Message ID | 20220401112438.GA19247@delia |
---|---|
State | New |
Headers | show |
Series | [libgomp,testsuite,nvptx] Limit recursion in declare_target-{1,2}.f90 | expand |
On Fri, Apr 01, 2022 at 01:24:40PM +0200, Tom de Vries wrote: > Hi, > > When running testcases libgomp.fortran/examples-4/declare_target-{1,2}.f90 on > an RTX A2000 (sm_86) with driver 510.60.02 and with GOMP_NVPTX_JIT=-O0 I run > into: > ... > FAIL: libgomp.fortran/examples-4/declare_target-1.f90 -O0 \ > -DGOMP_NVPTX_JIT=-O0 execution test > FAIL: libgomp.fortran/examples-4/declare_target-2.f90 -O0 \ > -DGOMP_NVPTX_JIT=-O0 execution test > ... > > Fix this by further limiting recursion depth in the test-cases for nvptx. > > Furthermore, make the recursion depth limiting nvptx-specific. > > Tested on x86_64 with nvptx accelerator. > > Any comments? > > Thanks, > - Tom > > [libgomp, testsuite, nvptx] Limit recursion in declare_target-{1,2}.f90 > > libgomp/ChangeLog: > > 2022-04-01 Tom de Vries <tdevries@suse.de> > > * testsuite/libgomp.fortran/examples-4/declare_target-1.f90: Define > and use REC_DEPTH. > * testsuite/libgomp.fortran/examples-4/declare_target-2.f90: Same. Ok. Jakub
Hi Tom! On 2022-04-01T13:24:40+0200, Tom de Vries <tdevries@suse.de> wrote: > When running testcases libgomp.fortran/examples-4/declare_target-{1,2}.f90 on > an RTX A2000 (sm_86) with driver 510.60.02 and with GOMP_NVPTX_JIT=-O0 I run > into: > ... > FAIL: libgomp.fortran/examples-4/declare_target-1.f90 -O0 \ > -DGOMP_NVPTX_JIT=-O0 execution test > FAIL: libgomp.fortran/examples-4/declare_target-2.f90 -O0 \ > -DGOMP_NVPTX_JIT=-O0 execution test > ... > > Fix this by further limiting recursion depth in the test-cases for nvptx. > > Furthermore, make the recursion depth limiting nvptx-specific. Careful: > --- a/libgomp/testsuite/libgomp.fortran/examples-4/declare_target-1.f90 > +++ b/libgomp/testsuite/libgomp.fortran/examples-4/declare_target-1.f90 > @@ -1,4 +1,16 @@ > ! { dg-do run } > +! { dg-additional-options "-cpp" } > +! Reduced from 25 to 23, otherwise execution runs out of thread stack on > +! Nvidia Titan V. > +! Reduced from 23 to 22, otherwise execution runs out of thread stack on > +! Nvidia T400 (2GB variant), when run with GOMP_NVPTX_JIT=-O0. > +! Reduced from 22 to 20, otherwise execution runs out of thread stack on > +! Nvidia RTX A2000 (6GB variant), when run with GOMP_NVPTX_JIT=-O0. > +! { dg-additional-options "-DREC_DEPTH=20" { target { offload_target_nvptx } } } */ 'offload_target_nvptx' doesn't mean that offloading execution is done on nvptx, but rather that we're "*compiling* for offload target nvptx" (emphasis mine). That means, with such a change we're now getting different behavior in a system with an AMD GPU, when using a toolchain that only has GCN offloading configured vs. a toolchain that has GCN and nvptx offloading configured. This isn't going to cause any real problems, of course, but it's confusing, and a bad example of 'offload_target_nvptx'. 'offload_device_nvptx' ought to work: "using nvptx offload device". But again, to keep things simple, I again suggest to unconditionally reduce the recursion depth for all configurations, unless there exists an actual rationale for the original value. Grüße Thomas > + > +#ifndef REC_DEPTH > +#define REC_DEPTH 25 > +#endif > > module e_53_1_mod > integer :: THRESHOLD = 20 > @@ -27,9 +39,5 @@ end module > program e_53_1 > use e_53_1_mod, only : fib, fib_wrapper > if (fib (15) /= fib_wrapper (15)) stop 1 > - ! Reduced from 25 to 23, otherwise execution runs out of thread stack on > - ! Nvidia Titan V. > - ! Reduced from 23 to 22, otherwise execution runs out of thread stack on > - ! Nvidia T400 (2GB variant), when run with GOMP_NVPTX_JIT=-O0. > - if (fib (22) /= fib_wrapper (22)) stop 2 > + if (fib (REC_DEPTH) /= fib_wrapper (REC_DEPTH)) stop 2 > end program > --- a/libgomp/testsuite/libgomp.fortran/examples-4/declare_target-2.f90 > +++ b/libgomp/testsuite/libgomp.fortran/examples-4/declare_target-2.f90 > @@ -1,16 +1,24 @@ > ! { dg-do run } > +! { dg-additional-options "-cpp" } > +! Reduced from 25 to 23, otherwise execution runs out of thread stack on > +! Nvidia Titan V. > +! Reduced from 23 to 22, otherwise execution runs out of thread stack on > +! Nvidia T400 (2GB variant), when run with GOMP_NVPTX_JIT=-O0. > +! Reduced from 22 to 18, otherwise execution runs out of thread stack on > +! Nvidia RTX A2000 (6GB variant), when run with GOMP_NVPTX_JIT=-O0. > +! { dg-additional-options "-DREC_DEPTH=18" { target { offload_target_nvptx } } } */ > + > +#ifndef REC_DEPTH > +#define REC_DEPTH 25 > +#endif > > program e_53_2 > !$omp declare target (fib) > integer :: x, fib > !$omp target map(from: x) > - ! Reduced from 25 to 23, otherwise execution runs out of thread stack on > - ! Nvidia Titan V. > - ! Reduced from 23 to 22, otherwise execution runs out of thread stack on > - ! Nvidia T400 (2GB variant), when run with GOMP_NVPTX_JIT=-O0. > - x = fib (22) > + x = fib (REC_DEPTH) > !$omp end target > - if (x /= fib (22)) stop 1 > + if (x /= fib (REC_DEPTH)) stop 1 > end program > > integer recursive function fib (n) result (f) ----------------- Siemens Electronic Design Automation GmbH; Anschrift: Arnulfstraße 201, 80634 München; Gesellschaft mit beschränkter Haftung; Geschäftsführer: Thomas Heurung, Frank Thürauf; Sitz der Gesellschaft: München; Registergericht München, HRB 106955
On 4/1/22 14:28, Thomas Schwinge wrote: > Hi Tom! > > On 2022-04-01T13:24:40+0200, Tom de Vries <tdevries@suse.de> wrote: >> When running testcases libgomp.fortran/examples-4/declare_target-{1,2}.f90 on >> an RTX A2000 (sm_86) with driver 510.60.02 and with GOMP_NVPTX_JIT=-O0 I run >> into: >> ... >> FAIL: libgomp.fortran/examples-4/declare_target-1.f90 -O0 \ >> -DGOMP_NVPTX_JIT=-O0 execution test >> FAIL: libgomp.fortran/examples-4/declare_target-2.f90 -O0 \ >> -DGOMP_NVPTX_JIT=-O0 execution test >> ... >> >> Fix this by further limiting recursion depth in the test-cases for nvptx. >> >> Furthermore, make the recursion depth limiting nvptx-specific. > > Careful: > >> --- a/libgomp/testsuite/libgomp.fortran/examples-4/declare_target-1.f90 >> +++ b/libgomp/testsuite/libgomp.fortran/examples-4/declare_target-1.f90 >> @@ -1,4 +1,16 @@ >> ! { dg-do run } >> +! { dg-additional-options "-cpp" } >> +! Reduced from 25 to 23, otherwise execution runs out of thread stack on >> +! Nvidia Titan V. >> +! Reduced from 23 to 22, otherwise execution runs out of thread stack on >> +! Nvidia T400 (2GB variant), when run with GOMP_NVPTX_JIT=-O0. >> +! Reduced from 22 to 20, otherwise execution runs out of thread stack on >> +! Nvidia RTX A2000 (6GB variant), when run with GOMP_NVPTX_JIT=-O0. >> +! { dg-additional-options "-DREC_DEPTH=20" { target { offload_target_nvptx } } } */ > > 'offload_target_nvptx' doesn't mean that offloading execution is done on > nvptx, but rather that we're "*compiling* for offload target nvptx" > (emphasis mine). That means, with such a change we're now getting > different behavior in a system with an AMD GPU, when using a toolchain > that only has GCN offloading configured vs. a toolchain that has GCN and > nvptx offloading configured. This isn't going to cause any real > problems, of course, but it's confusing, and a bad example of > 'offload_target_nvptx'. > > 'offload_device_nvptx' ought to work: "using nvptx offload device". > Thanks for pointing that out. I tried to understand this multiple offloading configuration a bit, and came up with the following mental model: it's possible to have a host with say an nvptx and amd offloading device, and then configure and build a toolchain that can generate a single executable that can offload to either device, depending on the value of