Can someone clearly explain me the difference between a cache miss, a tlb miss and page fault, and how do these affect the effective memory access time?
Let me explain all these things step by step.
The CPU generates the logical address, which contains the
page number and the
page number is used to index into the
page table, to get the corresponding
page frame number, and once we have the page frame of the
physical memory(also called main memory), we can apply the
page offset to get the right word of memory.
Why TLB(Translation Look Aside Buffer)
The thing is that page table is stored in
physical memory, and sometimes can be very large, so to speed up the translation of logical address to physical address , we sometimes use
TLB, which is made of expensive and faster associative memory, So instead of going into page table first, we go into the
TLB and use
page number to index into the
TLB, and get the corresponding
page frame number and if it is found, we completely avoid
page table( because we have both the
page frame number and the
page offset) and form the
If we don't find the
page frame number inside the
TLB, it is called a
TLB miss only then we go to the
page table to look for the corresponding
page frame number.
If we find the
page frame number in
TLB, its called
TLB hit, and we don't need to go to page table.
Occurs when the page accessed by a running program is not present in physical memory. It means the page is present in the secondary memory but not yet loaded into a frame of physical memory.
Cache Memory is a small memory that operates at a faster speed than physical memory and we always go to cache before we go to physical memory. If we are able to locate the corresponding word in cache memory inside the cache, its called
cache hit and we don't even need to go to the physical memory.
It is only after when mapping to
cache memory is unable to find the corresponding
block similar to physical memory
page frame) of memory inside cache ( called
cache miss ), then we go to
physical memory and do all that process of going through
page table or
So the flow is basically this
1.First go to the
cache memory and if its a
cache hit, then we are done.
2. If its a
cache miss, go to step 3.
3. First go to
TLB and if its a
TLB hit, go to physical memory using
physical address formed, we are done.
4. If its a
TLB miss, then go to
page table to get the frame number of your page for forming the
5. If the
page is not found, its a
page fault.Use one of the
page replacement algorithms if all the frames are occupied by some page else just load the required page from
secondary memory to
physical memory frame.
The flow I have discussed is related to virtual cache(VIVT)(faster but not sharable between processes), the flow would definitely change in case of physical cache(PIPT)(slower but can be shared between processes). Cache can be addressed in multiple ways. If you are willing to dive deeply have a look at this and this.
Just imagine a process is running and requires a data item X.
At first cache memory will be checked to see if it has the requested data item, if it is there(cache hit), it will be returned.If it is not there(cache miss), it will be loaded from main memory.
If there is a cache miss main memory will be checked to see if there is page containing the requested data item(page hit) and if such page is not there (page fault), the page containing the desired item has to be brought into main memory from disk.
While processing the page fault TLB will be checked to see if the desired page's frame number is available there (TLB hit) otherwise (TLB miss)OS has to consult page table for servicing page fault.
Time required to access these types memories:
Cache access requires least time so a hit or miss at certain level drastically changes the effective access time.
What causes page faults? Is it always because the memory has been moved to hard disk? Or just moved around for other applications?
Well, it depends. If your system does not support multiprogramming(In a multiprogramming system there are one or more programs loaded in main memory which are ready to execute), then definitely page fault has occurred because memory has been moved to hard disk.
If your system does support multiprogramming, then it depends on whether your operating system uses global page replacement or local page replacement. If it uses global, then yes there is a chance that memory has been moved around for other applications. But in local, the memory has been moved back to hard disk. When a process incurs a page fault, a local page replacement algorithm selects for replacement some page that belongs to that same process. On the other hand a global replacement algorithm is free to select any page in from the entire pool of frames. This discussion about these pops up more when dealing with thrashing.
I am confused of the difference between TLB miss and page faults.
TLB miss occurs when the page table entry required for conversion of virtual address to physical address is not present in the TLB(translation look aside buffer). TLB is like a cache, but it does not store data rather it stores page table entries so that we can completely bypass the page table in case of TLB hit as you can see in the diagram.
Is page fault a crash? Or is it the same as a TLB miss?
Neither of them is a crash as crash is not recoverable. But it is well known that we can recover from both page fault and TLB miss without any need for aborting the process execution.
The Operating system uses virtual memory and page tables maps these virtual address to physical address. TLB works as a cache for such mapping.
program >>> TLB >>> cache >>> Ram
A program search for a page in TLB, if it doesn't find that page it's a TLB miss and then further looks for the page in cache.
If the page is not in cache then it's a cache miss and further looks for the page in RAM.
If the page is not in RAM, then it's a page fault and program look for the data in secondary storage.
So, typical flow would be
Page Requested >> TLB miss >> cache miss >> page fault >> looks in secondary memory.