We at Paessler are running heterogeneous network infrastructure powered by different physical servers such as Dell PowerEdge, HPE ProLiant, Fujitsu Primergy and IBM xSystem. Some of them are running as standalone servers and some are part of the cluster. One of the things I very much appreciate about managing my servers is the possibility to do it remotely, without even going to the server room and getting frozen, especially during the winter season. The remote management (hardware configuration, firmware upgrade or OS upgrade) can easily be done via management platforms/controllers/ports: iDRAC, iLO, iRMC and IMM – depending on the vendor.
Wow. 2020 was quite a hell ride for all of us! And I don't just mean us at Paessler, but really all of us. The whole planet experienced a rather exceptional year!
So, what happened to the photovoltaic system on our company roof? In short: It is still there. In a little longer: We couldn't be happier that we as a company are reducing our footprint on this earth by generating a significant portion of the electricity we use. We have been tracking our photovoltaic system, its output and our specific consumption for over a year now, and would like to give you a brief overview of our many insights.
I regularly tell you here about the changes in the PRTG versions and the new sensors and features the software provides.
Frequent visitors, (that’s all of you, right?) may have noticed we’ve recently become very interested in technologies outside of traditional IT-focused monitoring. That’s not to say that we don’t still feel the love for all things “LAN, WAN, server & SAN”. But as most of us at Paessler are hardcore, self-confessed, uber-geeks, we just can’t resist the lure of shiny new tech to play with. That’s why many of our recent blog posts have an IoT or Industrial IoT focus. It’s not just blog posts either: our last few PRTG releases have included new sensor types, specifically for this exciting field – MQTT, Modbus and OPC-UA sensors are now all available in PRTG, and we’ve written extensively about enabling technologies that can help with the sometimes difficult task of merging the IT and OT worlds.
PRTG Network Monitor release 20.4.64 is our 10th scheduled version this year, and it includes a lot of great stuff! PRTG 20.4.64 comes with three new sensor types, including the first one for Veeam, major improvements for our already delivered IoT sensors, some fixes and a bunch of other improvements. In more detail, you can be excited about our first native Veeam sensor that monitors the status of backup jobs, the Microsoft Azure Subscription Cost sensor, and the Dell EMC Unity Enclosure Health v2 sensor. So let's have a closer look into the new features.
At the recommendation of a client in 2010, Clair Global’s network architect Ben Harris downloaded Paessler’s free 100-sensor version of its PRTG Network Monitor software to monitor RealTime media networks events to provide peace of mind to their clients that the AV was running properly during events. When he moved into a larger networking role within the company, he said that Paessler’s PRTG Network Monitor was the clear choice from the price point and feature perspectives. “The interface is straightforward; the usability and price are great; and the flexibility to deploy custom plugins sold it for us. We haven’t looked back since.” When they could not find a company to help them deploy an enterprise-level temporary audio distribution network for the 2010 Vancouver Olympics, Clair Global decided to build it themselves and selected PRTG to monitor it. This kickstarted a new revenue stream for the company and a new department that specializes in rapidly deployable, portable and high-density IT networks to support concert tours, music festivals and sporting events – all monitored by PRTG. Now, several years later, Clair Global has significantly expanded its use of PRTG to benefit its clients.
MikroTik provides routing, switching and wireless equipment for all possible uses – from the customer location up to high-end data centers. Back in 1997, MikroTik developed a RouterOS software system that provides extensive stability, controls, and flexibility for all kinds of data interfaces and routing. Five years later, MikroTik created their own hardware called RouterBoard which today in combination with RouterOS supports all the necessary features for an ISP - routing, firewall, bandwidth management, wireless access point, backhaul link, hotspot gateway, VPN server, and more. Their products are not only used by ISPs, but also by individual users and companies for building data network infrastructures all around the world.
With our recent focus on industrial IT, we've previously written about how PRTG and INSYS icom smart edge gateways can be used together. Now we want to go more into detail about a potential use case for getting data from the factory floor to PRTG using an INSYS icom gateway and Node-RED. But first, it makes sense to take a look at the INSYS part of the equation, which is what I'm going to do in this article. In a future post, I will take a look at how to get data into PRTG, so make sure you subscribe to our blog!
It is increasingly obvious that online meetings on Zoom, Teams, et al. will be a permanent part of our business lives in the future – remote work is becoming a daily habit for many of us. We usually hold meetings and video calls to convey a message, and we can improve the effectiveness of this message with a good Zoom appearance. Well, you can as long as you are not one of those receiving/consuming parties in video conferences who turn off the camera most of the time...
The production environment continues to prepare for the digital, more efficient future and in the sector this is very often paraphrased with the initially cryptic, but ultimately meaningful terms greenfield and brownfield. While a greenfield industrial plant is built "on a greenfield site", completely new and according to specific ideas, brownfield installations are those in which an existing plant is modernized. This article is part 2/2 of a short series on the topic of retrofitting. Here you can read part 1/2.
It was at the end of October when we released our PRTG Network Monitor Release 20.4.63 as a stable release. Some of you are probably already working with the latest version, all others can't wait to click on "update" after this article. :) But first things first.
In my last article I introduced the new OPC UA sensors in PRTG Network Monitor. Today I would like to introduce the new Modbus TCP Custom sensor, which has also been available since version 20.4.63. Compared to others, Modbus TCP is one of the most established protocols to enable communication between industrial machines and devices.
The digitization or digitalization of established industrial processes can be called by numerous fancy names, the most common one being "Industry 4.0". This name is so appealing to many due to its idea of continuity. The first industrial revolution was mechanization by means of water and steam power. The second one was characterized by mass production using assembly lines and electrical energy. And the third one (digital revolution) was the use of electronics and IT to automate production. It is often true that the fancier the name, the more half-baked or too theoretical the idea is. This is really not the case with Industry 4.0. But if you want to get even basic information on this topic for the first time from the Internet, you have to dig deep into the dense buzzword jungle to find reliable details. Hence the idea for this article. My suggestion: You read this article, and I spare you buzzword terms like Fourth Industrial Revolution, IIoT, M2M, or whatever. Deal?
Since version 20.4.63, PRTG Network Monitor includes 2 new sensors, the OPC UA Server Status sensor and the OPC UA Custom sensor. These two sensors allow you to monitor OPC UA servers as well as individual values of up to 5 nodes.