Top 12 Network Operations Engineer Skills to Put on Your Resume

In today's rapidly evolving digital landscape, a Network Operations Engineer plays a pivotal role in ensuring the seamless performance and reliability of network systems. Highlighting a robust set of skills on your resume is crucial to stand out in this competitive field, showcasing your ability to effectively manage, troubleshoot, and optimize network operations.

Network Operations Engineer Skills

1. Cisco IOS
2. Juniper Junos
3. BGP (Border Gateway Protocol)
4. OSPF (Open Shortest Path First)
5. MPLS (Multiprotocol Label Switching)
6. IPv6
7. SNMP (Simple Network Management Protocol)
8. QoS (Quality of Service)
9. Wireshark
10. Python (for automation)
11. VMware NSX
12. AWS Networking

1. Cisco IOS

Cisco IOS (Internetwork Operating System) is a proprietary operating system that runs on most Cisco routers and switches, providing the network infrastructure for routing, switching, internetworking, and telecommunications features. It enables network operations engineers to configure, manage, and troubleshoot network devices.

Why It's Important

Cisco IOS (Internetwork Operating System) is crucial for a Network Operations Engineer as it provides the software infrastructure for routing, switching, and networking functions, enabling the configuration, management, and optimization of network devices and services.

How to Improve Cisco IOS Skills

Improving Cisco IOS performance and reliability involves optimizing configurations, updating the system, managing resources efficiently, and ensuring security. Here are concise steps for a Network Operations Engineer:

1. Update and Patch: Regularly update IOS to the latest stable version to fix vulnerabilities and improve features. Cisco Software Central.

2. Optimize Configuration: Simplify configurations, remove unused services, and apply best practices. Cisco Configuration Professional is a tool that can help.

3. Network Monitoring and Management: Use SNMP or NetFlow with monitoring tools to keep an eye on network performance and troubleshoot issues proactively. Cisco Network Management Solutions.

4. Security Hardening: Follow Cisco’s security best practices to minimize vulnerabilities, including implementing access control lists (ACLs), port security, and securing management access. Cisco IOS Security Configuration Guide.

5. Quality of Service (QoS): Implement QoS to prioritize critical traffic and ensure bandwidth allocation meets your network's needs. Cisco QoS Solutions.

6. Resource Management: Regularly check and manage router resources like memory and CPU usage to prevent overloads. Managing Cisco IOS Resources.

7. Automation and Scripting: Use automation tools and scripts for configuration management and to automate repetitive tasks. Cisco DevNet offers resources for automation and scripting.

By following these steps and utilizing Cisco’s resources, Network Operations Engineers can significantly improve the performance and reliability of Cisco IOS in their networks.

How to Display Cisco IOS Skills on Your Resume

2. Juniper Junos

Juniper Junos, also known as Junos OS, is the network operating system (NOS) used on devices manufactured by Juniper Networks, including routers, switches, and security devices. It provides the foundational software layer for network infrastructure, enabling configuration, routing, monitoring, and security features essential for network operations and management.

Why It's Important

Juniper Junos is important because it offers a unified, stable, and feature-rich operating system that enhances network reliability, performance, and security, simplifying management and operations for Network Operations Engineers.

How to Improve Juniper Junos Skills

Improving your Juniper Junos skills and network performance involves continuous learning, practical application, and leveraging Juniper's resources. Here's a concise guide:

1. Understand Junos Architecture: Familiarize yourself with the Junos OS architecture, its routing, switching, and security features. Knowing the architecture helps in troubleshooting and optimizing the network.

2. Juniper Learning Portal: Utilize the Juniper Learning Portal for official training, certification materials, and resources tailored for various roles, including network operations.

3. Hands-On Practice: Use Junos Genius, a comprehensive learning platform with virtual labs and simulations, to gain hands-on experience.

4. Automation and Scripting: Learn about automation in Junos to streamline your workflows. Start with Junos Automation Scripts and explore Python or Ansible for network automation.

5. Stay Updated: Regularly visit the Juniper TechLibrary for the latest documentation, release notes, and best practices.

6. Community and Support: Engage with the Juniper Community to ask questions, share insights, and learn from peers. For critical issues, utilize Juniper’s Support (Customer Support Center).

7. Networking Basics Refresh: Ensure your fundamental networking knowledge is solid. Resources like the Cisco Learning Network can provide supplementary material beneficial even for Juniper engineers.

