Amazon Web Services DVA-C02 Exam With Confidence Using Practice Dumps

Why Option A is Correct:Creating a CloudWatch metric filter with " ERROR " as the search term ensures that occurrences of the word " ERROR " in logs are counted. An alarm can then be set to notify the SNS topic when the count exceeds 1. This is the standard approach to monitor specific patterns in CloudWatch Logs.

Why Other Options are Incorrect:

Option B: CloudWatch Logs Insights is used for querying logs manually and does not integrate directly with alarms for automated notifications.

Option C: SNS subscription filters are not a feature for filtering log patterns in CloudWatch Logs.

Option D: CloudWatch alarms do not directly include log filter patterns; a metric filter is needed to create the metric first.

AWS Documentation References:

Creating CloudWatch Metric Filters

For this workload, the access pattern is centered on each user’s activity history over time (the company is planning a marketing campaign based on each user’s activity). In DynamoDB, the most effective way to store and query time-ordered events per entity is to use a composite primary key where the entity identifier is the partition key and a time attribute is the sort key . Therefore, using user ID as the partition key groups all events for a given user together, and using timestamp as the sort key allows efficient retrieval in chronological order and supports range queries (for example, “activities in the last 7 days” or “between two dates”).

This design also helps maximize provisioned throughput efficiency and reduce throttling risk because it distributes data across partitions based on the partition key values (user IDs). With many users, writes and reads naturally spread across multiple partition key values rather than concentrating on a small set. The sort key further enables multiple activity records per user without overwriting items and supports precise queries without scanning.

Option B (product ID as partition key) does not align with the stated marketing need (per-user activity). It would cluster all users’ actions for a popular product into the same partition key, increasing the chance of hot partitions and throttling. Option C also risks hot partitions for popular product IDs; auto scaling helps capacity management but does not fix poor key distribution or hot-key access patterns. Option D (monotonic counter as partition key) is particularly problematic: sequential keys can create uneven distribution and a throughput bottleneck pattern, and it does not support user-centric queries efficiently.

Thus, A best matches the data model (user events over time), supports efficient queries, and reduces throttling risk by distributing workload across user IDs.

Pseudo Parameters: CloudFormation provides pseudo parameters that reference runtime context, including the current AWS Region.

Operational Efficiency: The AWS::Region pseudo parameter offers the most direct and self-contained way to obtain the Region dynamically within the template.