NeoLoad Testing Interview Questions

Checkout Vskills Interview questions with answers in NeoLoad Testing  to prepare for your next job role. The questions are submitted by professionals to help you to prepare for the Interview.

Q.1 Explain the difference between load testing and stress testing in NeoLoad.
Load testing in NeoLoad involves testing the system under expected load conditions, while stress testing assesses the system's behavior beyond its normal capacity to determine breaking points.
Q.2 What is Think Time in NeoLoad and why is it important?
Think Time in NeoLoad represents the delay between two user actions. It's crucial as it simulates realistic user behavior, impacting server load and response times.
Q.3 How does NeoLoad monitor system resources during a test?
NeoLoad gathers system metrics (CPU usage, memory, disk I/O) using monitoring agents or integrations with monitoring tools to assess system performance.
Q.4 What is the correlation in NeoLoad and why is it necessary?
Correlation in NeoLoad involves capturing dynamic data from server responses and reusing it in subsequent requests to maintain test accuracy and realism.
Q.5 Explain the Ramp-Up and Ramp-Down concepts in NeoLoad.
Ramp-Up in NeoLoad gradually increases the number of virtual users to reach the desired load level, while Ramp-Down decreases virtual users after the test, ensuring a controlled conclusion.
Q.6 How does NeoLoad handle parameterization?
NeoLoad enables parameterization by replacing static values in scripts with dynamic data, allowing variation in user inputs during tests.
Q.7 What are some common bottlenecks NeoLoad helps to identify?
NeoLoad can identify bottlenecks in application server performance, database performance, network issues, inadequate hardware resources, and inefficient code.
Q.8 How does NeoLoad handle scripting for different protocols?
NeoLoad provides native support for various protocols and technologies, allowing easy scripting for HTTP, HTTPS, SOAP, REST, WebSocket, etc., without complex configurations.
Q.9 Explain the process of analyzing test results in NeoLoad.
NeoLoad generates detailed reports and graphs showing response times, throughput, errors, and other key metrics, aiding in identifying performance issues.
Q.10 How can you simulate realistic user scenarios in NeoLoad?
By creating user paths that closely resemble actual user interactions, including login, navigation, data submission, and logout scenarios.
Q.11 What are the advantages of using NeoLoad compared to other load testing tools?
NeoLoad offers advantages like an intuitive interface, scriptless test design, comprehensive monitoring, scalability, and dynamic infrastructure management.
Q.12 What is NeoLoad?
NeoLoad is a load testing tool used to simulate user activity, measure system performance, and identify bottlenecks in applications under different load conditions.
Q.13 Explain the main components of NeoLoad.
NeoLoad consists of three main components: Design, Runtime, and Results. Design is for test creation, Runtime executes tests, and Results provides test analysis.
Q.14 How does NeoLoad simulate virtual users?
NeoLoad simulates virtual users by creating user scripts that mimic real user behavior, generating load on the application as if multiple users were accessing it simultaneously.
Q.15 What protocols does NeoLoad support for load testing?
NeoLoad supports various protocols such as HTTP, HTTPS, SOAP, REST, WebSocket, and other web-based protocols commonly used in applications.
Q.16 Explain the difference between Population and Load Generator in NeoLoad.
Population in NeoLoad represents a group of virtual users with similar characteristics, while Load Generators execute the scenarios for these populations.
Q.17 How does NeoLoad handle dynamic data during test execution?
NeoLoad uses variables and extraction rules to handle dynamic data, ensuring that data extracted from server responses is used in subsequent requests.
Q.18 What is the significance of Runtime Settings in NeoLoad?
Runtime Settings in NeoLoad define parameters like test duration, load policy, and the number of virtual users to be simulated during the test execution.
Q.19 Explain the concept of Think Time in NeoLoad.
Think Time in NeoLoad represents delays between user actions, simulating real user behavior and influencing the pacing of transactions during load tests.
Q.20 How does NeoLoad handle test result analysis?
NeoLoad provides detailed reports and graphs that display performance metrics like response times, throughput, error rates, and resource utilization for in-depth analysis.
Q.21 What is the purpose of Correlation in NeoLoad?
Correlation in NeoLoad involves capturing dynamic data from server responses and reusing it in subsequent requests to maintain test accuracy.
Q.22 What role does the Check User Path feature play in NeoLoad?
