PEGACPLSA23V1 Certified Pega Lead System Architecture (LSA) Exam 23 Exam
The PEGACPLSA23V1 exam is the Certified Pega Lead System Architect (CLSA) Exam for Pega Platform ’23. It is designed for experienced Pega professionals aiming to validate their expertise in designing scalable and maintainable Pega applications.
Exam Overview
Exam Code: PEGACPLSA23V1
Number of Questions: 60
Duration: 120 minutes
Passing Score: 65%
Language: English
Format: Multiple choice, scenario-based, and drag-and-drop questions
Exam Fee: USD $
Prerequisites
Certification: Certified Pega Senior System Architect (CPSSA)
Experience: Minimum of 36 months of field experience in Pega implementations
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Exam Topics Breakdown
Pega Platform Design (15%)
Center-out business architecture
Deployment options and their impact on design
Application monitoring and performance
Distributed application case interactions
Multitenancy architecture and high availability
Pega Process Fabric, Pega Mobile, and Pega Intelligent Virtual Assistant
Hazelcast, containerization, and cloud deployment architecture
Agile Workbench and Agile Studio functionalities
Pega Platform Design Extended (10%)
App Studio adoption
Prediction Studio and Admin Studio
Asset reuse and configuration sets
UX design fundamentals, DX API, and Constellation
User experience and accessibility
Application Design (15%)
Microjourney analysis
Application structure design approach
Pega Express best practices and case design patterns
Effective case structure and hierarchy design
Specialization layers design
Application Design Extended (15%)
Work assignment best practices
Advanced routing strategies
In-flight flow changes management
Background processing with Job Schedulers, Queue Processors, and Data Flows
Data Model Design (10%)
Greenfield and foundation-based data modeling
Data pages, dynamic class references, and data integrity principles
Reporting Design (10%)
Performance-optimized reports design
Complex SQL, associations, sub-reports, and bottleneck identification
Security Design (15%)
Authentication and authorization strategies
Event logging, rule security, and attack mitigation
Deployment & Testing Design (10%)
CI/CD pipeline definition
Automated test strategies
Deployment best practices
Exam Scheduling & Retake Policy
Scheduling: Through with online proctored options available
Retake Policy:
Wait at least 3 calendar days after the first attempt
Wait at least 14 calendar days after the second attempt
Maximum of 3 attempts in a 12-month period
Full exam fee applies for each attempt
Sample Question and Answers
QUESTION 1
[Performance Optimization]
Data pages offer a “Do not reload when” option for optimizing data retrieval. Which two of the
following scenarios make appropriate use of this feature? (Choose Two)
A. A data page tracks real-time seat availability for a theater. Because seat bookings stop once the
show starts, set it to not reload after the show begins until it ends.
B. A data page maintains reservation details for a hotel. To optimize performance, set it to not reload
after check-in time ends, because no new reservations are taken overnight unless you have approval
from the manager of the hotel.
C. A data page pulls live traffic updates for a delivery service’s routing system. Because traffic
patterns stabilize late at night, set it to not reload from late evening until early morning.
D. A data page holds the daily menu for a cafeteria that doesn’t change the menu once the kitchen
opens. To avoid unnecessary updates, set it to not reload after the kitchen begins its operations until the next day.
Answer: A,D
QUESTION 2
[Data Modeling]
In a flight schedule management application, the initiation of a scheduled flight case triggers both
pre-flight check and flight catering service processes. These processes require access to flight
information, such as flight number, cabin class, number of seats, departure date and time, while also
maintaining process-specific data elements. Which one of the following options best describes the
optimal data model for meeting this requirement?
A. Set Schedule Flight as the parent case type, with the triggered processes as child case types. Store
flight data within the Schedule Flight case. This data will then bepropagated to the child cases upon their creation.
B. Set Schedule Flight as the parent case type, with the triggered processes as child case types. Place
flight data in the travel management enterprise layer and create data classes specific to each child
case type, inheriting directly from the travel management enterprise layer.
C. Set Schedule Flight as the parent case type, with the triggered processes as child case types. Place
flight data within the Schedule Flight class and develop data classes specific to each child case type.
D. Set Schedule Flight as the parent case type, with the triggered processes as child case types. Place
flight data within the work pool class, allowing all three case types to inherit properties from the work pool class.
Answer: A
QUESTION 3
[Data Modeling]
You are a Pega developer working on an insurance application. The application needs to manage
different types of insurance policies such as car insurance, home insurance, and life insurance. Each
type of insurance policy has some common attributes (policy number, policyholder name, and
premium amount), but also has some unique attributes (such as vehicle details for car insurance,
property details for home insurance, and beneficiary details for life insurance). Which one of the
following approaches to handling this scenario would be most appropriate in a Pega application?
A. Create a single class for all types of insurance policies and dynamically add or remove attributes as needed.
B. Create a single class for all types of insurance policies and define all possible attributes.
C. Create a base class for the insurance policy for the common attributes, and then create derived classes for each type of insurance policy with their unique attributes.
D. Create a separate class for each type of insurance policy and then define the common attributes in the new class.
Answer: C
QUESTION 4
[Data Modeling]
In a hospital’s patient management Pega application, patient details are gathered during the initial
consultation process. This information must be accessible and current for all subsequent
appointments and treatments. Keeping patient information updated is crucial to effective planning
and implementation of treatment. Which one of the following options would you select as a solution?
A. A portal to collect patient data. Pre-load the patient’s information into the system for each
subsequent appointment and treatment, based on the outcomes of the initial consultation.
B. A portal for updating patient data, using the snapshot data access pattern to access patient
information for appointments and treatment processes.
C. A portal to collect patient data and store the data with Consultation cases. Use data propagation
features to transfer patient information to each subsequent appointment or treatment as they are scheduled.
D. A portal for updating patient data, utilizing the System of Record (SOR) data access pattern to
access patient information for appointments and treatment processes.
Answer: C
QUESTION 5
[Data Modeling]
As an LSA developing a Pega application for an online grocery store, you are tasked with enabling
customers to navigate through various categories such as “Dairy,” “Confectionery,” “Frozen Food,”
and “Soft Drinks.” Each category contains at least 10 sub-categories, with the workflow varying
depending on the selected sub-category. What is the best method of populating the categories and
sub-categories and retrieving the related information from the grocery store’s database?
A. Implement a data page that accepts either a Category or Sub-category as a parameter. Based on
the parameter type, the required information is retrieved and displayed in the subsequent layouts.
B. Implement a data page for Sub-categories. Load Categories by default upon startup. Populate Subcategories
after a Category is selected, using a Sub-category data page that takes the Category as a parameter.
C. Implement data pages for Categories and Sub-categories. Populate Sub-categories after a
Category is selected, using a Sub-category data page that takes the Category as a parameter.
D. Implement a data page that takes the Sub-category as a parameter. Based on the Sub-category
type, the necessary information is retrieved and shown in the subsequentpf layouts.
Answer: C
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