Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

Virtual memory was introduced to help run more programs with limited memory. But in todays environment of inexpensive RAM, is it still relevant?

Since there will be no disk access if it is disabled and all the programs will be memory resident, will it not improve the performance and program response times?

Is there any essential requirement for virtual memory in windows apart from running more programs as stated above? Something windows internal not known to us.

share|improve this question
1  
I believe this is a good question, even if it's not "programming related", it's certainly something programmers are interested in. I, for one, would like to really understand why I get swapping even when I am seemingly below my physical memory limit. –  Craig Shearer Feb 5 '09 at 8:14
1  
Some people a little too jittery when it comes to closing these types of questions. I, for one, believe they should remain open since you can in some way at least relate it to programming and if not, help the dude out first and then have it closed. –  SD. Feb 5 '09 at 8:25
3  
It amazes me to no end that questions like this get closed immediately as "not programming related," while "Jon Skeet Facts" and "What is your favorite programmer cartoon" rank some of the highest on the site. –  Giovanni Galbo Feb 5 '09 at 10:06
4  
I believe this is in fact programming related –  Jeff Atwood Feb 5 '09 at 13:11
1  
This is certainly programming related, especially if your programming task is writing or enhancing an OS –  Chris Ballance Feb 5 '09 at 13:24
show 7 more comments

closed as not constructive by casperOne Apr 5 '12 at 13:58

As it currently stands, this question is not a good fit for our Q&A format. We expect answers to be supported by facts, references, or expertise, but this question will likely solicit debate, arguments, polling, or extended discussion. If you feel that this question can be improved and possibly reopened, visit the help center for guidance.If this question can be reworded to fit the rules in the help center, please edit the question.

11 Answers

up vote 4 down vote accepted

The question is really what is the use of a pagefile considering how much memory modern computers have and what's going on under the hood in the OS.

It's common for the Windows task manager to show not much physical memory being used, but, your having many page faults? Win32 will never allocate all it's physical memory. It always saves some for new resource needs. With a big pagefile vs small pagefile, Win32 will be slower to allocate physical memory to a process.

For a few days now I've been using a very small pagefile (200 MB fixed) in Vista with 3GB of addressable physical memory. I have had no crashes or problems. Haven't tried things like large video editing or many different processes open at once. I wouldn't recommend no pagefile since the OS can never shuffle pages around in physical memory leading to the development of holes. A large pagefile is fail-safe for people who wouldn't know how to manually increase the pagefile if a low memory warning pops up or the OS crashes.

Some points: The kernel will use some of the physical memory and this will be shared through VM mapping with all other processes. Other processes will be in the remaining physical memory. VM makes each process see a 4GB mem space, the OS at the lower 2GB. Each process will need much less than the 4GB of physical memory, this amount is it's committed memory requirement. When programming, a malloc or new will reserve memory but not commit it. Things like the first write to the memory will commit it. Some memory is immedietely committed by the OS for each process.

share|improve this answer
    
Experienced possible thrashing when trying to run a DVD so I upped dynamic pagefile expansion to 700 MB, no problems since. –  jeffD Feb 18 '09 at 20:33
    
Actually, the OS is generally in the upper 2GB (or sometimes just 1GB). –  SamB May 11 '10 at 22:43
add comment

Some pedantry: virtual memory is not just the pagefile. The term encompasses a whole range of techniques that give the program the illusion that it has one single contiguous address space, some of which is the program's code, some of which is data, and some of which are DLLs or memory-mapped files.

So to your lead-in question: yes, virtual memory is required. It's what makes modern OS's work.

share|improve this answer
    
I know my answer sounds a little like a repeat of yours, but I wanted emphasize the process memory protection aspect of VM. –  RussellH Feb 5 '09 at 18:07
    
Yes, although the relevance of the pagefile may be questioned, the whole concept of Virtual Memory is definitely something of the present and the future. en.wikipedia.org/wiki/Virtual_memory –  Raphaël Saint-Pierre Feb 5 '09 at 18:09
1  
So can the pagefile be set to zero in large memory systems? –  Navneet Feb 6 '09 at 6:09
add comment

