Here s a list of the best network data usage meters related tools

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Here’s a list of the best network data usage meters & related tools:

1. SolarWinds Network Bandwidth Analyzer Pack EDITOR’S CHOICE One of the best bandwidth monitoring software with a performance analysis dashboard, alerts, reports, and more. Download 30-day free trial. 2. ManageEngine NetFlow Analyzer Bandwidth monitoring tool with traffic shaping policies, reporting, threshold-based alerts, and more. 3. Paessler PRTG Network Monitor Our top pick out of current data usage meters. Network management software with bandwidth monitoring, threshold-based alerts, reporting, out-of-the-box monitoring templates, and more. 4. WhatsUp Gold Network monitoring tool with network traffic monitoring with alerts, reports, and more. 5. Wireshark Open-source network analyzer with deep packet inspection for monitoring network traffic. 6. Colasoft Capsa Network analyzer with traffic monitoring that supports over 1800 different protocols, alerts, graphs, and more. 7. NetWorx Network bandwidth monitoring utility with a speed meter, alerts system, usage reports, and more.

The Best Data Usage Meters for Monitoring Network Bandwidth

Let’s take a look at seven of the best data usage meters and how to get thebest out of these network tools.As part of our comparison, we’ve looked out for software with NetFlow TopTalkers features. This helps you find which users/network devices areconsuming the most bandwidth so you can eliminate bandwidth hogging andoptimize your bandwidth usage. We’ve also included tools with features thatmake usage monitoring easier, such as graphs, alerts, and reports.SolarWinds Network Bandwidth Analyzer Pack is a set of network bandwidthmonitoring tools that lets you monitor traffic patterns throughout yournetwork with a web-based user interface. With SolarWinds Network BandwidthAnalyzer you can identify how much data is being used by what applications.Through the dashboard, you can view graphs and charts on the Top Applicationsand Endpoints being used within your network.The software comes with an alerts system that lets you set trigger conditionsfor when you receive notifications. For example, you can configure the tool tonotify you if application traffic increases unexpectedly. Alerts help you tonotice traffic surges when they occur.The reporting feature allows you to create and schedule bandwidth reports. Thereports allow you to take a retrospective look at network performance and comepacked with visualizations so you can easily see which applicationscontributed to that traffic.SolarWinds offer a 30-day free trial.Key features: * Performance analysis dashboard * Alerts system * NetPath path visualization * Customizable reports * Real-time bandwidth monitor

How can I monitor bandwidth usage per device for free?

All network devices have memory and gather statistics on performance. This ishow network bandwidth monitors get their source data. So, it is possible tolog into the management console on each device and access that informationyourself. However, that strategy would be time consuming. A short-termstrategy for getting bandwidth monitoring for free is to access one of thetools in our list that offers a free trial.

How do I monitor network bandwidth usage?

The best way to monitor bandwidth usage is to get a specialist monitoringtool, such as those reviewed in this guide. When you check on the suitabilityof your bandwidth provision, you need to sample data throughput capacity overtime. You will particularly be looking for the peaks in demand, when theyoccur, and how long they last. This information will help you to decidewhether to buy extra infrastructure, introduce traffic shaping, or rescheduletasks that are not time sensitive.

How do I find our which users on my LAN are hogging the bandwidth?

