
[Nov-2025] The Best VMware Professional 2V0-13.24 Professional Exam Questions
Try 100% Updated 2V0-13.24 Exam Questions [2025]
VMware 2V0-13.24 Exam Syllabus Topics:
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NEW QUESTION # 65
Which two outcomes should be achieved by creating a conceptual model in the planning phase of VMware Cloud Foundation?
(Choose two)
Response:
- A. Establish the overall architecture for the deployment
- B. Align the technical design with business requirements
- C. Map out the entire infrastructure, including hardware specifics
- D. Provide detailed information on storage policies
Answer: A,B
NEW QUESTION # 66
An architect is designing a new VMware Cloud Foundation (VCF)-based Private Cloud solution. During the requirements gathering workshop, a stakeholder from the network team stated that:
The solution must ensure that any physical networking component is redundant to N+N.
The solution must ensure inter-datacenter network links are diversely routed.
When writing the design documentation, how should the architect classify the stated requirement?
- A. Manageability
- B. Performance
- C. Recoverability
- D. Availability
Answer: D
Explanation:
In VMware Cloud Foundation (VCF) 5.2, design qualities (non-functional requirements) categorizehowthe system operates. The network team's requirements focus on redundancy and routing diversity, which the architect must classify. Let's evaluate:
Option A: Availability
This is correct. Availability ensures the solution remains operational and accessible. "N+N redundancy" (e.g., dual active components where N failures are tolerated by N spares) for physical networking components eliminates single points of failure, ensuring continuous network uptime. "Diversely routed inter-datacenter links" prevents outages from a single path failure, enhancing availability across sites. In VCF, these align with high-availability network design (e.g., NSX Edge uplink redundancy), makingavailabilitythe proper classification.
Option B: Performance
Performance addresses speed, throughput, or latency (e.g., "10 Gbps links"). Redundancy and diverse routing might indirectly support performance by avoiding bottlenecks, but the primary intent is uptime, not speed.
This doesn't fit the stated requirements' focus.
Option C: Recoverability
Recoverability focuses on restoring service after a failure (e.g., backups, failover time). N+N redundancy and diverse routingpreventdowntime rather than recover from it. While related, the requirements emphasize proactive uptime (availability) over post-failure recovery, making this incorrect.
Option D: Manageability
Manageability concerns ease of administration (e.g., monitoring, configuration). Redundancy and routing diversity are infrastructure design choices, not management processes. This quality doesn't apply.
Conclusion:The architect should classify the requirement asAvailability (A). It ensures the VCF solution's network remains operational, aligning with VCF 5.2's focus on resilient design.
References:
VMware Cloud Foundation 5.2 Planning and Preparation Guide (Section: Design Qualities) VMware Cloud Foundation 5.2 Architecture and Deployment Guide (Section: Network Availability)
NEW QUESTION # 67
Which two operations are managed by VMware Cloud Foundation Lifecycle Manager?
(Choose two)
Response:
- A. Managing software upgrades
- B. Creating and managing VMs
- C. Backing up VMware Cloud Foundation components
- D. Automating the deployment of NSX
Answer: A,D
NEW QUESTION # 68
Which two design decisions are key when ensuring availability for workloads across multiple availability zones in VMware Cloud Foundation?
(Choose two)
Response:
- A. Implementing high-availability (HA) clusters in each availability zone
- B. Designing the network architecture for unified storage across all zones
- C. Using NSX-T for network segmentation and load balancing across zones
- D. Enabling DRS (Distributed Resource Scheduler) to balance workloads automatically
Answer: A,C
NEW QUESTION # 69
Which statement defines the purpose of Business Requirements?
- A. Business requirements define which audience needs to be involved.
- B. Business requirements define which goals and objectives can be achieved.
- C. Business requirements define how the goals and objectives can be achieved.
- D. Business requirements define what goals and objectives need to be achieved.
Answer: D
Explanation:
In the context of VMware Cloud Foundation (VCF) 5.2 and IT architecture design,business requirements articulate the high-level needs and expectations of the organization that the solution must address. They serve as the foundation for the architectural design process, guiding the development of technical solutions to meet specific organizational goals. According to VMware's architectural methodology and standard IT frameworks (e.g., TOGAF, which aligns with VMware's design principles), business requirements focus onwhatthe organization aims to accomplish rather thanhowit will be accomplished orwhowill be involved. Let's evaluate each option:
Option A: Business requirements define which audience needs to be involved.This statement is incorrect.
