Aruba ACMP Practice Test Questions, Aruba ACMP Exam Dumps

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Foundations for the ACMP Exam: Aruba Architecture and WLAN Fundamentals

The Aruba Certified Mobility Professional (ACMP) certification is a highly regarded credential for network engineers who design, implement, and manage complex wireless LAN solutions using Aruba technologies. The ACMP exam is the test that validates a candidate's ability to work with the advanced features of ArubaOS 8, including the Mobility Master architecture, clustering, and sophisticated security and RF optimization capabilities. This certification is not for newcomers; it is designed for professionals with a solid foundation in networking and experience with Aruba's enterprise wireless products.

Passing the ACMP exam signifies that an engineer has moved beyond basic WLAN setup and can architect a scalable, resilient, and secure mobility solution for a large enterprise. The exam covers a wide array of topics, from initial system design and configuration to advanced troubleshooting and performance tuning. The questions are typically scenario-based, requiring candidates to apply their knowledge to solve real-world problems. Earning the ACMP certification is a significant milestone that demonstrates a deep level of expertise in the Aruba mobility platform.

The Role of an Aruba Certified Mobility Professional

An Aruba Certified Mobility Professional is an expert in enterprise wireless networking. This role involves much more than just configuring access points. A professional with this certification is responsible for the entire lifecycle of a wireless network. This starts with the planning and design phase, where they work with business stakeholders to understand requirements for coverage, capacity, security, and specific application performance. They then translate these requirements into a detailed technical design based on Aruba's best practices and architectural models.

Following the design, the ACMP is responsible for the hands-on implementation, configuring the Mobility Conductors, controllers, and access points to bring the network to life. Once the network is operational, their role shifts to management, monitoring, and optimization. They are the go-to experts for troubleshooting complex connectivity or performance issues, ensuring the network remains stable and secure, and planning for future growth. The ACMP exam is structured to validate the skills needed to perform all aspects of this demanding role.

The Aruba Mobility Master (MM) - Mobility Conductor (MC) Architecture

A fundamental shift in Aruba's architecture, and a core topic of the ACMP exam, was the move to the Mobility Master (now Mobility Conductor) architecture with ArubaOS 8. This is a centralized architecture designed for large-scale enterprise networks. At the top of the hierarchy is the Mobility Conductor, which can be a physical appliance or a virtual machine. The Mobility Conductor acts as the single, centralized point of management and configuration for the entire wireless network. It does not terminate any user traffic itself.

Below the Mobility Conductor are the Mobility Controllers. These controllers are deployed in the data center or at major campus locations and are responsible for terminating AP and user traffic. They receive their configuration from the Mobility Conductor. This hierarchical design provides significant benefits. It allows for centralized licensing, simplified configuration management, and live firmware upgrades with zero downtime. For the ACMP exam, you must have a deep and thorough understanding of this architecture and the roles of each component.

Understanding ArubaOS 8 Features

The ACMP exam is based on ArubaOS 8, which introduced several game-changing features that a professional engineer must master. One of the most significant is Controller Clustering. This feature allows multiple Mobility Controllers to be grouped into a cluster, which acts as a single, highly resilient unit. The cluster provides seamless hitless failover for both clients and access points. If one controller in the cluster fails, the APs and clients are automatically redirected to another active controller in the cluster with no interruption in service.

Another key feature is AirMatch, the next generation of Aruba's radio resource management. AirMatch uses a centralized, network-wide view from the Mobility Conductor to make much more intelligent and dynamic decisions about channel and power planning for the APs. The ACMP exam will expect you to understand the benefits of these features and how they are configured and managed from the centralized Mobility Conductor.

WLAN Fundamentals: RF, Channels, and Antennas

While the ACMP exam focuses on Aruba's products, it assumes a strong prerequisite knowledge of fundamental wireless LAN and radio frequency (RF) principles. You cannot effectively design or troubleshoot a wireless network without understanding the underlying physics. This includes a solid grasp of the 2.4 GHz and 5 GHz frequency bands and the channels available in each. You must understand the concepts of channel width (20 MHz, 40 MHz, 80 MHz) and the trade-offs between higher bandwidth and increased potential for interference.

