Achieve greater operational value with intelligent IP network analysis
Routing intelligence
Real-time routing intelligence across domains provides immediate awareness of network behavior, driving quicker action and reducing the chance of service interruptions.
Optimization at scale
AI-enhanced traffic engineering with advanced path computation element (PCE) analysis optimizes segment routing (SR), SRv6, and Resource Reservation Protocol-Traffic Engineering (RSVP-TE) policies. Gain faster, more efficient routing decisions that improve service quality and reduce operational effort.
Predictive planning
Real-time, historical, and future what-if analysis of routing and IP traffic behavior delivers continual awareness of network conditions, supporting capacity planning, congestion management, and resilient service performance with fewer disruptions.
IP digital twin
Route Optimization and Analysis creates an IP digital twin that delivers an accurate real-time and historical model of the routing environment, revealing true end-to-end paths, service dependencies, and predicted outcomes.
With DVR-style replay and multi-layer correlations across IP and optical domains, operators gain actionable insights to confidently plan changes and troubleshoot intermittent routing issues in minutes instead of hours.
This routing intelligence becomes a strategic foundation for proactive operations and optimizes networks for autonomy.
Benefits of predictive routing operations
Route Optimization and Analysis modernizes IP operations by unifying routing intelligence, analytics, and optimization in a single platform, reducing operational risk and accelerating decision-making.
Granular what-if simulation control uncovers the impact of routing changes, such as modified link costs or hidden black holes, delivering measurable efficiency gains.
The result is trusted, high-value network data that powers effective automation and enables operations teams and AI agents to act.
Improve operational efficiency
Accelerate troubleshooting and decision-making with real-time route intelligence, multi-layer visualization, and digital video replay (DVR)–driven analysis.
Lower network risk
Prevent outages with predictive modeling, cross-layer correlation, detailed capacity management, and safe validation of routing, network, and service changes before deployment.
Reduce complexity and total cost of ownership
Consolidate siloed tools and replace manual analysis with AI-powered optimization and automated operational workflows.
Proven digital twin results
Built for large-scale, multi-layer networks, Route Optimization and Analysis processes massive routing datasets with consistent speed, accuracy, and resilience.
50M
Routing entries
analyzed hourly
10x
Faster routing
fault isolation
90%
Fewer outages using
DVR predictions
What Route Optimization and Analysis can help you achieve
Elevates routing operations beyond reactive troubleshooting. With an AI-driven IP digital twin, DVR simulations, and multilayer intelligence, Route Optimization and Analysis enables proactive planning and prevention and smarter optimization to help steadily move your operations toward autonomous networks.
Unified routing intelligence
Gain accurate real-time and historical routing insight with DVR playback and unified IP/Optical mapping that overlays end-to-end traffic flows across networks.
Predictive network planning
Improve performance, resilience, and risk management through digital twin simulations, capacity forecasting, and optimized traffic steering (SR, SRv6, and TE policies).
Automated operations
Accelerate fault resolution and strengthen operational continuity. Reduce manual effort with proactive alerts for IP / multi-protocol label switching (MPLS) disruptions.
AI-ready decision intelligence
Enable AI agents and closed-loop processes to act on unified routing intelligence, and drive faster RCA, dynamic policy updates, and cross-domain optimization.
BGP peering analysis
Monitor internet disruptions that impact cloud services. Optimize Border Gateway Protocol (BGP) peering relationships to prioritize traffic flows and improve efficiency.
Advanced routing protocol support
Enable complex network architectures, including seamless MPLS and Flex Algo to proactively monitor and assure premium SLA services.
Network change validation
Reduce risk in network migrations and updates by validating designs with digital twin routing simulations and IP traffic modeling derived from NetFlow/IPFIX metrics.
Recent insights
From what-if to why not
Discover how real-time digital twins provide continual visibility and predictive intelligence to improve customer experience and accelerate operational agility.
Elevated network performance with real-time route optimization
Modernize IP network operations by unifying routing insight, multi-layer correlation, and advanced PCE capabilities into a single intelligent platform.
Efficiency through MPLS network automation
Enhance MPLS operations by unifying topology discovery, path computation, and service activation to accelerate delivery and minimize risk.
Data sheet
Learn how Route Optimization and Analysis uses an IP digital twin, DVR-style replay, multilayer correlation, and advanced path computation to deliver value to your operations.
Frequently asked questions
What is an IP digital twin and why does Route Optimization and Analysis use it?
The Route Optimization and Analysis IP digital twin mirrors the live routing state of your network, enabling accurate analysis, DVR validation, and predictive modeling in a replicated network environment. The digital twin strengthens Route Optimization and Analysis broader routing intelligence by supporting safe planning and design simulations to improve performance and reduce outages.
How does Route Optimization and Analysis improve routing visibility and troubleshooting?
Route Optimization and Analysis unifies real-time routing insight across IP, MPLS, SR/SRv6, VPN service, and optical layers. By correlating topology, telemetry, and policy data, Route Optimization and Analysis accelerates troubleshooting, enhances root cause analysis (RCA), and enables DVR simulations for faster, more accurate operational decisions.
What role does DVR play in Route Optimization and Analysis?
DVR allows you to review routing behavior to view historical network changes as they happened. This visibility enables network engineers to safely test changes and predict impacts before deployment. The Route Optimization and Analysis DVR engine reduces outages, validates SR/SRv6 and TE updates, and strengthens routing optimization with precise, risk-free simulations.
How does Route Optimization and Analysis support SR, SRv6, and RSVP-TE optimization?
Route Optimization and Analysis uses a high-performance PCE to automate path selection for SR, SRv6, and RSVP-TE policies. It evaluates constraints, predicts outcomes using DVR, and recommends optimal, congestion-free routes across multi-vendor, multi-layer networks.
Can Route Optimization and Analysis provide predictive analytics and prevent outages?
Yes: Route Optimization and Analysis blends DVR modeling, historical analytics, and its digital twin to predict routing risks, prevent loops, avoid congestion, and proactively validate changes. It shifts routing operations from reactive troubleshooting to predictive prevention.
How does Route Optimization and Analysis reduce total cost of ownership (TCO) and simplify multi-layer automation?
Route Optimization and Analysis replaces multiple siloed tools with a unified IP intelligence platform. Its PCE automation, DVR validation, and multi-layer correlation streamline workflows, accelerate RCA, and reduce OPEX—simplifying automation across vendors and domains.
How does Route Optimization and Analysis integrate with assurance, orchestration, and closed-loop automation?
Route Optimization and Analysis supplies routing and service alerts, real-time service topology, and optimized, traffic-engineered paths to Blue Planet Assurance and Blue Planet Orchestration. This integration enables closed-loop routing actions, safer updates, faster RCA, and more autonomous, intent-driven network operations.