Check User Path in NeoLoad verifies the correctness of user scripts by executing them against the application to detect errors before running a full load test.
Q.23 How can NeoLoad simulate different network conditions during testing?
NeoLoad provides Network Virtualization capabilities to simulate various network conditions like latency, bandwidth, and packet loss for realistic testing.
Q.24 What are the advantages of using NeoLoad for load testing?
NeoLoad offers benefits such as an intuitive user interface, scriptless test design, comprehensive monitoring, scalability, and dynamic infrastructure management.
Q.25 What is scripting in NeoLoad?
Scripting in NeoLoad refers to the process of creating test scenarios that emulate user behavior by recording interactions with an application to simulate load.
Q.26 Explain the recording modes available in NeoLoad.
NeoLoad offers two recording modes: Design mode for HTTP/HTML protocols and Proxy mode for other protocols, allowing users to capture user actions.
Q.27 How does NeoLoad handle correlation during script creation?
NeoLoad provides automatic correlation and manual correlation features to handle dynamic data by capturing and replacing values in subsequent requests.
Q.28 What is the purpose of validation during script creation in NeoLoad?
Validation ensures that the recorded user actions accurately represent interactions with the application, minimizing errors during load testing.
Q.29 How can you parameterize scripts in NeoLoad?
Parameterization in NeoLoad involves replacing recorded values with variables, enabling dynamic data inputs during test execution.
Q.30 Explain the process of handling dynamic data and session variables in NeoLoad scripts.
NeoLoad uses extraction rules to capture dynamic data from server responses and stores them in session variables for reuse in subsequent requests.
Q.31 What are the different types of logical actions available in NeoLoad scripts?
NeoLoad offers logical actions such as conditions, loops, and transactions to simulate complex user behavior and interactions within test scenarios.
Q.32 How does NeoLoad handle scripts for non-HTTP/HTML protocols?
NeoLoad provides advanced features like framework customization and manual script creation to handle protocols other than HTTP/HTML.
Q.33 Explain the concept of containers in NeoLoad scripting.
Containers in NeoLoad organize user actions and logical elements within a script, allowing users to structure and manage complex test scenarios efficiently.
Q.34 What is the purpose of correlation rules in NeoLoad scripting?
Correlation rules in NeoLoad automatically handle dynamic parameters, making script maintenance easier by capturing and replacing values.
Q.35 How does NeoLoad handle the customization of scripts for complex applications?
NeoLoad offers JavaScript and advanced scripting options for customization, enabling users to handle dynamic data or complex scenarios beyond basic recording.
Q.36 What are some best practices for scripting in NeoLoad to enhance test efficiency?
Best practices include script validation after recording, parameterization of dynamic values, proper organization using containers, and regular script maintenance.
Q.37 Explain the process of troubleshooting and debugging scripts in NeoLoad.
NeoLoad provides debugging features like validation, variable extraction validation, and logs to identify and resolve script-related issues efficiently.
Q.38 How does NeoLoad ensure script scalability for large-scale performance tests?
NeoLoad allows for modular scripting, reusable components, and dynamic handling of data, ensuring scripts scale efficiently for larger user loads.
Q.39 What are the advantages of using NeoLoad for scripting compared to other load testing tools?
NeoLoad's advantages include an intuitive user interface, automatic correlation, robust parameterization options, and extensive protocol support for scripting flexibility.
Q.40 What is a scenario in NeoLoad?
A scenario in NeoLoad represents a collection of user paths and settings that define how virtual users interact with an application during load testing.
Q.41 Explain the difference between a population and a user path in NeoLoad.
A population is a group of virtual users with similar characteristics, while a user path defines the sequence of actions a virtual user follows during a load test.
Q.42 How does NeoLoad handle the design of realistic user scenarios for load testing?
NeoLoad allows users to create user paths by combining different recorded transactions, ensuring realistic user behavior and interactions.
Q.43 What are the key elements that make up a scenario in NeoLoad?
A NeoLoad scenario comprises populations, user paths, pacing, load policy, runtime settings, and test duration.
Q.44 Explain the significance of think time in NeoLoad scenarios.
Think time in NeoLoad scenarios represents delays between user actions, making test scenarios more realistic by simulating user behavior.
Q.45 How does NeoLoad handle workload distribution among different user populations in a scenario?