You should also be familiar with basic antenna theory, including the difference between omnidirectional and directional antennas, and concepts like antenna gain and beamwidth. Understanding how RF signals propagate, and how they are affected by factors like absorption, reflection, and multipath, is essential for planning AP placement and for troubleshooting coverage or performance issues. The ACMP exam will expect you to apply these foundational principles in the context of Aruba's solutions.

Initial Setup and Configuration of a Mobility Conductor

A key practical skill for the ACMP exam is the ability to perform the initial setup and configuration of a Mobility Conductor. This process typically starts with connecting to the device's console port and running through the initial setup wizard. During this wizard, you will configure basic settings such as the device's hostname, IP address, administrative credentials, and the country code, which is critical for determining the legal RF channels and power levels.

Once the initial setup is complete, the next steps involve configuring the VLANs and IP interfaces that the Mobility Conductor will use for management. You will then need to establish a secure connection between the Mobility Conductor and the Mobility Controllers that it will manage. This involves a process of adding the controllers to the Mobility Conductor's management hierarchy. A solid understanding of this initial provisioning process is a foundational requirement for the ACMP exam.

Navigating the ArubaOS 8 User Interface

The primary interface for managing an ArubaOS 8 environment is a modern, web-based graphical user interface (GUI). A professional preparing for the ACMP exam must be completely comfortable and efficient in navigating this interface. The GUI is organized in a hierarchical structure. At the top level, you have the Mobility Conductor. Below that, you can have one or more managed nodes, which can be either individual Mobility Controllers or groups of controllers.

Configuration can be applied at different levels of this hierarchy. For example, you can create a WLAN configuration at a specific group level, and it will be inherited by all the controllers within that group. This hierarchical model is incredibly powerful for managing large networks, but it also requires a clear understanding of where to apply specific configurations. The ACMP exam will test your ability to navigate this hierarchy to find information and to apply configurations at the correct level.

Designing and Configuring Secure WLANs

The most fundamental task in any wireless deployment is the creation of the Wireless LANs (WLANs) that users will connect to. The ACMP exam requires you to be an expert in designing and configuring these WLANs to be both secure and high-performing. In the Aruba architecture, a WLAN is not just a simple SSID. It is a collection of different profiles that work together to define the complete user experience, from authentication and encryption to quality of service and firewall policies.

This profile-based approach is incredibly flexible and is a core concept for the ACMP exam. You will create profiles for the SSID itself, for the security settings (the AAA profile), and for the virtual AP that the user ultimately connects to. By combining these different profiles, you can create highly customized WLANs for different user groups, such as a secure WPA3-Enterprise network for corporate users and a simple open network with a captive portal for guests, all broadcast from the same access points.

Understanding Virtual AP (VAP) Profiles

The Virtual AP, or VAP, profile is a central component in the WLAN configuration and a key topic for the ACMP exam. A VAP is a logical entity that represents a single wireless network broadcast by an access point. A single physical AP can support multiple VAPs, allowing it to broadcast multiple SSIDs simultaneously. The VAP profile is where many of the key settings for the WLAN are configured.

Within the VAP profile, you will define which SSID profile and which AAA profile the WLAN will use. You will also configure settings that control the RF behavior, such as which bands (2.4 GHz or 5 GHz) the SSID will be broadcast on. You can also configure advanced features like broadcast/multicast optimization and quality of service settings. A deep understanding of all the parameters within the VAP profile is essential for fine-tuning the behavior of your wireless networks.

Advanced Authentication with 802.1X and RADIUS

For any secure corporate WLAN, the standard for authentication is IEEE 802.1X. The ACMP exam requires you to be an expert in this technology. 802.1X provides a framework for port-based network access control. In a wireless context, it means that a user cannot gain access to the network until they have successfully authenticated. This authentication is not handled by the AP or the controller directly. Instead, they act as intermediaries, passing the authentication request to a centralized authentication server.

This server is typically a Remote Authentication Dial-In User Service (RADIUS) server, such as Aruba's ClearPass Policy Manager. The RADIUS server is responsible for checking the user's credentials (e.g., username and password, or a digital certificate) against a user database like Active Directory. The ACMP exam will test your ability to configure the Aruba controller to act as a RADIUS client and to build the necessary AAA profiles to support a robust 802.1X implementation.

