AZ-700T00: Designing and Implementing Microsoft Azure Networking Solutions Course Overview

AZ-700T00: Designing and Implementing Microsoft Azure Networking Solutions Course Overview

The AZ-700T00: Designing and Implementing Microsoft Azure Networking Solutions course is an in-depth training program focused on Azure networking features and components. It is aimed at IT professionals who want to learn how to design, implement, and manage Azure networking solutions. Throughout the course, learners will explore various aspects of Azure networking, such as Virtual networks, Hybrid connections, ExpressRoute, Load balancing, network security, and Network monitoring.

Starting with an understanding of Azure Virtual networks, Public and private DNS services, and Connectivity options, students will progress through hybrid networking design, including VPNs and Azure Virtual WAN. They will also delve into ExpressRoute for private connectivity, Load balancing for both HTTP(S) and non-HTTP(S) traffic using Azure services, and ensuring network security with tools like Azure Firewall and DDoS Protection.

Modules on private access to Azure services will cover Azure Private Link and endpoints, while the Network monitoring section will teach students about monitoring network performance and health. By completing the course, learners will gain valuable skills in managing Azure networking components, preparing them for the AZ-700 certification exam and enhancing their career prospects in cloud networking.

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Course Prerequisites

To ensure that participants are prepared to take full advantage of the AZ-700T00: Designing and Implementing Microsoft Azure Networking Solutions course, the following minimum prerequisites are recommended:


  • Basic understanding of network concepts, including LANs, WANs, VPNs, and IP addressing (IPv4 and IPv6).
  • Fundamental knowledge of Azure services, particularly Azure Virtual Networks and Azure compute resources like VMs.
  • Experience with cloud computing concepts and an understanding of how cloud services operate.
  • Familiarity with on-premises virtualization technologies, including VMs and virtual networking.
  • An understanding of network security principles and best practices.
  • Prior hands-on experience with Azure Portal, ARM templates, operating systems, and command-line tools.
  • For the best learning experience, prior completion of the Azure Fundamentals course (AZ-900) or equivalent knowledge is highly recommended.

These prerequisites are designed to ensure that learners have a foundational understanding of networking and Azure services to maximize the benefits of the training. The course material will build upon these basics to deepen your expertise in Azure networking solutions.


Target Audience for AZ-700T00: Designing and Implementing Microsoft Azure Networking Solutions

The AZ-700T00 course is designed for IT professionals looking to master Azure networking solutions for enhanced cloud infrastructure.


  • Network Engineers and Architects involved in cloud solutions design
  • Cloud Solutions Architects focusing on Azure infrastructure
  • Azure Administrators managing virtual networks and hybrid connections
  • IT Security Professionals responsible for network security
  • DevOps Engineers integrating Azure networking into deployment pipelines
  • Infrastructure Engineers transitioning from on-premises to cloud-based networks
  • IT Professionals seeking certification in Azure networking services
  • System Integrators implementing complex cloud networking solutions
  • Technical Consultants providing advice on Azure networking best practices
  • IT Project Managers overseeing cloud infrastructure projects


Learning Objectives - What you will Learn in this AZ-700T00: Designing and Implementing Microsoft Azure Networking Solutions?

Introduction to the AZ-700T00 Course Learning Outcomes:

In the AZ-700T00: Designing and Implementing Microsoft Azure Networking Solutions course, students will learn how to design and implement various Azure networking services to create robust, secure, and scalable cloud infrastructure.

Key Learning Objectives and Outcomes:

  • Understand and implement Azure Virtual Networks, including configuration and management of public and private IP services.
  • Design and deploy cross-VNet connectivity and implement virtual network routing for optimized traffic flow.
  • Configure Azure Virtual Network NAT to facilitate outbound connectivity for virtual networks.
  • Implement and manage hybrid networking, including site-to-site VPN and Point-to-Site VPN connections, along with Azure Virtual WAN.
  • Design and implement Azure ExpressRoute for private, high-speed connectivity to Azure services.
  • Learn to load balance non-HTTP(S) traffic using Azure Load Balancer and Azure Traffic Manager.
  • Gain expertise in load balancing HTTP(S) traffic with Azure Application Gateway and Azure Front Door.
  • Design and implement network security measures, including Azure DDoS Protection, Azure Firewall, Network Security Groups, and Web Application Firewall on Azure Front Door.
  • Understand and configure private access to Azure services using Azure Private Link, private endpoints, and service endpoints.
  • Master network monitoring tools and practices, like Azure Monitor and Network Watcher, to ensure network performance and health.