The task of tracing activity to specific users is a cross-modular activitythat will involve different software packages and lots of note taking andcross-referencing. This is because you will have to use one tool to identifytraffic per IP address, another to query the DHCP or ARP server to find outwhich endpoint is using that address at any one time and then check in youraccess rights management system to see who is using that device. These threeelements need to be recorded over time. It is easier to find an integratedtool or bundle that will do all of that for you, such as the SolarWindsBandwidth Analyzer Pack.What is Bandwidth? – Definition and DetailsBandwidth is measured as the amount of data that can be transferred from onepoint to another within a network in a specific amount of time. Typically,bandwidth is expressed as a bitrate and measured in bits per second (bps).The term bandwidth refers to the transmission capacity of a connection and isan important factor when determining the quality and speed of a network or theinternet connection.There are several different ways to measure bandwidth. Some measurements areused to calculate current data flow, while others measure maximum flow,typical flow, or what is considered to be good flow.Bandwidth is also a key concept in several other technological fields. Insignal processing, for example, it is used to describe the difference betweenthe upper and lower frequencies in a transmission such as a radio signal andis typically measured in hertz (Hz).Bandwidth can be compared to water flowing through a pipe. Bandwidth would bethe rate at which water (data) flows through the pipe (connection) undervarious circumstances. Instead of bits per second, we might measure gallonsper minute. The amount of water that possibly can flow through the piperepresents the maximum bandwidth, while the amount of water that is currentlyflowing through the pipe represents the current bandwidth. Bandwidth was originally measured in bits per second and expressed as bps.However, today’s networks typically have much higher bandwidth than can becomfortably expressed by using such small units. Now it is common to seehigher numbers that are denoted with metric prefixes, such as Mbps, (megabitsper second), Gbps (gigabits per second), or Tbps (terabits per second). K = kilo = 1,000 bits M = mega = 1,000 kilo = 1,000,000 bits G = giga = 1,000 mega = 1,000,000,000 bits T = tera = 1,000 giga = 1,000,000,000,000 bitsAfter terabit, there are petabit, exabit, zettabit, and yottabit, eachrepresenting an additional power of 10.Bandwidth can also be expressed as bytes per second. This is commonly denotedwith a capital B. For example, 10 megabytes per second would be expressed as10 MB/s or 10 MBps.One byte is eight bits.Thus, 10 MB/s = 80 Mb/s.The same metric prefixes can be used with bytes as with bits. Thus, 1 TB/s isone terabyte per second.

Are you getting the full bandwidth? Find out with PRTG Network Monitor!

Are your service providers giving you the full bandwidth? Is your bandwidthstable? Are there any bandwidth hogs? Find out by using the professionalBandwidth Monitoring Tool PRTG. * Unlimited version of PRTG for 30 days * After 30 days, PRTG reverts to a free version * Or, you can upgrade to a paid license anytime Measuring bandwidth is typically done using software or firmware, and anetwork interface. Common bandwidth measuring utilities include the Test TCPutility (TTCP) and PRTG Network Monitor, for example.TTCP measures throughput on an IP network between two hosts. One host is thereceiver, the other the sender. Each side displays the number of bytestransmitted and the time for each packet to complete the one-way trip.PRTG provides a graphical interface and charts for measuring bandwidth trendsover longer periods of time, and can measure traffic between differentinterfaces. Typically, to measure bandwidth, the total amount of traffic sent and receivedacross a specific period of time is counted. The resulting measurements arethen expressed as a per-second number.Another method of measuring bandwidth is to transfer a file, or several files,of known size and count how long the transfer takes. The result is convertedinto bps by dividing the size of the files by the amount of time the transferrequired. Most internet speed tests use this method to calculate theconnection speed of a user’s computer to the internet.While there is no way to measure total available bandwidth, there are manyways to define measured bandwidth, depending on the need.Theoretical maximum – The highest transmission rate under ideal circumstances.The theoretical maximum transfer rate cannot be achieved in actualinstallations. Typically, the theoretical maximum is only used for comparisonas a way of determining how well a connection is functioning compared to itstheoretical maximum potential.Effective bandwidth – The highest reliable transmission rate. Always lowerthan the theoretical maximum. Sometimes considered the best usable bandwidth.Necessary for understanding the amount of traffic a connection can support.Throughput – The average rate of successful data transfer; useful forunderstanding the typical or usual speed of a connection. Throughput is thesize of the transfer divided by the time it takes for the transfer tocomplete. Measured in bytes per second, throughput can be compared to theeffective bandwidth and the theoretical maximum as a way of determining howwell the connection is performing.Goodput – Measures the amount of useful data that is transferred, excludingundesirable data such as packet retransmissions or protocol overhead. Goodputis calculated by dividing the size of the transferred file by the amount oftime the transfer took.Total transfer method – Counts all traffic across a period of set time,typically a month. This is most useful for billing based on how much bandwidthis used.95th percentile method – To avoid having bandwidth measurements skewed byspikes in usage, carriers often use the 95th percentile method. The idea is tocontinuously measure bandwidth usage over time, and then remove the top 5percent of use. This is useful for billing based on how much bandwidth is‘normally’ used in a set period.In real world networks, bandwidth varies over time depending on use andnetwork connections. As a result, a single bandwidth measurement says verylittle about actual bandwidth usage. A series of measurements can be moreuseful when determining averages or trends.