Aruba's Role-Based Access Control

A cornerstone of Aruba's security model, and a critical topic for the ACMP exam, is role-based access control. After a user successfully authenticates to the network, the RADIUS server can assign them a specific role. This role is then used by the Aruba controller to enforce a specific set of access policies for that user. This is a much more powerful and flexible model than simply placing a user onto a specific VLAN.

A role is a container for a set of policies. This can include a firewall policy that defines which applications the user can access, a quality of service policy that prioritizes their traffic, and a bandwidth contract that limits their data rate. For example, an "employee" role might have full access to the network, while a "guest" role might only have access to the internet. The ACMP exam requires you to master this concept and be able to design and implement a comprehensive role-based security policy.

Mastering AP Groups for Scalable Configuration

In a large enterprise network with hundreds or thousands of access points, configuring each AP individually is not feasible. To solve this problem, Aruba uses the concept of AP Groups. This is a fundamental concept for scalable management and is a key topic for the ACMP exam. An AP Group is a logical grouping of access points that share a common configuration. Instead of configuring each AP, you configure the AP Group, and all the APs in that group will inherit the settings.

Within the AP Group configuration, you will define which VAPs (WLANs) should be broadcast by the APs in that group. You can also configure group-specific RF settings, power levels, and other parameters. This allows you to have different sets of WLANs and different RF profiles for different areas of your campus, for example, a high-density configuration for an auditorium and a standard configuration for an office area.

Optimizing RF with Adaptive Radio Management (ARM)

Managing the radio frequency (RF) environment is one of the most complex aspects of running a wireless network. Aruba's solution for this is Adaptive Radio Management, or ARM. This is a critical feature to understand for the ACMP exam. ARM is a distributed technology that runs on the access points and is responsible for automatically and intelligently optimizing the RF environment. It continuously monitors the airwaves for interference and for the RF signals from neighboring APs.

Based on this information, ARM will automatically adjust the channel and power settings of each AP to minimize co-channel interference and to ensure optimal coverage. This dynamic optimization is essential for maintaining a high-performing network, especially in dense environments with many competing Wi-Fi networks. The ACMP exam will test your knowledge of how ARM works and how to configure its various parameters to suit different environmental conditions.

Seamless Roaming and ClientMatch

In a mobility-focused network, users are constantly moving. A key requirement is to ensure that their wireless connection remains stable and performant as they roam from one access point to another. The ACMP exam will test your understanding of the technologies that enable seamless roaming. This involves a deep understanding of the 802.11 roaming standards, such as 802.11k, 802.11r, and 802.11v, which help to speed up the roaming process and provide a better user experience.

Aruba has its own proprietary technology to further enhance this experience called ClientMatch. ClientMatch is an intelligent feature that continuously monitors the health of the connection for every client on the network. It can identify clients that are "sticky," meaning they are staying connected to a distant AP even when a much closer AP is available. ClientMatch will then proactively steer that client to a better AP, ensuring that the client always has the best possible connection.

The Aruba Policy Enforcement Firewall (PEF)

A cornerstone of Aruba's security architecture, and a central focus of the ACMP exam, is the Policy Enforcement Firewall (PEF). The PEF is a stateful, identity-based firewall that is built directly into the Aruba Mobility Controllers. Unlike a traditional firewall that makes decisions based only on IP addresses and ports, the PEF is aware of the user's identity and their assigned role. This allows for the creation of much more granular and context-aware security policies.

Every packet that passes from a wireless client through the controller is inspected by the PEF. The firewall then applies the specific policy that has been assigned to that user's role. This means you can have different security rules for an employee, a guest, and an IoT device, even when they are connected to the same wireless network. The ACMP exam requires a deep and practical understanding of how to configure and leverage this powerful security feature.

Crafting Firewall Policies and Rules

The core of the PEF is the firewall policy, which is a collection of individual access control rules. A professional preparing for the ACMP exam must be an expert in crafting these policies. A firewall policy is an ordered set of rules that are processed from the top down. Each rule defines a source, a destination, a service (protocol and port), and an action (permit or deny). The first rule that matches a given traffic flow is applied.

The power of the PEF lies in its use of aliases instead of just IP addresses. You can create an alias for a network, a group of hosts, or even for the "user" itself. This allows you to write a rule like "permit user to any destination on any service," which is much more flexible than a rule based on a specific client IP address, as the user's IP may change as they roam. The ACMP exam will test your ability to construct these policies to meet specific security requirements.

