Network Speed Monitoring Software Free 19: A Comprehensive List of the Best Free and Paid Solutions

Packet arrival is key to high-performance service within a network. When people use programs or software, they want their requests to be heard and responded to in a timely fashion. Packets lost in transit lead to poor or slow network performance, and low throughput indicates problems like packet loss. Using throughput to measure network speed is good for troubleshooting because it can root out the exact cause of a slow network and alert administrators to problems specifically in regard to packet loss.

network speed monitoring software free 19

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By far the most important thing to do when optimizing throughput is to minimize network latency. Latency slows down throughput which, in turn, lowers throughput and delivers poor network performance to users. Generally speaking, you want to minimize lag by monitoring endpoint usage and addressing network bottlenecks.

Having said this, bandwidth is still important for network speed. Internet speed, for instance, is allocated bandwidth or the amount of data capable of being sent to you per second. For instance, 5 Mbps means you can receive up to five megabits of data per second.

In short, throughput and bandwidth are two different processes with two different goals both contributing to the speed of a network. Data throughput meaning is a practical measure of actual packet delivery while bandwidth is a theoretical measure of packet delivery. Throughput is often a more important indicator of network performance than bandwidth because it will tell you if your network is literally slow or just hypothetically slow.

Network Performance Monitor (NPM) from SolarWinds is a tried-and-true, multi-vendor network monitoring system specially designed for scalability. NPM offers a wide range of tools for monitoring and analyzing network performance, advanced alerting, reporting, and problem diagnosis.

SolarWinds NetFlow Traffic Analyzer (NTA) boosts your NetFlow monitoring capabilities by giving you a clear view of your bandwidth availability and what devices are taking up too much of it. Once you know what applications are using up a disproportionate amount of bandwidth in your network, you can fix the problem fast.

In terms of packet loss, this software has a number of functions to help you rein it in. Packet Sniffer Sensor, Cisco IP SLA Sensor, and QoS One Way Sensor all let you see how well packets are traveling within your network. For example, the Packet Sniffer Sensor allows you to view past and present data in terms of dials and pie charts. In addition, a comprehensive alert system lets you know when warnings or unusual metrics have been detected in your network.

The Open Hardware Monitor supports most hardware monitoring chips found on todays mainboards. The CPU temperature can be monitored by reading the core temperature sensors of Intel and AMD processors. The sensors of ATI and Nvidia video cards as well as SMART hard drive temperature can be displayed. The monitored values can be displayed in the main window, in a customizable desktop gadget, or in the system tray. The free Open Hardware Monitor software runs on 32-bit and 64-bit Microsoft Windows XP / Vista / 7 / 8 / 8.1 / 10 and any x86 based Linux operating systems without installation.

The netstat is a command-line tool for monitoring incoming and outgoing network packets statistics as well as interface statistics. It is a very useful tool for every system administrator to monitor network performance and troubleshoot network-related problems.

IPTraf is an open-source console-based real-time network (IP LAN) monitoring utility for Linux. It collects a variety of information such as IP traffic monitor that passes over the network, including TCP flag information, ICMP details, TCP/UDP traffic breakdowns, TCP connection packet, and byte counts.

iftop is another terminal-based free open source system monitoring utility that displays a frequently updated list of network bandwidth utilization (source and destination hosts) that passing through the network interface on your system.

This is why network monitoring is mission critical for organizations. Visibility into network performance is key to ensuring that network engineering teams can be more proactive and identify problems before those issues cause outages.

Leveraging monitoring solutions to capture metrics and configure alerting policies when thresholds are crossed for important indicators such as CPU load, memory utilization, port exhaustion, bandwidth utilization, power supply health, temperature sensors, etc. is key to establishing a sound network monitoring plan.

Here at Grafana Labs, we want to help facilitate the monitoring of those important network devices and provide a few simple ways to get started. Our SNMP mixin is a great baseline for monitoring network devices. A mixin is a configurable, reusable, and extensible package which bundles together Grafana dashboards and Prometheus rules and alerts.

If you are using Prometheus, you can leverage the snmp_exporter , which the SNMP mixin mentioned above is a part of. This is another method that can be used for effectively monitoring network devices and visualizing the collected data in Grafana dashboards. This provides more flexibility and allows you to import MIBs so that you can monitor any metric on any network device as you wish.

Thus, monitoring your web page speed is essential. Conducting a website speed test can shed some light on the performance of your website, any weak points that need improvement, and help optimize your website.