appropriate openacc/openmp environment variables. So, in principle the libgomp testsuite could have a mode in which it does that: run the same executable twice, once for each offloading device. In that case, even using offload_device_nvptx would not be accurate enough, and we'd need to test for offload device type at runtime, as used to be done in libgomp/testsuite/libgomp.fortran/task-detach-6.f90. I've tried to copy that setup to libgomp/testsuite/libgomp.fortran/examples-4/declare_target-1.f90, but that doesn't seem to work anymore. I've also tried copying that test-case to libgomp/testsuite/libgomp.fortran/copy-of-declare_target-1.f90 to rule out any subdir-related problems, but no luck there either. Attached is that copy approach, could you try it out and see if it works for you? Do you perhaps have an idea why it's failing? I can make a patch using offload_device_nvptx, but I'd prefer to understand first why the approach above isn't working. Thanks, - Tom
On Fri, Apr 01, 2022 at 05:34:50PM +0200, Tom de Vries wrote: > Do you perhaps have an idea why it's failing? Because you call on_device_arch_nvptx () outside of !$omp target region, so unless the host device is NVPTX, it will not be true. > +program e_53_1 > + use e_53_1_mod, only : fib, fib_wrapper > + integer :: REC_DEPTH = 25 > + > + interface > + integer function on_device_arch_nvptx() bind(C) > + end function on_device_arch_nvptx > + end interface > + > + if (on_device_arch_nvptx () /= 0) then > + ! Reduced from 25 to 23, otherwise execution runs out of thread stack on > + ! Nvidia Titan V. > + ! Reduced from 23 to 22, otherwise execution runs out of thread stack on > + ! Nvidia T400 (2GB variant), when run with GOMP_NVPTX_JIT=-O0. > + ! Reduced from 22 to 20, otherwise execution runs out of thread stack on > + ! Nvidia RTX A2000 (6GB variant), when run with GOMP_NVPTX_JIT=-O0. > + REC_DEPTH = 20 > + end if > + > + if (fib (15) /= fib_wrapper (15)) stop 1 > + if (fib (REC_DEPTH) /= fib_wrapper (REC_DEPTH)) stop 2 > +end program Jakub
On 4/1/22 17:38, Jakub Jelinek wrote: > On Fri, Apr 01, 2022 at 05:34:50PM +0200, Tom de Vries wrote: >> Do you perhaps have an idea why it's failing? > > Because you call on_device_arch_nvptx () outside of > !$omp target region, so unless the host device is NVPTX, > it will not be true. > That bit does works because on_device_arch_nvptx calls on_device_arch which contains the omp target bit: ... static int on_device_arch (int d) { int d_cur; #pragma omp target map(from:d_cur) d_cur = device_arch (); return d_cur == d; } int on_device_arch_nvptx () { return on_device_arch (GOMP_DEVICE_NVIDIA_PTX); } ... So I realized that I didn't do a good job of specifying the problem I encountered, and went looking at it, at which point I realized the error message had changed, and knew how to fix it ... So, my apologies, some confusion on my part. Anyway, attached patch avoids any nvptx-related tcl directives (just for once test-case for now). To me, this seems the most robust solution. It this approach acceptable? Thanks, - Tom
On 4/1/22 17:57, Tom de Vries wrote: > On 4/1/22 17:38, Jakub Jelinek wrote: >> On Fri, Apr 01, 2022 at 05:34:50PM +0200, Tom de Vries wrote: >>> Do you perhaps have an idea why it's failing? >> >> Because you call on_device_arch_nvptx () outside of >> !$omp target region, so unless the host device is NVPTX, >> it will not be true. >> > > That bit does works because on_device_arch_nvptx calls on_device_arch > which contains the omp target bit: > ... > static int > on_device_arch (int d) > { > int d_cur; > #pragma omp target map(from:d_cur) > d_cur = device_arch (); > > return d_cur == d; > } > > int > on_device_arch_nvptx () > { > return on_device_arch (GOMP_DEVICE_NVIDIA_PTX); > } > ... > > So I realized that I didn't do a good job of specifying the problem I > encountered, and went looking at it, at which point I realized the error > message had changed, and knew how to fix it ... So, my apologies, some > confusion on my part. > > Anyway, attached patch avoids any nvptx-related tcl directives (just for > once test-case for now). To me, this seems the most robust solution. > > It this approach acceptable? I intend to commit this in a few days, unless there are objections. Thanks, - Tom