NeoLoad allows users to define the proportion of virtual users for each population to simulate various user behaviors during load tests.
Q.46 Explain the purpose of pacing in a NeoLoad scenario.
Pacing in NeoLoad defines the delays between iterations of a user path to control the speed at which virtual users execute transactions.
Q.47 What are the considerations for setting up runtime settings in NeoLoad?
Runtime settings in NeoLoad include parameters like load variation, maximum user count, duration, and the start of the test to simulate real-world conditions accurately.
Q.48 How does NeoLoad handle dynamic infrastructure scaling during test execution?
NeoLoad can dynamically adjust the number of load generators or cloud resources based on the test load to ensure accurate test results.
Q.49 Explain the process of executing a scenario in NeoLoad.
In NeoLoad, executing a scenario involves configuring the test, starting the test with designated settings, monitoring test progress, and analyzing the results.
Q.50 How does NeoLoad measure and collect performance metrics during scenario execution?
NeoLoad continuously monitors and collects data on response times, throughput, errors, and server resources to assess system performance during test execution.
Q.51 What role does pacing play in controlling the load during scenario execution in NeoLoad?
Pacing regulates the frequency and timing of virtual user actions, controlling the rate at which requests are sent to the application during test execution.
Q.52 How does NeoLoad handle the scheduling of scenarios for execution?
NeoLoad provides scheduling options allowing users to execute scenarios at specific times or repeatedly based on predefined schedules for automated testing.
Q.53 Explain how NeoLoad handles scenario iteration and ramp-up during test execution.
NeoLoad iterates through user paths defined in the scenario, gradually increasing the number of virtual users as per the ramp-up settings to reach the desired load.
Q.54 What are the advantages of using NeoLoad for scenario design and execution compared to other load testing tools?
NeoLoad offers advantages such as an intuitive scenario design interface, dynamic workload control, advanced pacing options, and robust performance monitoring capabilities.
Q.55 What is monitoring in NeoLoad?
Monitoring in NeoLoad involves tracking and collecting performance metrics of system resources and application components during load testing.
Q.56 Explain the types of data that NeoLoad monitors during a test.
NeoLoad monitors metrics like response times, throughput, error rates, server resources (CPU, memory, disk I/O), network latency, and more.
Q.57 How does NeoLoad collect data for monitoring during test execution?
NeoLoad collects data either through built-in monitors or integrates with external monitoring tools to gather performance metrics in real-time.
Q.58 Explain the significance of monitoring server resources during load testing in NeoLoad.
Monitoring server resources helps in identifying bottlenecks, understanding system behavior under load, and pinpointing performance issues.
Q.59 What are the key benefits of using built-in monitors in NeoLoad?
NeoLoad's built-in monitors provide real-time insights into server performance without the need for additional configurations, simplifying the monitoring process.
Q.60 How does NeoLoad analyze collected data post-test execution?
NeoLoad generates detailed reports, graphs, and dashboards presenting performance metrics for in-depth analysis after test execution.
Q.61 Explain the process of correlating monitored data with test results in NeoLoad.
NeoLoad correlates monitored data with test results to identify correlations between application performance and system resource utilization.
Q.62 What role does trending analysis play in NeoLoad's monitoring and analysis capabilities?
Trending analysis in NeoLoad helps identify patterns in performance metrics over time, enabling prediction and proactive performance optimization.
Q.63 How does NeoLoad provide insights into database performance during load testing?
NeoLoad integrates with database monitoring tools or collects database-specific metrics to analyze and optimize database performance.
Q.64 Explain the importance of analyzing network latency in NeoLoad.
Analyzing network latency helps identify communication delays between the application and servers, impacting overall system performance.
Q.65 How does NeoLoad help in identifying and analyzing bottlenecks in an application?
NeoLoad correlates various performance metrics to pinpoint areas of high response times or resource utilization, indicating potential bottlenecks.
Q.66 What are the options available in NeoLoad for visualizing and presenting test results?
NeoLoad provides detailed reports, graphs, charts, and customizable dashboards to visually represent and present test results effectively.
Q.67 Explain the role of comparison reports in NeoLoad's analysis.
Comparison reports in NeoLoad allow users to compare multiple test runs, versions, or configurations to identify performance improvements or regressions.
Q.68 How does NeoLoad assist in root cause analysis of performance issues?