8. Security Best Practices: Implement security best practices for Junos devices. Refer to Juniper's Security Best Practices guide.

Improving in Junos is a combination of theoretical learning and practical application. Engaging with the community and staying updated on the latest developments are key to becoming proficient in managing and optimizing Juniper networks.

How to Display Juniper Junos Skills on Your Resume

3. BGP (Border Gateway Protocol)

BGP (Border Gateway Protocol) is the core routing protocol used to exchange routing information across the internet, enabling interconnectivity between different autonomous systems (ASes). It is crucial for network operations engineers in managing and optimizing the paths for data traffic to ensure efficient and reliable network performance.

Why It's Important

BGP (Border Gateway Protocol) is crucial for Network Operations Engineers because it enables the routing of data across the internet, ensuring global connectivity by determining the best paths between networks and managing traffic efficiently.

How to Improve BGP (Border Gateway Protocol) Skills

Improving Border Gateway Protocol (BGP) efficiency and security involves several strategies tailored to enhance routing performance and mitigate vulnerabilities. As a Network Operations Engineer, focus on the following areas:

1. Enhancing Security: Implement BGP security measures such as RPKI (Resource Public Key Infrastructure) to validate route origin, and use BGPsec for path validation to prevent route hijacking and leaks.

2. Route Optimization: Use BGP Route Reflectors to reduce the number of iBGP connections, improving scalability and decreasing the chance of routing loops.

3. Traffic Engineering: Employ Multiprotocol BGP (MP-BGP) for more granular control over traffic flows, allowing the distribution of traffic across multiple paths based on policies or bandwidth.

4. Monitoring and Analysis: Regularly monitor BGP sessions using tools like BGPmon or BGPStream for anomaly detection and performance metrics. This can help in early detection of misconfigurations or malicious activities.

5. Peering Management: Establish efficient peering policies and use BGP Peering Databases to manage peering relationships and optimize network performance.

6. Policy and Filtering: Implement strict prefix filtering based on IRR (Internet Routing Registry) databases and AS_PATH filtering to prevent incorrect or malicious route announcements.

7. Education and Collaboration: Stay updated with best practices through resources like MANRS (Mutually Agreed Norms for Routing Security) and participate in community forums for real-time information sharing and collaboration.

By focusing on these strategies, you can significantly improve the performance and security of your BGP deployments.

How to Display BGP (Border Gateway Protocol) Skills on Your Resume

4. OSPF (Open Shortest Path First)

OSPF (Open Shortest Path First) is a dynamic routing protocol used for IP networks. It quickly calculates the shortest path for data transmission within an autonomous system based on the Dijkstra algorithm. OSPF supports fast convergence, efficient network traffic management, and scales well in large or complex networks.

Why It's Important

OSPF is crucial for a Network Operations Engineer because it enables efficient routing of IP packets within an IP network, ensuring optimal path selection, network scalability, and rapid convergence, essential for maintaining high network performance and reliability.

How to Improve OSPF (Open Shortest Path First) Skills

To improve OSPF (Open Shortest Path First) in your network, focus on these strategies:

1. Network Design and Hierarchization: Organize your network into multiple areas to reduce the size of the routing table and limit the scope of link-state updates. Cisco OSPF Design Guide

2. Tuning Timers: Adjust OSPF timers (Hello and Dead intervals) to balance between convergence time and network traffic overhead. Optimizing OSPF Timers

3. Cost Manipulation: Use OSPF cost to influence route selection, ensuring traffic takes the most efficient path. Understanding OSPF Cost

4. Stub Areas: Implement OSPF stub areas to reduce the amount of LSA types allowed in the area, thereby reducing memory and CPU processing. OSPF Stub Areas

5. Passive Interfaces: Configure passive interfaces to prevent OSPF from sending unnecessary updates on interfaces without OSPF neighbors, enhancing security and reducing traffic. OSPF Passive Interface

6. Route Summarization: Apply route summarization at area borders to reduce the size of the OSPF database in other areas. OSPF Route Summarization

7. Use of Authentication: Secure OSPF by configuring authentication (simple or MD5) to prevent unauthorized OSPF updates. OSPF Authentication Configuration

Implementing these strategies requires a careful planning and understanding of your network's specific needs and topology. Adjustments should be tested in a lab environment before deployment in a production network.

