Databricks-Certified-Professional-Data-Engineer Exam Dumps : Databricks Certified Data Engineer Professional Exam

Materialized views in Databricks are optimized for precomputing and caching results of complex SQL queries, joins, and aggregations. They store query outputs physically and automatically refresh on a schedule or incremental change basis, drastically improving BI dashboard performance and reducing compute costs.

Conversely, streaming tables are designed for real-time data ingestion and processing , enabling event-driven analytics and low-latency use cases.

Databricks documentation explicitly recommends materialized views for analytical workloads with periodic updates and streaming tables for continuously updating sources. Therefore, the correct choice is C , where complex aggregations from large tables benefit most from materialized precomputation for fast reporting.

Lakeflow Declarative Pipelines (LDP), formerly Delta Live Tables (DLT), supports enforcing data quality using expectations . Expectations can either:

Track violations (expect) → records that do not meet conditions are flagged but still included in the pipeline.

Drop violations (expect_or_drop) → records that do not meet conditions are excluded from downstream tables.

Fail pipeline on violations (expect_or_fail) → records that fail conditions stop the pipeline.

In this scenario, the requirement explicitly states that invalid records (where customer_id is null or amount ≤ 0) must be dropped . According to the official documentation, the correct method is .expect_or_drop( " expectation_name " , " SQL_predicate " ) applied on the streaming input.

Option A is correct: It uses .expect_or_drop directly within the transformation chain for both rules, ensuring records that fail are removed before writing to the silver table.

Option B incorrectly uses @dlt.expect decorators, which only track violations but do not drop invalid rows.

Option C uses .expect, which also only flags rows, not drop them.

Option D uses @dlt.expect_or_drop decorator syntax, which is not supported in Python API; expect_or_drop must be applied as a method on the DataFrame, not as a decorator.

Therefore, the correct solution is Option A , which ensures compliance by enforcing data quality and dropping invalid rows programmatically during ingestion.

Maximum concurrent runs: Set to 1. There must be only one instance of each query concurrently active. Retries: Set to Unlimited.