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In this scenario, determining the required number of CPUs likely depends on the demands of the workload the server is expected to handle. A server with 4 CPUs might be indicated as optimal based on factors such as the level of concurrency, the type of applications being run, or the total processing power needed to efficiently manage incoming requests or perform computations.

Using 4 CPUs allows for a balanced distribution of workload, enhancing performance through parallel processing. This is particularly advantageous for resource-intensive tasks or applications that can leverage multi-threading for improved efficiency. Additionally, the choice of 4 CPUS can be seen as a compromise between performance and resource allocation, making it suitable for environments where multiple applications may be executed simultaneously or where high availability is crucial.

Considering performance metrics and the ability to scale, a server configured with 4 CPUs offers sufficient processing capability compared to lower configurations while avoiding potential over-provisioning associated with higher CPU configurations, such as 8 CPUs, which may lead to diminished returns on performance in certain scenarios. This optimal balance makes 4 CPUs a logical and strategic choice for the specified server requirements in this context.