Database System Concepts
7th Edition
ISBN: 9780078022159
Author: Abraham Silberschatz Professor, Henry F. Korth, S. Sudarshan
Publisher: McGraw-Hill Education
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What is the point of using cache memory if we already have volatile RAM (Random Access Memory)?
Transistors are used in both random-access memory (RAM) and cache memory. Is it conceivable, if at all possible, to employ just one kind of memory to carry out all of a computer's functions?
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- The storage requirements of dynamically linked programs are lower than those of statically connected ones. When it operates, which one of these is likely to use the most random access memory (RAM)? Why?arrow_forwardI am curious about virtual Memory's benefits.arrow_forwardAlthough random access memory (RAM) is also considered a volatile storage medium, the question arises as to why we would want more cache memory when we already have RAM at our disposal. Is it possible to make all of a computer's storage needs satisfied by a single kind of memory?arrow_forward
- When we already have RAM, which is a volatile transistor-based memory, what is the use of cache memory? Is it feasible to use just one kind of computer memory?arrow_forwardSince both cache memory and RAM (Random Access Memory) employ transistors as its fundamental structural component, it's natural to wonder why we need cache memory when we already have RAM (Random Access Memory) as a volatile memory. This is because transistors are used extensively in both cache memory and random access memory. Can a single form of memory be used for all of the computer's tasks, or are many types of memory necessary?arrow_forwardGiven that RAM (Random Access Memory) uses transistors, one could wonder why we also need cache memory. Can every program really benefit from the same kind of computer memory?arrow_forward
- How does the process of memory mapping work, and what are its applications in computer systems?arrow_forwardIs it possible to define locality of reference and demonstrate that it improves memory access?arrow_forwardThe three alternative designs for a computer's central processing unit (CPU) are a general register, a single accumulator, or a stack. Each one has a unique set of benefits and drawbacks. It is up to you to respond, and the response you give might be right or it might be wrong.arrow_forward
- If RAM (Random Access Memory) and cache memory are both transistor-based, then why do we need cache memory? Is it feasible to use a single kind of computer memory for all applications?arrow_forwardHow do neuromorphic memory architectures differ from traditional computer memory, and what are their implications for AI and machine learning applications?arrow_forwardWhy is it necessary for us to have cache memory when we already have RAM (Random Access Memory), which is a kind of memory that is believed to be volatile?Random access memory, also known as cache memory, and random access memory (RAM) are both types of memory that utilise an electrical component called a transistor. Is it really conceivable to employ just one kind of memory to carry out all of a computer's operations, and if so, is it even possible?arrow_forward
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