Deep Packet Inspection and Application Visibility

Modern security requires more than just blocking ports. Many applications now use standard ports like HTTP or HTTPS to communicate, making it difficult for a traditional firewall to distinguish between them. To solve this, the Aruba PEF includes a Deep Packet Inspection (DPI) engine. This is an advanced topic for the ACMP exam. The DPI engine can look inside the packets to identify the specific application that is generating the traffic, regardless of the port it is using.

This application awareness is exposed to the firewall, allowing you to create much more powerful rules. For example, instead of just allowing all web traffic, you can create a rule that permits access to a specific corporate web application while blocking access to social media sites, even though they all use HTTPS. This application-level visibility and control is a key feature of the PEF and a critical tool for enforcing corporate security policies.

Role-Based Access Control Lists (ACLs)

Once a firewall policy is created, it must be applied to a user role. This is the final step in the role-based access control model, a central theme of the ACMP exam. When a user authenticates to the network, they are assigned a role. You then associate a specific firewall policy with that role. From that point on, all traffic from that user will be subject to the rules in the assigned policy.

This model is incredibly powerful. You can create a role for "Executives" that has unrestricted access, a role for "Engineers" that has access to lab equipment, and a role for "Sales" that has access to the CRM system. You can even have a "Quarantine" role with very limited access that is assigned to users whose devices have been flagged as non-compliant by a security system. The ACMP exam will expect you to be able to design a complete security solution using this role-based firewall policy model.

Aruba's Wireless Intrusion Prevention System (WIPS)

Beyond controlling user access, an enterprise wireless network must also be protected from external RF-based threats. The ACMP exam requires a solid understanding of Aruba's Wireless Intrusion Prevention System, or WIPS. WIPS is a system that continuously monitors the airwaves for wireless threats. The access points themselves can be configured to dedicate some of their time to scanning the RF environment, or you can deploy dedicated Air Monitor APs for full-time scanning.

The WIPS system can detect a wide variety of threats. This includes rogue access points, which are unauthorized APs connected to the corporate network. It can also detect common wireless attacks, such as denial-of-service attacks or attempts to set up an "evil twin" AP to trick users into connecting to a malicious network. When a threat is detected, the system can alert an administrator and, in some cases, take active containment measures.

Implementing Captive Portal for Guest Access

Providing secure and convenient network access for guests and visitors is a common requirement in any enterprise. The ACMP exam will test your knowledge of how to implement a captive portal for guest Wi-Fi. A captive portal is a web page that is presented to a user when they first connect to a guest network. The user must interact with this page, for example, by accepting a set of terms and conditions or by entering a username and password, before they are granted access to the internet.

In the Aruba architecture, the captive portal is implemented as part of the AAA profile for the guest WLAN. You can configure the controller to redirect all unauthenticated guest users to an internal or external web page. The controller will then intercept the user's login attempt and, upon successful authentication, will change their user role to one that permits internet access. The ACMP exam requires a solid understanding of this entire workflow.

High Availability and Redundancy Concepts

For any mission-critical enterprise network, high availability is not a luxury; it is a strict requirement. The ACMP exam places a strong emphasis on the ability to design and implement a resilient Aruba wireless network that can withstand various types of failures with minimal impact on the users. This involves building redundancy into every layer of the architecture.

This starts with the physical infrastructure, using redundant power supplies and network connections for the controllers. It also involves having redundant controllers. The ACMP exam will test your knowledge of different redundancy models. The simplest is a primary-backup model, where a second controller stands by and takes over if the primary fails. A more advanced model is clustering, which provides a much more seamless and scalable solution. A professional engineer must be able to choose and design the appropriate redundancy model for a given business requirement.

Controller Clustering for Seamless Failover

Controller Clustering is one of the most important and powerful features of ArubaOS 8, and it is a major topic on the ACMP exam. A cluster is a group of Mobility Controllers that work together and are managed as a single logical entity. The cluster provides a number of key benefits, with the most important being seamless, stateful failover. The controllers in a cluster share their user and session information with each other in real-time.

If one controller in the cluster fails, the access points and the connected clients that were anchored to that controller will automatically and instantly fail over to another active controller in the same cluster. Because the session state is shared, the user's session is maintained, and they do not even notice that a failover has occurred. This "hitless" failover is a massive improvement over older redundancy models. The ACMP exam will require a deep understanding of how to design, build, and manage a controller cluster.

