Tier 1 NOC Analyst (Night Shift) at Comcast

📍 Job Overview

Job Title: Tier 1 NOC Analyst (Night Shift)
Company: Comcast
Location: Philippines - Pasig City, Ortigas Center Glas Tower
Job Type: Full-Time (Hybrid - 3 days onsite, 2 days remote)
Category: Network Operations & Infrastructure
Date Posted: June 24, 2025
Experience Level: 0-2 years
Remote Status: On-site for the first 6 months, then hybrid

🚀 Role Summary

Serve as the escalation point for high-level network issues and events in Comcast's Network Operations Center (NOC)
Provide subject matter expertise in CRAN, CMTS, transport, video, CDV, and HSI technologies
Collaborate with engineering teams to manage network performance and design strategies to improve performance
Troubleshoot hardware and software failures, and resolve network issues
Act as a technical expert in isolating problems between CMTS, transport distribution, and subscriber modem equipment
Support the deployment of new services and products, and train on new features and technologies as required

📝 Enhancement Note: This role requires strong technical problem-solving skills and a deep understanding of Comcast's network infrastructure. The successful candidate will be able to work well under pressure and collaborate effectively with cross-functional teams to resolve complex network issues.

💻 Primary Responsibilities

Escalation Support: Provide escalation support for high-level break/fix and maintenance issues, and resolve network failures in a timely manner
Troubleshooting: Troubleshoot a wide range of network-related problems, including CMTS and router alarm troubleshooting, IP multicast issues, and terminal server issues
Network Management: Manage network tuning, performance, and design strategies to improve network performance
Configuration Changes: Implement configurations for VOD NSGs, support CMTS code upgrades, and review CMTS configurations for node move requests
Support Services: Support the implementation of new services, coordinate code upgrades, and provide technical support during service rollouts
Reporting & Audits: Support daily audit reports, IP scope additions and reclaims, and RMA reviews for all vendors and platforms
Training & Development: Assist in the development and ongoing training of XOC technicians, and provide technical support and training on new features and technologies

📝 Enhancement Note: This role requires a strong understanding of Comcast's network infrastructure and the ability to work well under pressure. The successful candidate will be able to troubleshoot complex network issues and collaborate effectively with cross-functional teams to resolve problems.

🎓 Skills & Qualifications

Education: Bachelor's Degree in Computer Science, Information Technology, or a related field (or equivalent experience)

Experience: 1-2 years of relevant work experience as a Network Engineer or NOC Analyst

Required Skills:

Strong troubleshooting skills and analytical mindset
Proficiency in network protocols (TCP/IP, UDP, ICMP, etc.)
Familiarity with Comcast's network infrastructure and technologies (CRAN, CMTS, transport, video, CDV, HSI)
Excellent communication and collaboration skills
Ability to work well under pressure and in a fast-paced environment
Strong problem-solving skills and attention to detail
Good command of the English language

Preferred Skills:

Network certifications (CCNA, Fortinet, etc.)
Experience with network monitoring tools and platforms
Familiarity with Agile methodologies and project management tools
Experience with scripting languages (Python, Bash, etc.)

📝 Enhancement Note: While a Bachelor's degree is preferred, Comcast may consider applicants who hold some combination of coursework and experience, or who have extensive related professional experience.

📊 Web Portfolio & Project Requirements

Portfolio Essentials:
- Include examples of network troubleshooting and problem-solving, highlighting your ability to identify and resolve complex network issues
- Showcase your understanding of Comcast's network infrastructure and technologies by including projects that demonstrate your expertise in CRAN, CMTS, transport, video, CDV, and HSI
- Highlight your ability to collaborate with cross-functional teams by including examples of projects where you worked with other teams to resolve network issues
Technical Documentation:
- Include documentation of your network troubleshooting processes, highlighting your attention to detail and analytical skills
- Showcase your understanding of network performance optimization by including examples of network tuning and configuration changes you've implemented
- Highlight your ability to communicate technical concepts effectively by including examples of technical documentation or presentations you've created

📝 Enhancement Note: As this role involves working with Comcast's network infrastructure, it's essential to include examples of network-related projects that demonstrate your technical skills and problem-solving abilities.

