- A
The Auto Scaling groups are not configured with lifecycle hooks to drain connections during scale-in
Why wrong: This is important but not the most significant for high availability across regions.
- B
The Route 53 health checks only monitor the ALB endpoint, not the overall application health including database connectivity
If the database fails in a region, the ALB might still be healthy, causing traffic to be sent to a region that cannot serve requests.
- C
The application instances in us-west-2 experience high latency for write operations due to cross-region traffic to the primary database
Why wrong: This is a known trade-off, but not necessarily a design flaw as global database is designed for disaster recovery, not active-active writes.
- D
The Aurora Global Database does not support cross-region replication for read replicas
Why wrong: Aurora Global Database supports cross-region replication for reads.
Quick Answer
The answer is that the most significant design flaw is the Route 53 health checks only monitor the ALB endpoint, not the overall application health including database connectivity. This is critical because a healthy ALB in us-west-2 can still receive traffic even if the local Aurora cluster has lost connectivity or failed, causing requests to fail silently while the global writer endpoint in us-east-1 remains the only write target. On the AWS Certified Advanced Networking Specialty ANS-C01 exam, this scenario tests your understanding of multi-region Aurora Global Database with Route 53 latency routing, where health checks must validate the full application stack—not just the load balancer—to avoid routing users to a region with a broken database. A common trap is assuming ALB health alone is sufficient, but the exam emphasizes that database state directly impacts application availability. Memory tip: “ALB health is only skin-deep; check the database stack to keep the stack from breaking.”
ANS-C01 Network Design Practice Question
This ANS-C01 practice question tests your understanding of network design. The scenario asks you to isolate a root cause — eliminate options that address a different problem before choosing. After answering, compare your reasoning against the explanation and wrong-answer breakdown below. Once you have made your selection, read the full explanation to reinforce the concept and understand why each distractor is designed to mislead on exam day.
A company is designing a network for a critical application that requires high availability across two AWS Regions (us-east-1 and us-west-2). The application uses an Application Load Balancer (ALB) in each region, with Auto Scaling groups behind them. The database is an Amazon Aurora Global Database with a primary cluster in us-east-1 and a secondary cluster in us-west-2. The company wants to use Amazon Route 53 to route traffic to the closest healthy ALB. They also need to ensure that if the primary database fails over to the secondary region, the application can still write to the database with minimal latency. Additionally, the application must be able to read from the local database in each region for read-intensive workloads. The network team has designed the following: Route 53 with latency-based routing and health checks for the ALBs. The application instances in each region are configured to connect to the local Aurora cluster endpoint. For writes, they use the global writer endpoint. What is the MOST significant design flaw?
Clue words in this question
Noticing these words before you look at the options changes how you read each choice.
Clue:
"primary"Why it matters: Asks for the main purpose or function, not a secondary benefit. Eliminate answers that describe side-effects or partial functions.
Answer choices
Why each option matters
Answer the question above first, then reveal the full breakdown to understand why each option is right or wrong.
Correct answer & explanation
The Route 53 health checks only monitor the ALB endpoint, not the overall application health including database connectivity
Aurora Global Database has a single writer endpoint that always points to the primary region. If the primary region fails and the secondary is promoted, the writer endpoint updates to point to the new primary. However, during normal operations, writes to the global writer endpoint go to the primary region, which might be far away for users in us-west-2. The latency for writes from us-west-2 to us-east-1 could be high. The design should consider using the local cluster for reads and the global writer for writes, but the write latency issue remains. The flaw is that writes from us-west-2 will always incur cross-region latency, which may be unacceptable. A better design would be to use a multi-master or sharded database, but for Aurora Global Database, the only way to reduce write latency is to use the secondary cluster for writes only after failover. So the design flaw is that the write path is not optimized for the secondary region. However, among the options, the most significant flaw is likely that the application instances in us-west-2 are connecting to the global writer endpoint for writes, which routes to us-east-1, causing high latency. But that is by design. The question asks for the most significant design flaw. Perhaps it's that there is no mechanism to redirect writes to the local cluster after failover without manual intervention? Actually, the global writer endpoint automatically updates, so that's fine. The flaw might be that the application is using the global endpoint for reads? No, it uses local for reads. Maybe the flaw is that the health checks for ALBs are not configured to check the database health, so if the database fails, the ALB might still be healthy and traffic continues to a region with a failed database. That is a common design flaw: the application health check should include database connectivity. So the most significant flaw is that the Route 53 health checks only check ALB health, not the overall application health including database.
Key principle: NAT direction and interface roles matter as much as the IP address mapping. Inside/outside designation controls which traffic is translated.
Answer analysis
Option-by-option breakdown
For each option: why learners choose it and why it is or isn't the right answer here.
