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268 Commits
feature/be ... feature/se

Author SHA1 Message Date
Antonin Portelli
a269a3d919 Merge pull request #358 from mmphys/feature/serialisation-test 
Add a ragged std::vector to the serialisation test
 2021-06-09 10:16:25 +01:00
Michael Marshall
0c4f585496 Test nested std::vector<grid tensor> 2021-06-08 00:05:35 +01:00
Michael Marshall
33d2df46a0 Merge branch 'develop' into feature/serialisation-test 
* develop:
  Update README.md
  removing Travis CI constantly failing due to overtime (no way we can compile Grid on free time anymore)
 2021-06-07 23:25:38 +01:00
Michael Marshall
2df308f649 Add a ragged vector to the serialisation tests. NB: Already had nested (regular) std::vector<std::vector<...>> 2021-06-07 23:25:07 +01:00
Peter Boyle
92def28bd3 Update README.md 2021-06-06 04:52:05 -04:00
Antonin Portelli
ca10bfa1c7 removing Travis CI constantly failing due to overtime (no way we can compile Grid on free time anymore) 2021-06-04 11:12:22 +01:00
Antonin Portelli
298a6ec51e Merge pull request #357 from mmphys/bugfix/ragged 
Bugfix/ragged Multi-dimensional ragged vectors
 2021-06-04 10:34:46 +01:00
Michael Marshall
e5dbe488a6 Merge branch 'develop' into bugfix/ragged 
* develop:
  Remove synch
 2021-06-03 08:25:56 +01:00
Peter Boyle
0e27e3847d Remove synch 2021-06-03 04:24:19 +00:00
Michael Marshall
393727b93b Documentation update (briefly) covering serialisation changes. For review 2021-06-01 15:49:37 +01:00
Michael Marshall
2b1fcd78c3 Fixes post review with Peter: a) Correct bug in isRegularShape - detect 3d matrix where 1st slice is 2x2 and second slice is 2x1; b) Synchronisation of EigenResizeCounter done by checking we're the OMP primary thread; c) Move definition of EigenResizeCounter to new file, BaseIO.cc 2021-05-31 22:24:54 +01:00
Michael Marshall
0a4e0b49a0 BaseIO: Added "EigenResizeCounter" to keep track of any allocations/deallocations to Eigen tensors during readback. On read, if the tensor is resized, EigenResizeCounter += delta memory (in bytes) 2021-05-31 12:49:56 +01:00
Michael Marshall
76af169f05 Add global namespace to Writer<T> and Reader<T> inside GRID_SERIALIZABLE_CLASS_MEMBERS (so that "using Grid" not necessary). 
Fix issue with output of Grid::iMatrix so that M<3>{{148,149,150,} {151,152,153,} {154155156}} becomes M<3>{{148,149,150} {151,152,153} {154,155,156}}
 2021-05-31 08:43:02 +01:00
Michael Marshall
7b89232251 Extended HDF5 serialisation of std::vector<T> where T now also includes Grid scalar/vector/matrix 
Changed VectorUtils element traits to is_flattenable, because: a) contract changed on what it does; and b) no other Grid dependencies on element. Needs review.
Initial tests work ... needs proper regression testing.
 2021-05-30 20:27:53 +01:00
Michael Marshall
ef0ddd5d04 std::vector serialisation in hdf5 uses a different format if the vector is ragged. When reading back std::vector we need to check which format we're reading (since we don't know a priori) and this involves looking for attributes that may not exist. The c++ API: a) throws; and b) prints voluminous logging. Switched to non-throwing, non-logging, C version of the API after code review. 2021-05-24 18:43:55 +01:00
Michael Marshall
9b73dacf50 First row might still be ragged if multi dimensional. attrExists() doesn't throw, but easier to wrap in try ... catch than to explain in comment. 2021-05-22 04:34:32 +01:00
Michael Marshall
244b4aa07f Serialise std::vector of numeric types as multidimensional object if size is regular ... or individually if ragged 2021-05-21 20:08:56 +01:00
u61464
8cfc7342cd staggered hand unroll read coalesce 2021-05-05 14:17:18 -07:00
u61464
15ae317858 Merge branch 'develop' of https://github.com/paboyle/Grid into develop 2021-05-04 08:40:38 -07:00
u61464
834f536b5f Fastest option on SyCL is now std::complex 2021-05-04 08:40:18 -07:00
Peter Boyle
c332d9f08b Merge pull request #356 from felixerben/bugfix/stoutSmearing 
Jamie's fix
 2021-04-27 14:10:49 -04:00
Felix Erben
cf2923d5dd Jamie's fix 2021-04-27 16:53:37 +01:00
Peter Boyle
0e4413ddde Merge pull request #355 from felixerben/bugfix/stoutSmearing 
bugfix 3D stout smearing
 2021-04-27 08:01:55 -04:00
Felix Erben
009ccd581e bugfix 3D stout smearing 2021-04-26 10:36:33 +01:00
Peter Boyle
8cd4263974 Tests compile 2021-04-25 22:20:37 -04:00
Peter Boyle
d45c868656 Change interface 2021-04-25 10:53:34 -04:00
Peter Boyle
955a8113de Expose label only to reduce number of parameters 2021-04-25 10:36:38 -04:00
Peter Boyle
dbe210dd53 Open the ens_id 2021-04-25 10:25:59 -04:00
Peter Boyle
86e11743ca set twists 2021-04-20 10:19:11 -04:00
Peter Boyle
980e721f6e Update MetaData.h 2021-04-13 09:33:01 -04:00
Peter Boyle
e2a0142d87 Merge pull request #348 from AndrewYongZhenNing/develop 
Conserved Tadpole Implementation for Shamir Action Only
 2021-04-06 10:49:00 -04:00
Andrew Zhen Ning Yong
895244ecc3 Merge with upstream; implemented conserved tadpole for Shamir action. 2021-04-06 13:46:33 +01:00
Andrew Zhen Ning Yong
addeb621a7 Implemented tadpole operator for Shamir action. 2021-04-06 13:45:37 +01:00
Peter Boyle
a7fb25adf6 Make Cshift fields static to avoid repeated reallocaate overhead 2021-03-29 21:44:14 +02:00
Peter Boyle
e947992957 Improved force terms 2021-03-29 20:04:06 +02:00
Peter Boyle
bb89a82a07 Staggered coalseced read 2021-03-29 20:01:15 +02:00
Peter Boyle
8bdadbadac Cold start 2021-03-18 15:41:14 -04:00
Peter Boyle
15c50a7442 Explicit instantiate the template function 2021-03-18 15:40:42 -04:00
Peter Boyle
49b0af2c95 Update of tests to compile with the sRNG addition. 
Audited the code conventions (again) with the CPS momentum denominator
and added anti periodic in time to the Test_mobius_force.cc and
tested the Test_dwf_gpforce.

Promoted thesee to test full HMC hamiltonian, tr P^2/2 + phidag MdagM phi

with the same pdot and Udot as audited in the Integrator.h etc...

With full comments and sources for factors.
 2021-03-18 09:10:02 -04:00
Peter Boyle
9c2b37218a sRNG parameter added 2021-03-18 06:24:11 -04:00
Peter Boyle
3c67d626ba Merge branch 'develop' of https://github.com/paboyle/Grid into develop 2021-03-12 15:36:55 +01:00
Peter Boyle
51f506553c Read out the local ID once, and store 2021-03-12 15:33:04 +01:00
Peter Boyle
226be84937 Merge branch 'develop' of https://github.com/paboyle/Grid into develop 2021-03-12 09:31:50 -05:00
Peter Boyle
001814b442 updated to do list. Start adding DDHMC work items 2021-03-12 09:31:17 -05:00
Peter Boyle
db3ac67506 Update thread issue 2021-03-12 14:55:07 +01:00
Peter Boyle
da91a884ef NVCC versions found buggy added as guard 2021-03-11 23:54:53 +01:00
Peter Boyle
a71e6755e3 Merge branch 'develop' of https://github.com/paboyle/Grid into develop 2021-03-11 22:43:06 +01:00
Peter Boyle
cd5891eecd Test that fails on Cuda 11.0 2021-03-11 22:34:28 +01:00
Peter Boyle
5bb7336f27 Merge pull request #347 from pjgeorg/fix-autotools-avx512 
Fix inconsistent SIMD option AVX512

Thanks
 2021-03-11 16:29:07 -05:00
Peter Boyle
ce1fc1f48a Possible fallback plan for Fionn's compiler bbug in nvcc 2021-03-11 22:20:53 +01:00
Peter Georg
82402c6a7c Add simd option SKL for ICC 2021-03-11 13:08:40 +01:00
Peter Georg
d9c4afe5b7 Fix inconsistent configure option AVX512 
Before this change AVX512 enabled different instruction sets depending
on the compiler:

For Intel C++ Compiler Classic (ICC):
    AVX512F, AVX512CD, AVX512DQ, AVX512BW, AVX512VL
    i.e. Intel Xeon Skylake and newer