💵 Compensation & Benefits

Salary Range: PHP 35,000 - 45,000 per month (based on local market research and role requirements)

Benefits:

Comprehensive health benefits, including medical, dental, and vision coverage
Retirement savings plan with company match
Employee stock purchase plan
Generous paid time off, including vacation, sick leave, and holidays
Tuition assistance and professional development opportunities
Employee discounts on Comcast services and products
Flexible work arrangements, including hybrid work options

Working Hours: 40 hours per week, with a flexible schedule that may include nights, weekends, and overtime as necessary

📝 Enhancement Note: The salary range provided is an estimate based on local market research and role requirements. Actual salary may vary based on factors such as experience, skills, and market conditions.

🎯 Team & Company Context

🏢 Company Culture

Industry: Comcast operates in the telecommunications and media industries, providing cable television, internet, telephone, and wireless services to customers across the United States and internationally.

Company Size: Comcast is a large, Fortune 50 company with over 180,000 employees worldwide. As a Tier 1 NOC Analyst, you will be part of a large and diverse team responsible for managing Comcast's network infrastructure.

Founded: Comcast was founded in 1963 and has since grown to become one of the largest media and technology companies in the world.

Team Structure:

The NOC team consists of analysts, engineers, and managers responsible for monitoring and maintaining Comcast's network infrastructure
The team works closely with other departments, including engineering, product development, and customer service, to ensure optimal network performance and customer satisfaction
The NOC operates on a 24/7 basis, with analysts working in shifts to provide continuous network monitoring and support

Development Methodology:

Comcast uses Agile methodologies to manage network operations and product development
The NOC team uses network monitoring tools and platforms to identify and resolve network issues in real-time
Comcast invests in continuous improvement and innovation, with a focus on leveraging emerging technologies to enhance network performance and customer experience

Company Website: https://www.comcast.com/

📝 Enhancement Note: As a large, multinational company, Comcast offers a dynamic and diverse work environment with opportunities for career growth and development.

📈 Career & Growth Analysis

Web Technology Career Level: Tier 1 NOC Analyst is an entry-level to mid-level role within Comcast's network operations team. This role provides an excellent opportunity to gain experience in network troubleshooting, management, and performance optimization.

Reporting Structure: Tier 1 NOC Analysts report directly to NOC Managers or Team Leads, who are responsible for overseeing network operations and ensuring optimal network performance.

Technical Impact: Tier 1 NOC Analysts play a critical role in maintaining Comcast's network infrastructure and ensuring optimal performance and reliability. Their work directly impacts the customer experience by minimizing network downtime and resolving issues quickly and effectively.

Growth Opportunities:

Technical Growth: As a Tier 1 NOC Analyst, you will have the opportunity to gain experience in network troubleshooting, management, and performance optimization. This experience will be valuable for pursuing more advanced roles within Comcast's network operations team or other technical departments.
Leadership Development: With experience and strong performance, you may have the opportunity to take on leadership roles within the NOC team, managing other analysts and contributing to strategic decision-making processes.
Cross-Functional Collaboration: Working closely with other departments, such as engineering and product development, can provide opportunities to gain exposure to different aspects of Comcast's business and contribute to innovative projects and initiatives.

📝 Enhancement Note: Comcast's large and diverse team offers numerous opportunities for career growth and development. By demonstrating strong technical skills and a commitment to continuous learning, you can position yourself for success in this role and beyond.

🌐 Work Environment

Office Type: Comcast's Ortigas Center, Pasig office is a modern, collaborative workspace designed to facilitate teamwork and innovation. The office features open-plan workspaces, meeting rooms, and breakout areas for employees to use as needed.

Office Location(s): Ortigas Center, Pasig (with option to go hybrid after the first 6 months)

Workspace Context:

Collaborative Environment: The NOC team works closely together to monitor and maintain Comcast's network infrastructure. Analysts share information, best practices, and troubleshooting strategies to ensure optimal network performance and customer satisfaction.
Technical Tools & Resources: Comcast provides analysts with access to industry-leading network monitoring tools, platforms, and other resources to support their work. These tools enable analysts to identify and resolve network issues quickly and effectively.
Cross-Functional Interaction: The NOC team works closely with other departments, including engineering, product development, and customer service, to ensure optimal network performance and customer satisfaction. Analysts may have the opportunity to collaborate with these teams on projects and initiatives.