NeoLoad's comprehensive reports and analysis tools help in drilling down into specific metrics to identify the root cause of performance issues.
Q.69 What are the advantages of using NeoLoad for monitoring and analysis over other load testing tools?
NeoLoad offers advantages such as integrated monitoring, detailed analysis, customizable reporting, and correlation of performance metrics, making it a robust tool for performance testing.
Q.70 Explain the concept of infrastructure as code (IAC) in NeoLoad.
Infrastructure as code in NeoLoad allows the provisioning and management of cloud resources programmatically, facilitating scalability and flexibility in load testing.
Q.71 How does NeoLoad handle distributed testing and what are its benefits?
NeoLoad enables distributed testing by distributing virtual users across multiple load generators, allowing larger load simulations and reducing test execution time.
Q.72 What role does Docker integration play in NeoLoad?
Docker integration in NeoLoad allows the execution of load generators in Docker containers, streamlining setup and resource management for load testing.
Q.73 Explain the advantages of using collaboration modules in NeoLoad.
Collaboration modules in NeoLoad enable teamwork by allowing multiple users to work on the same project simultaneously, enhancing efficiency and collaboration.
Q.74 How does NeoLoad facilitate integration with Continuous Integration/Continuous Deployment (CI/CD) pipelines?
NeoLoad integrates seamlessly with CI/CD pipelines, allowing automated performance tests to be triggered as part of the software delivery pipeline, ensuring performance validation at each stage.
Q.75 Explain the role of dynamic infrastructure scaling in NeoLoad.
Dynamic infrastructure scaling in NeoLoad automatically adjusts the number of load generators based on test requirements, ensuring optimal resource utilization.
Q.76 What are the benefits of using the JavaScript engine in NeoLoad?
The JavaScript engine in NeoLoad provides advanced scripting capabilities, allowing users to manipulate data, create complex scenarios, and enhance test flexibility.
Q.77 Explain the use of custom actions and how they enhance test scenarios in NeoLoad.
Custom actions in NeoLoad enable the creation of user-defined logic or functions, extending the tool's capabilities for handling unique test scenarios or protocols.
Q.78 What is Service Level Agreement (SLA) mode in NeoLoad, and why is it important?
SLA mode in NeoLoad allows users to define performance thresholds, ensuring that the application meets predefined criteria for response times or throughput.
Q.79 Explain the role of dynamic and variable extraction in NeoLoad scripting.
Dynamic and variable extraction in NeoLoad involves capturing and using dynamic data from server responses, allowing for realistic test scenarios with changing data.
Q.80 How does NeoLoad handle WebSocket protocols in load testing?
NeoLoad provides native support for WebSocket protocols, allowing users to create and execute load tests for applications that use WebSocket communication.
Q.81 Explain the advantages of using NeoLoad's API for test automation and integration.
NeoLoad's API allows for automation of various tasks, integration with other tools, and customization, providing flexibility and scalability in testing.
Q.82 What role does network virtualization play in NeoLoad and how does it benefit load testing?
Network virtualization in NeoLoad simulates various network conditions (like latency, bandwidth, packet loss) to test the application's behavior under different network scenarios.
Q.83 Explain the purpose and benefits of using the dynamic zones feature in NeoLoad.
Dynamic zones in NeoLoad enable the distribution of virtual users based on predefined geographical regions, allowing simulation of user loads from diverse locations.
Q.84 How does NeoLoad facilitate API testing and what are its key features in this aspect?
NeoLoad supports API testing by allowing users to create and execute tests for REST, SOAP, and other APIs, providing features for parameterization, authentication, and validation.
Q.85 What is Performance Engineering?
Performance Engineering involves the systematic approach of designing, developing, and testing software applications to meet performance expectations, ensuring scalability, reliability, and efficiency.
Q.86 Explain the key objectives of Performance Engineering.
The primary objectives include identifying performance requirements, designing for performance, implementing performance measures, testing, and optimizing application performance.
Q.87 How does Performance Engineering differ from Performance Testing?
Performance Engineering encompasses a broader approach that includes performance testing as one of its components along with activities like analysis, design, optimization, and monitoring.
Q.88 Explain the significance of Performance Modeling in Performance Engineering.
Performance Modeling involves creating models to predict system behavior under varying conditions, aiding in resource allocation and optimization strategies.
Q.89 What role does Capacity Planning play in Performance Engineering?
