Amazon Web Services SAA-C03 Exam With Confidence Using Practice Dumps

The requirement explicitly states that the solution must not involve training a machine learning model, which immediately eliminates options that require custom ML development. Amazon Rekognition is a fully managed computer vision service that can analyze images and detect inappropriate or unwanted content using pretrained models provided by AWS.

Option B correctly uses Amazon Rekognition’s image moderation capabilities to analyze uploaded photos and identify unsafe or unwanted content categories. By invoking Rekognition from an AWS Lambda function, the solution remains serverless, automatically scalable, and operationally efficient. The Lambda function URL provides a secure HTTPS endpoint that the web application can call synchronously during uploads.

Option A violates the requirement because SageMaker Autopilot is designed to build and train ML models. Option C is incorrect because Amazon Comprehend is a natural language processing service for text analysis, not image moderation. CloudFront Functions also do not support calling external AWS services like Rekognition. Option D uses Rekognition Video, which is intended for analyzing video streams, not static images.

Using Lambda and Rekognition together ensures minimal operational overhead, no ML training effort, and immediate enforcement of content moderation policies. The architecture also allows easy extension, such as logging moderation results or blocking uploads based on confidence thresholds.

Therefore, B is the correct solution because it meets the content moderation requirement using AWS-managed ML services without requiring model training.

Amazon Elastic File System (Amazon EFS) is a fully managed, elastic, shared file system that can be mounted concurrently by multiple EC2 instances across multiple Availability Zones. EFS automatically grows and shrinks as files are added or removed, providing seamless scalability for unpredictable and growing storage needs. It supports simultaneous access from multiple compute resources, making it ideal for applications where several EC2 instances must read and write to the same data set concurrently. EBS volumes cannot be shared across multiple Availability Zones, and S3 Glacier is intended for archival and infrequent access, not for active, hourly data analysis.

Reference Extract from AWS Documentation / Study Guide:

" Amazon EFS provides a scalable, fully managed elastic NFS file system for use with AWS Cloud services and on-premises resources. It can be mounted to many EC2 instances across multiple Availability Zones and is ideal for shared data scenarios. "

Source: AWS Certified Solutions Architect – Official Study Guide, Storage Solutions section; Amazon EFS User Guide.

To handle unpredictable traffic surges and improve scalability, Auto Scaling is essential. Creating an AMI and deploying it into an Auto Scaling group behind an Application Load Balancer (ALB) allows AWS to automatically scale the number of EC2 instances based on demand.

This architecture improves availability and responsiveness by distributing traffic and launching instances when needed. Option A satisfies the need for high scalability and resilience. Other options either lack Auto Scaling or are more complex without added benefit in this context.