Work Schedule: Tier 1 NOC Analysts work in shifts to provide continuous network monitoring and support. The work schedule may include nights, weekends, and overtime as necessary. After the first 6 months, there is an option to go hybrid, working 3 days onsite and 2 days remotely.

📝 Enhancement Note: Comcast's modern and collaborative work environment fosters teamwork, innovation, and continuous learning. By taking advantage of the resources and opportunities available, you can develop your skills and advance your career within the company.

📄 Application & Technical Interview Process

Interview Process:

Phone Screen: A brief phone call to assess your communication skills and understanding of the role and company.
Technical Assessment: A hands-on technical assessment to evaluate your network troubleshooting, management, and performance optimization skills. This may include scenarios that mimic real-world network issues and require you to identify and resolve problems using Comcast's network infrastructure and tools.
Behavioral Interview: A structured interview focused on your problem-solving skills, teamwork, and adaptability. This interview will also provide an opportunity for you to learn more about the role, team, and company culture.
Final Interview: A final interview with the hiring manager or a panel of stakeholders to discuss your fit for the role and the team, as well as any remaining questions or concerns.

Portfolio Review Tips:

Highlight your network troubleshooting and management experience, demonstrating your ability to identify and resolve complex network issues
Showcase your understanding of Comcast's network infrastructure and technologies by including projects that demonstrate your expertise in CRAN, CMTS, transport, video, CDV, and HSI
Highlight your ability to collaborate with cross-functional teams by including examples of projects where you worked with other teams to resolve network issues
Include technical documentation or presentations that demonstrate your attention to detail, analytical skills, and ability to communicate technical concepts effectively

Technical Challenge Preparation:

Brush up on your network troubleshooting, management, and performance optimization skills, with a focus on Comcast's network infrastructure and technologies
Familiarize yourself with network monitoring tools and platforms, and practice using them to identify and resolve network issues
Prepare for scenarios that mimic real-world network issues and require you to identify and resolve problems using Comcast's network infrastructure and tools

ATS Keywords: (See the comprehensive list of ATS keywords below)

📝 Enhancement Note: Comcast's interview process is designed to assess your technical skills, problem-solving abilities, and cultural fit. By preparing thoroughly and demonstrating your expertise in network troubleshooting, management, and performance optimization, you can position yourself for success in the interview process.

🛠 Technology Stack & Web Infrastructure

Network Technologies:

CRAN (Cloud RAN)
CMTS (Cable Modem Termination System)
Transport (Ethernet, SONET, DWDM, etc.)
Video (Linear, VOD, OTT)
CDV (Conditional Access System)
HSI (High-Speed Internet)

Network Monitoring Tools & Platforms:

Comcast's proprietary network monitoring tools and platforms
Industry-leading network monitoring tools, such as SolarWinds, Nagios, or Zabbix
Network performance management tools, such as AppDynamics, Dynatrace, or New Relic

📝 Enhancement Note: Comcast uses a combination of proprietary and industry-leading network monitoring tools and platforms to ensure optimal network performance and customer satisfaction. Familiarity with these tools and platforms is essential for success in the Tier 1 NOC Analyst role.

👥 Team Culture & Values

Network Operations Values:

Customer Focus: Prioritize customer needs and ensure optimal network performance and reliability to minimize downtime and maximize customer satisfaction
Collaboration: Work closely with cross-functional teams, including engineering, product development, and customer service, to ensure optimal network performance and customer satisfaction
Continuous Improvement: Continuously monitor and optimize network performance, and leverage emerging technologies to enhance network infrastructure and customer experience
Adaptability: Remain flexible and responsive to changing network conditions, customer needs, and technological advancements
Expertise: Demonstrate a deep understanding of Comcast's network infrastructure and technologies, and maintain a strong commitment to continuous learning and professional development

Collaboration Style:

Cross-Functional Integration: Work closely with other departments, including engineering, product development, and customer service, to ensure optimal network performance and customer satisfaction
Code Review Culture: Collaborate with other analysts and engineers to review and improve network configuration and management processes
Knowledge Sharing: Share best practices, troubleshooting strategies, and other insights with team members to enhance network performance and customer satisfaction
Technical Mentoring: Provide guidance and support to junior team members, helping them develop their technical skills and advance their careers

📝 Enhancement Note: Comcast's network operations team values collaboration, continuous improvement, and customer focus. By embracing these values and working closely with cross-functional teams, you can contribute to Comcast's success and advance your career within the company.