Capacity Planning in Performance Engineering involves forecasting resource requirements to ensure the application can handle expected workloads and future growth.
Q.90 Explain the concept of Performance Monitoring and its importance.
Performance Monitoring involves tracking and analyzing real-time performance metrics during application execution, enabling timely identification and resolution of bottlenecks.
Q.91 What are the different phases involved in the Performance Engineering lifecycle?
The Performance Engineering lifecycle typically includes requirements gathering, design, implementation, testing, analysis, optimization, and ongoing monitoring.
Q.92 Explain the significance of Performance Profiling in Performance Engineering.
Performance Profiling involves identifying and analyzing code segments or components that consume excessive resources, aiding in performance optimization efforts.
Q.93 How does Performance Tuning contribute to Performance Engineering?
Performance Tuning involves making adjustments to various system components (code, infrastructure, configurations) to optimize performance based on identified bottlenecks.
Q.94 Explain the concept of End-to-End Performance Testing.
End-to-End Performance Testing involves testing the entire application stack (front-end to back-end) to evaluate system behavior under realistic usage scenarios.
Q.95 What is the role of Root Cause Analysis in Performance Engineering?
Root Cause Analysis involves identifying the underlying reasons for performance issues, enabling targeted fixes to improve overall system performance.
Q.96 Explain the importance of Performance Baselines in Performance Engineering.
Performance Baselines establish performance benchmarks against which future tests and measurements are compared, helping in detecting deviations and trends.
Q.97 How does Performance Engineering align with Agile and DevOps methodologies?
Performance Engineering integrates performance-related activities into the development cycle, ensuring that performance aspects are considered from the outset in Agile and DevOps practices.
Q.98 Explain the concept of Continuous Performance Testing.
Continuous Performance Testing involves executing performance tests regularly throughout the software development lifecycle, ensuring early detection of performance issues.
Q.99 What are the key benefits of adopting Performance Engineering practices?
Benefits include improved user experience, enhanced reliability, reduced downtime, optimized resource utilization, and better scalability of applications.
Q.100 Why is reporting important in performance testing with NeoLoad?
Reporting in NeoLoad provides detailed insights into application performance, identifies bottlenecks, and communicates test results effectively.
Q.101 What are the key components of a performance test report in NeoLoad?
A performance test report in NeoLoad includes metrics like response times, throughput, error rates, server resources, graphs, and analysis summaries.
Q.102 Explain the types of reports available in NeoLoad.
NeoLoad offers various reports such as Summary reports, Graph reports, Errors reports, SLA reports, and comparison reports for detailed analysis.
Q.103 How does NeoLoad facilitate customization of reports?
NeoLoad allows customization of reports by selecting specific metrics, adjusting layouts, adding comments, and incorporating company branding for personalized presentations.
Q.104 Explain the process of generating and exporting reports in NeoLoad.
In NeoLoad, reports can be generated after test execution and exported in multiple formats like PDF, HTML, or Excel for sharing and documentation purposes.
Q.105 What are the key metrics that should be included in a NeoLoad performance test report?
Key metrics include response times, errors, throughput, resource utilization (CPU, memory), transaction details, and SLA compliance.
Q.106 Explain the purpose of trend analysis in NeoLoad reporting.
Trend analysis in NeoLoad reports helps in identifying performance trends over time, allowing for comparisons between different test runs or versions.
Q.107 What role does visual representation (graphs/charts) play in NeoLoad reports?
Visual representation of data in graphs/charts in NeoLoad reports helps in presenting performance metrics more intuitively, aiding in quick understanding and analysis.
Q.108 How does NeoLoad assist in documentation of test scenarios and configurations?
NeoLoad allows for the exportation of test scenarios, configurations, and test execution details, aiding in documentation for future reference or audits.
Q.109 Explain the significance of error analysis and reporting in NeoLoad.
Error analysis in NeoLoad reports helps in identifying and analyzing types, frequency, and causes of errors encountered during performance tests.
Q.110 How does NeoLoad facilitate the sharing of reports among team members or stakeholders?
NeoLoad allows reports to be shared easily by exporting them to portable formats or by utilizing NeoLoad's collaboration features for team access.
Q.111 Explain the purpose of summary reports in NeoLoad and their key components.
Summary reports in NeoLoad provide a concise overview of test results, including overall performance metrics, SLA compliance, and key findings.
