://webshare.helios.de, User name and password are – tools

↓ 03 – TamoSoft Throughput Test Windows macOS

TamoSoft Throughput Test is a utility for testing the performance of a wireless or wired network. This utility continuously sends TCP and UDP data streams across your network and computes important metrics, such as upstream and downstream throughput values, packet loss, and round-trip time, and displays the results in both numeric and chart formats. TamoSoft Throughput Test supports both IPv4 and IPv6 connections and allows the user to evaluate network performance depending on the Quality of Service (QoS) settings.

Microsoft Windows: Windows 7, Windows 8, Windows 8.1, Windows 10, Windows Server 2008, Windows Server 2008 R2, Windows Server 2012, Windows Server 2012 R2. Mac OS X: Yosemite (10.10), El Capitan (10.11), Sierra (10.12), High Sierra (10.13), Mojave (10.14). Android (client only): Android 4.1 and newer. iOS (client only): iOS 8.0 and newer.

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↓ 04 – LANBench Windows

LANBench is a simple LAN / TCP Network benchmark utility. It is designed for testing network performance between two computers and is based on Winsock 2.2. LANBench tests TCP performance only and is designed for minimal CPU usage so that the pure performance of your network could be fully tested.

• Multiple simultaneous connections – up to 20 (for load simulation)
• Low CPU overhead for pure network performance test
• Multithreaded utilizing Windows I/O completion port
• Configurable packet size, test duration and transfer mode

↓ 05 – NetIO-GUI Windows

NetIO-GUI is a Windows frontend for the multiplatform commandline utility ‘netio’. It measures ICMP respond times and network transfer rates for different packet sizes and protocols. All results are stored in a SQLite database file and can easily be compared. NetIO-GUI is preferred to rate the quality of peer-to-peer connections like VPN.

↓ 06 – NetStress Windows

NetStress allows you to generate network traffic and analyze the network’s throughput performance. The results of that comparison with previous benchmark will indicate whether or not there really is a problem and dictate which steps to take next (if any). Regardless of your technical expertise or how expensive your diagnostic tools, if you are modifying a wireless network or making decisions to modify it and you are not testing throughput then you risk wasting time and resources going down the wrong path.

• Single instance of the application (i.e. each instance can be used as server or server plus client)
• Supports both TCP and UDP data transfers
• Supports multiple data streams
• Variable TCP / UDP segment size
• Rate of packet transmission (Packets Per Second)
• Variable Maximum Transmission Unit (MTU)
• Uplink and downlink modes
• Auto node discovery
• Choice of display units (KBps, Kbps, MBps, Mbps)
• Support for multiple network adapters

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↓ 07 – iperf macOS Linux

iperf is a tool for active measurements of the maximum achievable bandwidth on IP networks. It supports tuning of various parameters related to timing, protocols, and buffers. For each test it reports the bandwidth, loss, and other parameters. The current version, sometimes referred to as iperf3, is a redesign of an original version developed at NLANR/DAST.

iperf3 is a new implementation from scratch, with the goal of a smaller, simpler code base, and a library version of the functionality that can be used in other programs. iperf3 also a number of features found in other tools such as nuttcp and netperf, but were missing from the original iperf. These include, for example, a zero-copy mode and optional JSON output. Note that iperf3 is not backwards compatible with the original iperf.

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↓ 08 – PassMark Advanced Network Test Free Trial Windows

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The network benchmark test will work with any type of TCP/IP connection. Including ethernet, dial up modems, ADSL, cable modems, local area networks (LAN), Wide area networks (WAN) and wireless networking (WiFi). The software has been optimized to use a minimum amount of CPU time, allowing even high speed gigabit ethernet connections to be benchmarked. Users have the ability to change the following test parameters.

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• The IP address of the machine acting as the server and the port number used for the test to help with firewall issues.
• The size of the data block used for each send request. It is also possible to select variable sized blocks to measure performance deltas as block size increases or decreases.
• The duration of the test.
• The protocol, either TCP or UDP. The TCP protocol is when data integrity is important (Errors are corrected using data re-transmission). UDP is used with applications that are tolerant to data loss such as video streaming.