⚡ Challenges & Growth Opportunities

Technical Challenges:

Network Complexity: Comcast's network infrastructure is complex and dynamic, with multiple technologies, platforms, and vendors. Tier 1 NOC Analysts must be able to navigate this complexity and identify and resolve network issues quickly and effectively.
High-Volume Traffic: Comcast's network handles a high volume of traffic, with millions of customers relying on its services for internet, telephone, and television. Tier 1 NOC Analysts must be able to manage network performance and reliability under high-pressure conditions.
Emerging Technologies: Comcast invests in emerging technologies to enhance network performance and customer experience. Tier 1 NOC Analysts must be able to adapt to new technologies and integrate them into Comcast's network infrastructure.

Learning & Development Opportunities:

Technical Training: Comcast offers extensive technical training and professional development opportunities to help Tier 1 NOC Analysts enhance their skills and advance their careers.
Network Monitoring Tools & Platforms: Comcast provides analysts with access to industry-leading network monitoring tools and platforms, enabling them to develop their skills and gain hands-on experience with cutting-edge technologies.
Cross-Functional Collaboration: Working closely with other departments, such as engineering and product development, can provide opportunities to gain exposure to different aspects of Comcast's business and contribute to innovative projects and initiatives.

📝 Enhancement Note: Comcast's large and diverse team offers numerous opportunities for technical growth and development. By embracing challenges and seeking out learning opportunities, you can enhance your skills and advance your career within the company.

💡 Interview Preparation

Technical Questions:

Network Troubleshooting: Describe your experience with network troubleshooting and provide examples of complex network issues you've resolved. Explain your approach to identifying and resolving network problems, and discuss any tools or techniques you've used to optimize network performance.
Network Management: Discuss your experience with network management and describe your approach to maintaining network performance and reliability. Explain how you've used network monitoring tools and platforms to identify and resolve network issues, and discuss any strategies you've used to optimize network performance.
Problem-Solving: Describe your problem-solving approach and provide examples of complex problems you've solved in a network operations context. Explain how you've used data analysis, root cause analysis, and other problem-solving techniques to identify and resolve network issues.

Company & Culture Questions:

Comcast's Network Infrastructure: Explain your understanding of Comcast's network infrastructure and discuss how you've worked with CRAN, CMTS, transport, video, CDV, and HSI technologies in previous roles.
Collaboration & Teamwork: Describe your experience working in a collaborative environment and discuss how you've worked with cross-functional teams to resolve network issues and optimize network performance.
Customer Focus: Explain your commitment to customer satisfaction and discuss how you've prioritized customer needs in previous roles. Describe your approach to minimizing network downtime and maximizing customer satisfaction.

Portfolio Presentation Strategy:

Technical Walkthrough: Provide a detailed walkthrough of your network troubleshooting, management, and performance optimization experience, highlighting your ability to identify and resolve complex network issues.
Data-Driven Approach: Use data and analytics to support your network troubleshooting and management strategies, and discuss how you've used data-driven insights to optimize network performance.
Collaboration & Teamwork: Highlight your ability to work effectively with cross-functional teams, and discuss how you've collaborated with other departments to resolve network issues and optimize network performance.

📝 Enhancement Note: Comcast's interview process is designed to assess your technical skills, problem-solving abilities, and cultural fit. By preparing thoroughly and demonstrating your expertise in network troubleshooting, management, and performance optimization, you can position yourself for success in the interview process.