Q.112 How can NeoLoad reports aid in decision-making processes for performance optimization?
NeoLoad reports provide actionable insights and data-driven analysis that aid in identifying areas for improvement and prioritizing performance optimization efforts.
Q.113 Explain the importance of report annotations in NeoLoad.
Report annotations in NeoLoad allow users to add comments, explanations, or notes to specific sections of reports, providing context and enhancing clarity.
Q.114 What are the benefits of comprehensive reporting and documentation in NeoLoad compared to other load testing tools?
NeoLoad's comprehensive reporting offers detailed insights, customization options, visual representation, and easy sharing, enhancing communication and decision-making processes.
Q.115 What are the key considerations for effective test planning in NeoLoad?
Effective test planning involves defining clear objectives, identifying critical scenarios, determining workload, and considering realistic user behavior.
Q.116 Explain the importance of scripting best practices in NeoLoad.
Scripting best practices in NeoLoad include validation after recording, parameterization, correlation, modularization, and regular script maintenance.
Q.117 How can proper workload modeling enhance performance tests in NeoLoad?
Accurate workload modeling ensures that the test scenario simulates real-world user behavior, helping in evaluating system performance under realistic conditions.
Q.118 Explain the significance of pacing and think time settings in NeoLoad scripts.
Proper pacing and think time settings in NeoLoad scripts ensure realistic user behavior, mimicking delays between user actions and controlling the pacing of transactions.
Q.119 What are the best practices for setting up runtime settings in NeoLoad?
Best practices for runtime settings involve defining realistic load policy, proper ramp-up and ramp-down, suitable duration, and accurate user counts.
Q.120 How can parameterization be effectively implemented in NeoLoad scripts?
Parameterization in NeoLoad scripts involves replacing static values with variables to simulate varied user inputs, ensuring realistic test scenarios.
Q.121 Explain the significance of using dynamic data handling techniques in NeoLoad scripting.
Dynamic data handling ensures that data extracted from server responses is captured and reused in subsequent requests, maintaining test accuracy.
Q.122 What role do validations play in NeoLoad scripting, and why are they essential?
Validations in NeoLoad scripts verify the correctness of recorded actions, ensuring that the script accurately represents user interactions.
Q.123 How can you effectively manage test results and reports in NeoLoad?
Managing test results involves generating detailed reports, analyzing metrics, adding annotations, and sharing reports among stakeholders for effective communication.
Q.124 Explain the importance of error handling strategies in NeoLoad scripts.
Implementing error handling strategies in NeoLoad scripts helps in capturing, handling, and reporting errors encountered during load tests for better analysis.
Q.125 What are the best practices for collaborating on projects within NeoLoad?
Best practices for collaboration in NeoLoad include version control, regular communication among team members, and utilizing shared project resources.
Q.126 Explain the significance of baselining and trend analysis in NeoLoad testing.
Baselining establishes performance benchmarks, while trend analysis helps in detecting patterns and deviations in performance metrics over time for informed decisions.
Q.127 How does NeoLoad handle result analysis and root cause identification effectively?
NeoLoad provides detailed analysis tools, graphs, and metrics to drill down into specific areas, aiding in identifying and resolving root causes of performance issues.
Q.128 What are the key considerations for performance test execution and monitoring in NeoLoad?
Execution and monitoring involve proper resource allocation, real-time monitoring of server metrics, and continuous observation of test progress for insights.
Q.129 Explain the importance of continuous improvement and optimization in NeoLoad testing.
Continuous improvement involves learning from test results, applying optimizations, and iteratively enhancing test scripts and configurations for better performance testing outcomes.
Q.130 What is Performance Testing?
Performance testing is a type of testing to ensure software applications perform well under expected workloads.
Q.131 Explain NeoLoad and its key features.
NeoLoad is a load testing tool designed to simulate realistic user activity, measure system performance, and identify bottlenecks. Its key features include scriptless test design, dynamic infrastructure scaling, and advanced reporting.
Q.132 What are the different types of performance testing that NeoLoad supports?
NeoLoad supports various types of performance testing like load testing, stress testing, endurance testing, spike testing, and scalability testing.
Q.133 How does NeoLoad simulate real user behavior?
NeoLoad uses design elements like user paths, transactions, and dynamic data to emulate real user behavior and interactions with the application.
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