AP Fast Failover and High Availability

In addition to the controller-level redundancy, the ACMP exam also covers the mechanisms that provide high availability for the access points themselves. An AP must be able to quickly find and connect to a controller to provide service. In a clustered environment, each AP will form an active tunnel to one controller in the cluster (its active AP anchor) and a standby tunnel to another controller (its standby AP anchor).

If the AP loses connectivity to its active anchor, it can switch to its standby anchor in a fraction of a second, a feature known as AP Fast Failover. In a non-clustered environment, you can configure a primary and a backup controller for each AP group. The AP will try to connect to the primary, and if it is unavailable, it will fail over to the backup. The ACMP exam will test your knowledge of these different AP high availability mechanisms.

A Structured Troubleshooting Methodology

Despite the best designs, problems can and will occur in any complex network. The ACMP exam requires a candidate to be a skilled troubleshooter. Effective troubleshooting is not about guesswork; it is a systematic and logical process. The first step is to clearly define the problem and gather as much information as possible. This includes identifying who is affected, what the symptoms are, and when the problem started.

The next step is to analyze the collected data and form a hypothesis about the root cause. A good troubleshooter will start by examining the most likely causes and will work their way down to the less likely ones. They will then test their hypothesis. Based on the results of the test, they will either confirm the cause and implement a solution, or they will form a new hypothesis and repeat the process. The ACMP exam questions are often designed to test this logical problem-solving ability.

Using the Aruba CLI for Diagnostics

While the web-based GUI is the primary tool for configuration, the command-line interface (CLI) is an indispensable tool for advanced troubleshooting. The ACMP exam will expect you to be proficient in using the CLI to diagnose problems. The CLI provides access to a huge number of "show" commands that can provide detailed, real-time information about the state of the system that is not always available in the GUI.

For example, you can use commands like show user-table to see a list of all connected clients and their associated roles and policies. You can use show ap database to see the status of all your access points. You can use show running-config to view the current configuration of the controller. The ability to quickly navigate the CLI and use these diagnostic commands is a hallmark of a professional Aruba engineer.

Analyzing Logs and Running Debug Commands

When troubleshooting a difficult problem, one of the most valuable sources of information is the system's log files. The ACMP exam requires you to know how to access and interpret these logs. The Aruba controller maintains a detailed log of system events, which can be viewed using the show log command. These logs can often provide clues about the root cause of a problem, such as an authentication failure or a hardware issue.

For even deeper analysis, you can enable debugging for specific processes. The logging level debugging command allows you to increase the verbosity of the logs for a particular feature, such as the 802.1X authentication process. This can generate a huge amount of output, but it can be invaluable for tracing a complex problem step-by-step. The ACMP exam will test your understanding of how to use these logging and debugging tools to solve complex issues.

Spectrum Analysis and RF Troubleshooting

Many wireless problems are not caused by a misconfiguration but by issues in the radio frequency (RF) environment. The ACMP exam will expect you to have a foundational understanding of how to troubleshoot these RF issues. This includes understanding how to use tools to identify sources of interference. Many modern Aruba APs have a built-in spectrum analyzer that can be used to see all the RF activity in the environment, not just Wi-Fi traffic.

This allows you to identify non-Wi-Fi sources of interference, such as microwave ovens, cordless phones, or Bluetooth devices, that can disrupt the wireless network. You should also be able to use the controller's tools to analyze the RF health of your own network, looking for issues like co-channel interference or low signal-to-noise ratios. A professional engineer must be able to distinguish between a configuration problem and an underlying RF problem.

Implementing Remote Access Points (RAPs)

A common requirement for modern enterprises is to provide secure corporate network access for remote and home office users. Aruba's solution for this is the Remote Access Point, or RAP. This is an important topic for the ACMP exam. A RAP is a special type of access point that is designed to be deployed at a remote location. It builds a secure, encrypted IPsec tunnel back to a Mobility Controller in the corporate data center.

Once this tunnel is established, the RAP can broadcast the same corporate SSIDs that are used in the main office. This means that a remote user can have the exact same wireless experience at home as they do in the office, with access to the same resources and the same security policies applied. The ACMP exam will test your knowledge of how to provision a RAP and configure the controller to support these secure remote access connections.