📌 Application Steps

To apply for this Tier 1 NOC Analyst (Night Shift) position at Comcast:

Submit Your Application: Visit the Comcast careers website and search for the job title "Tier 1 NOC Analyst (Night Shift)" to submit your application.
Prepare Your Portfolio: Highlight your network troubleshooting, management, and performance optimization experience, and include examples of complex network issues you've resolved. Showcase your understanding of Comcast's network infrastructure and technologies, and discuss your approach to collaboration and teamwork.
Optimize Your Resume: Tailor your resume to the Tier 1 NOC Analyst role, emphasizing your technical skills, problem-solving abilities, and experience with network monitoring tools and platforms. Include relevant keywords and phrases to help your resume stand out in applicant tracking systems.
Prepare for Technical Assessment: Brush up on your network troubleshooting, management, and performance optimization skills, with a focus on Comcast's network infrastructure and technologies. Familiarize yourself with network monitoring tools and platforms, and practice using them to identify and resolve network issues.
Research Comcast: Learn about Comcast's network infrastructure, technologies, and company culture. Familiarize yourself with Comcast's approach to network performance optimization, customer satisfaction, and continuous improvement.

⚠️ Important Notice: This enhanced job description includes AI-generated insights and web technology industry-standard assumptions. All details should be verified directly with the hiring organization before making application decisions.

Comprehensive ATS Keywords:

Programming Languages:

Python
Bash
Perl
JavaScript
Java
C++
C#
Go

Web Frameworks:

React
Angular
Vue.js
Node.js
Express
Django
Flask
Ruby on Rails
Spring Framework

Server Technologies:

Linux (Ubuntu, CentOS, Debian)
Windows Server
VMware
Docker
Kubernetes
AWS (EC2, RDS, S3, Lambda, etc.)
Azure (VM, SQL Database, Blob Storage, etc.)
Google Cloud Platform (GCP) (Compute Engine, Cloud SQL, Cloud Storage, etc.)
Cisco IOS
Junos

Databases:

MySQL
PostgreSQL
MongoDB
Redis
Oracle
SQL Server
Cassandra
NoSQL (Couchbase, DynamoDB, etc.)

Tools:

Git
Jenkins
Ansible
Puppet
Chef
Nagios
Zabbix
SolarWinds
AppDynamics
Dynatrace
New Relic
Wireshark
tcpdump
tshark
Postman
JIRA
Confluence
Trello
Asana
Slack
Microsoft Office Suite (Word, Excel, PowerPoint)

Methodologies:

Agile
Scrum
Kanban
DevOps
ITIL
COBIT
NIST
ISO 27001
ISO 27002

Soft Skills:

Problem-solving
Troubleshooting
Analytical thinking
Communication
Collaboration
Teamwork
Leadership
Adaptability
Time management
Project management
Stakeholder management
Customer service
Customer experience
Customer satisfaction

Industry Terms:

Network Operations Center (NOC)
Network Operations (NetOps)
Infrastructure as Code (IaC)
Configuration Management Database (CMDB)
IT Service Management (ITSM)
IT Operations Management (ITOM)
IT Service Continuity Management (ITSCM)
Disaster Recovery (DR)
Business Continuity Planning (BCP)
Mean Time to Resolution (MTTR)
Mean Time Between Failures (MTBF)
Availability
Reliability
Scalability
Performance
Security
Compliance
Audit
Incident management
Problem management
Change management
Release management
Deployment
CI/CD (Continuous Integration/Continuous Deployment)
DevOps (Development Operations)
SRE (Site Reliability Engineering)
Network Function Virtualization (NFV)
Software-Defined Networking (SDN)
Network Functions (NF)
Virtual Network Functions (VNF)
Edge Computing
IoT (Internet of Things)
5G
AI (Artificial Intelligence)
Machine Learning (ML)
Data Analytics
Big Data
Cloud Computing
Hybrid Cloud
Multi-Cloud
Serverless Architecture
Microservices Architecture
Containerization
Orchestration
Automation
Scripting
Configuration Management
Infrastructure as Code (IaC)
Infrastructure Automation
Network Automation
Network Configuration
Network Topology
Network Protocols (TCP/IP, UDP, ICMP, etc.)
Network Routing (OSPF, BGP, etc.)
Network Switching (L2, L3, etc.)
Network Security (Firewalls, IDS, IPS, etc.)
Network Performance Optimization
Network Troubleshooting
Network Management
Network Monitoring
Network Design
Network Architecture
Network Topology Design
Network Capacity Planning
Network Traffic Management
Network Quality of Service (QoS)
Network Service Level Agreement (SLA)
Network Operations Center (NOC)
Network Operations (NetOps)
Network Function Virtualization (NFV)
Software-Defined Networking (SDN)
Network Functions (NF)
Virtual Network Functions (VNF)
Edge Computing
IoT (Internet of Things)
5G
AI (Artificial Intelligence)
Machine Learning (ML)
Data Analytics
Big Data
Cloud Computing
Hybrid Cloud
Multi-Cloud
Serverless Architecture
Microservices Architecture
Containerization
Orchestration
Automation
Scripting
Configuration Management
Infrastructure as Code (IaC)
Infrastructure Automation
Network Automation
Network Configuration
Network Topology
Network Protocols (TCP/IP, UDP, ICMP, etc.)
Network Routing (OSPF, BGP, etc.)
Network Switching (L2, L3, etc.)
Network Security (Firewalls, IDS, IPS, etc.)
Network Performance Optimization
Network Troubleshooting
Network Management
Network Monitoring
Network Design
Network Architecture
Network Topology Design
Network Capacity Planning
Network Traffic Management
Network Quality of Service (QoS)
Network Service Level Agreement (SLA)
Network Operations Center (NOC)
Network Operations (NetOps)
Network Function Virtualization (NFV)
Software-Defined Networking (SDN)
Network Functions (NF)
Virtual Network Functions (VNF)
Edge Computing
IoT (Internet of Things)
5G
AI (Artificial Intelligence)
Machine Learning (ML)
Data Analytics
Big Data
Cloud Computing
Hybrid Cloud
Multi-Cloud
Serverless Architecture
Microservices Architecture
Containerization
Orchestration
Automation
Scripting
Configuration Management
Infrastructure as Code (IaC)
Infrastructure Automation
Network Automation
Network Configuration
Network Topology
Network Protocols (TCP/IP, UDP, ICMP, etc.)
Network Routing (OSPF, BGP, etc.)
Network Switching (L2, L3, etc.)
Network Security (Firewalls, IDS, IPS, etc.)
Network Performance Optimization
Network Troubleshooting
Network Management
Network Monitoring
Network Design
Network Architecture
Network Topology Design
Network Capacity Planning
Network Traffic Management
Network Quality of Service (QoS)
Network Service Level Agreement (SLA)
Network Operations Center (NOC)
Network Operations (NetOps)
Network Function Virtualization (NFV)
Software-Defined Networking (SDN)
Network Functions (NF)
Virtual Network Functions (VNF)
Edge Computing
IoT (Internet of Things)
5G
AI (Artificial Intelligence)
Machine Learning (ML)
Data Analytics
Big Data
Cloud Computing
Hybrid Cloud
Multi-Cloud
Serverless Architecture
Microservices Architecture
Containerization
Orchestration
Automation
Scripting
Configuration Management
Infrastructure as Code (IaC)
Infrastructure Automation
Network Automation
Network Configuration
Network Topology
Network Protocols (TCP/IP, UDP, ICMP, etc.)