Identifying the audience or stakeholders (e.g., end users, IT staff, ormanagement) is part of stakeholder analysis or requirements gathering, not the purpose of business requirements themselves. Business requirements focus on the goals and objectives of the organization, not the specific people involved in the process. This option misaligns with the role of business requirements in VCF design.
Option B: Business requirements define how the goals and objectives can be achieved.This statement is incorrect. Thehowaspect-detailing the methods, technologies, or processes to achieve goals-falls under the purview offunctional requirementsortechnical design specifications, not business requirements. For example, in VCF 5.2, deciding to use vSAN for storage or NSX for networking is a technical decision, not a business requirement. Business requirements remain agnostic to implementation details, making this option invalid.
Option C: Business requirements define which goals and objectives can be achieved.This statement is misleading. Business requirements do not determinewhichgoals are achievable (implying a feasibility assessment); rather, they statewhatthe organization intends or needs to achieve. Assessing feasibility comes later in the design process (e.g., during risk analysis or solution validation). In VCF, business requirements might specify the need for high availability or scalability, but they don't evaluate whether those are possible- that's a technical consideration. Thus, this option is incorrect.
Option D: Business requirements define what goals and objectives need to be achieved.This is the correct answer. Business requirements articulatewhatthe organization seeks to accomplish with the solution, such as improving application performance, ensuring disaster recovery, or supporting a specific number of workloads.
In the context of VMware Cloud Foundation 5.2, examples might include "the solution must support 500 virtual machines" or "the environment must provide 99.99% uptime." These statements define the goals and objectives without specifying how they will be met (e.g., via vSphere HA or vSAN) or who will implement them. This aligns with VMware's design methodology, where business requirements drive the creation of subsequent functional and non-functional requirements.
In VMware Cloud Foundation 5.2, the architectural design process begins with capturing business requirements to ensure the solution aligns with organizational needs. The VMware Cloud Foundation Planning and Preparation Guide emphasizes that business requirements establish the "what" (e.g., desired outcomes like cost reduction or workload consolidation), which then informs the technical architecture, such as the sizing of VI Workload Domains or the deployment of management components.
References:
VMware Cloud Foundation 5.2 Planning and Preparation Guide (Section: Requirements Gathering) VMware Cloud Foundation 5.2 Architecture and Deployment Guide (Section: Design Methodology Overview) VMware Validated Design Documentation (Business Requirements Definition, applicable to VCF 5.2 principles)
NEW QUESTION # 70
An architect is updating a design document in preparation for an expansion of their organization's existing VCF environment. Following the completion of a capacity assessment, a new cluster will be deployed to support the hosting of future application deployments. Due to restrictions on the availability of budget for the project, the hardware for the additional cluster has already been procured and there is no additional budget available for future procurements. What should the architect include within the design documentation based on this approach?
- A. A constraint that the procured hardware must be used due to budget restrictions.
- B. A risk that additional hardware is not available for purchase.
- C. An assumption that the new cluster will provide sufficient capacity for the applications.
- D. A requirement that the cluster must be deployed within the existing workload domain.
Answer: A
Explanation:
In VMware Cloud Foundation (VCF) design documentation, architects must adhere to VMware's recommended design methodology, which includes identifying constraints, risks, requirements, and assumptions. These elements ensure the design aligns with the project's scope and limitations. Let's evaluate each option based on the scenario:
Option A: A constraint that the procured hardware must be used due to budget restrictionsA constraint is a limitation or restriction that impacts the design. The scenario explicitly states that hardware has already been procured and no additional budget is available for future procurements. This directly imposes a design constraint: the architect must use the existing, procured hardware for the new cluster. Including this in the design documentation ensures clarity that no alternative hardware options can be considered, aligning with VMware'sVCF 5.2 Architectural Guiderecommendation to document budgetary and resource constraints explicitly in the design process.
Option B: A risk that additional hardware is not available for purchaseA risk represents a potential issue that could impact the project's success. While the lack of budget for future procurements is a fact, it's not framed as a risk (an uncertain event) but as a known limitation. A risk might be "insufficient capacity in the procured hardware," but the statement here focuses on the unavailability of additional purchases, which is already certain due to the budget constraint. Thus, this is better captured as a constraint (A) rather than a risk, per VMware's design methodology.