Pingdom is a website performance monitoring platform that offers a free website speed test. Users get access to important metrics like page load time, page size, and performance grade.

The Dotcom-Monitor website speed testing tool offers browser-based load time testing from 21 test servers. It lets you select any of the five available browsers and configure the connection speed for network throttling.

The free plan allows for up to 10,000 monitoring checks/month. Premium plans offer up to 10 million monitoring checks/month and multiple user accounts. The platform follows a usage-based pricing model.

PASW Statistics 18 for WindowsOperating system: Microsoft Windows XP (32-bit) or Vista and 7 (32-bit/64-bit)Processor: Intel or AMD x86 processor running at 1GHz or higherMemory: 1GB RAM or more recommendedMinimum free drive space: 800MB***DVD driveSuper VGA (800x600) or higher-resolution monitorFor connecting with PASW Statistics Server, a network adapter running the TCP/IP network protocolWeb browser: Internet Explorer 6 or 7PASW Statistics 18 for MacOperating system: Apple Mac 10.5.x. and 10.6.x.Processor: Intel processorMemory: 1GB RAM or more recommendedMinimum free drive space: 800MB***DVD driveSuper VGA (800x600) or higher-resolution monitorWeb browser: SafariTJavaT Standard Edition 5.0 (J2SE 5.0)PASW Statistics 18 for LinuxOperating system: Any Linux OS that meets the following requirements**:32 bit OnlyKernel 2.6.26.25 or higherGlibc 2.8 or higherLibstdc++6XFree86-4.7Processor: Intel or AMD x86 processor running at 1GHz or higherMemory: 1GB RAM or more recommendedMinimum free drive space: 800MB***DVD driveSuper VGA (800x600) or a higher-resolution monitorWeb browser: Mozilla Firefox** Note: PASW Statistics 18 was tested on and is supported only on Red Hat Enterprise Linux 5 Desktop and Debian 4.0*** Installing Help in all languages requires 1.1-2.3 GB free drive space

SPSS Statistics 17 for WindowsOperating System: Windows XP (32-bit versions) or Vista (32-bit or 64-bit versions) Hardware : Intel or AMD x86 processor running at 1GHz or higher Memory: 512MB RAM; 1GB recommended Minimum free drive space: 450MB CD-ROM drive Super VGA (800x600) or a higher-resolution monitor For connecting with SPSS Statistics Base Server, a network adapter running the TCP/IP network protocol Software: Internet Explorer 6 or above SPSS Statistics 17 for Mac OS X Operating system: Apple Mac OS X 10.4.x or 10.5x Processor: Intel processor Memory: 512MB RAM; 1GB recommended Minimum free drive space: 800MB CD-ROM drive Super VGA (800x600) or a higher-resolution monitor Software: Safari 1.3.1, Mozilla Firefox 1.5 or higher, or Netscape 7.2 or higher Java Standard Edition 5.0 (J2SE 5.0) SPSS Statistics 17.0 for LinuxOperating system*: Any Linux OS that meets the following requirements: Kernel 2.6.9.42 or higher glibc 2.3.4 or higher XFree86-4.0 or higher libstdc++5 Hardware Processor: Intel or AMD x86 processor running at 1 GHz or higher Memory: 512MB RAM; 1GB recommended 450 MB of available hard-disk space CD-ROM drive Super VGA (800x600) or a higher-resolution monitor Software: Konqueror 3.4.1 or higher, or Firefox 1.0.6 or higher, or Netscape 7.2 or higher *Note: SPSS Statistics 17.0 was tested on and is supported only on Red Hat Enterprise Linux 4 Desktop and Debian 4.0

SPSS for Windows Version 14Operating system: Microsoft Windows XP, 2000, and Me are the preferred platforms. Microsoft Windows 98 is also supported. Processor: Intel Pentium-compatible processor Memory: 256MB RAM minimum Minimum free drive space: 300MB SVGA monitor Web browser: Internet Explorer 6.0SPSS for Windows Version 13Operating System: Microsoft Windows Me, Microsoft Windows 98, Microsoft Windows 2000, and Microsoft Windows XP.Processor: Pentium or Pentium-class processor.Memory: 128MB RAM or more.Minimum free drive space: 220MB hard drive space.A CD-ROM drive.A graphics adapter with 800 x 600 resolution (SVGA) or higher.For connecting with an SPSS Server, a network adapter running the TCP/IP network protocol. 2ff7e9595c