How does SDRAM improve data processing?

SDRAM, or Synchronous Dynamic Random Access Memory, improves data processing primarily by synchronizing with the system's clock speed. This synchronization allows the memory to operate in harmony with the CPU and other components, ensuring that data is moved and processed more efficiently. As the clock sends out pulses at regular intervals, SDRAM can coordinate its operations to align with these signals, allowing for predictable timing in data access.

This capability enhances overall performance since it enables the memory to transfer data at precisely timed intervals, reducing latency and improving data throughput. In contrast, memory types that do not synchronize in this way can struggle with timing mismatches, leading to slower performance.

The options related to doubling the data rate, minimizing power consumption, or increasing data capacity are relevant to aspects of memory technology but do not fundamentally capture the primary improvement mechanism provided by SDRAM's synchronized operations. The enhanced coordination afforded by clock synchronization is what allows for faster and more efficient data handling within the system.