Option C: A requirement that the cluster must be deployed within the existing workload domainA requirement defines what must be achieved. The scenario doesn't specify that the new cluster must be part of an existing workload domain (a logical grouping of clusters in VCF). It only mentions deployment for future applications, leaving flexibility to create a new workload domain or expand an existing one. Without explicit customer or technical mandates tying the cluster to an existing domain, this isn't a justified inclusion.
Option D: An assumption that the new cluster will provide sufficient capacity for the applicationsAn assumption is a statement taken as true without proof, pending validation. While the capacity assessment suggests the cluster is intended to support future applications, stating it "will provide sufficient capacity" assumes a conclusion not yet verified. TheVCF 5.2 Architectural Guideadvises against assumptions about capacity unless validated, recommending instead that capacity risks or constraints be documented if uncertain.
Here, the constraint (A) takes precedence over an unverified assumption.
Conclusion:Option A is the most appropriate inclusion because it directly reflects the scenario's budgetary limitation as a design constraint, ensuring the architect's decision to use the procured hardware is documented clearly and aligns with VCF design best practices.References:
VMware Cloud Foundation 5.2 Architectural Guide(docs.vmware.com): Section on Design Methodology (Constraints, Risks, Requirements, Assumptions).
VMware Cloud Foundation 5.2 Administration Guide(docs.vmware.com): Cluster Deployment Considerations.
NEW QUESTION # 71
The following design decisions were made relating to storage design:
* A storage policy that would support failure of a single fault domain being the server rack
* Two vSAN OSA disk groups per host each consisting of four 4TB Samsung SSD capacity drives
* Two vSAN OSA disk groups per host each consisting of a single 300GB Intel NVMe cache drive
* Encryption at rest capable disk drives
* Dual 10Gb or faster storage network adapters
Which two design decisions would an architect include within the physical design? (Choose two.)
- A. Dual 10Gb or faster storage network adapters
- B. A storage policy that would support failure of a single fault domain being the server rack
- C. Two vSAN OSA disk groups per host each consisting of four 4TB Samsung SSD capacity drives
- D. Two vSAN OSA disk groups per host each consisting of a single 300GB Intel NVMe cache drive
- E. Encryption at rest capable disk drives
Answer: A,C
NEW QUESTION # 72
An architect is designing a VMware Cloud Foundation (VCF)-based private cloud solution for a customer.
The customer has stated the following requirement:
All components within the solution must be resilient to N+1.
During discovery, the following information has also been provided:
Over the next 3 years, due to various applications being retired, no overall growth in resource consumption is expected.
Following a review of a demand-based capacity report from Aria Operations, the architect has calculated that all of the existing workloads should fit into a 4-node cluster. Once all workloads are migrated, the resources of the cluster will be 90% utilized.
Given the information provided, a combination of which three design decisions satisfy the requirement?
(Choose three.)
- A. The solution will deploy a workload cluster consisting of five VMware vSphere hosts.
- B. The solution will configure vSphere Dynamic Resource Scheduling (DRS) for the workload cluster.
- C. The solution will deploy a workload cluster consisting of four VMware vSphere hosts.
- D. The solution will set the Host failures cluster tolerates for the workload cluster to 1.
- E. The solution will configure vSphere High Availability (HA) for the workload cluster.
- F. The solution will set the DRS Automation level setting for the workload cluster to Partially Automated.
Answer: A,D,E
Explanation:
The requirement for N+1 resiliency means the solution must tolerate the failure of one component (in this case, one ESXi host) without disrupting workloads. In VMware Cloud Foundation (VCF), this is typically achieved through vSphere High Availability (HA) settings and sufficient host capacity. The scenario provides key constraints: a 4-node cluster can handle all workloads at 90% utilization, and no growth is expected. Let's evaluate each option:
Option A: Set the DRS Automation level to Partially AutomatedDRS (Dynamic Resource Scheduling) balances workloads across hosts, but the automation level (Partially Automated vs. Fully Automated) doesn't directly impact N+1 resiliency. Partially Automated requires manual approval for migrations, which doesn't enhance or detract from HA-based resiliency. While DRS is useful, this specific setting isn't critical to the N+1 requirement, per theVMware Cloud Foundation 5.2 Architectural Guide.