How to Display OSPF (Open Shortest Path First) Skills on Your Resume

5. MPLS (Multiprotocol Label Switching)

MPLS (Multiprotocol Label Switching) is a high-performance telecommunications network protocol that directs data from one node to the next based on short path labels rather than long network addresses, avoiding complex lookups in a routing table and speeding up traffic flow and management. For a Network Operations Engineer, MPLS simplifies and improves network traffic management, enabling efficient use of available network paths, reducing latency, and improving bandwidth utilization.

Why It's Important

MPLS is important for a Network Operations Engineer because it enhances network efficiency and performance by enabling fast, flexible traffic routing, reducing network congestion, and simplifying the management of network paths for various types of services (e.g., voice, video, data). This leads to improved reliability and quality of service (QoS) for end-users.

How to Improve MPLS (Multiprotocol Label Switching) Skills

Improving MPLS performance in a network primarily involves optimizing configurations, ensuring the network design is robust, and continuously monitoring the MPLS environment. Here's a concise guide for a Network Operations Engineer:

1. Optimize Route Selection: Utilize Constraint-Based Routing (CR-LDP or RSVP-TE) to ensure traffic takes the most efficient path. Cisco Guide on MPLS Traffic Engineering

2. Enhance QoS: Implement Quality of Service (QoS) policies to prioritize critical applications and ensure bandwidth efficiency. Juniper QoS for MPLS

3. Regularly Monitor MPLS Performance: Use monitoring tools like SNMP, NetFlow, or specific MPLS monitoring solutions to detect and troubleshoot issues promptly. PRTG Network Monitor for MPLS

4. Implement MPLS TE (Traffic Engineering): Use MPLS TE to optimize network bandwidth utilization and improve performance by manually steering traffic flows. MPLS Traffic Engineering (TE) - Cisco

5. Secure MPLS Infrastructure: Secure MPLS nodes and ensure that the data plane, control plane, and management plane are protected against unauthorized access and threats. Securing MPLS Networks - Cisco

6. Leverage MPLS Fast Reroute (FRR): Implement FRR for rapid switchover in case of link/node failures, minimizing packet loss and improving network resilience. MPLS Fast Reroute - Juniper Networks

7. Conduct Regular Network Audits: Regular audits help identify inefficiencies, unused resources, or misconfigurations in the MPLS network.

8. Continuous Learning and Training: Stay updated with the latest MPLS technologies and best practices through continuous learning. MPLS Fundamentals - Cisco Press

Improving MPLS involves a combination of strategic planning, rigorous monitoring, and continuous optimization. The goal is to ensure high performance, reliability, and security of the MPLS network to support critical business applications effectively.

How to Display MPLS (Multiprotocol Label Switching) Skills on Your Resume

6. IPv6

IPv6 (Internet Protocol Version 6) is the most recent version of the Internet Protocol (IP), designed to address the exhaustion of IPv4 addresses. It uses 128-bit addresses, significantly increasing the number of available IP addresses and supporting enhanced security, improved routing efficiency, and direct addressing of devices for the global internet.

Why It's Important

IPv6 is crucial for a Network Operations Engineer due to its vast address space, ensuring scalability and supporting the proliferation of internet-connected devices. It also enhances routing efficiency, security, and network management capabilities.

How to Improve IPv6 Skills

Improving IPv6 in a network operations context involves several key strategies focused on optimization, security, and management. Here are concise recommendations for a Network Operations Engineer:

1. IPv6 Address Planning: Properly plan your IPv6 address scheme to simplify routing, enhance security, and facilitate management. The hierarchical structure of IPv6 allows for efficient aggregation and distribution of addresses. IPv6 Address Planning

2. Security Enhancement: Implement IPv6-specific security measures, including firewalling, intrusion detection systems (IDS), and intrusion prevention systems (IPS) that are IPv6-aware. Secure your network by understanding and mitigating IPv6-specific vulnerabilities. IPv6 Security Best Practices

3. IPv6 Transition Mechanisms: Use appropriate transition mechanisms like Dual Stack, Tunneling (6to4, ISATAP), and Translation (NAT64, DNS64) wisely to ensure seamless communication between IPv6 and IPv4 systems. Opt for Dual Stack where possible for a smoother transition. IPv6 Transition Mechanisms

4. Quality of Service (QoS): Ensure that IPv6 traffic is properly classified and prioritized within your network to maintain service quality. IPv6 includes features for QoS such as the Flow Label field, which should be utilized effectively. IPv6 QoS

5. Monitoring and Management Tools: Upgrade and configure your network monitoring and management tools to fully support IPv6. This includes updating software to versions that can handle IPv6 addresses and ensuring that network staff are trained in IPv6 operations. IPv6 Network Management

6. IPv6-Only Networks: Consider moving towards IPv6-only networks where feasible, reducing the complexity and security issues associated with running dual-stack networks. This involves ensuring all services and applications are IPv6 compatible. Deploying IPv6-only Networks

By focusing on these areas, a Network Operations Engineer can significantly improve IPv6 deployment and operation within their network.