Technical Topic Explanation

ExpressRoute

ExpressRoute is a service provided by Microsoft Azure that allows you to establish a private connection between your organization’s datacenter and Azure’s cloud infrastructure. This bypasses the internet, providing a more reliable, faster, and more secure connectivity than regular internet-based connections. It's particularly useful for scenarios demanding high throughput and low latency, such as data migration, disaster recovery, and hybrid applications. ExpressRoute is crucial for businesses aiming to enhance network performance and maintain robust security standards while leveraging Azure’s cloud services.

Load balancing

Load balancing is a technique used in computer networks to distribute traffic across multiple servers effectively. This ensures no single server becomes overwhelmed, promoting optimal resource utilization and maximizing speed. Particularly in environments like Microsoft Azure, load balancing is crucial for maintaining service availability and performance. By balancing the load, it helps prevent server overloads, decreases response times, and increases reliability of applications. Especially in courses like AZ-700, designing and implementing Microsoft Azure networking solutions, understanding load balancing is key to creating robust and scalable network architectures.

Network security

Network security involves protecting a computer network from intruders, whether targeted attackers or opportunistic malware. It includes a range of practices, technologies, and processes to safeguard the integrity, confidentiality, and availability of data and network services. Effective network security manages access to the network, detects and prevents a variety of threats, and employs both hardware and software technologies. Key components include firewalls, antivirus software, intrusion detection systems, and secure protocols. It's crucial for preventing data breaches and maintaining trust in IT systems while ensuring compliance with relevant regulations.

Network monitoring

Network monitoring is a critical IT process where various components of a network, such as servers, firewalls, routers, switches, and the overall traffic flow, are consistently observed and reviewed to ensure optimal performance and early detection of issues. This practical approach helps in identifying bottlenecks, failures, and security threats, ensuring the network's reliability, performance, and security. Effective network monitoring can preempt failures, minimize downtime, and enhance user productivity by ensuring the network operates smoothly and efficiently.

Public and private DNS services

Public and private DNS (Domain Name System) services are essential for managing domain names and internet navigation. Public DNS, operated by organizations like Google or OpenDNS, is accessible to everyone for converting website names to IP addresses. Private DNS, on the other hand, is controlled within specific networks such as a company's internal network. It enhances security by managing the resolution of domain names in a private environment, which isn't accessible from the public internet. This distinction is crucial for safeguarding data and ensuring that only authorized users can access specific network resources.

Connectivity options

Connectivity options in the context of Microsoft Azure, specifically relating to the AZ-700: Designing and Implementing Microsoft Azure Networking Solutions certification, involve various ways to connect services and environments. This includes VPNs, ExpressRoute for private connections to Azure, peering for inter-network connectivity, and other networking tools designed to ensure secure, reliable, and scalable communication paths between enterprise infrastructures and Azure services. Understanding these options allows professionals to effectively design and implement networking solutions that support application requirements and business continuity in the cloud.

VPNs

A VPN, or Virtual Private Network, is a technology that creates a secure and encrypted connection over a less secure network, such as the internet. It allows you to securely access and transmit sensitive data by routing your network traffic through a specially configured remote server run by a VPN host. This means that any data traveling between your computer and the VPN server is encrypted and safe from eavesdropping. VPNs are commonly used to protect privacy, secure information, and bypass internet restrictions by masking your true network location.

Azure Virtual WAN

Azure Virtual WAN is a networking service designed to enhance global connectivity and simplifying network management. It interconnects Azure services and on-premise environments through a unified hub-and-spoke architecture. This configuration streamlines traffic flow, improves overall network speed, and enhances security across multiple regions. The service seamlessly integrates with other Azure offerings, allowing for efficient scaling and management of resources. Ideal for enterprises looking to optimize their operations, Azure Virtual WAN supports various connectivity options like VPN, ExpressRoute, and Azure-to-Azure connections, facilitating a robust and flexible network infrastructure.

Azure Private Link

Azure Private Link is a service that lets you securely and privately access Azure services, like storage and databases, from your virtual network. It ensures that the data travels through the Azure network, avoiding the public internet, which enhances security. This service sets up a private connection using a Microsoft backbone network, making it ideal for enterprises that prioritize network security. It simplifies the network architecture and helps in managing compliance requirements by reducing data exposure to public networks. This feature is crucial in designing and implementing Microsoft Azure networking solutions, especially for sensitive or regulated workloads.