Option B: Deploy a workload cluster consisting of five VMware vSphere hostsA 5-node cluster provides N+1 resiliency when paired with HA configured to tolerate one host failure. If one host fails, the remaining four can handle the workload, assuming capacity planning accounts for this. The Aria Operations report indicates a 4-node cluster is sufficient at 90% utilization, but adding a fifth host ensures capacity remains after a failure (reducing utilization to ~72% across four hosts: 90% / 1.25). This aligns with VCF's standard architecture recommendations for resiliency (VMware Cloud Foundation 5.2 Architectural Guide).
Option C: Set the Host failures cluster tolerates for the workload cluster to 1This HA setting ensures the cluster reserves capacity (e.g., CPU and memory) to failover VMs from onefailed host. In VCF, setting "Host failures cluster tolerates" to 1 is a direct implementation of N+1 resiliency, making it a required design decision (vSphere Availability GuideandVCF 5.2 Administration Guide).
Option D: Deploy a workload cluster consisting of four VMware vSphere hostsA 4-node cluster meets capacity needs at 90% utilization but lacks N+1 resiliency without additional capacity. If one host fails, the remaining three would be overcommitted (120% utilization: 90% / 0.75), risking performance or availability.
Thus, this doesn't satisfy the requirement alone.
Option E: Configure vSphere High Availability (HA) for the workload clusterHA is foundational to N+1 resiliency in vSphere and VCF, enabling VM restarts on surviving hosts after a failure. Without HA, N+1 cannot be achieved, making this a mandatory choice (VMware Cloud Foundation 5.2 Administration Guide).
Option F: Configure vSphere Dynamic Resource Scheduling (DRS) for the workload clusterDRS enhances performance by balancing workloads but isn't strictly required for N+1 resiliency, which focuses on availability, not optimization. It's a best practice in VCF but not one of the three critical decisions for this requirement.
Conclusion:
B: A 5-node cluster provides the extra host for N+1.
C: HA set to tolerate 1 host failure implements N+1 policy.
E: HA configuration enables failover, a core N+1 component.Options B, C, and E together ensure the cluster can lose one host without service disruption, meeting the customer's requirement.References:
VMware Cloud Foundation 5.2 Architectural Guide(docs.vmware.com): Section on Workload Domain Design and HA/DRS Configuration.
vSphere Availability Guide(docs.vmware.com): Chapter on Configuring High Availability.
VMware Cloud Foundation 5.2 Administration Guide(docs.vmware.com): HA and Cluster Sizing Guidelines.
NEW QUESTION # 73
Which two strategies are critical for securing workloads in a VMware Cloud Foundation environment?
(Choose two)
Response:
- A. Enabling vSphere HA for automatic recovery of virtual machines
- B. Using a separate storage network to isolate data access from compute
- C. Deploying VMware NSX to configure micro-segmentation for enhanced security
- D. Encrypting all virtual machines with VMware vSphere encryption
Answer: A,D
NEW QUESTION # 74
Which of the following are key steps when differentiating between requirements, assumptions, constraints, and risks in an IT architecture project?
(Choose two)
Response:
- A. Distinguishing between the impact of assumptions and risks.
- B. Identifying constraints that could limit design decisions.
- C. Identifying the scope of the project to define assumptions.
- D. Documenting risks only after the implementation phase.
Answer: B,C
NEW QUESTION # 75
During the requirements gathering workshop for a new VMware Cloud Foundation (VCF)-based Private Cloud solution, the customer states that the solution must:
* Provide a single interface for monitoring all components of the solution.
* Minimize the effort required to maintain the solution to N-1 software versions.
When creating the design document, under which design quality should the architect classify these stated requirements?
- A. Manageability
- B. Performance
- C. Availability
- D. Recoverability
Answer: A
NEW QUESTION # 76
In a VMware Cloud Foundation stretched cluster architecture, what is the primary benefit?
Response:
- A. Easier configuration of storage policies
- B. Increased resilience to outages across sites
- C. Reduced total cost of ownership (TCO) by using fewer hosts
- D. Improved network performance across regions
Answer: B
NEW QUESTION # 77
Which two tasks are part of Day 2 operations for VMware Cloud Foundation?