For Intel ICX, gcc, clang:
    AVX512F, AVX512CD, AVX512ER, AVX512PF
    i.e. Intel Xeon Phi x200/x205 (KNL/KNM)

With this commit AVX512 now only enables the common instruction sets
supported by all CPUs supporting any AVX-512 instructions set:
AVX512F and AVX512CD (called COMMON-AVX512 by icc)
 2021-03-11 12:58:49 +01:00
Peter Boyle
f786ff8d69 Extend test from Fionn, fails on A100 apparently 2021-03-10 14:32:06 -05:00
u61464
a651caed5f Merge branch 'develop' of https://github.com/paboyle/Grid into develop 2021-03-10 06:23:51 -08:00
u61464
0e21adb3f6 Gives 200GF/s on SyCL/DG1 8^4, doesn't uglify develop for other platforms too badly. 
Easy to revert to clean more C++ stylistic code. Theres a SYCL_HACK macro I will clean up later once dpcpp
evolves a central nervous systems.
 2021-03-10 05:40:51 -08:00
Peter Boyle
58bf9b9e6d Clean up test 2021-03-10 02:45:22 +01:00
Peter Boyle
2146eebb65 Merge branch 'develop' of https://github.com/paboyle/Grid into develop 2021-03-09 04:31:46 +01:00
Peter Boyle
6a429ee6d3 2d loop hits Nvidia 16bit limit on large local vols 2021-03-09 04:31:10 +01:00
Peter Boyle
4d1ea15c79 More verbosity. The 16bit limit on Grid.y, Grid.z is annoying 2021-03-09 04:29:37 +01:00
Peter Boyle
a76cb005e0 Update Tensor_exp.h 2021-03-08 13:37:57 -05:00
Peter Boyle
a9604367c1 Merge pull request #336 from lehner/feature/gpt 
Make ShmDims configurable; adjust GRID_MAX_SIMD to allow for 128 byte width on GPUs
 2021-03-05 13:17:19 -05:00
Peter Boyle
d7065023cc Merge pull request #332 from mmphys/feature/mres_schur 
Optional changes to Test_cayley_mres e.g. Schur solver
 2021-03-05 12:47:07 -05:00
Peter Boyle
89d299ceec Merge pull request #333 from mmphys/bugfix/LatTransfer 
Fix convertType for GPU in Lattice_transfer.h
 2021-03-05 12:46:33 -05:00
Peter Boyle
e34eda66df Merge pull request #344 from felixerben/feature/XiToSigma 
Feature/xi to sigma
 2021-03-05 12:45:44 -05:00
Christoph Lehner
b24181aa4f Update Coordinate.h 
Revert GRID_MAX_SIMD change
 2021-03-05 16:56:58 +01:00
Peter Boyle
aa173e2998 Update README.md 2021-03-05 10:25:33 -05:00
Felix Erben
7a19432e0b whitespace 2021-03-05 10:57:09 +00:00
Felix Erben
9b15704290 tested and consitent 2021-03-05 10:42:32 +00:00
Michael Marshall
017f955b2d Merge branch 'develop' into feature/mres_schur 
* develop:
  Pass serial RNG around
  Sycl happier
 2021-03-04 20:42:02 +00:00
Michael Marshall
f252d69eef Merge branch 'develop' into bugfix/LatTransfer 
* develop:
  Pass serial RNG around
  Sycl happier
 2021-03-04 20:41:30 +00:00
Felix Erben
3b06e4655e Merge branch 'develop' into feature/XiToSigma 2021-03-04 20:06:16 +00:00
Felix Erben
d4b4de8f42 changes 2021-03-04 20:01:24 +00:00
Peter Boyle
c90beee774 Merge branch 'develop' of https://github.com/paboyle/Grid into develop 2021-03-03 23:50:29 +01:00
Peter Boyle
1eea9d73b9 Pass serial RNG around 2021-03-03 23:50:01 +01:00
u61464
679d1d22f7 Sycl happier 2021-03-03 11:21:43 -08:00
Michael Marshall
b2b5e0b98c Merge branch 'develop' into feature/mres_schur 
* develop:
  Hand unrolled to use optimised code paths on GPU for coalesced reads in Wilson case. Other cases to do. This now includes comms code path.
  Better SIMD usage/coalescence
 2021-03-03 16:15:12 +00:00
Michael Marshall
03e54722c1 Merge branch 'develop' into bugfix/LatTransfer 
* develop:
  Hand unrolled to use optimised code paths on GPU for coalesced reads in Wilson case. Other cases to do. This now includes comms code path.
 2021-03-03 16:13:23 +00:00
Peter Boyle
442336bd96 Hand unrolled to use optimised code paths on GPU for coalesced reads in Wilson case. 
Other cases to do. This now includes comms code path.
 2021-03-02 14:50:51 +01:00
Christoph Lehner
9c9566b9c9 Merge pull request #23 from paboyle/develop 
Sync
 2021-03-01 12:33:51 +01:00
Michael Marshall
1059a81a3c Merge branch 'develop' into bugfix/LatTransfer 
* develop:
  Better SIMD usage/coalescence
 2021-02-27 00:21:36 +00:00
Peter Boyle
2e61556389 Merge branch 'develop' of https://github.com/paboyle/Grid into develop 2021-02-26 17:52:20 +01:00
Peter Boyle
f9b1f240f6 Better SIMD usage/coalescence 2021-02-26 17:51:41 +01:00
Michael Marshall
69f41469dd Merge branch 'develop' into bugfix/LatTransfer 
* develop: (26 commits)
  Added the ability to apply a custom "filter" to the conjugate momentum in the Integrator classes, applied both after refresh and after applying the forces Added a conjugate momentum "filter" that applies a phase to each site. With sites set to 1.0 or 0.0 this acts as a mask and enables, for example, the freezing of inactive gauge links in DDHMC Added tests/forces/Test_momentum_filter demonstrating the use of the filter to freeze boundary links
  Correct misleading ac help string
  Enable performance counting in WilsonFermion like in others
  changed back A2AUtils warning
  changed if and accelerator_for - no runtime errors any more
  Mac OS (Darwin) sed -i flag for in-place editing differs from posix / gnu
  Seems the intention with AutoConf produced Grid/Config.h was to use sed to translate standard PACKAGE_ #defines into GRID_ however due to missing '' after -i this hasn't been working. Perhaps it is too late to fix this, since we don't know who/what is relying on this downstream? ... but if they are, and AutoConf is being used, then likely these #defines have just been redefined anyway. Seems reasonable to redefine PACKAGE and VERSION as well, as none of these macros are used throughout Grid or Hadrons.
  Fixed compile issues with maxLocalNorm2 for non-scalar lattices maxLocalNorm2 test now reuses the random field
  MADWF 5d source option for hadrons - look at Grid of source Abort on GPU error
  maxLocalNorm2()
  change back benchmark_ITT
  prettify
  Flop cout matches DiRAC-ITT-2020
  revert changes
  merge develop
  fixes
  weird bug in 2pt function...
  revert changes
  final version, tested on CPU and GPU
  bugfix
  ...
 2021-02-25 09:19:17 +00:00
Michael Marshall
d620b303ff Merge branch 'develop' into feature/mres_schur 
* develop: (26 commits)
  Added the ability to apply a custom "filter" to the conjugate momentum in the Integrator classes, applied both after refresh and after applying the forces Added a conjugate momentum "filter" that applies a phase to each site. With sites set to 1.0 or 0.0 this acts as a mask and enables, for example, the freezing of inactive gauge links in DDHMC Added tests/forces/Test_momentum_filter demonstrating the use of the filter to freeze boundary links
  Correct misleading ac help string
  Enable performance counting in WilsonFermion like in others
  changed back A2AUtils warning
  changed if and accelerator_for - no runtime errors any more
  Mac OS (Darwin) sed -i flag for in-place editing differs from posix / gnu
