There is a common misconception that the larger amount of storage in a computer system allows for better and faster performance. However, the storage issue is that a slow processor, while requiring significantly more time to retrieve and operate the data to access certain files, is more likely to fill the storage with redundant information. In some cases, when using slow processors to access webpages or files that require high speed and performance, the system has to back up the data for it not to crash.
Thus, it uses a considerably larger amount of random access memory (RAM). A high-speed computer system secures quality data processing, storage, and immediate retrieval of files (Donatus et al., 2017). Hence, it may be concluded that speed is more important in a computer storage system because, without high processing speed, any amount of storage may be filled by duplicating and saving some irrelevant information.
While there are indications of how speed may be more significant than storage in the context of a computer system, both storage and speed are important to efficiency. Thus, while speed stands for the processor’s ability to quickly and efficiently access local or web-based files, the notion of storage stands for the amount of data that could be simultaneously stored on the computer’s hard drive. If the storage size is limited, the computer is more likely to be overloaded with information and slow down the processor’s performance.
On the other hand, a slow processor may catalyze faster storage fill. Hence, while speed and storage are responsible for different functions in a computer system, their proper cooperation is vital for optimal performance. A primary distinction between speed and storage is the fact that speed predominantly deals with short-term system memory, whereas storage is a computer tool responsible for storing data on a long-term basis.
Reference
Donatus, N. O., Agbaeze, E., Ikenna, N. C., Kizito, U. K., & Andrew, M. K. (2017). Positioning performance improvement of a servomechanism of hard disk drive in a computer. International Journal of Engineering Sciences & Research Technology, 6(11), 102-107. Web.