Everything is new because OpenTextTM Core Cloud Network Observability, a new SaaS solution that provides end-to-end visibility between public cloud and off-cloud networks, is brand new!
November 2024: What’s New in OpenText Core Cloud Network Observability CE 24.4
As organizations continue to expand their reliance on cloud and hybrid environments, maintaining seamless connectivity and optimal network performance has become increasingly challenging. The need for comprehensive, real-time network observability has never been more critical. This is where OpenText Core Cloud Network Observability comes in—a new solution designed to deliver unparalleled insights into cloud and hybrid network connections to support proactive troubleshooting and network optimization.
What is Network Observability?
Network observability refers to the ability to gain deep, actionable insights into the state and performance of a network. Unlike traditional monitoring, which merely identifies when and where issues occur, network observability reveals why these problems happen, enabling faster diagnosis and resolution. This proactive approach helps ensure a resilient and efficient network infrastructure. Check out our What is Network Observability page to learn more.
Key benefits of OpenText Core Cloud Network Observability
Close the observability gap with end-to-end connectivity monitoring
Gain real-time visibility into network connections within public cloud environments (starting with AWS for CE 24.4) and between cloud and off-cloud infrastructures. Continuous monitoring and dynamic topology mapping empower IT teams to maintain efficient, uninterrupted network operations.
Accelerate issue detection with proactive performance insights
Identify performance bottlenecks before they impact users with built-in synthetic testing and cloud flow monitoring. This proactive approach enables faster root-cause analysis and reduces mean time to resolution (MTTR).
Make informed decisions with comprehensive traffic analysis
Optimize network performance and manage costs effectively by understanding cloud data transfer patterns. Detailed traffic insights support better resource allocation and capacity planning.
Pinpoint issues quickly with enhanced troubleshooting capabilities
Benefit from application-aware network mapping and real-time analysis to determine whether performance issues stem from the application, the network, or external connections. AND, if you happen to own our brand new application performance monitoring solution, OpenTextTM Core Application Observability, you can launch right into cloud network observability if you spot the issue there first.
Simplify complex environments with seamless hybrid integration
Extend your network visibility across cloud and off-cloud networks from a single pane of glass by integrating OpenText Core Cloud Network Observability with existing tools like OpenTextTM Network Operations Management and OpenTextTM Network Node Manager. This comprehensive observability makes managing hybrid environments easier and more efficient.
Why Choose OpenText Core Cloud Network Observability?
As network infrastructures grow in complexity, organizations need a robust, scalable solution to manage and optimize network performance. OpenText Core Cloud Network Observability empowers IT teams to:
- Operate more efficiently with unified monitoring that reduces time spend correlating issues between cloud and off-cloud networks.
- Gain visibility into cloud traffic for insights into cost and performance issues associated with unnecessary data transfer
- Break down silos between network, application, and cloud operations teams with a unified approach and single source of truth.
By leveraging OpenText Core Cloud Network Observability, organizations can strengthen their network operations, boost efficiency, and support business continuity in an ever-evolving IT landscape. For more information, see our blog Expanding Network Observability: Introducing OpenText Core Cloud Network Observability, head over to the product documentation, or see it in action in this self-paced demo.