Nouveau - Dec 2015 - Debugging INVALID_OPCODE / MULTIPLE_WARP_ERRORS ?

I believe that your problem is this:

        /*01a0*/                   LD R8, [R8];
           /* 0x8000000000821c85 */

That needs to be LD.E (and your ST's need to be ST.E). You're using a
32-bit gmem address, but you need to be using a 64-bit one. I believe
the 32-bit ones work on fermi, but afaik not on Kepler.

Cheers,

  -ilia



On Wed, Dec 16, 2015 at 12:06 PM, Hans de Goede <hdegoede at redhat.com>
wrote:
> Hi,
>
> On 15-12-15 20:04, Ilia Mirkin wrote:
>>
>> Also, where's the exit op? Perhaps what's happening is that you
don't
>> have an exit and it just goes off executing into the ether?
>
>
> Sorry I only included a small bit of the program in my original mail
> because I found the use of "MOV" instructions to load constants
> suspicious, is that normal ?
>
> I've put a log with NV50_PROG_DEBUG=1 output here:
>
> https://fedorapeople.org/~jwrdegoede/nbody.log
>
> nvdisasm -b SM30 for the generated binary code is here:
>
> https://fedorapeople.org/~jwrdegoede/nbody.disasm
>
> There are already .tgsi, .hex and .bin files there if
> you find those easier to use then the
> NV50_PROG_DEBUG=1 output.
>
>
>>
>> On Tue, Dec 15, 2015 at 12:00 PM, Ilia Mirkin <imirkin at
alum.mit.edu>
>> wrote:
>>>
>>> A few things that stand out:
>>>
>>>    0: ld u32 %r219 c0[0x0000000000000000+0x0] (0)
>>>
>>> wtf is that 0x0000000000000 thing doing there? Was it a %rX which
got
>>> constant-folded into 0? That indirectness should have then been
>>> removed... that said, the final encoding looks fine.
>
>
> I don't know, maybe there is a hint in the log file?
>
> Regards,
>
> Hans
>
>
>
>>>
>>> I believe that kepler has this launch descriptor thing too... is
that
>>> being set correctly? Please generate a mmt trace, and we can see if
>>> anything stands out compared to a blob trace that also does
compute.
>>>
>>> Cheers,
>>>
>>>    -ilia
>>>
>>> On Tue, Dec 15, 2015 at 9:15 AM, Hans de Goede <hdegoede at
redhat.com>
>>> wrote:
>>>>
>>>> Hi all,
>>>>
>>>> As part of my compute work I'm trying to get some TGSI
compute
>>>> code to work. The code from mesa/src/gallium/tests/trivial.c
>>>> works.
>>>>
>>>> So now I'm trying to get a "native" tgsi kernel
to run via
>>>> clover, I'm using Francisco's nbody.c example for this:
>>>>
>>>> https://fedorapeople.org/~jwrdegoede/nbody.c
>>>>
>>>> Which does not work, at first I thought there was an issue
>>>> with the setup of the input / output buffers, but that seems to
>>>> work fine, and moreover I finally got the smart idea to look
>>>> in dmesg, which says:
>>>>
>>>> [ 9920.802435] nouveau 0000:01:00.0: gr: TRAP ch 6 [007f7fa000
>>>> nbody[31881]]
>>>> [ 9920.802449] nouveau 0000:01:00.0: gr: GPC0/TPC0/MP trap:
global
>>>> 00000000
>>>> [] warp 10009 [INVALID_OPCODE]
>>>> [ 9920.802456] nouveau 0000:01:00.0: gr: GPC0/TPC1/MP trap:
global
>>>> 00000004
>>>> [MULTIPLE_WARP_ERRORS] warp 20009 [INVALID_OPCODE]
>>>>
>>>> and repeats that for every "step" in the nobody
simulation, this is on a
>>>> gk107 card.
>>>>
>>>> So that seems to be the real problem, since the
>>>> error says "INVALID_OPCODE", I've put the tgsi
code from nbody.c
>>>> through "nouveau_compiler -a e4" and then run
"nvdisasm -b SM30"
>>>> on it, but the output looks ok. There is a 8 byte sequence
which does
>>>> not get decoded every 64 bytes but AFAIK that is the scheduling
info,
>>>> so that should be fine.
>>>>
>>>> One thing which does stand out is that this:
>>>>
>>>>    0: ld u32 %r219 c0[0x0000000000000000+0x0] (0)
>>>>    1: ld u32 %r222 c0[0x4] (0)
>>>>    2: ld u64 { %r225 %r228 } c0[0x8] (0)
>>>>    3: ld u32 %r234 c0[0x10] (0)
>>>>
>>>> Gets translated into (nvdisasm output) :
>>>>
>>>>          /*0008*/                   LDC R4, c[0x0][0x0];
>>>> /* 0x1400000003f11c86 */
>>>>          /*0010*/                   MOV R2, c[0x0][0x4];
>>>> /* 0x2800400010009de4 */
>>>>          /*0018*/                   LDC.64 R0, c[0x0][0x8];
>>>> /* 0x1400000023f01ca6 */
>>>>          /*0020*/                   MOV R3, c[0x0][0x10];
>>>> /* 0x280040004000dde4 */
>>>>
>>>> Where I would expect for LDC instructions, could that be the
problem ?
>>>>
>>>> If that is not the problem, then hints how to debug this
further would
>>>> be
>>>> greatly appreciated.
>>>>
>>>> Regards,
>>>>
>>>> Hans
>>>> _______________________________________________
>>>> Nouveau mailing list
>>>> Nouveau at lists.freedesktop.org
>>>> http://lists.freedesktop.org/mailman/listinfo/nouveau

