As reliable network performance becomes more important and security threats target organizations of all sizes, there is a compelling case for small businesses to deploy diagnostic network tools. Network monitoring can optimize IT infrastructure performance with less effort, enable faster troubleshooting, and help prevent network outages. All things considered, a strategic investment in the right network monitoring tool can actually save time and costs for SMBs.
Mobile web-based access to dashboards and maps also enables anytime, anywhere network monitoring. Modern network monitoring software ensures you always have access to the critical network metrics you need.
Ensure that the IT infrastructure will accommodate future growth by monitoring bandwidth levels. Network monitoring can show you trends over time, revealing where additional devices or hardware updates are needed. Having metrics to show upper management can help with acquiring needed budget.
The ability to proactively plan for future bandwidth capacity is crucial. As more businesses are touched by digital transformation, SMBs will have to keep up with cultural shifts such as the Internet of Things (IoT) and bring your own device (BYOD) in order to stay competitive. Having the IT infrastructure to support this growth will be key.
Network monitoring software is an essential tool to help IT maintain a healthy network and ensure smooth operations for your SMB. When you rely on a powerful, affordable, easy-to-use solution, you set your business up for top-notch network performance today and continued growth tomorrow.
Network performance monitor is a cloud-based hybrid network monitoring solution that helps you monitor network performance between various points in your network infrastructure. It also helps you monitor network connectivity to service and application endpoints and monitor the performance of Azure ExpressRoute. Network performance monitor detects network issues like traffic blackholing, routing errors, and issues that conventional network monitoring methods aren't able to detect. The solution generates alerts and notifies you when a threshold is breached for a network link. It also ensures timely detection of network performance issues and localizes the source of the problem to a particular network segment or device. Learn more about network performance monitor.
Facilities Facilities or physical plants provide space for networking hardware, servers and data centers. It also includes the network cabling in office buildings to connect components of an IT infrastructure together.
A traditional IT infrastructure is made up of the usual hardware and software components: facilities, data centers, servers, networking hardware desktop computers and enterprise application software solutions. Typically, this infrastructure setup requires more power, physical space and money than other infrastructure types. A traditional infrastructure is typically installed on-premises for company-only, or private, use.
IT infrastructure setups vary by business needs and goals, but some goals are universal for every enterprise. The optimal infrastructure will provide a business high-performance storage, a low-latency network, security, an optimized wide area network (WAN), virtualization and zero downtime.
I recently read an article on TechRadar about how IT operators will no longer have to focus on infrastructure when monitoring business networks. The gist of it is that due to the continuous movement of business infrastructure into the cloud and away from bare metal servers on premises, IT will no longer need or care to monitor the internal business infrastructure. The problem with this viewpoint is that it is a bit of a pipe dream.
As the article on TechRadar suggests, containers are of course changing the way that businesses run applications by moving these processes into the cloud and off of any local machine. The article continues that the future of monitoring will focus entirely on application monitoring. This would mean that monitoring the internal business infrastructure is not necessary.
Business infrastructures will always, at least in the foreseeable future, need to be monitored. All that aside, the future of tech is a bright one. One look at this human mech warrior from Intel below proves it.
Infrastructure monitoring tracks the availability, performance, and resource utilization of hosts, containers, and other backend components. Engineers typically install software, called an agent, on their hosts. Hosts may include physical servers, also called bare metal servers, or virtual machines which use the resources of a physical server. The agent collects infrastructure metrics from hosts and sends the data to a monitoring platform for analysis and visualization. Infrastructure monitoring provides visibility into the health of backend components that run your applications, allowing you to ensure that critical services are available for users and that they work as expected.
Traditionally, organizations managed their own on-premise physical servers, which had fixed IP addresses. In the cloud, engineers can spin up or replace servers on demand. The adoption of cloud infrastructure has fundamentally changed how infrastructure monitoring works. In such dynamic environments, engineers often need to monitor ephemeral infrastructure components rather than static, individual hosts. Engineers also need insight into meaningful subsets of their infrastructure, such as hosts in a specific region.
Typically, engineers use an infrastructure monitoring platform to assess if their backend components are causing a user-facing problem, such as a 5xx error code. To investigate why, they can then dig into the following resource metrics from their backend:
Infrastructure monitoring is commonly used to prevent incidents from escalating into outages. An infrastructure monitoring tool can show which hosts, containers, or other backend components failed or experienced latency during an incident. When an outage does occur, engineers can determine which hosts or containers were responsible. This helps teams resolve support tickets and address customer-facing issues.
Infrastructure monitoring can also be used to proactively lower costs. For example, if some of your servers are overprovisioned or sitting idle, you can decommission them and run the associated workloads on fewer hosts. You can also balance your infrastructure usage by directing requests from underprovisioned hosts to overprovisioned ones.
Organizations can predict future resource consumption by reviewing historical infrastructure metrics. For example, if certain hosts were underprovisioned during a recent product launch, you can configure more CPU and memory in the future during similar events to reduce strain on key systems and reduce the likelihood of revenue-draining outages.
Some infrastructure monitoring tools provide pre-built or customizable dashboards that give you an overview of the health and performance of your hosts and containers. You can use these visualizations to identify overloaded hosts that require more resources or idle hosts that can be migrated to smaller instance types or consolidated to save on compute costs.
A unified infrastructure monitoring platform gives you the ability to correlate infrastructure metrics with related traces, logs, processes, and events. This provides the full context of a request and allows developers to quickly diagnose and solve problems.
IT infrastructure monitoring (ITIM), is a network monitoring solution process that collects and displays data metrics gathered from various backend sources. These sources might include servers, databases, routers, virtual machines, network devices, software, and data centers.
Collecting this data will provide insights into the performance and status of devices in an infrastructure. This data is then used to analyze and resolve potential performance issues that might hinder critical business operations. A business that leverages infrastructure monitoring can mitigate connectivity issues caused by the network. The goal is to resolve the connection issues before they escalate into a full-blown outage.
Several components work together to achieve infrastructure monitoring solutions. At the lowest level you have individual, specialized software called an agent. Multiple agents build up into clusters, and those clusters work together to achieve network issue resolution.
When many secondary device agents are set up, this creates a cluster. Each device in the cluster integrates with a network of clusters and reports back to a monitoring service. This allows an organization to cast an analytical net that references specific devices within specific clusters on the network.
Some examples of network events include sudden spikes in user traffic and even planned downtowns for maintenance. This allows the organization to better understand what is happening with devices in their network. An organization can effectively control and navigate network events using monitoring solutions.
It is important to define features so that we may distinguish infrastructure monitoring tools from other IT monitoring tools. Here are some common features shared by IT infrastructure monitoring tools:
Infrastructure Diagnoses: Infrastructure monitoring is used to diagnose the overall health of your network infrastructure. Using the methods mentioned earlier, engineers can scan a network for potential issues and resolve those issues before they become a bigger problem, such as an outage.
Infrastructure Assessment: Along with collecting data and troubleshooting issues in a network, infrastructure monitoring can also be used to assess the future needs of the organization. Before a big update will be released, an organization can identify current usage and storage metrics to decide if more devices or services may be necessary to install.
ITIM presents a handful of benefits to the organization and the end-user. The top five benefits of infrastructure monitoring are analytic reporting, saved time, lowered expenses, increased customer satisfaction, and the ability to plan for the future. 2b1af7f3a8