  Seems the intention with AutoConf produced Grid/Config.h was to use sed to translate standard PACKAGE_ #defines into GRID_ however due to missing '' after -i this hasn't been working. Perhaps it is too late to fix this, since we don't know who/what is relying on this downstream? ... but if they are, and AutoConf is being used, then likely these #defines have just been redefined anyway. Seems reasonable to redefine PACKAGE and VERSION as well, as none of these macros are used throughout Grid or Hadrons.
  Fixed compile issues with maxLocalNorm2 for non-scalar lattices maxLocalNorm2 test now reuses the random field
  MADWF 5d source option for hadrons - look at Grid of source Abort on GPU error
  maxLocalNorm2()
  change back benchmark_ITT
  prettify
  Flop cout matches DiRAC-ITT-2020
  revert changes
  merge develop
  fixes
  weird bug in 2pt function...
  revert changes
  final version, tested on CPU and GPU
  bugfix
  ...
 2021-02-24 18:07:27 +00:00
Peter Boyle
157fd1428d Merge pull request #342 from paboyle/feature/link-update-mask 
Feature/link update mask
 2021-02-24 11:29:52 -05:00
Christopher Kelly
c791cb2214 Merge branch 'develop' into feature/link-update-mask 2021-02-23 11:51:54 -05:00
Christopher Kelly
d5ab571a89 Added the ability to apply a custom "filter" to the conjugate momentum in the Integrator classes, applied both after refresh and after applying the forces 
Added a conjugate momentum "filter" that applies a phase to each site. With sites set to 1.0 or 0.0 this acts as a mask and enables, for example, the freezing of inactive gauge links in DDHMC
Added tests/forces/Test_momentum_filter demonstrating the use of the filter to freeze boundary links
 2021-02-23 11:49:56 -05:00
Felix Erben
0ed800f6e4 merge develop 2021-02-23 14:54:46 +00:00
Peter Boyle
0a32183825 Merge pull request #335 from felixerben/gpu/baryons 
Gpu/baryons
 2021-02-23 09:30:16 -05:00
Peter Boyle
2cacfbde2a Merge pull request #341 from DanielRichtmann/fix/minor-things 
Minor fixes
 2021-02-22 09:28:50 -05:00
Daniel Richtmann
c073e62e0b Correct misleading ac help string 2021-02-22 15:25:44 +01:00
Daniel Richtmann
e3d019bc2f Enable performance counting in WilsonFermion like in others 2021-02-22 15:25:40 +01:00
Felix Erben
7ae030f585 changed back A2AUtils warning 2021-02-18 13:24:50 +00:00
Felix Erben
86b58d5aff changed if and accelerator_for - no runtime errors any more 2021-02-18 12:04:32 +00:00
Peter Boyle
26e8b9f4a5 Merge pull request #340 from mmphys/bugfix/config 
Mac OS (Darwin) sed -i flag for in-place editing differs from posix / gnu
 2021-02-17 11:56:21 -05:00
Michael Marshall
35114c9e62 Mac OS (Darwin) sed -i flag for in-place editing differs from posix / gnu 2021-02-17 13:24:15 +00:00
Peter Boyle
dfd28a85c9 Merge pull request #339 from mmphys/bugfix/config 
Optional rename PACKAGE_ to GRID_ in Grid/Config.h
 2021-02-15 13:53:26 -05:00
Michael Marshall
a503332924 Seems the intention with AutoConf produced Grid/Config.h was to use sed to translate standard PACKAGE_ #defines into GRID_ however due to missing '' after -i this hasn't been working. 
Perhaps it is too late to fix this, since we don't know who/what is relying on this downstream? ... but if they are, and AutoConf is being used, then likely these #defines have just been redefined anyway. Seems reasonable to redefine PACKAGE and VERSION as well, as none of these macros are used throughout Grid or Hadrons.
 2021-02-14 21:27:54 +00:00
Peter Boyle
1ac13ec3a7 Merge pull request #338 from paboyle/bugfix/maxnorm2 
Fixed compile issues with maxLocalNorm2 for non-scalar lattices
 2021-02-08 12:08:11 -05:00
Christopher Kelly
55de69a569 Fixed compile issues with maxLocalNorm2 for non-scalar lattices 
maxLocalNorm2 test now reuses the random field
 2021-02-08 12:03:16 -05:00
Peter Boyle
eda9ab487b MADWF 5d source option for hadrons - look at Grid of source 
Abort on GPU error
 2021-02-08 10:47:22 -05:00
Peter Boyle
cd99edcc5f maxLocalNorm2() 2021-02-04 18:25:49 -05:00
Christoph Lehner
4705aa541d Allow user to configure ShmDims via environment variables 2021-02-04 14:25:55 +01:00
Michael Marshall
3215d88a91 Simplify syntax with Grid::EnableIf post code review. Updated EnableIf so that ReturnType defaults to void in same way as std::enable_if see https://en.cppreference.com/w/cpp/types/enable_if 2021-02-03 15:17:03 +00:00
Felix Erben
9b9a53f870 ... 2021-02-02 13:06:43 +00:00
Christoph Lehner
019ffe17d4 Allow for GPU vector width beyond 64 2021-02-02 11:32:23 +01:00
Felix Erben
bc496dd844 change back benchmark_ITT 2021-01-28 14:29:56 +00:00
Felix Erben
a673b6a54d prettify 2021-01-28 14:15:09 +00:00
Felix Erben
1bf2e4d187 Merge branch 'develop' into gpu/baryons 2021-01-27 21:17:37 +00:00
Peter Boyle
96dd7a8fbd Flop cout matches DiRAC-ITT-2020 2021-01-27 21:14:52 +00:00
Felix Erben
7905afa9f5 revert changes 2021-01-27 21:14:52 +00:00
Felix Erben
712bb40650 merge develop 2021-01-27 21:14:52 +00:00
Felix Erben
81d88d9f4d fixes 2021-01-27 21:09:51 +00:00
Michael Marshall
77063418da Fix issue for GPU by ensuring accelerator_inline version of convertType is available for Grid::complex<T>. This removes many warnings in Hadrons 
Simplify the SFINAE syntax and correct convertType for iScalar
 2021-01-25 15:09:36 +00:00
Michael Marshall
2983b6fdf6 Optional (superficial) changes to make comparison with Hadrons WardIdentity module easier: use Schur solver; example of Hadrons random gauge init; logging updates; only solve reverse propagator if provided 2021-01-23 12:41:48 +00:00
Peter Boyle
69f1f04f74 Merge branch 'develop' of https://github.com/paboyle/Grid into develop 2021-01-21 21:39:59 -05:00
Peter Boyle
11a5fd09d6 Hot config 2021-01-21 21:39:41 -05:00
Peter Boyle
ff1fa98808 Fix for GPU conserveed current 2021-01-21 21:38:23 -05:00
Felix Erben
df16202865 weird bug in 2pt function... 2021-01-19 19:25:27 +00:00
Felix Erben
3ff7c2c02a Merge branch 'develop' into gpu/baryons 2021-01-19 12:34:13 +00:00
Felix Erben
fc6d07897f revert changes 2021-01-19 12:32:48 +00:00
Felix Erben
f9c8e5c8ef Merge branch 'develop' of github.com:paboyle/Grid into develop 2021-01-19 12:30:29 +00:00
Felix Erben
8bfa0e74f8 final version, tested on CPU and GPU 2021-01-19 12:27:57 +00:00
Felix Erben
9b73a937e7 bugfix 2021-01-18 18:57:05 +00:00
Peter Boyle
b0339bc5a4 Merge branch 'feature/conjugate-bc-dirs' into develop 2021-01-15 09:28:39 -05:00
Peter Boyle
3c23a947cc Fixed test for very much non-unit det 2021-01-15 09:16:02 -05:00
Peter Boyle
56111bb823 Merge branch 'develop' into feature/conjugate-bc-dirs 2021-01-14 21:01:22 -05:00
Peter Boyle
99445673f6 Gparity fix, and plaquette IO 2021-01-14 21:00:36 -05:00
Peter Boyle
97a59643f7 Red black coarse space 2021-01-14 20:49:13 -05:00
Peter Boyle
579595f547 Red black on coarse space 2021-01-14 20:48:35 -05:00
Peter Boyle
281ac5fc12 Red black support on coars 2021-01-14 20:48:08 -05:00
Peter Boyle
d8fa903b02 G5 on coarse spaces 2021-01-14 20:47:28 -05:00
Peter Boyle