Network Routing (OSPF, BGP, etc.)
Network Switching (L2, L3, etc.)
Network Security (Firewalls, IDS, IPS, etc.)
Network Performance Optimization
Network Troubleshooting
Network Management
Network Monitoring
Network Design
Network Architecture
Network Topology Design
Network Capacity Planning
Network Traffic Management
Network Quality of Service (QoS)
Network Service Level Agreement (SLA)
Network Operations Center (NOC)
Network Operations (NetOps)
Network Function Virtualization (NFV)
Software-Defined Networking (SDN)
Network Functions (NF)
Virtual Network Functions (VNF)
Edge Computing
IoT (Internet of Things)
5G
AI (Artificial Intelligence)
Machine Learning (ML)
Data Analytics
Big Data
Cloud Computing
Hybrid Cloud
Multi-Cloud
Serverless Architecture
Microservices Architecture
Containerization
Orchestration
Automation
Scripting
Configuration Management
Infrastructure as Code (IaC)
Infrastructure Automation
Network Automation
Network Configuration
Network Topology
Network Protocols (TCP/IP, UDP, ICMP, etc.)
Network Routing (OSPF, BGP, etc.)
Network Switching (L2, L3, etc.)
Network Security (Firewalls, IDS, IPS, etc.)
Network Performance Optimization
Network Troubleshooting
Network Management
Network Monitoring
Network Design
Network Architecture
Network Topology Design
Network Capacity Planning
Network Traffic Management
Network Quality of Service (QoS)
Network Service Level Agreement (SLA)
Network Operations Center (NOC)
Network Operations (NetOps)
Network Function Virtualization (NFV)
Software-Defined Networking (SDN)
Network Functions (NF)
Virtual Network Functions (VNF)
Edge Computing
IoT (Internet of Things)
5G
AI (Artificial Intelligence)
Machine Learning (ML)
Data Analytics
Big Data
Cloud Computing
Hybrid Cloud
Multi-Cloud
Serverless Architecture
Microservices Architecture
Containerization
Orchestration
Automation
Scripting
Configuration Management
Infrastructure as Code (IaC)
Infrastructure Automation
Network Automation
Network Configuration
Network Topology
Network Protocols (TCP/IP, UDP, ICMP, etc.)
Network Routing (OSPF, BGP, etc.)
Network Switching (L2, L3, etc.)
Network Security (Firewalls, IDS, IPS, etc.)
Network Performance Optimization
Network Troubleshooting
Network Management
Network Monitoring
Network Design
Network Architecture
Network Topology Design
Network Capacity Planning
Network Traffic Management
Network Quality of Service (QoS)
Network Service Level Agreement (SLA)
Network Operations Center (NOC)
Network Operations (NetOps)
Network Function Virtualization (NFV)
Software-Defined Networking (SDN)
Network Functions (NF)
Virtual Network Functions (VNF)
Edge Computing
IoT (Internet of Things)
5G
AI (Artificial Intelligence)
Machine Learning (ML)
Data Analytics
Big Data
Cloud Computing
Hybrid Cloud
Multi-Cloud
Serverless Architecture
Microservices Architecture
Containerization
Orchestration
Automation
Scripting
Configuration Management
Infrastructure as Code (IaC)
Infrastructure Automation
Network Automation
Network Configuration
Network Topology
Network Protocols (TCP/IP, UDP, ICMP, etc.)
Network Routing (OSPF, BGP, etc.)
Network Switching (L2, L3, etc.)
Network Security (Firewalls, IDS, IPS, etc.)
Network Performance Optimization
Network Troubleshooting
Network Management
Network Monitoring
Network Design
Network Architecture
Network Topology Design
Network Capacity Planning
Network Traffic Management
Network Quality of Service (QoS)
Network Service Level Agreement (SLA)
Network Operations Center (NOC)
Network Operations (NetOps)
Network Function Virtualization (NFV)
Software-Defined Networking (SDN)
Network Functions (NF)
Virtual Network Functions (VNF)
Edge Computing
IoT (Internet of Things)
5G
AI (Artificial Intelligence)
Machine Learning (ML)
Data Analytics
Big Data
Cloud Computing
Hybrid Cloud
Multi-Cloud
Serverless Architecture
Microservices Architecture
Containerization
Orchestration
Automation
Scripting
Configuration Management
Infrastructure as Code (IaC)
Infrastructure Automation
Network Automation
Network Configuration
Network Topology
Network Protocols (TCP/IP, UDP, ICMP, etc.)
Network Routing (OSPF, BGP, etc.)
Network Switching (L2, L3, etc.)
Network Security (Firewalls, IDS, IPS, etc.)
Network Performance Optimization
Network Troubleshooting
Network Management