How to Display IPv6 Skills on Your Resume

7. SNMP (Simple Network Management Protocol)

SNMP (Simple Network Management Protocol) is a standard protocol used for monitoring and managing network devices, such as routers, switches, servers, and firewalls, by collecting and organizing their operational information. It enables network operations engineers to remotely diagnose and address issues within the network infrastructure.

Why It's Important

SNMP is crucial for Network Operations Engineers as it enables the efficient monitoring and management of network devices, facilitating the quick identification and resolution of issues, optimizing network performance, and ensuring system reliability.

How to Improve SNMP (Simple Network Management Protocol) Skills

Improving SNMP efficiency and security involves a few critical steps tailored for Network Operations Engineers. Here's a concise guide:

1. Upgrade to SNMPv3: Unlike its predecessors, SNMPv3 provides robust authentication and encryption features. Ensure all devices support and use SNMPv3 to enhance security. Cisco's SNMPv3 guide offers a comprehensive implementation overview.

2. Minimize Public Community Strings: Avoid using the default public community strings. Change them to unique, complex strings to prevent unauthorized access. ManageEngine's tips on SNMP security highlight the importance of this step.

3. Regularly Update Access Lists: Define and update SNMP access lists to control which devices can communicate with your SNMP managers. It limits exposure to potential intruders. Juniper's access list configuration can serve as a practical example.

4. Monitor SNMP Traffic: Regularly monitor and analyze SNMP traffic for unusual patterns that could indicate a security threat. Tools like Wireshark can be instrumental in SNMP traffic analysis.

5. Implement SNMP Rate Limiting: To prevent denial-of-service (DoS) attacks, configure rate limiting for SNMP requests on your network devices. This Cisco guide explains how to set rate limits.

By following these steps and continuously updating your knowledge and tools, you can significantly improve the efficiency and security of SNMP in your network operations.

How to Display SNMP (Simple Network Management Protocol) Skills on Your Resume

8. QoS (Quality of Service)

Quality of Service (QoS) is a network mechanism that prioritizes and manages network traffic to ensure the performance and reliability of critical applications and services by controlling bandwidth, reducing latency, and minimizing packet loss.

Why It's Important

QoS is crucial for ensuring predictable and reliable network performance by prioritizing critical traffic, minimizing latency, and maintaining bandwidth, thus ensuring optimal user experience and supporting business-critical applications.

How to Improve QoS (Quality of Service) Skills

Improving Quality of Service (QoS) in a network involves prioritizing certain types of traffic over others to ensure that critical applications and services run smoothly. Here are concise steps a Network Operations Engineer can take:

1. Identify Critical Traffic: Determine which applications and services are most critical to your organization's operations. Cisco's guide on traffic analysis can help in understanding traffic patterns.

2. Implement Traffic Shaping and Policing: Use traffic shaping to control the traffic entering the network and policing to limit the rate of incoming traffic. This Juniper resource provides a deep dive into traffic shaping and policing.

3. Prioritize Traffic: Use QoS mechanisms like Class of Service (CoS) and Differentiated Services Code Point (DSCP) to prioritize critical traffic. This IBM resource provides insights into setting CoS and DSCP values.

4. Configure QoS on Network Devices: Apply QoS configurations on routers, switches, and other network devices to ensure they recognize and prioritize critical traffic. HP's guide covers configuring QoS on network switches.

5. Monitor and Adjust: Use network monitoring tools to continually assess network performance and adjust QoS settings as needed. SolarWinds' QoS monitoring tool is an example of a platform that can aid in this.

6. Educate and Communicate: Ensure that all stakeholders understand the importance of QoS and the impact of network changes. Communication is key to managing expectations and ensuring smooth operations.

By following these steps and utilizing the resources provided, a Network Operations Engineer can significantly improve QoS within their network infrastructure.

