Re: IA64 memory - Vaibhav Sharma

All of lore.kernel.org
 help / color / mirror / Atom feed

From: Vaibhav Sharma <vaibhav.sh@gmail.com>
To: linux-ia64@vger.kernel.org
Subject: Re: IA64 memory
Date: Tue, 01 Mar 2005 13:44:44 +0000	[thread overview]
Message-ID: <851caabb0503010532d746452@mail.gmail.com> (raw)
In-Reply-To: <851caabb05020220513945437@mail.gmail.com>

hi all, 

Thank you again for the details.

I have another query. I had downloaded a pdf concerning the zx1 memory
and I/O ("zx1 mio External reference specification"). In the system
address map, it shows that memory space is consisting of m0(1 GB),
m1(3GB) and m2 (252 GB), which means  m0+m1+m2= 1+ 3+252%6 GB*. Is
it that zx1 chip is capable of addressing RAM of 256 GB size only..if
my RAM is more than 256 GB, do I have to change the chip..?

(* not considering other areas like GMMIO, LMMIO etc)..

I have zx6000 hp machine. 

Plz do reply...

TIA, 
vaibhav



On Thu, 24 Feb 2005 10:40:58 -0800, Bukie Mabayoje <bukiemab@gte.net> wrote:
> Below is a sample memory map from EFI. You will see gaps between the memory types.
> The GRANULE is a chunk of available memory. e.g  the second line is a GRANULE  0x1000-0x6FFF
> 
> For trim_bottom refer to func trim_bottom():efi.c
> For trip_top refer to func trim_top():efi.c
> 
> Type       Start            End               # Pages          Attributes
> BS_data    0000000000000000-0000000000000FFF  0000000000000001 0000000000000009
> available  0000000000001000-0000000000006FFF  0000000000000006 0000000000000009
> BS_data    0000000000007000-0000000000008FFF  0000000000000002 0000000000000009
> available  0000000000009000-0000000000081FFF  0000000000000079 0000000000000009
> RT_data    0000000000082000-0000000000083FFF  0000000000000002 8000000000000009
> available  0000000000084000-0000000000084FFF  0000000000000001 0000000000000009
> BS_data    0000000000085000-000000000009FFFF  000000000000001B 0000000000000009
> RT_code    00000000000C0000-00000000000FFFFF  0000000000000040 8000000000000009
> available  0000000000100000-000000000FFBFFFF  000000000000FEC0 000000000000000B
> BS_data    000000000FFC0000-000000000FFFFFFF  0000000000000040 000000000000000B
> available  0000000010000000-000000007C92DFFF  000000000006C92E 000000000000000B
> LoaderData 000000007C92E000-000000007C937FFF  000000000000000A 000000000000000B
> LoaderCode 000000007C938000-000000007C97DFFF  0000000000000046 000000000000000B
> available  000000007C97E000-000000007CE29FFF  00000000000004AC 000000000000000B
> BS_data    000000007CE2A000-000000007D000FFF  00000000000001D7 000000000000000B
> available  000000007D001000-000000007D01DFFF  000000000000001D 000000000000000B
> BS_data    000000007D01E000-000000007D09BFFF  000000000000007E 000000000000000B
> available  000000007D09C000-000000007D09CFFF  0000000000000001 000000000000000B
> BS_data    000000007D09D000-000000007D37DFFF  00000000000002E1 000000000000000B
> available  000000007D37E000-000000007D6FFFFF  0000000000000382 000000000000000B
> BS_code    000000007D700000-000000007D77DFFF  000000000000007E 000000000000000B
> available  000000007D77E000-000000007D8B5FFF  0000000000000138 000000000000000B
> RT_data    000000007D8B6000-000000007D8FFFFF  000000000000004A 8000000000000009
> BS_code    000000007D900000-000000007F97FFFF  0000000000002080 000000000000000B
> available  000000007F980000-000000007F9FFFFF  0000000000000080 000000000000000B
> RT_code    000000007FA00000-000000007FDFFFFF  0000000000000400 8000000000000009
> PAL_code   000000007FE00000-000000007FE3FFFF  0000000000000040 8000000000000009
> RT_code    000000007FE40000-000000007FE97FFF  0000000000000058 8000000000000009
> available  000000007FE98000-000000007FED9FFF  0000000000000042 000000000000000B
> RT_code    000000007FEDA000-000000007FF45FFF  000000000000006C 8000000000000009
> RT_data    000000007FF46000-000000007FFFFFFF  00000000000000BA 8000000000000009
> MemMapIO   00000000FE000000-00000000FEFFFFFF  0000000000001000 0000000000000001
> RT_data    00000000FF000000-00000000FFFFFFFF  0000000000001000 8000000000000001
> MemMapIO   00000FFFF8000000-00000FFFFBFFFFFF  0000000000004000 8000000000000001
> MemPortIO  00000FFFFC000000-00000FFFFFFFFFFF  0000000000004000 8000000000000001
> 
> Vaibhav Sharma wrote:
> 
> > hi,
> > Thanks for the details regarding the elilo and the memory map..
> >
> > Actually my task involves investigating the IA64 memory code and I had
> > some more queries regarding the "efi_memmap_walk" function in efi.c.
> > It would be great if I could get some help regarding this.
> >
> > Here is the flow of the fuction(i may be wrong in my interpretation):
> >
> > 1. scan all the efi memory descriptors in a "for" loop.
> > 2. exclude the non-WB memory.
> > 3. find the granule address (the comments in the file say that
> > [granule address - non-WB memory address] gives the contigous WB
> > memory). Then calculate the non-WB address.
> > 4. in function "trim_bottom", it reduces the number of pages for the
> > decriptor according to the granule.
> > 5. recalculate the non-wb address (shift it forward??).
> > 6. calls trim_top according to the " last granule address".
> > 7. calculate "start" and "end" addresses for the zone, check   for merging.
> > 8. after moving across all the descriptors, calls "callback"
> >
> > Actually I am not able to understand what is a GRANULE in IA64 and how
> > is it calculated, which uses the IA64_GRANULE_SIZE define.Is it
> > because of the  un-implemented bits in ia64..?. Also, why is that the
> > granule size ("last granule size") is recalculated (trim_bottom
> > earlier and trim_top now).
> >
> > TIA..
> > ---
> > vaibhav
> >
>