BTW, you may be interested in
https://github.com/imirkin/mesa/commits/atomic3 which has working
ARB_shader_atomic_counters and ARB_shader_storage_buffer_object
support (while ripping out things like TGSI_FILE_RESOURCE). Still
working on proper memory qualifier support, and obviously need to do
some cleanup before upstreaming. Should be getting into a pushable
state probably early January.

Cheers,

  -ilia

On Wed, Dec 16, 2015 at 12:24 PM, Ilia Mirkin <imirkin at alum.mit.edu>
wrote:
> I believe that your problem is this:
>
>         /*01a0*/                   LD R8, [R8];
>            /* 0x8000000000821c85 */
>
> That needs to be LD.E (and your ST's need to be ST.E). You're using
a
> 32-bit gmem address, but you need to be using a 64-bit one. I believe
> the 32-bit ones work on fermi, but afaik not on Kepler.
>
> Cheers,
>
>   -ilia
>
>
>
> On Wed, Dec 16, 2015 at 12:06 PM, Hans de Goede <hdegoede at
redhat.com> wrote:
>> Hi,
>>
>> On 15-12-15 20:04, Ilia Mirkin wrote:
>>>
>>> Also, where's the exit op? Perhaps what's happening is that
you don't
>>> have an exit and it just goes off executing into the ether?
>>
>>
>> Sorry I only included a small bit of the program in my original mail
>> because I found the use of "MOV" instructions to load
constants
>> suspicious, is that normal ?
>>
>> I've put a log with NV50_PROG_DEBUG=1 output here:
>>
>> https://fedorapeople.org/~jwrdegoede/nbody.log
>>
>> nvdisasm -b SM30 for the generated binary code is here:
>>
>> https://fedorapeople.org/~jwrdegoede/nbody.disasm
>>
>> There are already .tgsi, .hex and .bin files there if
>> you find those easier to use then the
>> NV50_PROG_DEBUG=1 output.
>>
>>
>>>
>>> On Tue, Dec 15, 2015 at 12:00 PM, Ilia Mirkin <imirkin at
alum.mit.edu>
>>> wrote:
>>>>
>>>> A few things that stand out:
>>>>
>>>>    0: ld u32 %r219 c0[0x0000000000000000+0x0] (0)
>>>>
>>>> wtf is that 0x0000000000000 thing doing there? Was it a %rX
which got
>>>> constant-folded into 0? That indirectness should have then been
>>>> removed... that said, the final encoding looks fine.
>>
>>
>> I don't know, maybe there is a hint in the log file?
>>
>> Regards,
>>
>> Hans
>>
>>
>>
>>>>
>>>> I believe that kepler has this launch descriptor thing too...
is that
>>>> being set correctly? Please generate a mmt trace, and we can
see if
>>>> anything stands out compared to a blob trace that also does
compute.
>>>>
>>>> Cheers,
>>>>
>>>>    -ilia
>>>>
>>>> On Tue, Dec 15, 2015 at 9:15 AM, Hans de Goede <hdegoede at
redhat.com>
>>>> wrote:
>>>>>
>>>>> Hi all,
>>>>>
>>>>> As part of my compute work I'm trying to get some TGSI
compute
>>>>> code to work. The code from
mesa/src/gallium/tests/trivial.c
>>>>> works.
>>>>>
>>>>> So now I'm trying to get a "native" tgsi
kernel to run via
>>>>> clover, I'm using Francisco's nbody.c example for
this:
>>>>>
>>>>> https://fedorapeople.org/~jwrdegoede/nbody.c
>>>>>
>>>>> Which does not work, at first I thought there was an issue
>>>>> with the setup of the input / output buffers, but that
seems to
>>>>> work fine, and moreover I finally got the smart idea to
look
>>>>> in dmesg, which says:
>>>>>
>>>>> [ 9920.802435] nouveau 0000:01:00.0: gr: TRAP ch 6
[007f7fa000
>>>>> nbody[31881]]
>>>>> [ 9920.802449] nouveau 0000:01:00.0: gr: GPC0/TPC0/MP trap:
global
>>>>> 00000000
>>>>> [] warp 10009 [INVALID_OPCODE]
>>>>> [ 9920.802456] nouveau 0000:01:00.0: gr: GPC0/TPC1/MP trap:
global
>>>>> 00000004
>>>>> [MULTIPLE_WARP_ERRORS] warp 20009 [INVALID_OPCODE]
>>>>>
>>>>> and repeats that for every "step" in the nobody
simulation, this is on a
>>>>> gk107 card.
>>>>>
>>>>> So that seems to be the real problem, since the
>>>>> error says "INVALID_OPCODE", I've put the
tgsi code from nbody.c
>>>>> through "nouveau_compiler -a e4" and then run
"nvdisasm -b SM30"
>>>>> on it, but the output looks ok. There is a 8 byte sequence
which does
>>>>> not get decoded every 64 bytes but AFAIK that is the
scheduling info,
>>>>> so that should be fine.
>>>>>
>>>>> One thing which does stand out is that this:
>>>>>
>>>>>    0: ld u32 %r219 c0[0x0000000000000000+0x0] (0)
>>>>>    1: ld u32 %r222 c0[0x4] (0)
>>>>>    2: ld u64 { %r225 %r228 } c0[0x8] (0)
>>>>>    3: ld u32 %r234 c0[0x10] (0)
>>>>>
>>>>> Gets translated into (nvdisasm output) :
>>>>>
>>>>>          /*0008*/                   LDC R4, c[0x0][0x0];
>>>>> /* 0x1400000003f11c86 */
>>>>>          /*0010*/                   MOV R2, c[0x0][0x4];
>>>>> /* 0x2800400010009de4 */
>>>>>          /*0018*/                   LDC.64 R0, c[0x0][0x8];
>>>>> /* 0x1400000023f01ca6 */
>>>>>          /*0020*/                   MOV R3, c[0x0][0x10];
>>>>> /* 0x280040004000dde4 */
>>>>>
>>>>> Where I would expect for LDC instructions, could that be
the problem ?
>>>>>
>>>>> If that is not the problem, then hints how to debug this
further would
>>>>> be
>>>>> greatly appreciated.
>>>>>
>>>>> Regards,
>>>>>
>>>>> Hans
>>>>> _______________________________________________
>>>>> Nouveau mailing list
>>>>> Nouveau at lists.freedesktop.org
>>>>> http://lists.freedesktop.org/mailman/listinfo/nouveau

Hi,

On 16-12-15 18:24, Ilia Mirkin wrote:
> I believe that your problem is this:
>
>          /*01a0*/                   LD R8, [R8];
>             /* 0x8000000000821c85 */
>
> That needs to be LD.E (and your ST's need to be ST.E). You're using
a
> 32-bit gmem address, but you need to be using a 64-bit one. I believe
> the 32-bit ones work on fermi, but afaik not on Kepler.
I do not think that is the problem, src/gallium/tests/trivial/compute
test_input_global() has:

COMP
DCL SV[0], THREAD_ID
DCL TEMP[0], LOCAL
DCL TEMP[1], LOCAL
IMM[0] UINT32 {8, 0, 0, 0}
   0: BGNSUB :0
   1:   UMUL TEMP[0], SV[0], IMM[0]
   2:   LOAD TEMP[1].xy, RES[32764], TEMP[0]
   3:   LOAD TEMP[0].x, RES[32767], TEMP[1].yyyy
   4:   UADD TEMP[1].x, TEMP[0], -TEMP[1]
   5:   STORE RES[32767].x, TEMP[1].yyyy, TEMP[1]
   6:   RET
   7: ENDSUB

Which translates to:

SUB:0 ()
BB:0 (7 instructions) - df = { }
  -> BB:1 (cross)
   0: rdsv u32 $r0 sv[TID:0] (8)
   1: shl u32 $r2 $r0 0x00000003 (8)
   2: ld u64 $r0d c0[$r2+0x0] (8)
   3: ld u32 $r2 g[$r1+0x0] (8)
   4: add u32 $r0 $r2 neg $r0 (8)
   5: st u32 # g[$r1+0x0] $r0 (8)
   6: ret (8)
BB:1 (0 instructions) - idom = BB:0, df = { }

MAIN:-1 ()
BB:0 (0 instructions) - df = { }

Which is also using 32 bits loads from global memory
and that works fine on my GK107 [GeForce GT 740].

I think that for now I'll just focus on translating
the tests from rc/gallium/tests/trivial/compute.c to
opencl and getting the entire opencl -> llvm -> tgsi ->
nouveau_compiler -> hardware chain to work that way.

Still would be good to get nbody.c to work though.

Regards,

Hans



>
> Cheers,
>
>    -ilia
>
>
>
> On Wed, Dec 16, 2015 at 12:06 PM, Hans de Goede <hdegoede at
redhat.com> wrote:
>> Hi,
>>
>> On 15-12-15 20:04, Ilia Mirkin wrote:
>>>
>>> Also, where's the exit op? Perhaps what's happening is that
you don't
>>> have an exit and it just goes off executing into the ether?
>>
>>
>> Sorry I only included a small bit of the program in my original mail
>> because I found the use of "MOV" instructions to load
constants
>> suspicious, is that normal ?
>>
>> I've put a log with NV50_PROG_DEBUG=1 output here:
>>
>> https://fedorapeople.org/~jwrdegoede/nbody.log
>>
>> nvdisasm -b SM30 for the generated binary code is here:
>>
>> https://fedorapeople.org/~jwrdegoede/nbody.disasm
>>
>> There are already .tgsi, .hex and .bin files there if
>> you find those easier to use then the
>> NV50_PROG_DEBUG=1 output.
>>
>>
>>>
>>> On Tue, Dec 15, 2015 at 12:00 PM, Ilia Mirkin <imirkin at
alum.mit.edu>
>>> wrote:
>>>>
>>>> A few things that stand out:
>>>>
>>>>     0: ld u32 %r219 c0[0x0000000000000000+0x0] (0)
>>>>
>>>> wtf is that 0x0000000000000 thing doing there? Was it a %rX
which got
>>>> constant-folded into 0? That indirectness should have then been
>>>> removed... that said, the final encoding looks fine.
>>
>>
>> I don't know, maybe there is a hint in the log file?
>>
>> Regards,
>>
>> Hans
>>
>>
>>
>>>>
>>>> I believe that kepler has this launch descriptor thing too...
is that
>>>> being set correctly? Please generate a mmt trace, and we can
see if
>>>> anything stands out compared to a blob trace that also does