On Mon, Apr 04, 2022 at 01:05:12PM +0200, Tom de Vries wrote: > 2022-04-04 Tom de Vries <tdevries@suse.de> > > * testsuite/libgomp.fortran/examples-4/on_device_arch.c: Copy from > parent dir. Wouldn't just ! { dg-additional-sources ../on_device_arch.c } work? Jakub
On 4/4/22 13:07, Jakub Jelinek wrote: > On Mon, Apr 04, 2022 at 01:05:12PM +0200, Tom de Vries wrote: >> 2022-04-04 Tom de Vries <tdevries@suse.de> >> >> * testsuite/libgomp.fortran/examples-4/on_device_arch.c: Copy from >> parent dir. > > Wouldn't just ! { dg-additional-sources ../on_device_arch.c } > work? I does, pushed with that update. Thanks, - Tom
diff --git a/libgomp/testsuite/libgomp.fortran/examples-4/declare_target-1.f90 b/libgomp/testsuite/libgomp.fortran/examples-4/declare_target-1.f90 index b761979ecde..03c5c53ed67 100644 --- a/libgomp/testsuite/libgomp.fortran/examples-4/declare_target-1.f90 +++ b/libgomp/testsuite/libgomp.fortran/examples-4/declare_target-1.f90 @@ -1,4 +1,16 @@ ! { dg-do run } +! { dg-additional-options "-cpp" } +! Reduced from 25 to 23, otherwise execution runs out of thread stack on +! Nvidia Titan V. +! Reduced from 23 to 22, otherwise execution runs out of thread stack on +! Nvidia T400 (2GB variant), when run with GOMP_NVPTX_JIT=-O0. +! Reduced from 22 to 20, otherwise execution runs out of thread stack on +! Nvidia RTX A2000 (6GB variant), when run with GOMP_NVPTX_JIT=-O0. +! { dg-additional-options "-DREC_DEPTH=20" { target { offload_target_nvptx } } } */ + +#ifndef REC_DEPTH +#define REC_DEPTH 25 +#endif module e_53_1_mod integer :: THRESHOLD = 20 @@ -27,9 +39,5 @@ end module program e_53_1 use e_53_1_mod, only : fib, fib_wrapper if (fib (15) /= fib_wrapper (15)) stop 1 - ! Reduced from 25 to 23, otherwise execution runs out of thread stack on - ! Nvidia Titan V. - ! Reduced from 23 to 22, otherwise execution runs out of thread stack on - ! Nvidia T400 (2GB variant), when run with GOMP_NVPTX_JIT=-O0. - if (fib (22) /= fib_wrapper (22)) stop 2 + if (fib (REC_DEPTH) /= fib_wrapper (REC_DEPTH)) stop 2 end program diff --git a/libgomp/testsuite/libgomp.fortran/examples-4/declare_target-2.f90 b/libgomp/testsuite/libgomp.fortran/examples-4/declare_target-2.f90 index f576c25ba39..0e8bea578a8 100644 --- a/libgomp/testsuite/libgomp.fortran/examples-4/declare_target-2.f90 +++ b/libgomp/testsuite/libgomp.fortran/examples-4/declare_target-2.f90 @@ -1,16 +1,24 @@ ! { dg-do run } +! { dg-additional-options "-cpp" } +! Reduced from 25 to 23, otherwise execution runs out of thread stack on +! Nvidia Titan V. +! Reduced from 23 to 22, otherwise execution runs out of thread stack on +! Nvidia T400 (2GB variant), when run with GOMP_NVPTX_JIT=-O0. +! Reduced from 22 to 18, otherwise execution runs out of thread stack on +! Nvidia RTX A2000 (6GB variant), when run with GOMP_NVPTX_JIT=-O0. +! { dg-additional-options "-DREC_DEPTH=18" { target { offload_target_nvptx } } } */ + +#ifndef REC_DEPTH +#define REC_DEPTH 25 +#endif program e_53_2 !$omp declare target (fib) integer :: x, fib !$omp target map(from: x) - ! Reduced from 25 to 23, otherwise execution runs out of thread stack on - ! Nvidia Titan V. - ! Reduced from 23 to 22, otherwise execution runs out of thread stack on - ! Nvidia T400 (2GB variant), when run with GOMP_NVPTX_JIT=-O0. - x = fib (22) + x = fib (REC_DEPTH) !$omp end target - if (x /= fib (22)) stop 1 + if (x /= fib (REC_DEPTH)) stop 1 end program integer recursive function fib (n) result (f)