eaff0f3aeb Gamma5 on coaree spaces 2021-01-14 20:46:58 -05:00
Peter Boyle
e8e20c01b2 Coarsened vector test 2021-01-14 20:46:21 -05:00
Peter Boyle
a4afc3ea2a Red black coarse space 2021-01-14 20:44:16 -05:00
Felix Erben
fa12b9a329 bugfix 2021-01-13 10:04:17 +00:00
Felix Erben
45fc7ded3a test for sum 2021-01-12 09:10:37 +00:00
Felix Erben
74de2d9742 whitespace changes 2021-01-08 18:28:36 +00:00
Felix Erben
e759367d42 tested and working 2021-01-08 18:04:50 +00:00
Christoph Lehner
299d0de066 Merge pull request #21 from paboyle/develop 
Sync
 2020-12-22 20:59:15 +01:00
Peter Boyle
3fe75bc7cb Merge pull request #329 from nmeyer-ur/feature/a64fx-3 
Revised dslash/dwf kernels for A64FX
 2020-12-20 08:17:15 -05:00
Nils Meyer
45d49d8648 clean up 2020-12-19 03:35:18 +01:00
Nils Meyer
6013183361 removed Asm impls 2020-12-19 03:25:01 +01:00
Nils Meyer
4b882e8056 fixed lost bracket 2020-12-19 03:09:20 +01:00
Nils Meyer
3f9ae6e7e7 Merge branch 'develop' into feature/a64fx-3 2020-12-19 02:37:11 +01:00
Nils Meyer
909acd55cd vnum variant for prefetches 2020-12-19 02:00:22 +01:00
Nils Meyer
4dd9e39e0d up to +36% performance gain for dslash/dwf on QPACE 4 using GCC 10.1.1 2020-12-19 00:54:31 +01:00
Christoph Lehner
b4c1317ab4 Merge pull request #22 from DanielRichtmann/feature/clover-access-specifier 
Clover access specifier
 2020-12-18 16:20:19 +01:00
Felix Erben
f36d6f3923 compiles on GPU. 3pt still wrong!!!! 2020-12-17 17:04:08 +00:00
Peter Boyle
7adb253e25 Merge pull request #328 from mmphys/feature/mrespatch 
Enable existing conserved current code for CUDA
 2020-12-17 11:10:29 -05:00
Felix Erben
808f1e0e8c merge develop 2020-12-15 16:33:29 +00:00
Michael Marshall
873519e960 Enable existing conserved current code for CUDA (compiles OK for CUDA 10.1). Add option to Test_cayley_mres to load a configuration 2020-12-14 16:06:10 +00:00
Peter Boyle
9aec4a3c26 SYCL 2020-12-10 02:11:17 -08:00
Daniel Richtmann
c438118fd7 Change access specifier of clover fields in order to allow deriving classes to access these 2020-12-08 14:42:11 +01:00
Peter Boyle
70510d151b Merge pull request #327 from paboyle/feature/gparity_twist_GPU 
Feature/gparity twist gpu
 2020-12-07 12:02:20 -05:00
Christopher Kelly
9e7bacb5a4 Merge branch 'develop' into feature/gparity_twist_GPU 2020-12-07 11:55:39 -05:00
Christopher Kelly
2ef1fa66a8 Improved performance of G-parity kernel for GPUs by simplifying multLink implementation 2020-12-07 11:53:35 -05:00
Peter Boyle
cf76741ec6 Intel DPCPP Gold happy now (compiles all, runs Benchmark_dwf_fp32 ) 2020-12-03 03:47:11 -08:00
Peter Boyle
497e7c1c40 Duplicate code 2020-12-02 17:55:30 -08:00
Peter Boyle
888eacd3b8 Merge branch 'develop' of https://github.com/paboyle/Grid into develop 2020-11-24 21:46:33 -05:00
Peter Boyle
321f0f51b5 Project to SU(N) 2020-11-24 21:46:10 -05:00
Christoph Lehner
17ec9c5545 Merge pull request #20 from paboyle/develop 
Sync
 2020-11-24 12:20:43 +01:00
Peter Boyle
30ad9578a2 Merge branch 'lehner-feature/gpt' into develop 2020-11-24 06:10:24 -05:00
Peter Boyle
9dce101586 Merge branch 'feature/gpt' of https://github.com/lehner/Grid into lehner-feature/gpt 2020-11-24 06:10:16 -05:00
Peter Boyle
97e264d0ff Christoph's changes 2020-11-23 15:46:11 +00:00
Peter Boyle
683a5e5bf5 Stencil use host vector for integera table on enable-shared=no and mirror it on device 2020-11-23 15:39:51 +00:00
Peter Boyle
d4861a362c Stencil use non-UVM memory for look up table on enable-shared=no 2020-11-23 15:38:49 +00:00
Peter Boyle
5ff3eae027 Merge branch 'develop' of https://github.com/paboyle/Grid into develop 2020-11-20 13:14:44 -05:00
Peter Boyle
147dc15d26 Update 2020-11-20 13:13:59 -05:00
Christoph Lehner
c61ea72949 Merge pull request #19 from paboyle/develop 
Sync
 2020-11-20 17:31:13 +01:00
Peter Boyle
86e8b9fe38 ALLOC_ALIGN removed 2020-11-20 17:07:16 +01:00
Peter Boyle
612e468889 Configurable ALLOC_ALIGN and ALLOC_CACHE 2020-11-20 16:48:28 +01:00
Christoph Lehner
4ea8d128c2 Merge pull request #18 from paboyle/develop 
Sync
 2020-11-20 15:36:50 +01:00
Peter Boyle
e49b7f2f88 Merge branch 'develop' of https://github.com/paboyle/Grid into develop 2020-11-19 19:24:41 +01:00
Peter Boyle
aace3d47b9 partial work in progress 2020-11-19 19:24:14 +01:00
Peter Boyle
d5049949a4 Starting to fix reunitarise 2020-11-19 19:23:41 +01:00
Peter Boyle
f1c7480e3c Warning remove 2020-11-19 19:23:03 +01:00
Peter Boyle
5adae5d6ff Unused variable remove 2020-11-19 19:22:12 +01:00
Peter Boyle
a8412ace05 Merge pull request #317 from i-kanamori/develop 
adding an error check for input: Parameters.StartingType
 2020-11-18 23:09:40 -05:00
Peter Boyle
9fd1c2ad4b Merge pull request #325 from DanielRichtmann/feature/threaded-clover-inversion 
Threaded clover term inversion
 2020-11-18 23:08:37 -05:00
Peter Boyle
4cf3575353 Merge branch 'develop' of https://github.com/paboyle/Grid into develop 2020-11-18 03:07:36 +00:00
Peter Boyle
804a810d68 Wildcard mismatch 2020-11-18 03:06:53 +00:00
Peter Boyle
8fcb392e24 Merge branch 'develop' of https://github.com/paboyle/Grid into develop 2020-11-17 04:51:31 -08:00
Peter Boyle
dd8d70eeff Build without LIME 2020-11-17 04:41:15 -08:00
Peter Boyle
aa8aba6543 --shm-force-mpi 2020-11-16 20:15:50 -05:00
Peter Boyle
13df14f96e Switch off SHM paths with --disable-shm 2020-11-16 18:07:15 -05:00
Peter Boyle
3aab983760 Flop count set as in DiRAC-ITT-2020 (mistaken 20% low, but must maintain consistency) 2020-11-16 17:13:58 +01:00
Peter Boyle
9c4dcc5ea3 Merge branch 'master' into develop 2020-11-16 16:34:57 +01:00
Peter Boyle
a1063ddbb9 Update options and simplify 2020-11-13 04:11:03 +01:00
Peter Boyle
18ef8056ec Hide Shared Memory 2020-11-13 04:10:40 +01:00
Peter Boyle
1c673977fa Must ask for COMMMS_THREADS 2020-11-13 03:59:36 +01:00
Peter Boyle
e9bc748828 Useful GPU machine benchmark for GDR used to shakeout Booster at Juelich - see slack earlyaccess channel 2020-11-13 03:58:34 +01:00
Peter Boyle
f48156529b Work on 2,2,2,8 ranks 2020-11-13 03:57:58 +01:00
Peter Boyle
d05ce01809 TOFU behaviour now optional THREAD_MULTIPLE or THREAD_SERIALIZED 2020-11-13 03:52:19 +01:00
Peter Boyle
cf23eff60e Device to Device, Memset, cannot assume UVM == Communicable 2020-11-13 03:51:08 +01:00
Peter Boyle
6e313575be Use of default GPU is behaviour, not a system property. Move Summit specific to configure.ac 2020-11-13 03:50:16 +01:00
Peter Boyle
b13d1f7238 TOFU compat flag to help Isaaku 2020-11-13 03:49:44 +01:00
Peter Boyle
b5e7945dd9 Option for host or device Cshift implementation 2020-11-13 01:38:54 +01:00
Peter Boyle
7535566f54 Option for bounce through the SHM buffer 2020-11-12 22:54:27 +01:00
Peter Boyle
50b808ab33 Configure option between host and device 2020-11-12 22:28:12 +01:00
Peter Boyle
f16c2665f5 Host memory explict 2020-11-12 20:29:58 +01:00
Peter Boyle
41e28015ae Volume divisible guarantee 2020-11-07 13:32:16 +01:00
Felix Erben