compute.
>>>>
>>>> Cheers,
>>>>
>>>>     -ilia
>>>>
>>>> On Tue, Dec 15, 2015 at 9:15 AM, Hans de Goede <hdegoede at
redhat.com>
>>>> wrote:
>>>>>
>>>>> Hi all,
>>>>>
>>>>> As part of my compute work I'm trying to get some TGSI
compute
>>>>> code to work. The code from
mesa/src/gallium/tests/trivial.c
>>>>> works.
>>>>>
>>>>> So now I'm trying to get a "native" tgsi
kernel to run via
>>>>> clover, I'm using Francisco's nbody.c example for
this:
>>>>>
>>>>> https://fedorapeople.org/~jwrdegoede/nbody.c
>>>>>
>>>>> Which does not work, at first I thought there was an issue
>>>>> with the setup of the input / output buffers, but that
seems to
>>>>> work fine, and moreover I finally got the smart idea to
look
>>>>> in dmesg, which says:
>>>>>
>>>>> [ 9920.802435] nouveau 0000:01:00.0: gr: TRAP ch 6
[007f7fa000
>>>>> nbody[31881]]
>>>>> [ 9920.802449] nouveau 0000:01:00.0: gr: GPC0/TPC0/MP trap:
global
>>>>> 00000000
>>>>> [] warp 10009 [INVALID_OPCODE]
>>>>> [ 9920.802456] nouveau 0000:01:00.0: gr: GPC0/TPC1/MP trap:
global
>>>>> 00000004
>>>>> [MULTIPLE_WARP_ERRORS] warp 20009 [INVALID_OPCODE]
>>>>>
>>>>> and repeats that for every "step" in the nobody
simulation, this is on a
>>>>> gk107 card.
>>>>>
>>>>> So that seems to be the real problem, since the
>>>>> error says "INVALID_OPCODE", I've put the
tgsi code from nbody.c
>>>>> through "nouveau_compiler -a e4" and then run
"nvdisasm -b SM30"
>>>>> on it, but the output looks ok. There is a 8 byte sequence
which does
>>>>> not get decoded every 64 bytes but AFAIK that is the
scheduling info,
>>>>> so that should be fine.
>>>>>
>>>>> One thing which does stand out is that this:
>>>>>
>>>>>     0: ld u32 %r219 c0[0x0000000000000000+0x0] (0)
>>>>>     1: ld u32 %r222 c0[0x4] (0)
>>>>>     2: ld u64 { %r225 %r228 } c0[0x8] (0)
>>>>>     3: ld u32 %r234 c0[0x10] (0)
>>>>>
>>>>> Gets translated into (nvdisasm output) :
>>>>>
>>>>>           /*0008*/                   LDC R4, c[0x0][0x0];
>>>>> /* 0x1400000003f11c86 */
>>>>>           /*0010*/                   MOV R2, c[0x0][0x4];
>>>>> /* 0x2800400010009de4 */
>>>>>           /*0018*/                   LDC.64 R0,
c[0x0][0x8];
>>>>> /* 0x1400000023f01ca6 */
>>>>>           /*0020*/                   MOV R3, c[0x0][0x10];
>>>>> /* 0x280040004000dde4 */
>>>>>
>>>>> Where I would expect for LDC instructions, could that be
the problem ?
>>>>>
>>>>> If that is not the problem, then hints how to debug this
further would
>>>>> be
>>>>> greatly appreciated.
>>>>>
>>>>> Regards,
>>>>>
>>>>> Hans
>>>>> _______________________________________________
>>>>> Nouveau mailing list
>>>>> Nouveau at lists.freedesktop.org
>>>>> http://lists.freedesktop.org/mailman/listinfo/nouveau

