2
votes
1answer
944 views

Physical or virtual addressing is used in processors x86/x86_64 for caching in the L1, L2 and L3?

Which addressing is used in processors x86/x86_64 for caching in the L1, L2 and L3(LLC) - physical or virtual(using PT/PTE and TLB) and somehow does PAT(page attribute table) affect to it? And is ...
0
votes
0answers
59 views

What instructions instead of R/WDMSR in x86 do I must to use in POSIX to mark regions of RAM through PAT?

If I want to mark some regions of RAM to control over how areas of memory are cached (WT/WB/WC/UC), then I use MTRRs registers by using RDMSR and WRMSR x86-instructions through CPU-ring 0. But can I ...
1
vote
2answers
1k views

How does x86 paging work?

This question is meant to fill the vacuum of good free information on the subject. I believe that a good answer will fit into one big SO answer or at least in a few answers. The main goal is to give ...
0
votes
2answers
75 views

x86 -segmentation in protected mode for what purpse?

I read about the x86 memory segmentaions and i think that I'm missing somthing, the linear(virtual) address is build by taking the 32 bit from the GDT entry (base address), taking the 32 bits from the ...
0
votes
1answer
171 views

Referenced and Modified bit in TLB and PTE

You might know these as Accessed and Dirty bits. Now x86 PTE contains these bits. Lets say the TLB also contains these bits. In case of a TLB hit, these bits will be set by the hardware if the page ...
1
vote
2answers
242 views

Do ring 0 programs use physical memory addresses?

I'm designing a memory chip, and since this seems like the best place to ask a related system software question... On a modern x86 processor, does system-level code (protection ring 0) run on ...
0
votes
0answers
398 views

TLB invlpg instruction has long latency

So I'm working on this kernel module that does some page table manipulation and I noticed that flushing a TLB entry is slow. How slow you ask? Over 100 ns per call to invlpg! That's 280 cycles or ...
9
votes
1answer
3k views

How do x86 page tables work?

I'm familiar with the MIPS architecture, which is has a software-managed TLB. So how and where you (the operating system) wants to store the page tables and the page table entries is completely up to ...
2
votes
2answers
146 views

If a virtual memory page is executable, does it imply that it is readable?

If I created a virtual memory page on a x86 system with the page protection set to only executable, would it imply that the page is also readable?
1
vote
6answers
233 views

What is a “write to read-only page” fault called?

OK, when a program tries to access a page which is not there in the physical memory, we say a page fault has occurred. But say, program tries to write to a page which is read-only and is there in the ...
1
vote
2answers
658 views

Maximum size of application memory space on 32 (x86)? 2 Gb or 1 Gb?

What amount of memory is available (theoretically) to application on 32 bit system? Different OSes? 2 or 1 Gb? thx!
11
votes
4answers
1k views

In what circumstances can large pages produce a speedup?

Modern x86 CPUs have the ability to support larger page sizes than the legacy 4K (ie 2MB or 4MB), and there are OS facilities (Linux, Windows) to access this functionality. The Microsoft link above ...
1
vote
3answers
660 views

Is an entire process’s virtual address space split into pages

Note: I'm attempting to study a high-level overview of Virtual Memory allocation Is an entire process's virtual address space split into pages, of a particular size: .text .bss .data Does ...