3594ce877b speedup in Sigma-to-nucleon 2020-11-03 20:04:30 +00:00
Felix Erben
9bae6b889a speedup in Sigma-to-nucleon 2020-11-03 20:03:09 +00:00
Felix Erben
4014dfd5b9 first tested version 2020-11-03 16:13:08 +00:00
Felix Erben
67023c334b bugfix 2020-11-03 13:07:37 +00:00
Felix Erben
a3de7026c8 bugfix 2020-11-03 12:51:50 +00:00
Felix Erben
ee11678b1f added Xi-to-Sigma rare decays 2020-11-03 12:41:35 +00:00
Peter Boyle
a0ccbb3bd6 Merge branch 'develop' of https://github.com/paboyle/Grid into develop 2020-11-01 01:16:35 +00:00
Peter Boyle
5eeabaa2bb HIP fix 2020-11-01 01:16:01 +00:00
Peter Boyle
00d0d6d008 Hip Free managed 2020-10-31 18:14:31 -04:00
Peter Boyle
537a9f7030 Merge branch 'develop' of https://github.com/paboyle/Grid into develop 2020-10-31 18:13:30 -04:00
Peter Boyle
cc9c993f74 Project on group fix on GPU tracked to reciprocal sqrt collision between CUDA and Grid rsqrt 2020-10-31 18:12:47 -04:00
Peter Boyle
d10422ded8 Test project on group 2020-10-31 18:12:30 -04:00
Peter Boyle
f313565a3c HiP compile 2020-10-31 12:12:40 +00:00
Daniel Richtmann
b3881d2636 Thread inversion of clover term 2020-10-30 16:18:58 +01:00
Antonin Portelli
61d5860b46 Merge pull request #318 from rrhodgson/feature/BaryonSpinMat 
Added untraced baryon contraction code
 2020-10-28 18:39:59 +00:00
Raoul Hodgson
52d17987dc BaryonUtils.h updated debug output 2020-10-23 11:41:08 +01:00
Raoul Hodgson
19d8bba97d BaryonUtils function naming change 2020-10-21 11:58:53 +01:00
Raoul Hodgson
463d72d322 Added untraced baryon contraction code 2020-10-19 16:13:28 +01:00
KANAMORI Issaku
d060341168 add an error check for Parameters.StartingType 2020-10-16 21:39:17 +09:00
KANAMORI Issaku
c772bcd514 Merge https://github.com/paboyle/Grid into develop 2020-10-16 20:30:32 +09:00
Peter Boyle
3362f8dfa0 happy compile 2020-10-14 22:59:41 -04:00
Peter Boyle
bf3c9857e0 Closure changes 2020-10-14 21:37:14 -04:00
Peter Boyle
a88b3ceca5 Closure cases 2020-10-14 21:33:51 -04:00
Peter Boyle
aa135412f5 toComplex, toReal 2020-10-13 22:25:01 -04:00
Peter Boyle
9945399e60 Reaality issues fix by drop from ET 2020-10-13 22:24:32 -04:00
Peter Boyle
5eeffa49e8 Reality forced included 2020-10-13 22:23:57 -04:00
Peter Boyle
3f06209720 Pretty print 2020-10-13 22:18:51 -04:00
Peter Boyle
12e239dd9f Merge branch 'release/dirac-ITT-2020' 2020-10-13 13:38:29 -04:00
Peter Boyle
af2301afbb Merge pull request #312 from i-kanamori/debug_512 
add reordring of random number generators in IO
 2020-10-13 11:42:12 -04:00
Peter Boyle
f98856a26f Merge pull request #314 from smangham/issue_readme_precision 
Fix for deprecated configure options in documentation (issue #313)
 2020-10-13 11:41:38 -04:00
Sam Mangham
d55cc5b380 Fixed typo on --enable-comm, removed all references to --enable-precision except for config options, where it is listed as deprecated. Removed travis test for single precision. 2020-10-12 12:33:13 +01:00
Antonin Portelli
c2b688abc9 Benchmark_IO: reducing max local volume to 32^4 2020-10-10 16:52:56 +01:00
Antonin Portelli
b0d61b9687 Benchmark_IO cleaner output 2020-10-09 21:46:45 +01:00
Antonin Portelli
5f893bf9af Benchmark_IO procurement sizes 2020-10-09 21:31:59 +01:00
Antonin Portelli
0e17bd6597 I/O benchmark cleanup 2020-10-09 20:29:57 +01:00
Antonin Portelli
22caa158cc multi-pass I/O benchmark, with statistic and robustness summary 2020-10-09 20:29:40 +01:00
Antonin Portelli
b24a504d7c hook to access last parallel I/O performance measurement 2020-10-09 20:28:54 +01:00
Peter Boyle
992ef6e9fc more runtime 2020-10-08 22:19:20 -04:00
Peter Boyle
f32a320bc3 Single prec benchmark in double prec compile 2020-10-08 19:52:08 -04:00
Peter Boyle
5f0fe029d2 Improve meemory benchmarks for GPU (avoid host mem ping pong) 2020-10-08 19:51:28 -04:00
Antonin Portelli
6b1486e89b fixing number of colours defaulting to 4 in most cases 2020-10-08 16:31:24 +01:00
Peter Boyle
3f9c427a3a Merge branch 'develop' of https://github.com/paboyle/Grid into develop 2020-10-07 13:12:57 -04:00
Peter Boyle
d201277652 Expose Nc as a compile time configure option. 
Remove precision option
 2020-10-07 13:07:00 -04:00
Antonin Portelli
fdda7cf9cf Merge branch 'feature/benchmark-io-update' into develop 2020-10-07 15:57:53 +01:00
Antonin Portelli
e22d30f715 Merge branch 'develop' into feature/benchmark-io-update 2020-10-07 15:56:39 +01:00
KANAMORI Issaku
467deee46f Merge branch 'debug_512' into develop 2020-10-07 15:18:44 +09:00
Peter Boyle
35a69a5133 SU4 x SU4 2020-10-06 21:48:35 -04:00
KANAMORI Issaku
97db2b8d20 add reordring of random number generator in IO 2020-10-06 17:25:59 +09:00
Christoph Lehner
80fd6ab407 Merge pull request #17 from paboyle/develop 
sync upstream
 2020-10-06 09:01:39 +02:00
Christoph Lehner
5534921bee Merge pull request #16 from DanielRichtmann/feature/gpt-coarsenedmatrix 
Enable checkerboard operations for CoarsenedMatrix
 2020-10-01 10:55:13 +02:00
Christoph Lehner
5cffa05c7e remove slab allocator file 2020-09-13 14:06:25 -04:00
Christoph Lehner
d50a2164d7 remove slab allocator 2020-09-13 14:06:06 -04:00
Christoph Lehner
32ff766dbd fix evict scheme, slab alloc 2020-09-13 14:02:53 -04:00
Christoph Lehner
01652d8cfe SlabAllocator 2020-09-13 05:56:02 -04:00
Daniel Richtmann
4d2dc7ba03 Enable even-odd for CoarsenedMatrix 2020-09-11 20:32:02 +02:00
Christoph Lehner
51d1beb1f3 Merge pull request #15 from paboyle/develop 
Sync with upstream
 2020-09-07 14:20:33 +02:00
Christoph Lehner
249e2db87d Merge pull request #14 from DanielRichtmann/feature/gpt-coarsenedmatrix 
Expose more functions in CMat
 2020-08-27 15:18:56 +02:00
Daniel Richtmann
cf3535d16e Expose more functions in CMat 2020-08-27 14:06:48 +02:00
Christoph Lehner
d61ee817f4 Merge pull request #13 from DanielRichtmann/feature/gpt-coarsenedmatrix 
Changes needed for GPT MG
 2020-08-27 12:11:06 +02:00
Christoph Lehner
2a75516330 state MPI/SLURM message only on world_rank zero 2020-08-26 12:34:17 -04:00
Daniel Richtmann
b2087f14c4 Fix CoarsenedMatrix regarding illegal memory accesses 
Need a reference to geom since the lambda copies the this pointer which points to host memory, see
- https://docs.nvidia.com/cuda/cuda-c-programming-guide/#star-this-capture
- https://devblogs.nvidia.com/new-compiler-features-cuda-8/
 2020-08-24 17:46:47 +02:00
Daniel Richtmann
dd1ba266b2 Fix mapping between dir + disp and point in CMat 2020-08-24 17:46:46 +02:00
Daniel Richtmann
1292d59563 Add a typedef + broaden interface of CMat 2020-08-24 17:46:45 +02:00
Christoph Lehner
9877ed9bf8 Merge pull request #12 from paboyle/develop 
Sync
 2020-08-22 16:35:35 +02:00
Christoph Lehner
f0dc0f3621 fix compile issue on Qpace3 2020-08-22 13:57:33 +02:00
Christoph Lehner
63b0a19f37 Merge pull request #11 from paboyle/develop 
Sync
 2020-08-20 20:53:39 +02:00
283 changed files with 11515 additions and 6900 deletions
Expand all files Collapse all files

