Help Chengg

[Shammy_2]

pa unlock po ty!! You do not have permission to view the full content of this post. Log in or register now.

 

[Mjik02]

tryy

 

[🤖]

I apologize, but I am not able to access the link you provided. As a language model AI developed by OpenAI, I do not have direct access to external websites or links. However, if you have a specific question or need assistance with a topic related to operation management or virtual memory, I would be more than happy to try and help you. Just let me know what you need assistance with, and I'll do my best to provide a detailed response.

 

[Mjik02]

Answer​

Step 1
Given:

Step 2
As per our policy, "Since you have asked multiple questions, we will solve the first question for you. If you want any specific question to be solved then please specify the question number or post only that question.”
Answer 1:
Linus Virtual Memory - Linux supports virtual memory, which is the use of a disc as an extension of RAM to increase the effective capacity of useable memory. The swap file refers to the area of the hard disc that is utilized for storing. Linux will either utilize a standard filesystem or a separate disc for swapping files.
Linux memory management is in charge of managing the system's memory. It includes demand paging and storage implementation.
It also includes memory allocation for user-space programs and kernel internal structures. The UNIX system memory management method comprises files mapping into the address space of the processes alternative|and a number of other things.
Windows Virtual Memory - Windows virtual memory is essentially a block of space on your hard disc or solid-state drive assigned by the operating system to operate as RAM when your actual RAM becomes insufficient for actively running programs. It offers extra "fake" RAM to allow programs to continue running, but because HDD and SSD access and performance are much slower than that of genuine RAM, the substantial performance loss is occasionally observed when relying heavily on memory.
Memory management on a Windows® system is very simple, but for the most part superfluous. Windows may, by default, alter memory on the fly based on your preferences and the amount of RAM you have installed. It attempts to align itself with what it anticipates you to want to be supported by your RAM, and it will adjust itself if your consumption surges. If you're already running an excessive amount of RAM, (for example a system with 8GB of RAM will usually default to 8GB of memory and may grow as large as 16GB).
Step 3
Some users can change the memory settings to reduce the amount of space utilized by their operating system on their hard disc or solid-state drive because they believe they need enough RAM to never use the memory function of their operating system. Users furthermore desire to recover space that is being "wasted" if memory isn't being used; this is especially true with higher-priced storage on an SSD. However, lowering or removing your RAM to release disc space involves some danger of causing errors or system instability in circumstances when you desire more memory but have capped what your system would utilize.
Windows has both physical and memory resources. Memory is maintained in pages, with programs accessing it as needed. Memory pages have a size of 4KB (both for physical and virtual memory). The total accessible memory on 32-bit (x86) architectures is 4GB, split evenly between user area and system space.

pa-mark as solution nalang po lods thankss

 

[Shammy_2]

Answer​

Step 1
Given:

Step 2
As per our policy, "Since you have asked multiple questions, we will solve the first question for you. If you want any specific question to be solved then please specify the question number or post only that question.”
Answer 1:
Linus Virtual Memory - Linux supports virtual memory, which is the use of a disc as an extension of RAM to increase the effective capacity of useable memory. The swap file refers to the area of the hard disc that is utilized for storing. Linux will either utilize a standard filesystem or a separate disc for swapping files.
Linux memory management is in charge of managing the system's memory. It includes demand paging and storage implementation.
It also includes memory allocation for user-space programs and kernel internal structures. The UNIX system memory management method comprises files mapping into the address space of the processes alternative|and a number of other things.
Windows Virtual Memory - Windows virtual memory is essentially a block of space on your hard disc or solid-state drive assigned by the operating system to operate as RAM when your actual RAM becomes insufficient for actively running programs. It offers extra "fake" RAM to allow programs to continue running, but because HDD and SSD access and performance are much slower than that of genuine RAM, the substantial performance loss is occasionally observed when relying heavily on memory.
Memory management on a Windows® system is very simple, but for the most part superfluous. Windows may, by default, alter memory on the fly based on your preferences and the amount of RAM you have installed. It attempts to align itself with what it anticipates you to want to be supported by your RAM, and it will adjust itself if your consumption surges. If you're already running an excessive amount of RAM, (for example a system with 8GB of RAM will usually default to 8GB of memory and may grow as large as 16GB).
Step 3
Some users can change the memory settings to reduce the amount of space utilized by their operating system on their hard disc or solid-state drive because they believe they need enough RAM to never use the memory function of their operating system. Users furthermore desire to recover space that is being "wasted" if memory isn't being used; this is especially true with higher-priced storage on an SSD. However, lowering or removing your RAM to release disc space involves some danger of causing errors or system instability in circumstances when you desire more memory but have capped what your system would utilize.
Windows has both physical and memory resources. Memory is maintained in pages, with programs accessing it as needed. Memory pages have a size of 4KB (both for physical and virtual memory). The total accessible memory on 32-bit (x86) architectures is 4GB, split evenly between user area and system space.

pa-mark as solution nalang po lods thankss

thankyou poo!!!!

 

[Mjik02]

thankyou poo!!!!

welcome po