Don't disable virtual memory. 2GB is not nearly enough to even consider this. Regardless, you should always keep virtual memory on even if you do have enough since it will only ever be used when you actually need it. Much better to be safe than sorry since NOT having it active means you simply hit a wall, while having it active means your computer starts swapping to the hard drive but continues to run.

share|improve this answer
    
Thats got to be the first piggyback post I've seen here. –  StingyJack Feb 5 '09 at 13:03
    
Aaron you should post your own answer; reverting this change now that it's reopened –  Jeff Atwood Feb 5 '09 at 13:12
add comment

Yes, because it's the basis of all on-demand paging that occurs in a modern operating system, not just Windows.

Windows will always use all of your memory, if not for applications then for caching whatever you read from your hard drive. Because if that memory is not used, then you're throwing your investment in memory away. Basically, Windows uses your RAM as a big fat cache to your hard drives. And this happens all the time, as the relevant pages are only brought into main memory when you address the content of that page.

share|improve this answer
add comment

Your question is really about using a page file, and not virtual memory, as kdgregory said. Probably the most important use for virtual memory is so that the OS can protect once process's memory from another processes memory, while still giving each process the illusion of a contiguous, flat virtual address space. The actual physical addresses can and will become fragmented, but the virtual addresses will appear contiguous.

Yes, virtual memory is vital. The page file, maybe not.

share|improve this answer
    
So can pagefile be set to zero in large memory systems? –  Navneet Feb 6 '09 at 6:08
    
I wouldn't. I was speaking theoretically, that maybe some future OS from Microsoft will properly support disabling the pagefile. They don't recommend it (support.microsoft.com/kb/308417). SSD drives could also make the impact less. –  RussellH Feb 6 '09 at 18:39
    
@Navneet, I have it set to 0 under Win 7 x64 with 6 GB RAM on my home machine. Never had any problems because of it, at least not to my knowledge. I did it because I got tired of this dreadful experience, when you restore a window that was minimized a couple of hours ago. I play modern games sometimes (BF3, SC2), use Visual Studio 2010, Eclipse, watch movies etc. So there is my anecdotal knowledge. Zero sized pagefile works for me. –  this Jun 19 '12 at 15:25
add comment

Grrr. Disk space is probably always going to be cheaper than RAM. One of my lab computers has 512MB of RAM. That used to be enough when I got it, but now it has slowed to a crawl swapping and I need to put more RAM in it. I am not running more software programs now than I was then, but they have all gotten more bloated, and they often spawn more "daemon" programs that just sit there doing nothing but wait for some event and use up memory. I look at my process list and the "in-memory" column for the file explorer is 40MB. For Firefox it's 162MB. Java's "update scheduler" jusched.exe uses another 3.6MB. And that's just the physical-memory, these numbers don't include the swap space.

So it's really important to save the quicker, more expensive memory for what can't be swapped out. I can spare tens of GB on my hard drive for swap space.

Memory is seen as cheap enough that the OS and many programs don't try to optimize any more. On the one hand it's great because it makes programs more maintainable and debuggable and quicker to develop. But I hate having to keep putting in more RAM into my computer.

share|improve this answer
add comment

A good explanation at http://blogs.technet.com/markrussinovich/archive/2008/11/17/3155406.aspx

To optimally size your paging file you should start all the applications you run at the same time, load typical data sets, and then note the commit charge peak (or look at this value after a period of time where you know maximum load was attained). Set the paging file minimum to be that value minus the amount of RAM in your system (if the value is negative, pick a minimum size to permit the kind of crash dump you are configured for). If you want to have some breathing room for potentially large commit demands, set the maximum to double that number.

share|improve this answer
add comment

Virtual memory is much more than simply an extension of RAM. In reality, virtual memory is a system they virtualizes access to physical memory. Applications are presented with a consistent environment that is completely independent of RAM size. This offers a number of important advantages quite appart from the increased memory availabilty. Virtual memory is an integral part of the OS and cannot possibly be disabled.

The pagefile is NOT virtual memory. Many sources have claimed this, including some Microsoft articles. But it is wrong. You can disable the pagefile (not recommended) but this will not disable virtual memory.