1
.gitignore vendored
View File

@@ -88,6 +88,7 @@ Thumbs.db
# build directory #
###################
build*/*
Documentation/_build
# IDE related files #
#####################

61
.travis.yml
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@@ -1,61 +0,0 @@
language: cpp
cache:
directories:
- clang
matrix:
include:
- os: osx
osx_image: xcode8.3
compiler: clang
env: PREC=single
- os: osx
osx_image: xcode8.3
compiler: clang
env: PREC=double
before_install:
- export GRIDDIR=`pwd`
- if [[ "$TRAVIS_OS_NAME" == "linux" ]] && [[ "$CC" == "clang" ]] && [ ! -e clang/bin ]; then wget $CLANG_LINK; tar -xf `basename $CLANG_LINK`; mkdir clang; mv clang+*/* clang/; fi
- if [[ "$TRAVIS_OS_NAME" == "linux" ]] && [[ "$CC" == "clang" ]]; then export PATH="${GRIDDIR}/clang/bin:${PATH}"; fi
- if [[ "$TRAVIS_OS_NAME" == "linux" ]] && [[ "$CC" == "clang" ]]; then export LD_LIBRARY_PATH="${GRIDDIR}/clang/lib:${LD_LIBRARY_PATH}"; fi
- if [[ "$TRAVIS_OS_NAME" == "osx" ]]; then brew update; fi
- if [[ "$TRAVIS_OS_NAME" == "osx" ]]; then brew install libmpc openssl; fi
install:
- export CWD=`pwd`
- echo $CWD
- export CC=$CC$VERSION
- export CXX=$CXX$VERSION
- echo $PATH
- which autoconf
- autoconf --version
- which automake
- automake --version
- which $CC
- $CC --version
- which $CXX
- $CXX --version
- if [[ "$TRAVIS_OS_NAME" == "osx" ]]; then export LDFLAGS='-L/usr/local/lib'; fi
- if [[ "$TRAVIS_OS_NAME" == "osx" ]]; then export EXTRACONF='--with-openssl=/usr/local/opt/openssl'; fi
script:
- ./bootstrap.sh
- mkdir build
- cd build
- mkdir lime
- cd lime
- mkdir build
- cd build
- wget http://usqcd-software.github.io/downloads/c-lime/lime-1.3.2.tar.gz
- tar xf lime-1.3.2.tar.gz
- cd lime-1.3.2
- ./configure --prefix=$CWD/build/lime/install
- make -j4
- make install
- cd $CWD/build
- ../configure --enable-precision=$PREC --enable-simd=SSE4 --enable-comms=none --with-lime=$CWD/build/lime/install ${EXTRACONF}
- make -j4
- ./benchmarks/Benchmark_dwf --threads 1 --debug-signals
- make check

2
Grid/DisableWarnings.h
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@@ -37,7 +37,9 @@ directory
#endif
//disables and intel compiler specific warning (in json.hpp)
#ifdef __ICC
#pragma warning disable 488
#endif
#ifdef __NVCC__
//disables nvcc specific warning in json.hpp

3
Grid/GridStd.h
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@@ -28,4 +28,7 @@
///////////////////
#include "Config.h"
#ifdef TOFU
#undef GRID_COMMS_THREADS
#endif
#endif /* GRID_STD_H */

14
Grid/Makefile.am
View File

@@ -21,6 +21,7 @@ if BUILD_HDF5
extra_headers+=serialisation/Hdf5Type.h
endif
all: version-cache Version.h
version-cache:
@@ -53,6 +54,19 @@ Version.h: version-cache
include Make.inc
include Eigen.inc
extra_sources+=$(WILS_FERMION_FILES)
extra_sources+=$(STAG_FERMION_FILES)
if BUILD_ZMOBIUS
extra_sources+=$(ZWILS_FERMION_FILES)
endif
if BUILD_GPARITY
extra_sources+=$(GP_FERMION_FILES)
endif
if BUILD_FERMION_REPS
extra_sources+=$(ADJ_FERMION_FILES)
extra_sources+=$(TWOIND_FERMION_FILES)
endif
lib_LIBRARIES = libGrid.a
CCFILES += $(extra_sources)