Bandwidth vs. speed vs. throughput

There are many ways to think about the flow of data in a network. The speed ofa network is defined as the bit rate of the circuit, determined by thephysical signal speed of the medium.Bandwidth is how much of the physical circuit’s capacity can be used totransmit data and is determined by how much of the network capacity isavailable based on the connection. While a Gigabit Ethernet network connectionwould allow for 1 Gbps, the bandwidth available to a computer connected by aFast Ethernet card would only be 100 Mbps.Throughput is the rate of successful transmission, while bandwidth is acalculation of the amount of data that passes the network interface,regardless of whether the data results in a successful transmission. As such,throughput is always lower than bandwidth. There are several reasons to measure bandwidth. Low usable bandwidth comparedto the theoretical maximum bandwidth may be indicative of network problems,particularly if there are widely different usable bandwidths from differentparts of a network that are designed to operate the same.Additionally, measuring bandwidth is necessary to ensure that any paidconnections are living up to their promise. Home users may run an onlinebandwidth test such as the DSLReports speed test to see just how much of that“up to 40 Mb/s” connection their internet service provider (ISP) charges themfor they actually get to use. Corporate connections might be better served bymeasuring throughput between offices connected by a carrier-leased lineconnection.

Bandwidth maximums

Some types of connections have a maximum defined bandwidth. Actual bandwidthdepends on many factors including environment, cabling, and usage, and isusually less than the theoretical maximum.Wired bandwidth standards for connectionsDialup Modem | 56 kbps —|— T1 (Digital leased landline connection) | 1.544 Mbps E1 (Digital leased landline connection European) | 2.048 Mbps Asynchronous DSL | 4 Mbps Ethernet | 10 Mbps T3 (Digital leased landline connection) | 44.763 Mbps VDSL | 55 Mbps VDSL 2 | 100 Mbps Fast Ethernet | 100 Mbps OC3 (Ficer optic leased landline connection) | 155 Mbps OC 12 (Ficer optic leased landline connection) | 622 Mbps Gigabit Ethernet | 1000 Mbps or 1 Gbps VSDL 2 Vplus | 300 Mbps 10 Gigabit Ethernet | 10 Gbps 100 Gigabit Ethernet | 100 Gbps Wireless network standard maximum download speedsWireless network connection speeds vary widely based on the conditions of theconnection. The numbers below are the maximum bandwidth speeds according tothe standard or specification.802.11b | 11 Mbps —|— 802.11g | 54 Mbps 802.11n | 600 Mbps 802.11ac | 600 Mbps 3G – HSPA | 7.2 Mbps 3G – HSPA+ | 21 Mbps 3G – DC-HSPA+ | 42 Mbps 4G – LTE | 100 Mbps 5G (proposed) | 1 Gpbs (or higher) Bandwidth is most often purchased from telecommunications companies. Mostconsumer bandwidth is sold as “up to” meaning that the customer may get up to40 MB/s, but not always have that speed while using the connection. Speeds maybe higher or lower at different times of the day or under differentcircumstances. Corporate bandwidth is also typically purchased fromtelecommunications companies. However, many corporate agreements come withcontractual performance measures that must be met, including a minimum usablebandwidth, minimum uptime, and other metrics.Additionally, bandwidth metering may be used to charge for specific usagerather than a full connection. For example, a website owner may pay thewebsite host only for the amount of bandwidth used by that specific websiteover a period of time, such as a monthly billing period.