next prev parent reply	other threads:[~2005-03-01 13:44 UTC|newest]

Thread overview: 13+ messages / expand[flat|nested]  mbox.gz  Atom feed  top
2005-02-03  4:52 IA64 memory Vaibhav Sharma
2005-02-03  6:01 ` David Mosberger
2005-02-03  7:15 ` Vaibhav Sharma
2005-02-04  2:31 ` David Mosberger
2005-02-06  6:21 ` Vaibhav Sharma
2005-02-08 18:17 ` David Mosberger
2005-02-20 11:30 ` Vaibhav Sharma
2005-02-20 15:57 ` Matthew Wilcox
2005-02-20 17:29 ` Bukie Mabayoje
2005-02-24 18:40 ` Bukie Mabayoje
2005-03-01 13:44 ` Vaibhav Sharma [this message]
2005-03-01 15:24 ` Alex Williamson
2005-03-01 15:32 ` Matthew Wilcox

Reply instructions:

You may reply publicly to this message via plain-text email
using any one of the following methods:

* Save the following mbox file, import it into your mail client,
  and reply-to-all from there: mbox

  Avoid top-posting and favor interleaved quoting:
  https://en.wikipedia.org/wiki/Posting_style#Interleaved_style

* Reply using the --to, --cc, and --in-reply-to
  switches of git-send-email(1):

  git send-email \
    --in-reply-to=851caabb0503010532d746452@mail.gmail.com \
    --to=vaibhav.sh@gmail.com \
    --cc=linux-ia64@vger.kernel.org \
    /path/to/YOUR_REPLY

  https://kernel.org/pub/software/scm/git/docs/git-send-email.html

* If your mail client supports setting the In-Reply-To header
  via mailto: links, try the mailto: link

Be sure your reply has a Subject: header at the top and a blank line before the message body.

This is an external index of several public inboxes,
see mirroring instructions on how to clone and mirror
all data and code used by this external index.