What is the Difference Between Physical and Virtual Memory?
🆚 Go to Comparative Table 🆚The main difference between physical and virtual memory lies in their definitions, accessibility, and usage. Here are the key differences:
- Definition: Physical memory, or RAM (Random Access Memory), is a type of data storage that stores the programs currently running. Virtual memory, on the other hand, is a memory management technique that creates the illusion of a larger physical memory, allowing users to run programs larger than the actual RAM.
- Accessibility: Physical memory has direct access to the CPU, while virtual memory does not. Virtual memory extends the use of physical memory by temporarily moving unused RAM storage to secondary storage, allowing access to more memory than what is actually stored on the system.
- Usage: Physical memory is limited to the size of the RAM chips installed, and it is volatile, meaning it loses its data when the power is turned off. Virtual memory is stored on the hard drive and is used when the RAM is filled. It uses both hardware and software to enable a computer to compensate for physical memory shortages, temporarily transferring data from random access memory (RAM) to secondary storage, such as a hard disk.
- Performance: Accessing data via physical memory is faster than accessing data from a hard drive, which is used for virtual memory. RAM is considerably faster than virtual memory, but it tends to be more expensive.
In summary, physical memory refers to the actual RAM in a computer system, while virtual memory is a memory management technique that allows a computer to use more memory than the physical RAM. Virtual memory stores data on the hard drive and is used when the RAM is filled, providing an extension to the physical memory.
Comparative Table: Physical vs Virtual Memory
Here is a table comparing the differences between physical and virtual memory:
Feature | Physical Memory | Virtual Memory |
---|---|---|
Definition | Physical memory refers to the actual RAM chips installed in a computer system. | Virtual memory is a technique that allows a computer system to use more memory than the physical memory installed on the hardware. |
Storage Type | Primary storage, harder to access. | Secondary storage, easier to access but slower than primary storage. |
Speed | Faster, as it has direct access to the CPU. | Slower, as it does not have direct access to the CPU. |
Capacity | Limited by the size of the RAM chips. | Limited by the size of the hard disk. |
Addresses | Physical addresses, which are used by the computer hardware. | Logical addresses, which are translated into physical addresses by the operating system. |
Management | Allocated in frames, with each frame being the same size as a page in virtual memory. | Managed by the operating system, which translates virtual addresses into physical addresses. |
Physical memory stores data and instructions that can be accessed directly by the computer's processor, making it faster than secondary storage devices like hard drives. However, it is more expensive and has a limited capacity. On the other hand, virtual memory allows a computer system to use more memory than the physical memory installed, enabling it to execute programs that require more memory than the system has. This technique manages memory more efficiently and makes the system more responsive, especially when the system is under heavy load.
- Cache Memory vs Virtual Memory
- RAM vs Cache Memory
- Memory vs Hard Disk
- Hard Disk vs RAM
- CPU vs RAM
- Static RAM vs Dynamic RAM
- Static vs Dynamic Memory Allocation
- Primary vs Secondary Memory
- Logical Address vs Physical Address
- Virtual vs Abstract
- Cloud Computing vs Virtualization
- Volatile vs Nonvolatile Memory
- Virtual Machine vs Server
- Memory vs Storage
- RAM vs ROM
- Virtual vs Real Images
- RAM vs Processor
- Logical vs Physical Data Model
- Paging vs Swapping