SAA-C03 is the new version of the most popular AWS Certified Solutions Architect – Associate exam. The updated SAA-C03 exam will be available for registration as early as July 26 and the first available day to take it would be this August 30. PassQuestion offers the latest AWS Certified Solutions Architect – Associate SAA-C03 Dumps for the preparation of the SAA-C03 exam that will help you to pass the SAA-C03 exam with outstanding results in your first attempt. To prepare according to the latest syllabus of the SAA-C03 exam, you need AWS Certified Solutions Architect – Associate SAA-C03 Dumps which contains all the information about the latest exam syllabus to ensure your final success.
New SAA-C03 Exam Version for the AWS Certified Solutions Architect Associate
SAA-C03 is the new exam code of the AWS Certified Solutions Architect – Associate exam which is slated to be released on August 30, 2022. Its current version is SAA-C02 and is scheduled to be decommissioned by August 29, 2022, so you have to know the difference between these two versions. If you already have the SAA certification and you wish you re-certify, then you have to take the exam by August 29 or you can also wait for the new SAA-C03 version to come out.
Achieving the latest version of the AWS Certified Solutions Architect – Associate SAA-C03 certification validates one’s ability to design and implement various solutions on AWS, such as distributed architecture, serverless, containerized applications, and the like. The AWS Certified Solutions Architect – Associate SAA-C03 certification exam is intended for people who perform in a solutions architect role, but any IT Professional can take this. College students who want to get ahead of their peers can also take this test. The SAA-C03 exam validates your ability to use various Amazon Web Services (AWS) technologies to design solutions based on the AWS Well-Architected Framework.
SAA-C03 Exam Details
Exam Code: SAA-C03
Release Date: August 30, 2022
No. of Questions: 65
Score Range: 100/1000
Cost: 150 USD (Practice exam: 20 USD)
Passing Score: 720/1000
Time Limit: 2 hours 10 minutes (130 minutes)
Format: Scenario-based. Multiple choice/multiple answers.
Delivery Method: Testing center or online proctored exam
SAA-C03 Exam Domains
Domain 1: Design Secure Architectures
Task Statement 1: Design secure access to AWS resources.
Task Statement 2: Design secure workloads and applications.
Task Statement 3: Determine appropriate data security controls
Domain 2: Design Resilient Architectures
Task Statement 1: Design scalable and loosely coupled architectures.
Task Statement 2: Design highly available and/or fault-tolerant architectures.
Domain 3: Design High-Performing Architectures
Task Statement 1: Determine high-performing and/or scalable storage solutions
Task Statement 2: Design high-performing and elastic compute solutions.
Task Statement 3: Determine high-performing database solutions
Task Statement 4: Determine high-performing and/or scalable network architectures.
Task Statement 5: Determine high-performing data ingestion and transformation solutions.
Domain 4: Design Cost-Optimized Architectures
Task Statement 1: Design cost-optimized storage solutions.
Task Statement 2: Design cost-optimized compute solutions.
Task Statement 3: Design cost-optimized database solutions
Task Statement 4: Design cost-optimized network architectures.
View Online AWS Certified Solutions Architect – Associate SAA-C03 Free Questions
A company runs a public-facing three-tier web application in a VPC across multiple Availability Zones.
Amazon EC2 instances for the application tier running in private subnets need to download software patches from the internet. However, the EC2 instances cannot be directly accessible from the internet.
Which actions should be taken to allow the EC2 instances to download the needed patches? (Select TWO.)
A. Configure a NAT gateway in a public subnet.
B. Define a custom route table with a route to the NAT gateway for internet traffic and associate it with the private subnets for the application tier.
C. Assign Elastic IP addresses to the EC2 instances.
D. Define a custom route table with a route to the internet gateway for internet traffic and associate it with the private subnets for the application tier.
E. Configure a NAT instance in a private subnet.
A solutions architect wants to design a solution to save costs for Amazon EC2 instances that do not need to run during a 2-week company shutdown. The applications running on the EC2 instances store data in instance memory that must be present when the instances resume operation.
Which approach should the solutions architect recommend to shut down and resume the EC2 instances?