How to Display QoS (Quality of Service) Skills on Your Resume

9. Wireshark

Wireshark is a network packet analyzer tool that allows a Network Operations Engineer to capture and interactively browse the traffic running on a computer network for the purposes of network troubleshooting, analysis, software and protocol development, and education.

Why It's Important

Wireshark is crucial for Network Operations Engineers because it provides deep visibility into network traffic, enabling the troubleshooting of complex network issues, optimization of performance, and ensuring security through packet-level analysis.

How to Improve Wireshark Skills

Improving your experience with Wireshark as a Network Operations Engineer involves enhancing your skills in packet analysis, optimizing Wireshark settings, and integrating it with other tools for advanced diagnostics. Here are concise recommendations with external resources for further exploration:

1. Master Advanced Filters: Deepen your knowledge of Wireshark's filtering capabilities to quickly isolate relevant data. Start with the Wireshark User's Guide on Display Filters.

2. Customize Wireshark Profiles: Tailor Wireshark profiles for different network scenarios or projects for efficiency. Learn more about profiles in the Wireshark Wiki.

3. Automate with Lua Scripts: Use Lua scripts to automate tasks and extend Wireshark functionalities. This Lua scripting in Wireshark guide is a good starting point.

4. Leverage Command-Line Utilities: Enhance efficiency with Wireshark's command-line utilities, like tshark for capturing and analyzing packets in a scriptable manner. Explore TShark documentation.

5. Integrate with Network Analysis Tools: Combine Wireshark with other tools like nmap for security scanning or SolarWinds for network performance monitoring for comprehensive network diagnostics. Check out Nmap's official site and SolarWinds.

6. Stay Updated: Regularly update Wireshark to access the latest features and security patches. Visit the Wireshark Download page.

7. Participate in the Community: Engage with the Wireshark community through forums and mailing lists to share knowledge and get help. The Wireshark Community page offers various resources.

Improving your proficiency with Wireshark comes down to continuous learning and practical application. These resources serve as a foundation for enhancing your skills and optimizing your workflow as a Network Operations Engineer.

How to Display Wireshark Skills on Your Resume

10. Python (for automation)

Python is a versatile programming language that enables Network Operations Engineers to automate repetitive network management tasks, such as configuration, monitoring, and troubleshooting, by writing scripts that can efficiently manage and interact with network devices and data.

Why It's Important

Python is important for a Network Operations Engineer because it simplifies automation, enabling efficient management of network devices, quick configuration changes, and rapid deployment of services, significantly reducing manual tasks and errors.

How to Improve Python (for automation) Skills

Improving your Python skills for automation, especially as a Network Operations Engineer, involves focusing on several key areas. Here's a concise guide to enhance your Python proficiency for automation tasks:

1. Learn Python Libraries for Network Automation: Familiarize yourself with libraries such as Netmiko, NAPALM, and Paramiko for automating network device configurations.

2. Understand APIs: Learn to interact with network devices and services using APIs. Focus on REST APIs and how to use Python to make API calls. The requests library is essential for handling HTTP requests.

3. Practice Scripting: Regularly write scripts for common network operations tasks. Automate repetitive tasks such as configuration backups, network health checks, and deploying configurations.

4. Version Control: Use version control systems like Git to manage your scripts and collaborate with others. Understanding Git is crucial for any automation or development work.

5. Learn Ansible: Although not a Python library, Ansible is a powerful automation tool that uses YAML for its playbooks, which are easy to understand. It’s widely used in network automation.

6. Explore Regular Expressions: Utilize Python’s re module for parsing and extracting data from text, such as logs or device configurations.

7. Continuous Learning: Stay updated with the latest in Python and network automation by following blogs, forums, and participating in communities like Stack Overflow and Reddit.

8. Hands-on Practice: Apply your knowledge on real or simulated network environments. Tools like GNS3 or EVE-NG can provide practical experience.

9. Courses and Certifications: Consider enrolling in courses or obtaining certifications that focus on Python and network automation, such as Cisco’s DevNet certifications.

10. Debugging Skills: Improve your ability to troubleshoot and debug scripts using Python’s logging module and interactive debuggers like PDB.

By focusing on these areas, you'll enhance your Python skills for automation, making you more effective in your role as a Network Operations Engineer.

How to Display Python (for automation) Skills on Your Resume

11. VMware NSX

VMware NSX is a network virtualization and security platform that enables the creation, deployment, and management of virtual networks and services in software, decoupling them from the underlying physical hardware. It provides Network Operations Engineers with tools for automated network provisioning, fine-grained security policies, and network function virtualization, facilitating flexible and efficient management of data center traffic.