Configuring Secure VPN Tunnels

The ACMP exam also covers the controller's capabilities as a general-purpose VPN concentrator. In addition to terminating tunnels from RAPs, a Mobility Controller can also terminate IPsec VPN tunnels from third-party VPN clients and branch office routers. This allows the controller to act as a secure gateway for a variety of remote access and site-to-site connectivity scenarios.

A professional engineer should understand the fundamental concepts of IPsec VPNs, including the different phases of tunnel negotiation (IKE Phase 1 and Phase 2) and the various encryption and authentication protocols that are used. The ACMP exam will expect you to know how to configure the controller to act as a VPN server, including defining the IP address pools for remote clients and the security policies for the VPN traffic.

Wireless Mesh and Point-to-Point Links

In some environments, it may be difficult or impossible to run an Ethernet cable to every location where you need to place an access point. For these situations, Aruba provides a wireless mesh solution. This is an advanced topic that you should be familiar with for the ACMP exam. In a mesh network, some APs (the mesh portals) are connected to the wired network, while other APs (the mesh points) are not. The mesh points connect back to the portals wirelessly, forming a wireless backhaul.

This allows you to extend the wireless network to outdoor areas, remote buildings, or other hard-to-wire locations. The APs automatically form the most optimal mesh links to provide a resilient and high-performing connection. A related technology is the ability to use APs to create a secure, point-to-point wireless bridge between two buildings. The ACMP exam requires a conceptual understanding of these wireless backhaul technologies.

Dynamic Multicast Optimization (DMO)

Handling multicast traffic efficiently is a major challenge in a wireless network. By default, multicast traffic is sent out at a very low data rate to ensure that all clients can receive it, but this consumes a huge amount of valuable airtime. Aruba's solution for this is Dynamic Multicast Optimization, or DMO. This is an advanced feature that you should understand for the ACMP exam.

DMO intelligently converts multicast traffic into unicast traffic. This means that instead of sending one multicast stream at a low data rate, the AP will send a separate, high-data-rate unicast stream to each individual client that has subscribed to the multicast group. This is far more efficient and dramatically improves the performance of applications that rely on multicast, such as video streaming or large-scale device imaging.

Final Review of Key ACMP Exam Topics

As you finalize your preparation for the ACMP exam, it is crucial to consolidate your knowledge around the most important and complex topics. The Mobility Conductor architecture is the absolute foundation; you must be able to describe the roles of the Mobility Conductor and the Mobility Controllers and understand the configuration hierarchy. Controller Clustering is another major topic that you must master, including how it provides hitless failover for clients and APs.

Spend significant time reviewing the profile-based WLAN configuration model, especially the relationship between the SSID, AAA, and VAP profiles. Finally, be an expert in the role-based security model, understanding how a user is assigned a role and how the Policy Enforcement Firewall uses that role to apply a specific policy. A deep understanding of these core architectural concepts is the key to success on the ACMP exam.

Effective Study Techniques and Hands-On Labs

Passing the ACMP exam requires a combination of theoretical knowledge and practical, hands-on skills. The official study guides and training courses are the best starting point, as they are aligned with the exam objectives. However, passive learning is not enough. You must spend significant time in a lab environment, either with physical hardware or a virtualized lab, to gain practical experience with the concepts.

Build a complete solution from scratch. Configure a Mobility Conductor and a controller, create a cluster, and build several different types of WLANs, including an 802.1X network and a guest network with a captive portal. Create different user roles and build complex firewall policies. Use the CLI to troubleshoot common problems. This hands-on practice is the only way to truly solidify the knowledge and to prepare for the complex, scenario-based questions you will face on the ACMP exam.

Conclusion

The ACMP exam is designed to test your ability to think like a professional engineer. The questions will not be simple recall questions. They will be complex scenarios that describe a customer's environment and a specific business problem. Your task is to analyze the scenario, identify the key requirements and constraints, and then select the best solution from the given options.

When you encounter these questions, read them very carefully. Pay close attention to keywords like "most cost-effective," "most scalable," or "most secure," as these are often the key to choosing the correct answer. Eliminate the options that are clearly incorrect. Often, you will be left with two plausible answers. You must then use your deep knowledge of the Aruba architecture and its best practices to determine which of the remaining options is the superior solution for that specific scenario.

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