Hi,

On 16-12-15 18:34, Ilia Mirkin wrote:
> BTW, you may be interested in
> https://github.com/imirkin/mesa/commits/atomic3 which has working
> ARB_shader_atomic_counters and ARB_shader_storage_buffer_object
> support (while ripping out things like TGSI_FILE_RESOURCE).
Interesting, good to see progress on this.
> Still
> working on proper memory qualifier support, and obviously need to do
> some cleanup before upstreaming. Should be getting into a pushable
> state probably early January.
I'm looking forward to seeing this upstream, and I'll keep this in
mind during my own work.

Regards,

Hans




>
> Cheers,
>
>    -ilia
>
> On Wed, Dec 16, 2015 at 12:24 PM, Ilia Mirkin <imirkin at
alum.mit.edu> wrote:
>> I believe that your problem is this:
>>
>>          /*01a0*/                   LD R8, [R8];
>>             /* 0x8000000000821c85 */
>>
>> That needs to be LD.E (and your ST's need to be ST.E). You're
using a
>> 32-bit gmem address, but you need to be using a 64-bit one. I believe
>> the 32-bit ones work on fermi, but afaik not on Kepler.
>>
>> Cheers,
>>
>>    -ilia
>>
>>
>>
>> On Wed, Dec 16, 2015 at 12:06 PM, Hans de Goede <hdegoede at
redhat.com> wrote:
>>> Hi,
>>>
>>> On 15-12-15 20:04, Ilia Mirkin wrote:
>>>>
>>>> Also, where's the exit op? Perhaps what's happening is
that you don't
>>>> have an exit and it just goes off executing into the ether?
>>>
>>>
>>> Sorry I only included a small bit of the program in my original
mail
>>> because I found the use of "MOV" instructions to load
constants
>>> suspicious, is that normal ?
>>>
>>> I've put a log with NV50_PROG_DEBUG=1 output here:
>>>
>>> https://fedorapeople.org/~jwrdegoede/nbody.log
>>>
>>> nvdisasm -b SM30 for the generated binary code is here:
>>>
>>> https://fedorapeople.org/~jwrdegoede/nbody.disasm
>>>
>>> There are already .tgsi, .hex and .bin files there if
>>> you find those easier to use then the
>>> NV50_PROG_DEBUG=1 output.
>>>
>>>
>>>>
>>>> On Tue, Dec 15, 2015 at 12:00 PM, Ilia Mirkin <imirkin at
alum.mit.edu>
>>>> wrote:
>>>>>
>>>>> A few things that stand out:
>>>>>
>>>>>     0: ld u32 %r219 c0[0x0000000000000000+0x0] (0)
>>>>>
>>>>> wtf is that 0x0000000000000 thing doing there? Was it a %rX
which got
>>>>> constant-folded into 0? That indirectness should have then
been
>>>>> removed... that said, the final encoding looks fine.
>>>
>>>
>>> I don't know, maybe there is a hint in the log file?
>>>
>>> Regards,
>>>
>>> Hans
>>>
>>>
>>>
>>>>>
>>>>> I believe that kepler has this launch descriptor thing
too... is that
>>>>> being set correctly? Please generate a mmt trace, and we
can see if
>>>>> anything stands out compared to a blob trace that also does
compute.
>>>>>
>>>>> Cheers,
>>>>>
>>>>>     -ilia