536
Grid/algorithms/CoarsenedMatrix.h
View File

@@ -31,6 +31,7 @@ Author: paboyle <paboyle@ph.ed.ac.uk>
#ifndef GRID_ALGORITHM_COARSENED_MATRIX_H
#define GRID_ALGORITHM_COARSENED_MATRIX_H
#include <Grid/qcd/QCD.h> // needed for Dagger(Yes|No), Inverse(Yes|No)
NAMESPACE_BEGIN(Grid);
@@ -59,12 +60,14 @@ inline void blockMaskedInnerProduct(Lattice<CComplex> &CoarseInner,
class Geometry {
public:
int npoint;
int base;
std::vector<int> directions ;
std::vector<int> displacements;
std::vector<int> points_dagger;
Geometry(int _d) {
int base = (_d==5) ? 1:0;
base = (_d==5) ? 1:0;
// make coarse grid stencil for 4d , not 5d
if ( _d==5 ) _d=4;
@@ -72,16 +75,51 @@ public:
npoint = 2*_d+1;
directions.resize(npoint);
displacements.resize(npoint);
points_dagger.resize(npoint);
for(int d=0;d<_d;d++){
directions[d ] = d+base;
directions[d+_d] = d+base;
displacements[d ] = +1;
displacements[d+_d]= -1;
points_dagger[d ] = d+_d;
points_dagger[d+_d] = d;
}
directions [2*_d]=0;
displacements[2*_d]=0;
points_dagger[2*_d]=2*_d;
}
int point(int dir, int disp) {
assert(disp == -1 || disp == 0 || disp == 1);
assert(base+0 <= dir && dir < base+4);
// directions faster index = new indexing
// 4d (base = 0):
// point 0 1 2 3 4 5 6 7 8
// dir 0 1 2 3 0 1 2 3 0
// disp +1 +1 +1 +1 -1 -1 -1 -1 0
// 5d (base = 1):
// point 0 1 2 3 4 5 6 7 8
// dir 1 2 3 4 1 2 3 4 0
// disp +1 +1 +1 +1 -1 -1 -1 -1 0
// displacements faster index = old indexing
// 4d (base = 0):
// point 0 1 2 3 4 5 6 7 8
// dir 0 0 1 1 2 2 3 3 0
// disp +1 -1 +1 -1 +1 -1 +1 -1 0
// 5d (base = 1):
// point 0 1 2 3 4 5 6 7 8
// dir 1 1 2 2 3 3 4 4 0
// disp +1 -1 +1 -1 +1 -1 +1 -1 0
if(dir == 0 and disp == 0)
return 8;
else // New indexing
return (1 - disp) / 2 * 4 + dir - base;
// else // Old indexing
// return (4 * (dir - base) + 1 - disp) / 2;
}
};
template<class Fobj,class CComplex,int nbasis>
@@ -258,7 +296,7 @@ public:
// Fine Object == (per site) type of fine field
// nbasis == number of deflation vectors
template<class Fobj,class CComplex,int nbasis>
class CoarsenedMatrix : public SparseMatrixBase<Lattice<iVector<CComplex,nbasis > > > {
class CoarsenedMatrix : public CheckerBoardedSparseMatrixBase<Lattice<iVector<CComplex,nbasis > > > {
public:
typedef iVector<CComplex,nbasis > siteVector;
@@ -268,33 +306,59 @@ public:
typedef iMatrix<CComplex,nbasis > Cobj;
typedef Lattice< CComplex > CoarseScalar; // used for inner products on fine field
typedef Lattice<Fobj > FineField;
typedef CoarseVector FermionField;
// enrich interface, use default implementation as in FermionOperator ///////
void Dminus(CoarseVector const& in, CoarseVector& out) { out = in; }
void DminusDag(CoarseVector const& in, CoarseVector& out) { out = in; }
void ImportPhysicalFermionSource(CoarseVector const& input, CoarseVector& imported) { imported = input; }
void ImportUnphysicalFermion(CoarseVector const& input, CoarseVector& imported) { imported = input; }
void ExportPhysicalFermionSolution(CoarseVector const& solution, CoarseVector& exported) { exported = solution; };
void ExportPhysicalFermionSource(CoarseVector const& solution, CoarseVector& exported) { exported = solution; };
////////////////////
// Data members
////////////////////
Geometry geom;
GridBase * _grid;
GridBase* _cbgrid;
int hermitian;
CartesianStencil<siteVector,siteVector,int> Stencil;
CartesianStencil<siteVector,siteVector,int> StencilEven;
CartesianStencil<siteVector,siteVector,int> StencilOdd;
std::vector<CoarseMatrix> A;
std::vector<CoarseMatrix> Aeven;
std::vector<CoarseMatrix> Aodd;
CoarseMatrix AselfInv;
CoarseMatrix AselfInvEven;
CoarseMatrix AselfInvOdd;
Vector<RealD> dag_factor;
///////////////////////
// Interface
///////////////////////
GridBase * Grid(void) { return _grid; }; // this is all the linalg routines need to know
GridBase * RedBlackGrid() { return _cbgrid; };
int ConstEE() { return 0; }
void M (const CoarseVector &in, CoarseVector &out)
{
conformable(_grid,in.Grid());
conformable(in.Grid(),out.Grid());
out.Checkerboard() = in.Checkerboard();
SimpleCompressor<siteVector> compressor;
Stencil.HaloExchange(in,compressor);
autoView( in_v , in, AcceleratorRead);
autoView( out_v , out, AcceleratorWrite);
autoView( Stencil_v , Stencil, AcceleratorRead);
auto& geom_v = geom;
typedef LatticeView<Cobj> Aview;
Vector<Aview> AcceleratorViewContainer;
@@ -316,14 +380,14 @@ public:
int ptype;
StencilEntry *SE;
for(int point=0;point<geom.npoint;point++){
for(int point=0;point<geom_v.npoint;point++){
SE=Stencil.GetEntry(ptype,point,ss);
SE=Stencil_v.GetEntry(ptype,point,ss);
if(SE->_is_local) {
nbr = coalescedReadPermute(in_v[SE->_offset],ptype,SE->_permute);
} else {
nbr = coalescedRead(Stencil.CommBuf()[SE->_offset]);
nbr = coalescedRead(Stencil_v.CommBuf()[SE->_offset]);
}
acceleratorSynchronise();
@@ -344,12 +408,72 @@ public:
return M(in,out);
} else {
// corresponds to Galerkin coarsening
CoarseVector tmp(Grid());
G5C(tmp, in);
M(tmp, out);
G5C(out, out);
return MdagNonHermitian(in, out);
}
};
void MdagNonHermitian(const CoarseVector &in, CoarseVector &out)
{
conformable(_grid,in.Grid());
conformable(in.Grid(),out.Grid());
out.Checkerboard() = in.Checkerboard();
SimpleCompressor<siteVector> compressor;
Stencil.HaloExchange(in,compressor);
autoView( in_v , in, AcceleratorRead);
autoView( out_v , out, AcceleratorWrite);
autoView( Stencil_v , Stencil, AcceleratorRead);
auto& geom_v = geom;
typedef LatticeView<Cobj> Aview;
Vector<Aview> AcceleratorViewContainer;
for(int p=0;p<geom.npoint;p++) AcceleratorViewContainer.push_back(A[p].View(AcceleratorRead));
Aview *Aview_p = & AcceleratorViewContainer[0];
const int Nsimd = CComplex::Nsimd();
typedef decltype(coalescedRead(in_v[0])) calcVector;
typedef decltype(coalescedRead(in_v[0](0))) calcComplex;
int osites=Grid()->oSites();
Vector<int> points(geom.npoint, 0);
for(int p=0; p<geom.npoint; p++)
points[p] = geom.points_dagger[p];
RealD* dag_factor_p = &dag_factor[0];
accelerator_for(sss, Grid()->oSites()*nbasis, Nsimd, {
int ss = sss/nbasis;
int b = sss%nbasis;
calcComplex res = Zero();
calcVector nbr;
int ptype;
StencilEntry *SE;
for(int p=0;p<geom_v.npoint;p++){
int point = points[p];
SE=Stencil_v.GetEntry(ptype,point,ss);
if(SE->_is_local) {
nbr = coalescedReadPermute(in_v[SE->_offset],ptype,SE->_permute);
} else {
nbr = coalescedRead(Stencil_v.CommBuf()[SE->_offset]);
}
acceleratorSynchronise();
for(int bb=0;bb<nbasis;bb++) {
res = res + dag_factor_p[b*nbasis+bb]*coalescedRead(Aview_p[point][ss](b,bb))*nbr(bb);
}
}
coalescedWrite(out_v[ss](b),res);
});
for(int p=0;p<geom.npoint;p++) AcceleratorViewContainer[p].ViewClose();
}
void MdirComms(const CoarseVector &in)
{
SimpleCompressor<siteVector> compressor;
@@ -359,6 +483,7 @@ public:
{
conformable(_grid,in.Grid());
conformable(_grid,out.Grid());
out.Checkerboard() = in.Checkerboard();
typedef LatticeView<Cobj> Aview;
Vector<Aview> AcceleratorViewContainer;
@@ -367,6 +492,7 @@ public:
autoView( out_v , out, AcceleratorWrite);
autoView( in_v , in, AcceleratorRead);
autoView( Stencil_v , Stencil, AcceleratorRead);
const int Nsimd = CComplex::Nsimd();
typedef decltype(coalescedRead(in_v[0])) calcVector;
@@ -380,12 +506,12 @@ public:
int ptype;
StencilEntry *SE;
SE=Stencil.GetEntry(ptype,point,ss);
SE=Stencil_v.GetEntry(ptype,point,ss);
if(SE->_is_local) {
nbr = coalescedReadPermute(in_v[SE->_offset],ptype,SE->_permute);
} else {
nbr = coalescedRead(Stencil.CommBuf()[SE->_offset]);
nbr = coalescedRead(Stencil_v.CommBuf()[SE->_offset]);
}
acceleratorSynchronise();
@@ -413,34 +539,7 @@ public:
this->MdirComms(in);
int ndim = in.Grid()->Nd();
//////////////
// 4D action like wilson
// 0+ => 0
// 0- => 1
// 1+ => 2
// 1- => 3
// etc..
//////////////
// 5D action like DWF
// 1+ => 0
// 1- => 1
// 2+ => 2
// 2- => 3
// etc..
auto point = [dir, disp, ndim](){
if(dir == 0 and disp == 0)
return 8;
else if ( ndim==4 ) {
return (4 * dir + 1 - disp) / 2;
} else {
return (4 * (dir-1) + 1 - disp) / 2;
}
}();
MdirCalc(in,out,point);
MdirCalc(in,out,geom.point(dir,disp));
};
void Mdiag(const CoarseVector &in, CoarseVector &out)
@@ -449,23 +548,296 @@ public:
MdirCalc(in, out, point); // No comms
};
CoarsenedMatrix(GridCartesian &CoarseGrid, int hermitian_=0) :
void Mooee(const CoarseVector &in, CoarseVector &out) {
MooeeInternal(in, out, DaggerNo, InverseNo);
}
void MooeeInv(const CoarseVector &in, CoarseVector &out) {
MooeeInternal(in, out, DaggerNo, InverseYes);
}
void MooeeDag(const CoarseVector &in, CoarseVector &out) {
MooeeInternal(in, out, DaggerYes, InverseNo);
}
void MooeeInvDag(const CoarseVector &in, CoarseVector &out) {
MooeeInternal(in, out, DaggerYes, InverseYes);
}
void Meooe(const CoarseVector &in, CoarseVector &out) {
if(in.Checkerboard() == Odd) {
DhopEO(in, out, DaggerNo);
} else {
DhopOE(in, out, DaggerNo);