(Choose two)
Response:
- A. Performing software updates on vCenter Server
- B. Configuring vSAN storage policies
- C. Deploying SDDC Manager
- D. Adding or removing vSphere hosts from clusters
Answer: B,D
NEW QUESTION # 78
Which architecture option is recommended for an organization looking to implement VMware Cloud Foundation with minimal disruption during migration from legacy systems?
Response:
- A. VMware Cloud Foundation with an edge-cloud deployment
- B. VMware Cloud Foundation with cloud automation integration
- C. VMware Cloud Foundation with a hybrid cloud deployment
- D. VMware Cloud Foundation with a traditional three-tier architecture
Answer: C
NEW QUESTION # 79
Which of the following should be part of the logical design when creating a VMware Cloud Foundation Workload Domain?
Response:
- A. The placement of physical network equipment in the data center
- B. The configuration of storage devices for the domain
- C. The specific models of ESXi hosts used in the domain
- D. The expected workload types and their resource consumption
Answer: D
NEW QUESTION # 80
An architect is planning the deployment of Aria components in a VMware Cloud Foundation environment using SDDC Manager and must prepare a logical diagram with networking connections for particular Aria products. Which are two valid Application Virtual Networks for Aria Operations deployment using SDDC Manager? (Choose two.)
- A. X-Region - VLAN backed segment
- B. X-Region - Overlay backed segment
- C. Region-A - Overlay backed segment
- D. Region-A - VLAN backed segment
Answer: A,D
Explanation:
In VMware Cloud Foundation (VCF) 5.2, Aria Operations (formerly vRealize Operations) is deployed via SDDC Manager to monitor the environment. SDDC Manager automates the deployment of Aria components, including networking configuration, using Application Virtual Networks (AVNs). AVNs provide isolated network segments for management components. The question asks for valid AVNs for Aria Operations, which operates within the Management Domain. Let's evaluate:
VCF Networking Context:
Region-Specific (Region-A): Refers to a single VCF instance or region, typically the Management Domain's scope.
Cross-Region (X-Region): Spans multiple regions or instances, used for components needing broader connectivity.
VLAN-backed: Traditional Layer 2 VLANs on physical switches, common for management traffic.
Overlay-backed: NSX-T virtual segments using Geneve encapsulation, used for flexibility and isolation.
Aria Operations Deployment:
Deployed in the Management Domain by SDDC Manager onto a single cluster.
Requires connectivity to vCenter, NSX, and ESXi hosts for monitoring, typically using management network segments.
SDDC Manager assigns Aria Operations to an AVN during deployment, favoring VLAN-backed segments for simplicity and compatibility with management traffic.
Evaluation:
Option A: Region-A - Overlay backed segment
Overlay segments (NSX-T) are supported in VCF for workload traffic or advanced isolation, but Aria Operations, as a management component, typically uses VLAN-backed segments for direct connectivity to other management services (e.g., vCenter, SDDC Manager). While technically possible, SDDC Manager defaults to VLANs for Aria deployments unless explicitly overridden, making this less standard and not a primary valid choice.
Option B: Region-A - VLAN backed segment
This is correct. A VLAN-backed segment in Region-A aligns with the Management Domain's networking, where Aria Operations resides. SDDC Manager uses VLANs (e.g., Management VLAN) for management components to ensure straightforward deployment and connectivity to vSphere/NSX. This is a valid and common AVN for Aria Operations in VCF 5.2.
Option C: X-Region - VLAN backed segment
This is correct. An X-Region VLAN-backed segment supports cross-region management traffic, which is valid if Aria Operations monitors multiple VCF instances or domains (e.g., Management and VI Workload Domains across regions). SDDC Manager supports this for broader visibility, making it a valid AVN, especially in multi-site designs.
Option D: X-Region - Overlay backed segment
Similar to Option A, overlay segments are feasible with NSX-T but less common for Aria Operations. X- Region overlay could theoretically work for multi-site monitoring, but SDDC Manager prioritizes VLANs for management simplicity and compatibility. This is not a default or primary valid choice.
Conclusion:The two valid Application Virtual Networks for Aria Operations deployment using SDDC Manager areRegion-A - VLAN backed segment (B)andX-Region - VLAN backed segment (C). These reflect VCF 5.2's standard use of VLANs for management components, supporting both local and cross- region monitoring scenarios.