Why It's Important

VMware NSX is important for a Network Operations Engineer because it provides a flexible, software-defined networking (SDN) solution that enhances network security, agility, and efficiency by automating and simplifying network configuration and management tasks.

How to Improve VMware NSX Skills

Improving VMware NSX as a Network Operations Engineer involves focusing on optimization, security, automation, and staying updated with VMware advancements. Here's a concise guide:

1. Optimize Performance: Regularly assess your network's performance and adjust NSX configurations for optimal throughput and latency. VMware's Performance Best Practices document offers detailed guidance.

2. Enhance Security: Utilize NSX's micro-segmentation capabilities to create secure zones within your data center. For a deeper understanding, refer to VMware's Micro-Segmentation Guide.

3. Automate Tasks: Implement automation with NSX to streamline network provisioning, management, and response to incidents. Explore VMware's Automation Documentation for insights on automating tasks with NSX.

4. Continuous Learning: Keep abreast of the latest NSX features and best practices by accessing VMware NSX Resources and engaging in the VMware community discussions.

5. Leverage Advanced Features: Dive into advanced NSX features like NSX Intelligent Load Balancer and NSX Federation for multi-site networking efficiency. VMware's Advanced Features Documentation provides comprehensive insights.

6. Monitor and Analyze: Employ NSX monitoring tools and VMware vRealize Network Insight for in-depth network analysis and visibility. Check out the VMware vRealize Network Insight page for more details.

7. Engage with VMware Support and Training: For complex issues and skills enhancement, utilize VMware's support and training resources. Explore VMware Customer Connect Learning for official training options.

By focusing on these areas, you can significantly improve your VMware NSX deployment's efficiency, security, and manageability.

How to Display VMware NSX Skills on Your Resume

12. AWS Networking

AWS Networking refers to the comprehensive set of Amazon Web Services designed to provide scalable, secure, and highly available network infrastructure solutions. It encompasses services like Amazon VPC for isolated network environments, Direct Connect for dedicated network connections to AWS, Route 53 for DNS and traffic management, and Elastic Load Balancing for distributing incoming traffic, among others, enabling Network Operations Engineers to design, implement, and manage network architectures in the cloud.

Why It's Important

AWS Networking is crucial for a Network Operations Engineer as it enables the design, deployment, and management of scalable, reliable, and secure network infrastructure in the cloud, facilitating seamless connectivity, high availability, and optimal performance of applications and services.

How to Improve AWS Networking Skills

Improving AWS Networking involves optimizing performance, security, and cost-efficiency. Here are concise strategies:

1. Use Amazon CloudFront for content delivery to reduce latency. CloudFront caches content at edge locations worldwide.

2. Implement Amazon Route 53 for scalable DNS management and traffic routing. It improves accessibility and latency. Route 53.

3. Leverage AWS Direct Connect for a dedicated network connection from your premises to AWS. It enhances bandwidth throughput and network consistency. Direct Connect.

4. Optimize VPC Configuration by properly setting up subnets, route tables, and internet gateways for efficient network segmentation and security. VPC.

5. Use Elastic Load Balancing (ELB) to automatically distribute incoming traffic across multiple targets, such as EC2 instances, improving fault tolerance. ELB.

6. Implement AWS Transit Gateway for easy network scaling across thousands of Amazon VPCs, AWS accounts, and on-premises networks. It simplifies network management. Transit Gateway.

7. Adopt AWS Network Firewall for high availability, protection, and monitoring of your VPCs. It offers customizable web filtering and intrusion detection/prevention. Network Firewall.

8. Ensure Network Security and Compliance by utilizing AWS Shield for DDoS protection, AWS WAF for application protection, and AWS Key Management Service (KMS) for data encryption. AWS Shield, AWS WAF, AWS KMS.

9. Monitor and Analyze Network Traffic with Amazon CloudWatch and AWS CloudTrail to detect anomalies, optimize performance, and improve security. CloudWatch, CloudTrail.

10. Utilize AWS Savings Plans and Reserved Instances for cost savings on networking services like NAT Gateway and ELB. Savings Plans.

Each of these strategies can be tailored to specific network performance and security requirements, ensuring an efficient and robust AWS networking setup.

How to Display AWS Networking Skills on Your Resume