>>>>>
>>>>> On Tue, Dec 15, 2015 at 9:15 AM, Hans de Goede <hdegoede
at redhat.com>
>>>>> wrote:
>>>>>>
>>>>>> Hi all,
>>>>>>
>>>>>> As part of my compute work I'm trying to get some
TGSI compute
>>>>>> code to work. The code from
mesa/src/gallium/tests/trivial.c
>>>>>> works.
>>>>>>
>>>>>> So now I'm trying to get a "native" tgsi
kernel to run via
>>>>>> clover, I'm using Francisco's nbody.c example
for this:
>>>>>>
>>>>>> https://fedorapeople.org/~jwrdegoede/nbody.c
>>>>>>
>>>>>> Which does not work, at first I thought there was an
issue
>>>>>> with the setup of the input / output buffers, but that
seems to
>>>>>> work fine, and moreover I finally got the smart idea to
look
>>>>>> in dmesg, which says:
>>>>>>
>>>>>> [ 9920.802435] nouveau 0000:01:00.0: gr: TRAP ch 6
[007f7fa000
>>>>>> nbody[31881]]
>>>>>> [ 9920.802449] nouveau 0000:01:00.0: gr: GPC0/TPC0/MP
trap: global
>>>>>> 00000000
>>>>>> [] warp 10009 [INVALID_OPCODE]
>>>>>> [ 9920.802456] nouveau 0000:01:00.0: gr: GPC0/TPC1/MP
trap: global
>>>>>> 00000004
>>>>>> [MULTIPLE_WARP_ERRORS] warp 20009 [INVALID_OPCODE]
>>>>>>
>>>>>> and repeats that for every "step" in the
nobody simulation, this is on a
>>>>>> gk107 card.
>>>>>>
>>>>>> So that seems to be the real problem, since the
>>>>>> error says "INVALID_OPCODE", I've put the
tgsi code from nbody.c
>>>>>> through "nouveau_compiler -a e4" and then run
"nvdisasm -b SM30"
>>>>>> on it, but the output looks ok. There is a 8 byte
sequence which does
>>>>>> not get decoded every 64 bytes but AFAIK that is the
scheduling info,
>>>>>> so that should be fine.
>>>>>>
>>>>>> One thing which does stand out is that this:
>>>>>>
>>>>>>     0: ld u32 %r219 c0[0x0000000000000000+0x0] (0)
>>>>>>     1: ld u32 %r222 c0[0x4] (0)
>>>>>>     2: ld u64 { %r225 %r228 } c0[0x8] (0)
>>>>>>     3: ld u32 %r234 c0[0x10] (0)
>>>>>>
>>>>>> Gets translated into (nvdisasm output) :
>>>>>>
>>>>>>           /*0008*/                   LDC R4,
c[0x0][0x0];
>>>>>> /* 0x1400000003f11c86 */
>>>>>>           /*0010*/                   MOV R2,
c[0x0][0x4];
>>>>>> /* 0x2800400010009de4 */
>>>>>>           /*0018*/                   LDC.64 R0,
c[0x0][0x8];
>>>>>> /* 0x1400000023f01ca6 */
>>>>>>           /*0020*/                   MOV R3,
c[0x0][0x10];
>>>>>> /* 0x280040004000dde4 */
>>>>>>
>>>>>> Where I would expect for LDC instructions, could that
be the problem ?
>>>>>>
>>>>>> If that is not the problem, then hints how to debug
this further would
>>>>>> be
>>>>>> greatly appreciated.
>>>>>>
>>>>>> Regards,
>>>>>>
>>>>>> Hans
>>>>>> _______________________________________________
>>>>>> Nouveau mailing list
>>>>>> Nouveau at lists.freedesktop.org
>>>>>> http://lists.freedesktop.org/mailman/listinfo/nouveau