Azure Firewall

Azure Firewall is a cloud-based service in Microsoft Azure that provides high-level security by controlling both inbound and outbound network traffic. It protects your virtual network resources by filtering traffic based on rules set by administrators. Azure Firewall is designed to be highly available, scalable, and fully integrated with Microsoft Azure Monitor for logging and analytics. This facilitates a more secure, controlled network environment supporting various complex networking solutions.

DDoS Protection

DDoS (Distributed Denial of Service) protection refers to security measures taken to defend a network or server against DDoS attacks. In these attacks, multiple compromised systems flood the target with a high volume of internet traffic to overload its resources, causing interruption of service. DDoS protection works by identifying, filtering, and blocking this malicious traffic to maintain service availability. This defense often involves combining firewalls, anti-DDoS hardware, and software solutions to analyze and drop attack traffic before it reaches the target, ensuring the regular operation and reliability of services.

Azure networking features and components

Azure networking features and components are essential for designing and implementing robust Microsoft Azure networking solutions. Key components include Virtual Networks, which allow you to create isolated and highly-secure networks; Load Balancers and Application Gateways, which help distribute traffic and optimize app performance; and VPN Gateways for secure connections between Azure and on-premises networks. Azure also offers advanced network security tools like Network Security Groups and Azure Firewall, providing fine-grained access control and protection against threats. Mastery of these tools, as covered in the AZ-700: Designing and Implementing Microsoft Azure Networking Solutions course, is crucial for effective network management in Azure.

Virtual networks

Virtual networks in the context of Microsoft Azure (specifically relevant to the AZ-700, Designing and Implementing Microsoft Azure Networking Solutions exam) are isolated networks on the Azure cloud platform. They allow you to securely connect Azure services and on-premise infrastructure without exposing those services directly to the public internet. This setup enables you to design, deploy and manage your network topology within the Azure infrastructure, providing enhanced security, scalability, and control over your network resources. Virtual networks are fundamental in creating a structured, efficient, and secure cloud environment.

Hybrid connections

Hybrid connections in technology refer to the setup where an organization’s on-premises IT infrastructure is connected to cloud services. This allows for a blend of data and applications to be managed across both local and cloud environments. By using hybrid connections, businesses can enjoy the flexibility and scalability of cloud computing, while still retaining critical data or legacy applications on their own servers. This approach is particularly useful for transitioning to the cloud at a comfortable pace and for meeting specific regulatory or data sovereignty requirements.

Target Audience for AZ-700T00: Designing and Implementing Microsoft Azure Networking Solutions

The AZ-700T00 course is designed for IT professionals looking to master Azure networking solutions for enhanced cloud infrastructure.


  • Network Engineers and Architects involved in cloud solutions design
  • Cloud Solutions Architects focusing on Azure infrastructure
  • Azure Administrators managing virtual networks and hybrid connections
  • IT Security Professionals responsible for network security
  • DevOps Engineers integrating Azure networking into deployment pipelines
  • Infrastructure Engineers transitioning from on-premises to cloud-based networks
  • IT Professionals seeking certification in Azure networking services
  • System Integrators implementing complex cloud networking solutions
  • Technical Consultants providing advice on Azure networking best practices
  • IT Project Managers overseeing cloud infrastructure projects


Learning Objectives - What you will Learn in this AZ-700T00: Designing and Implementing Microsoft Azure Networking Solutions?

Introduction to the AZ-700T00 Course Learning Outcomes:

In the AZ-700T00: Designing and Implementing Microsoft Azure Networking Solutions course, students will learn how to design and implement various Azure networking services to create robust, secure, and scalable cloud infrastructure.

Key Learning Objectives and Outcomes:

  • Understand and implement Azure Virtual Networks, including configuration and management of public and private IP services.
  • Design and deploy cross-VNet connectivity and implement virtual network routing for optimized traffic flow.
  • Configure Azure Virtual Network NAT to facilitate outbound connectivity for virtual networks.
  • Implement and manage hybrid networking, including site-to-site VPN and Point-to-Site VPN connections, along with Azure Virtual WAN.
  • Design and implement Azure ExpressRoute for private, high-speed connectivity to Azure services.
  • Learn to load balance non-HTTP(S) traffic using Azure Load Balancer and Azure Traffic Manager.
  • Gain expertise in load balancing HTTP(S) traffic with Azure Application Gateway and Azure Front Door.
  • Design and implement network security measures, including Azure DDoS Protection, Azure Firewall, Network Security Groups, and Web Application Firewall on Azure Front Door.
  • Understand and configure private access to Azure services using Azure Private Link, private endpoints, and service endpoints.
  • Master network monitoring tools and practices, like Azure Monitor and Network Watcher, to ensure network performance and health.