References:
VMware Cloud Foundation 5.2 Architecture and Deployment Guide (Section: Aria Operations Deployment) VMware Cloud Foundation 5.2 Planning and Preparation Guide (Section: Networking for Management Components) VMware Aria Operations 8.10 Documentation (integrated in VCF 5.2): Network Configuration
NEW QUESTION # 81
Which two steps should be followed to troubleshoot a VMware Cloud Foundation environment experiencing performance degradation?
(Choose two)
Response:
- A. Review the vSphere DRS configuration settings
- B. Check the network utilization using VMware vRealize Operations
- C. Check the CPU and memory usage via vCenter
- D. Reset all virtual machines to their default configurations
Answer: B,C
NEW QUESTION # 82
Which two components are necessary to successfully deploy VMware Cloud Foundation in an enterprise environment?
(Choose two)
Response:
- A. VMware vCenter Server
- B. VMware NSX
- C. VMware vSAN
- D. VMware Horizon
Answer: A,C
NEW QUESTION # 83
Which of the following is true about the Conceptual Model in IT architecture?
Response:
- A. It is a direct blueprint for the physical implementation of the system.
- B. It defines a high-level representation of the system's structure and interactions.
- C. It only focuses on security components of the system.
- D. It is highly detailed and includes specific hardware and software components.
Answer: B
NEW QUESTION # 84
An architect is working with an organization on the creation of a new Private Cloud Platform. The organization has provided the following business objectives they wish to achieve with the new platform:
* Reduce the operating costs associated with running separate areas of hosting capacity and separate/duplicate systems.
* Reduce the risks, time, and effort associated with managing platforms that are out of vendor support.
* Reduce the operating costs associated with Public Cloud usage.
* Reduce the risks associated with having incomplete documentation for application inventory and dependency mappings.
They have grouped these business objectives into a set of use cases:
* Migration - Provide a platform that supports the migration of virtualized workloads from existing platforms.
* Containerization - Provide a platform that supports the deployment of containerized workloads.
* Centralization and Consolidation - Provide a central private cloud platform accessible to all relevant areas of the business.
When considering these objectives and use cases, what should the architect include in the design documentation as a part of the Conceptual Model?
- A. An assumption that a complete mapping of application dependencies is not available
- B. A requirement that the solution will provide the capability to migrate Kubernetes-based workloads from the Public Cloud
- C. An assumption that the new platform will co-exist with the existing platforms for a period of time to allow workloads to be migrated in a phased approach
- D. A risk that the existing platforms are running Linux Operating Systems that are out of vendor support
Answer: C
NEW QUESTION # 85
A design requirement has been specified for a new VMware Cloud Foundation (VCF) instance. All managed workload resources must be lifecycle managed with the following criteria:
* Development resources must be automatically reclaimed after two weeks
* Production resources will be reviewed yearly for reclamation
* Resources identified for reclamation must allow time for review and possible extension What capability will satisfy the requirements?
- A. Aria Automation Project Membership
- B. Aria Suite Lifecycle Content Management
- C. Aria Operations Rightsizing Recommendations
- D. Aria Automation Lease Policy
Answer: D
NEW QUESTION # 86
What is the primary objective when documenting design decisions in IT architecture?
Response:
- A. To focus on technical implementation without considering business impact.
- B. To track hardware components used in the system design.
- C. To ensure stakeholders understand the business goals.
- D. To define and justify the choices made in the design process.
Answer: D
NEW QUESTION # 87
Which two design decisions should be made to secure VCF management components?
(Choose two)
Response:
- A. Configuring vSphere HA for automatic failover of management VMs
- B. Implementing vCenter Server roles and permissions for access control
- C. Enabling vSphere Trust Authority for secure authentication
- D. Encrypting management traffic using vSAN encryption
Answer: B,C
NEW QUESTION # 88
What is a common cause of performance issues in VMware vSAN storage within VMware Cloud Foundation?
Response:
- A. Incorrect virtual switch configurations
- B. Excessive memory usage on the management cluster
- C. Misconfigured storage policies
- D. Insufficient vCPU allocation
Answer: C
NEW QUESTION # 89
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