PRTG Network Monitor

With its data gathering and graphing interface, PRTG can also helptroubleshoot bandwidth problems that are not related to design. For example,by measuring bandwidth usage over time, it may be determined that certainusers or applications are sometimes using higher amounts of bandwidth andcausing network congestion and slowing network responsiveness and internetspeed for other users.Find out more about bandwidth monitoring with PRTG >

Are you getting the full bandwidth? Find out with PRTG Network Monitor!

Are your service providers giving you the full bandwidth? Is your bandwidthstable? Are there any bandwidth hogs? Find out by using the professionalBandwidth Monitoring Tool PRTG. * Unlimited version of PRTG for 30 days * After 30 days, PRTG reverts to a free version * Or, you can upgrade to a paid license anytimeBest Bandwidth Monitoring Software & Tools for Tracking Network Traffic UsageToday we’re going to List & Review the Best Bandwidth Monitoring Tools,Software and Utilities on the Market to ensure your keeping track of Internetand Network usage in your business and networks.Being able to track your internet usage is a critical task that network and ITprofessionals need to be able to perform.If you are aware of the available bandwidth within your organization then youare better prepared to allocate the necessary resources ahead of time.Some of the better tools in our list will help monitor user behavior and usageand will be a valuable troubleshooting tool, while others will be better forindividual and single computer usage.How you need to ingest the data from your monitoring is another considerationto factor into your selection.Some of the options that we will look at today offer export features topopular formats such as XLS and PDF, while others only offer graphs andgraphics in a GUI window.Your requirements will be unique so you will need to find the right solutionfor your requirements.We have put together a list of the best bandwidth monitoring tools.Some of these products are still actively maintained and updated, while othersare no longer under active development.Each one of the applications in our list will be able to help track andmonitor the bandwidth usage of the local computer that it is installed on, oron the network in general.Not all of these apps have been created equal though, so you will need to readthrough our descriptions for each one to find out which of the options willwork best for you.Let’s dive in and take a look!

1. Solarwinds Real-Time Bandwidth Monitor

SolarWinds is a very popular company with IT professionals and for goodreason.They produce all kinds of software tools that include monitoring and alertingsoftware, as well as inventory and discovery applications.The Solarwinds Real-Time Bandwidth Monitor gives you all tools that you needto get the information that you need to keep an eye on the current usage andresource availability on your network.There are great features such as the graphical interface with charts andconnection data.Two of the best things about Solarwinds Bandwidth-Monitor are that it is veryeasy to setup and the second important feature is that it is free to use!If you are working on a tight budget, then this is definitely a worthwhileoption for you to consider.It allows you to monitor multiple interfaces and paths so that you can trackthe connections that are important to your organization.Visualization is very important if you need to demonstrate key statistics toyour management teams, which can help when it comes time to negotiate yourinternet budget.If this application sounds like it could be useful then why not try out thefree download from here.It is free to use and easy to install, so you have nothing to lose. Pricing: 100% Free! Download: The application is 100% free to download and use.

2. SolarWinds Network Bandwidth Analyzer

From our experience, you can’t really go wrong with a SolarWinds product!Another one of their excellent monitoring tools includes the Network BandwidthAnalyzer.This tool is several levels above the free version mentioned above andincludes additional features and functionality.Key features include: * Detect, diagnose, and resolve network performance issues * Track response time, availability, and uptime of routers, switches, and other SNMP-enabled devices * Monitor and analyze network bandwidth performance and traffic patterns * Find bandwidth hogs on a network and see which applications are using the most bandwidth * View visual hop-by-hop analysis for devices along the delivery path with NetPath * Enteprise command center * Advanced alerting capabilities and more!These are only a few of their key features but read the full feature list hereto see how powerful this tool really is. Pricing: Free 30 Day Trial! Download:

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