Virtual mmeory has been used in large systems for some 40 years now and it is not going away anytime soon. The advantages are just too great. If virtual memory were eliminated all current 32 bit applications (and 64 bit as well) would become obsolete.

Larry Miller Microsoft MCSA

share|improve this answer
add comment

Unfortunately, it is still needed because the windows operating system has a tendency to 'overcache'.

Plus, as stated above, 2GB isn't really enough to consider turning it off. Heck, I probably wouldn't turn it off until I had 8GB or more.

G-Man

share|improve this answer
    
Its not unfortunate, its how all modern operating systems work and is basically an essential service at this point for reasons that are explained in other answers. –  Soviut Feb 5 '09 at 17:32
add comment

Since there will be no disk access if it is disabled and all the programs will be memory resident, will it not improve the performance and program response times?

I'm not totally sure about other platforms, but I had a Linux machine where the swap-space had been accidently disabled. When a process used all available memory, the machine basically froze for 5 minutes, the load average went to absurd numbers and the kernel OOM killer kicked in and terminated several processes. Reenabling swap fixed this entirely.

I never experienced any unnecessary swapping to disc - it only happened when I used all the available memory. Modern OS's (even 5-10 year old Linux distros) deal with swap-space quite intelligently, and only use it when required.

You can probably get by without swap space, since it's quite rare to reach 4GB of memory usage with a single process. With a 64-bit OS and say 8GB of RAM it's even more rare.. but, there's really no point disabling swap-space, you don't gain much (if anything), and when you run out of physical memory without it, bad things happen..

Basically - any half-decent OS should only use disc-swap (or virtual-memory) when required. Disabling swap only stops the OS being able to fall back on it, which causes the OOM killer to strike (and thus data-loss when processes are terminated).

share|improve this answer
add comment

Virtual memory is a safety net for situations when there is not enough RAM available for all running application. This was very common some time ago and today when you can have large amounts of system RAM it is less so.

Some say to leave page file alone and let it be managed by Windows. Some people say that even if you have large RAM keeping big pagefile cannot possibly hurt because it will not be used. That is not true since Windows does pre-emptive paging to prepare for spikes of memory demand. If that demand never comes this is just wasted HDD activity and we all know that HDD is the slowest component of any system. Pre-emptive paging with big enough RAM is just pointless and the only thing it does is to slow down any other disk activity that happens at the same time. Not to mention additional disk wear. Plus big page file means gigabytes of locked disk space.

A lot of people point to Mark Russinovich article to back up their strong belief that page file should not be disabled at any circumstances and so many clever people at Microsoft have thought it so thoroughly that we, little developers, should never question default Windows policy on page file size. But even Russinovich himself writes:

Set the paging file minimum to be that value (Peak Commit Charge) minus the amount of RAM in your system (if the value is negative, pick a minimum size to permit the kind of crash dump you are configured for).

So if you have large RAM amounts and your peek commit charge is never more than 50% of your RAM even when you open all your apps at once and then some, there is no need have page file at all. So in those situations 99.99% of time you will never need more memory than your RAM.

Now I am not advocating for disabling page file it but having it in size of your RAM or more is just waste of space and unnecessary activity that can slow down something else. Page file gives you a safety net in those rare (with plenty of RAM) situations when system does need more memory and to prevent it from getting out of memory which will most likely make your system unstable and unusable.

The only real need for page file is kernel dumps. If you need full kernel dumps you need at least 400 MB of paging file. But if you are happy with mini dumps, minimum is 16 MB. So to have best of both worlds which is

  • virtually no page file
  • safety net of virtual memory

I would suggest to configure Windows for mini kernel dumps, set minimum page file size to 16 MB and maximum to whatever you want. This way page file would be practically unused but would automatically expand after first out of memory error to prevent your system from being unusable. If you happen to have at least one out of memory issue you should of course reconsider your minimum size. If you really want to be safe make page file min. size 1 GB. For servers though you should be more careful.

share|improve this answer
add comment

Not the answer you're looking for? Browse other questions tagged or ask your own question.