A. Modify the application to store the data on instance store volumes. Reattach the volumes while restarting them.
B. Snapshot the EC2 instances before stopping them. Restore the snapshot after restarting the instances.
C. Run the applications on EC2 instances enabled for hibernation. Hibernate the instances before the 2- week company shutdown.
D. Note the Availability Zone for each EC2 instance before stopping it. Restart the instances in the same Availability Zones after the 2-week company shutdown.
A company plans to run a monitoring application on an Amazon EC2 instance in a VPC. Connections are made to the EC2 instance using the instance’s private IPv4 address. A solutions architect needs to design a solution that will allow traffic to be quickly directed to a standby EC2 instance if the application fails and becomes unreachable.
Which approach will meet these requirements?
A. Deploy an Application Load Balancer configured with a listener for the private IP address and register the primary EC2 instance with the load balancer. Upon failure, de-register the instance and register the standby EC2 instance.
B. Configure a custom DHCP option set. Configure DHCP to assign the same private IP address to the standby EC2 instance when the primary EC2 instance fails.
C. Attach a secondary elastic network interface to the EC2 instance configured with the private IP address. Move the network interface to the standby EC2 instance if the primary EC2 instance becomes unreachable.
D. Associate an Elastic IP address with the network interface of the primary EC2 instance. Disassociate the Elastic IP from the primary instance upon failure and associate it with a standby EC2 instance.
What must a solutions architect do to ensure that the script will successfully execute?
A. Enable cross-origin resource sharing (CORS) on the S3 bucket.
B. Enable S3 Versioning on the S3 bucket.
C. Provide the users with a signed URL for the script.
D. Configure an S3 bucket policy to allow public execute privileges.
A company uses Amazon EC2 Reserved Instances to run its data processing workload. The nightly job typically takes 7 hours to run and must finish within a 10-hour time window. The company anticipates temporary increases in demand at the end of each month that will cause the job to run over the time limit
with the capacity of the current resources. Once started, the processing job cannot be interrupted before completion. The company wants to implement a solution that would provide increased resource capacity as cost-effectively as possible.
What should a solutions architect do to accomplish this?
A. Deploy On-Demand Instances during periods of high demand.
B. Create a second EC2 reservation for additional instances.
C. Deploy Spot Instances during periods of high demand.
D. Increase the EC2 instance size in the EC2 reservation to support the increased workload.
A company’s security team requires that all data stored in the cloud be encrypted at rest at all times using encryption keys stored on premises.
Which encryption options meet these requirements? (Select TWO.)
A. Use server-side encryption with Amazon S3 managed encryption keys (SSE-S3).
B. Use server-side encryption with AWS KMS managed encryption keys (SSE-KMS).
C. Use server-side encryption with customer-provided encryption keys (SSE-C).
D. Use client-side encryption to provide at-rest encryption.
E. Use an AWS Lambda function invoked by Amazon S3 events to encrypt the data using the customer’s keys.
A website runs a custom web application that receives a burst of traffic each day at noon. The users upload new pictures and content daily, but have been complaining of timeouts. The architecture uses Amazon EC2 Auto Scaling groups, and the application consistently takes 1 minute to initiate upon boot up before responding to user requests.
How should a solutions architect redesign the architecture to better respond to changing traffic?
A. Configure a Network Load Balancer with a slow start configuration.
B. Configure Amazon ElastiCache for Redis to offload direct requests from the EC2 instances.
C. Configure an Auto Scaling step scaling policy with an EC2 instance warmup condition.
D. Configure Amazon CloudFront to use an Application Load Balancer as the origin.
An application running on AWS uses an Amazon Aurora Multi-AZ DB cluster deployment for its database. When evaluating performance metrics, a solutions architect discovered that the database reads are causing high I/O and adding latency to the write requests against the database.
What should the solutions architect do to separate the read requests from the write requests?
A. Enable read-through caching on the Aurora database.
B. Update the application to read from the Multi-AZ standby instance.
C. Create an Aurora replica and modify the application to use the appropriate endpoints.
D. Create a second Aurora database and link it to the primary database as a read replica.