On Fri, Dec 18, 2015 at 7:55 AM, Hans de Goede <hdegoede at redhat.com>
wrote:
> Hi,
>
> On 16-12-15 18:24, Ilia Mirkin wrote:
>>
>> I believe that your problem is this:
>>
>>          /*01a0*/                   LD R8, [R8];
>>             /* 0x8000000000821c85 */
>>
>> That needs to be LD.E (and your ST's need to be ST.E). You're
using a
>> 32-bit gmem address, but you need to be using a 64-bit one. I believe
>> the 32-bit ones work on fermi, but afaik not on Kepler.
>
>
> I do not think that is the problem, src/gallium/tests/trivial/compute
> test_input_global() has:
>
> COMP
> DCL SV[0], THREAD_ID
> DCL TEMP[0], LOCAL
> DCL TEMP[1], LOCAL
> IMM[0] UINT32 {8, 0, 0, 0}
>   0: BGNSUB :0
>   1:   UMUL TEMP[0], SV[0], IMM[0]
>   2:   LOAD TEMP[1].xy, RES[32764], TEMP[0]
>   3:   LOAD TEMP[0].x, RES[32767], TEMP[1].yyyy
>   4:   UADD TEMP[1].x, TEMP[0], -TEMP[1]
>   5:   STORE RES[32767].x, TEMP[1].yyyy, TEMP[1]
>   6:   RET
>   7: ENDSUB
>
> Which translates to:
>
> SUB:0 ()
> BB:0 (7 instructions) - df = { }
>  -> BB:1 (cross)
>   0: rdsv u32 $r0 sv[TID:0] (8)
>   1: shl u32 $r2 $r0 0x00000003 (8)
>   2: ld u64 $r0d c0[$r2+0x0] (8)
>   3: ld u32 $r2 g[$r1+0x0] (8)
>   4: add u32 $r0 $r2 neg $r0 (8)
>   5: st u32 # g[$r1+0x0] $r0 (8)
>   6: ret (8)
> BB:1 (0 instructions) - idom = BB:0, df = { }
>
> MAIN:-1 ()
> BB:0 (0 instructions) - df = { }
>
> Which is also using 32 bits loads from global memory
> and that works fine on my GK107 [GeForce GT 740].
>
> I think that for now I'll just focus on translating
> the tests from rc/gallium/tests/trivial/compute.c to
> opencl and getting the entire opencl -> llvm -> tgsi ->
> nouveau_compiler -> hardware chain to work that way.
>
> Still would be good to get nbody.c to work though.
Hmmmm odd. Not sure how 32-bit addresses work there. (Or on Fermi
tbh.) Probably assumes that the upper 8 bits of the 40-bit VA are 0?
Anyways, another thing I remember is that I couldn't get barriers to
work at all with tess (with iirc, invalid opcode errors). My solution
to the problem was to just discard them, since that's what the blob
seemed to do, and I assumed they knew what they were doing.

Perhaps I was just emitting it wrong. I'd take a careful look at how
the blob emits that BAR.SYNC primitive.

Cheers,

  -ilia