- ✗
The Auto Scaling groups are not configured with lifecycle hooks to drain connections during scale-in
Why it's wrong here
This is important but not the most significant for high availability across regions.
- ✓
The Route 53 health checks only monitor the ALB endpoint, not the overall application health including database connectivity
Why this is correct
If the database fails in a region, the ALB might still be healthy, causing traffic to be sent to a region that cannot serve requests.
Clue confirmation
The clue word "primary" in the question point toward this answer.
Related concept
Static NAT maps one inside address to one outside address.
- ✗
The application instances in us-west-2 experience high latency for write operations due to cross-region traffic to the primary database
Why it's wrong here
This is a known trade-off, but not necessarily a design flaw as global database is designed for disaster recovery, not active-active writes.
- ✗
The Aurora Global Database does not support cross-region replication for read replicas
Why it's wrong here
Aurora Global Database supports cross-region replication for reads.
Common exam traps
Common exam trap: NAT rules depend on direction and matching traffic
NAT is not only about the public address. The inside/outside interface roles and the ACL or rule that matches traffic are just as important.
Detailed technical explanation
How to think about this question
NAT questions usually test address translation, overload/PAT behaviour, static mappings and whether the right traffic is being translated. Read the interface direction and address terms carefully.
KKey Concepts to Remember
- Static NAT maps one inside address to one outside address.
- PAT allows many inside hosts to share one public address using ports.
- Inside local and inside global describe the private and translated addresses.
- NAT ACLs identify traffic for translation, not always security filtering.
TExam Day Tips
- Identify inside and outside interfaces first.
- Check whether the scenario needs static NAT, dynamic NAT or PAT.
- Do not confuse NAT matching ACLs with normal packet-filtering intent.
Key takeaway
NAT direction and interface roles matter as much as the IP address mapping. Inside/outside designation controls which traffic is translated.
Real-world example
How this comes up in practice
An e-commerce site experiences heavy traffic on Black Friday and near-zero traffic during off-peak weeks. Rather than provisioning permanent large VMs, the team uses auto-scaling groups that add capacity automatically under load and reduce it overnight. Questions like this test whether you understand elasticity, availability zones, and cloud compute scaling patterns.
What to study next
Got this wrong? Here's your next step.
Review the four NAT address types (inside local, inside global, outside local, outside global), PAT port overload, and static vs dynamic NAT use cases. Then practise related ANS-C01 NAT questions on configuration and troubleshooting.
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FAQ
Questions learners often ask
What does this ANS-C01 question test?
Network Design — This question tests Network Design — Static NAT maps one inside address to one outside address..
What is the correct answer to this question?
The correct answer is: The Route 53 health checks only monitor the ALB endpoint, not the overall application health including database connectivity — Aurora Global Database has a single writer endpoint that always points to the primary region. If the primary region fails and the secondary is promoted, the writer endpoint updates to point to the new primary. However, during normal operations, writes to the global writer endpoint go to the primary region, which might be far away for users in us-west-2. The latency for writes from us-west-2 to us-east-1 could be high. The design should consider using the local cluster for reads and the global writer for writes, but the write latency issue remains. The flaw is that writes from us-west-2 will always incur cross-region latency, which may be unacceptable. A better design would be to use a multi-master or sharded database, but for Aurora Global Database, the only way to reduce write latency is to use the secondary cluster for writes only after failover. So the design flaw is that the write path is not optimized for the secondary region. However, among the options, the most significant flaw is likely that the application instances in us-west-2 are connecting to the global writer endpoint for writes, which routes to us-east-1, causing high latency. But that is by design. The question asks for the most significant design flaw. Perhaps it's that there is no mechanism to redirect writes to the local cluster after failover without manual intervention? Actually, the global writer endpoint automatically updates, so that's fine. The flaw might be that the application is using the global endpoint for reads? No, it uses local for reads. Maybe the flaw is that the health checks for ALBs are not configured to check the database health, so if the database fails, the ALB might still be healthy and traffic continues to a region with a failed database. That is a common design flaw: the application health check should include database connectivity. So the most significant flaw is that the Route 53 health checks only check ALB health, not the overall application health including database.
What should I do if I get this ANS-C01 question wrong?
Review the four NAT address types (inside local, inside global, outside local, outside global), PAT port overload, and static vs dynamic NAT use cases. Then practise related ANS-C01 NAT questions on configuration and troubleshooting.
Are there clue words in this question I should notice?
Yes — watch for: "primary". Asks for the main purpose or function, not a secondary benefit. Eliminate answers that describe side-effects or partial functions.
What is the key concept behind this question?
Static NAT maps one inside address to one outside address.
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Last reviewed: Jun 20, 2026
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