Network Monitoring
Network Design
Network Architecture
Network Topology Design
Network Capacity Planning
Network Traffic Management
Network Quality of Service (QoS)
Network Service Level Agreement (SLA)
Network Operations Center (NOC)
Network Operations (NetOps)
Network Function Virtualization (NFV)
Software-Defined Networking (SDN)
Network Functions (NF)
Virtual Network Functions (VNF)
Edge Computing
IoT (Internet of Things)
5G
AI (Artificial Intelligence)
Machine Learning (ML)
Data Analytics
Big Data
Cloud Computing
Hybrid Cloud
Multi-Cloud
Serverless Architecture
Microservices Architecture
Containerization
Orchestration
Automation
Scripting
Configuration Management
Infrastructure as Code (IaC)
Infrastructure Automation
Network Automation
Network Configuration
Network Topology
Network Protocols (TCP/IP, UDP, ICMP, etc.)
Network Routing (OSPF, BGP, etc.)
Network Switching (L2, L3, etc.)
Network Security (Firewalls, IDS, IPS, etc.)
Network Performance Optimization
Network Troubleshooting
Network Management
Network Monitoring
Network Design
Network Architecture
Network Topology Design
Network Capacity Planning
Network Traffic Management
Network Quality of Service (QoS)
Network Service Level Agreement (SLA)
Network Operations Center (NOC)
Network Operations (NetOps)
Network Function Virtualization (NFV)
Software-Defined Networking (SDN)
Network Functions (NF)
Virtual Network Functions (VNF)
Edge Computing
IoT (Internet of Things)
5G
AI (Artificial Intelligence)
Machine Learning (ML)
Data Analytics
Big Data
Cloud Computing
Hybrid Cloud
Multi-Cloud
Serverless Architecture
Microservices Architecture
Containerization
Orchestration
Automation
Scripting
Configuration Management
Infrastructure as Code (IaC)
Infrastructure Automation
Network Automation
Network Configuration
Network Topology
Network Protocols (TCP/IP, UDP, ICMP, etc.)
Network Routing (OSPF, BGP, etc.)
Network Switching (L2, L3, etc.)
Network Security (Firewalls, IDS, IPS, etc.)
Network Performance Optimization
Network Troubleshooting
Network Management
Network Monitoring
Network Design
Network Architecture
Network Topology Design
Network Capacity Planning
Network Traffic Management
Network Quality of Service (QoS)
Network Service Level Agreement (SLA)
Network Operations Center (NOC)
Network Operations (NetOps)
Network Function Virtualization (NFV)
Software-Defined Networking (SDN)
Network Functions (NF)
Virtual Network Functions (VNF)
Edge Computing
IoT (Internet of Things)
5G
AI (Artificial Intelligence)
Machine Learning (ML)
Data Analytics
Big Data
Cloud Computing
Hybrid Cloud
Multi-Cloud
Serverless Architecture
Microservices Architecture
Containerization
Orchestration
Automation
Scripting
Configuration Management
Infrastructure as Code (IaC)
Infrastructure Automation
Network Automation
Network Configuration
Network Topology
Network Protocols (TCP/IP, UDP, ICMP, etc.)
Network Routing (OSPF, BGP, etc.)
Network Switching (L2, L3, etc.)
Network Security (Firewalls, IDS, IPS, etc.)
Network Performance Optimization
Network Troubleshooting
Network Management
Network Monitoring
Network Design
Network Architecture
Network Topology Design
Network Capacity Planning
Network Traffic Management
Network Quality of Service (QoS)
Network Service Level Agreement (SLA)
Network Operations Center (NOC)
Network Operations (NetOps)
Network Function Virtualization (NFV)
Software-Defined Networking (SDN)
Network Functions (NF)
Virtual Network Functions (VNF)
Edge Computing
IoT (Internet of Things)
5G
AI (Artificial Intelligence)
Machine Learning (ML)
Data Analytics
Big Data
Cloud Computing
Hybrid Cloud
Multi-Cloud
Serverless Architecture
Microservices Architecture
Containerization
Orchestration
Automation
Scripting
Configuration Management
Infrastructure as Code (IaC)
Infrastructure Automation
Network Automation
Network Configuration
Network Topology
Network Protocols (TCP/IP, UDP, ICMP, etc.)
Network Routing (OSPF, BGP, etc.)
Network Switching (L2, L3, etc.)
Network Security (Firewalls, IDS, IPS, etc.)
Network Performance Optimization
Network Troubleshooting
Network Management
Network Monitoring
Network Design
Network Architecture
Network Topology Design
Network Capacity Planning
Network Traffic Management
Network Quality of Service (QoS)

Tier 1 NOC Analyst (Night Shift)