Network Failover
Network failure is potentially devastating in today’s era of technology-driven businesses. With so much network reliance, failures, or even interruptions can cost enterprises dearly in money, reputation, and time. To effectively anticipate, avoid, and address this issue, businesses need to understand the:
Understanding how network failures happen is the first step in avoiding and addressing them. Some of the most common causes include:
Unforeseen circumstances, such as natural disasters, power outages, and network-wide disruptions, can temporarily or indefinitely disrupt networks. As such, businesses must implement measures that will enable them to remain running during such events. Data centers, redundant network devices & systems, and regular testing of system functionality will help businesses avoid shutdowns and address them quickly when they do happen.
Congestion and overload can severely affect network performance. In most cases, the issues are caused by the misconfiguration of routers or parameters that govern traffic flow. Relieving these issues requires a thorough evaluation of the system and its parameters. Installing load balancers will evenly distribute traffic across multiple devices and reduce the strain on individual components.
The misconfiguration of network components is one of the most common causes of network failure. This includes improper setup of routing tables, incorrect parameter settings, and device configuration errors. To ensure the proper functioning of a network, system administrators must be able to identify and troubleshoot any configuration changes or network issues that arise.
Hackers and malicious actors can easily exploit security vulnerabilities, leading to a loss of confidential information, data corruption, and other financial losses. Businesses must implement security measures such as firewalls, regular virus scans, and authentication processes to protect their networks.
Software errors or badly configured systems, including hardware compatibility issues and configuration conflicts, can impede network functions. Regular updates of software and hardware help minimize this risk. Additionally, rigorous testing of system functionality should be conducted to identify and resolve any potential issues.
Bugs in the firmware can lead to sudden network failure. Regular firmware updates help prevent the introduction of bugs. Businesses should also test new firmware versions before they are implemented.
Conflicts between network topologies can also lead to network failure. This can include IP address conflicts, incorrect routing, and improper cabling. Proper cabling and continual monitoring of networks is essential to ensure conflicts do not arise.
Hardware failures are a significant concern as well, as a defective or broken device can cause system-wide malfunctions. To reduce the risk of hardware failure, businesses must regularly replace obsolete equipment and test all devices before implementation.
Firewalls are essential for protecting networks from unauthorized access and malicious actors, both at the hardware and software level. However, they can also fail due to improper implementation, incorrectly configured software, and a lack of security patches. Deploying updated versions of the software as it becomes available and regularly performing security scans helps mitigate this risk.
Discontinuities in power supplies, cables, routers, and other network equipment can also cause network failure. This is best mitigated with regular inspection and replacement of defective equipment.
Power supplies are essential for the operation of most network systems, and interruptions in power have a proportionate impact on networks. Businesses must ensure that their power supplies are correctly configured and functioning properly. Installing surge protectors is one way to prevent network interruption or failure from power surges caused by shorts or electrical storms.
To reduce the risk of network failure, businesses must proactively monitor and troubleshoot their systems. Cost-effective solutions such as load balancers, failover solutions, and parameter monitoring can help prevent network downtime. Additionally, enterprises can rely on some of the best practices for reducing the risk of network failure, which include:
Periodic testing is essential for ensuring network stability. These tests must evaluate the functionality of the system, detect any issues, and identify misconfigurations, and should be conducted on a regular basis.
Solutions should not be determined when a network issue happens, but in advance. Businesses must be prepared to respond to potential issues quickly and efficiently. To ensure this, system administrators should be trained to anticipate and troubleshoot any potential issues that may arise.
Monitoring performance allows businesses to identify any potential issues before they result in network outages. Network management systems can be used to provide insight into system operations and track the performance of different devices and routers.
One of the most important aspects of network security is patch management. Regularly applying security patches to devices and systems can help protect networks from malicious actors and protect data from potential breaches. Additionally, businesses must regularly scan for potential vulnerabilities and apply appropriate measures to protect their systems.
Inseego offers cost-effective, end-to-end solutions designed to detect, troubleshoot, and prevent network outages, as well as recovery plans for rapid disaster recovery. These offerings help mitigate the risk of network failures by focusing on five key areas of effective network management, as outlined below.
1. Automated network monitoring & diagnostics
Inseego’s network monitoring solutions offer real-time visibility and diagnostics into network performance, ensuring the root causes of issues are quickly identified and fixed. These solutions offer proactive performance monitoring of the entire network, alerting administrators of any problems to aid in the creation of recovery plans for rapid disaster recovery.
2. Optimized bandwidth utilization
By optimizing the usage of network bandwidth and in-depth performance analytics, Inseego's network hardware can ensure ideal network speeds and performance at all times.
3. Comprehensive network security
Inseego offers comprehensive network security products designed to protect all network components from malicious attacks. This includes intrusion detection systems, firewalls, VPNs, DDoS protection, and more.
4. Improved network efficiency
Inseego can help improve network efficiency by ensuring processes and traffic are properly routed, reducing latency and improving response time.
5. Infrastructure management
Inseego’s network management software provides a centralized view of the entire network, making it easier to manage and adjust settings quickly and proactively. This includes automatic provisioning, software updates, and more.
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