}
}
void MeooeDag(const CoarseVector &in, CoarseVector &out) {
if(in.Checkerboard() == Odd) {
DhopEO(in, out, DaggerYes);
} else {
DhopOE(in, out, DaggerYes);
}
}
void Dhop(const CoarseVector &in, CoarseVector &out, int dag) {
conformable(in.Grid(), _grid); // verifies full grid
conformable(in.Grid(), out.Grid());
out.Checkerboard() = in.Checkerboard();
DhopInternal(Stencil, A, in, out, dag);
}
void DhopOE(const CoarseVector &in, CoarseVector &out, int dag) {
conformable(in.Grid(), _cbgrid); // verifies half grid
conformable(in.Grid(), out.Grid()); // drops the cb check
assert(in.Checkerboard() == Even);
out.Checkerboard() = Odd;
DhopInternal(StencilEven, Aodd, in, out, dag);
}
void DhopEO(const CoarseVector &in, CoarseVector &out, int dag) {
conformable(in.Grid(), _cbgrid); // verifies half grid
conformable(in.Grid(), out.Grid()); // drops the cb check
assert(in.Checkerboard() == Odd);
out.Checkerboard() = Even;
DhopInternal(StencilOdd, Aeven, in, out, dag);
}
void MooeeInternal(const CoarseVector &in, CoarseVector &out, int dag, int inv) {
out.Checkerboard() = in.Checkerboard();
assert(in.Checkerboard() == Odd || in.Checkerboard() == Even);
CoarseMatrix *Aself = nullptr;
if(in.Grid()->_isCheckerBoarded) {
if(in.Checkerboard() == Odd) {
Aself = (inv) ? &AselfInvOdd : &Aodd[geom.npoint-1];
DselfInternal(StencilOdd, *Aself, in, out, dag);
} else {
Aself = (inv) ? &AselfInvEven : &Aeven[geom.npoint-1];
DselfInternal(StencilEven, *Aself, in, out, dag);
}
} else {
Aself = (inv) ? &AselfInv : &A[geom.npoint-1];
DselfInternal(Stencil, *Aself, in, out, dag);
}
assert(Aself != nullptr);
}
void DselfInternal(CartesianStencil<siteVector,siteVector,int> &st, CoarseMatrix &a,
const CoarseVector &in, CoarseVector &out, int dag) {
int point = geom.npoint-1;
autoView( out_v, out, AcceleratorWrite);
autoView( in_v, in, AcceleratorRead);
autoView( st_v, st, AcceleratorRead);
autoView( a_v, a, AcceleratorRead);
const int Nsimd = CComplex::Nsimd();
typedef decltype(coalescedRead(in_v[0])) calcVector;
typedef decltype(coalescedRead(in_v[0](0))) calcComplex;
RealD* dag_factor_p = &dag_factor[0];
if(dag) {
accelerator_for(sss, in.Grid()->oSites()*nbasis, Nsimd, {
int ss = sss/nbasis;
int b = sss%nbasis;
calcComplex res = Zero();
calcVector nbr;
int ptype;
StencilEntry *SE;
SE=st_v.GetEntry(ptype,point,ss);
if(SE->_is_local) {
nbr = coalescedReadPermute(in_v[SE->_offset],ptype,SE->_permute);
} else {
nbr = coalescedRead(st_v.CommBuf()[SE->_offset]);
}
acceleratorSynchronise();
for(int bb=0;bb<nbasis;bb++) {
res = res + dag_factor_p[b*nbasis+bb]*coalescedRead(a_v[ss](b,bb))*nbr(bb);
}
coalescedWrite(out_v[ss](b),res);
});
} else {
accelerator_for(sss, in.Grid()->oSites()*nbasis, Nsimd, {
int ss = sss/nbasis;
int b = sss%nbasis;
calcComplex res = Zero();
calcVector nbr;
int ptype;
StencilEntry *SE;
SE=st_v.GetEntry(ptype,point,ss);
if(SE->_is_local) {
nbr = coalescedReadPermute(in_v[SE->_offset],ptype,SE->_permute);
} else {
nbr = coalescedRead(st_v.CommBuf()[SE->_offset]);
}
acceleratorSynchronise();
for(int bb=0;bb<nbasis;bb++) {
res = res + coalescedRead(a_v[ss](b,bb))*nbr(bb);
}
coalescedWrite(out_v[ss](b),res);
});
}
}
void DhopInternal(CartesianStencil<siteVector,siteVector,int> &st, std::vector<CoarseMatrix> &a,
const CoarseVector &in, CoarseVector &out, int dag) {
SimpleCompressor<siteVector> compressor;
st.HaloExchange(in,compressor);
autoView( in_v, in, AcceleratorRead);
autoView( out_v, out, AcceleratorWrite);
autoView( st_v , st, AcceleratorRead);
typedef LatticeView<Cobj> Aview;
// determine in what order we need the points
int npoint = geom.npoint-1;
Vector<int> points(npoint, 0);
for(int p=0; p<npoint; p++)
points[p] = (dag && !hermitian) ? geom.points_dagger[p] : p;
Vector<Aview> AcceleratorViewContainer;
for(int p=0;p<npoint;p++) AcceleratorViewContainer.push_back(a[p].View(AcceleratorRead));
Aview *Aview_p = & AcceleratorViewContainer[0];
const int Nsimd = CComplex::Nsimd();
typedef decltype(coalescedRead(in_v[0])) calcVector;
typedef decltype(coalescedRead(in_v[0](0))) calcComplex;
RealD* dag_factor_p = &dag_factor[0];
if(dag) {
accelerator_for(sss, in.Grid()->oSites()*nbasis, Nsimd, {
int ss = sss/nbasis;
int b = sss%nbasis;
calcComplex res = Zero();
calcVector nbr;
int ptype;
StencilEntry *SE;
for(int p=0;p<npoint;p++){
int point = points[p];
SE=st_v.GetEntry(ptype,point,ss);
if(SE->_is_local) {
nbr = coalescedReadPermute(in_v[SE->_offset],ptype,SE->_permute);
} else {
nbr = coalescedRead(st_v.CommBuf()[SE->_offset]);
}
acceleratorSynchronise();
for(int bb=0;bb<nbasis;bb++) {
res = res + dag_factor_p[b*nbasis+bb]*coalescedRead(Aview_p[point][ss](b,bb))*nbr(bb);
}
}
coalescedWrite(out_v[ss](b),res);
});
} else {
accelerator_for(sss, in.Grid()->oSites()*nbasis, Nsimd, {
int ss = sss/nbasis;
int b = sss%nbasis;
calcComplex res = Zero();
calcVector nbr;
int ptype;
StencilEntry *SE;
for(int p=0;p<npoint;p++){
int point = points[p];
SE=st_v.GetEntry(ptype,point,ss);
if(SE->_is_local) {
nbr = coalescedReadPermute(in_v[SE->_offset],ptype,SE->_permute);
} else {
nbr = coalescedRead(st_v.CommBuf()[SE->_offset]);
}
acceleratorSynchronise();
for(int bb=0;bb<nbasis;bb++) {
res = res + coalescedRead(Aview_p[point][ss](b,bb))*nbr(bb);
}
}
coalescedWrite(out_v[ss](b),res);
});
}
for(int p=0;p<npoint;p++) AcceleratorViewContainer[p].ViewClose();
}
CoarsenedMatrix(GridCartesian &CoarseGrid, int hermitian_=0) :
_grid(&CoarseGrid),
_cbgrid(new GridRedBlackCartesian(&CoarseGrid)),
geom(CoarseGrid._ndimension),
hermitian(hermitian_),
Stencil(&CoarseGrid,geom.npoint,Even,geom.directions,geom.displacements,0),
A(geom.npoint,&CoarseGrid)
StencilEven(_cbgrid,geom.npoint,Even,geom.directions,geom.displacements,0),
StencilOdd(_cbgrid,geom.npoint,Odd,geom.directions,geom.displacements,0),
A(geom.npoint,&CoarseGrid),
Aeven(geom.npoint,_cbgrid),
Aodd(geom.npoint,_cbgrid),
AselfInv(&CoarseGrid),
AselfInvEven(_cbgrid),
AselfInvOdd(_cbgrid),
dag_factor(nbasis*nbasis)
{
fillFactor();
};
CoarsenedMatrix(GridCartesian &CoarseGrid, GridRedBlackCartesian &CoarseRBGrid, int hermitian_=0) :
_grid(&CoarseGrid),
_cbgrid(&CoarseRBGrid),
geom(CoarseGrid._ndimension),
hermitian(hermitian_),
Stencil(&CoarseGrid,geom.npoint,Even,geom.directions,geom.displacements,0),
StencilEven(&CoarseRBGrid,geom.npoint,Even,geom.directions,geom.displacements,0),
StencilOdd(&CoarseRBGrid,geom.npoint,Odd,geom.directions,geom.displacements,0),
A(geom.npoint,&CoarseGrid),
Aeven(geom.npoint,&CoarseRBGrid),
Aodd(geom.npoint,&CoarseRBGrid),
AselfInv(&CoarseGrid),
AselfInvEven(&CoarseRBGrid),
AselfInvOdd(&CoarseRBGrid),
dag_factor(nbasis*nbasis)
{
fillFactor();
};
void fillFactor() {
Eigen::MatrixXd dag_factor_eigen = Eigen::MatrixXd::Ones(nbasis, nbasis);
if(!hermitian) {
const int nb = nbasis/2;
dag_factor_eigen.block(0,nb,nb,nb) *= -1.0;
dag_factor_eigen.block(nb,0,nb,nb) *= -1.0;
}
// GPU readable prefactor
thread_for(i, nbasis*nbasis, {
int j = i/nbasis;
int k = i%nbasis;
dag_factor[i] = dag_factor_eigen(j, k);
});
}
void CoarsenOperator(GridBase *FineGrid,LinearOperatorBase<Lattice<Fobj> > &linop,
Aggregation<Fobj,CComplex,nbasis> & Subspace)
{
typedef Lattice<typename Fobj::tensor_reduced> FineComplexField;
typedef typename Fobj::scalar_type scalar_type;
std::cout << GridLogMessage<< "CoarsenMatrix "<< std::endl;
FineComplexField one(FineGrid); one=scalar_type(1.0,0.0);
FineComplexField zero(FineGrid); zero=scalar_type(0.0,0.0);
@@ -496,11 +868,13 @@ public:
CoarseScalar InnerProd(Grid());
std::cout << GridLogMessage<< "CoarsenMatrix Orthog "<< std::endl;
// Orthogonalise the subblocks over the basis
blockOrthogonalise(InnerProd,Subspace.subspace);
// Compute the matrix elements of linop between this orthonormal
// set of vectors.
std::cout << GridLogMessage<< "CoarsenMatrix masks "<< std::endl;
int self_stencil=-1;
for(int p=0;p<geom.npoint;p++)
{
@@ -539,7 +913,7 @@ public:
phi=Subspace.subspace[i];
// std::cout << GridLogMessage<< "CoarsenMatrix vector "<<i << std::endl;
std::cout << GridLogMessage<< "CoarsenMatrix vector "<<i << std::endl;
linop.OpDirAll(phi,Mphi_p);
linop.OpDiag (phi,Mphi_p[geom.npoint-1]);
@@ -568,6 +942,18 @@ public:
autoView( A_self , A[self_stencil], AcceleratorWrite);
accelerator_for(ss, Grid()->oSites(), Fobj::Nsimd(),{ coalescedWrite(A_p[ss](j,i),oZProj_v(ss)); });
if ( hermitian && (disp==-1) ) {
for(int pp=0;pp<geom.npoint;pp++){// Find the opposite link and set <j|A|i> = <i|A|j>*
int dirp = geom.directions[pp];
int dispp = geom.displacements[pp];
if ( (dirp==dir) && (dispp==1) ){
auto sft = conjugate(Cshift(oZProj,dir,1));
autoView( sft_v , sft , AcceleratorWrite);
autoView( A_pp , A[pp], AcceleratorWrite);
accelerator_for(ss, Grid()->oSites(), Fobj::Nsimd(),{ coalescedWrite(A_pp[ss](i,j),sft_v(ss)); });
}
}
}
}
}
@@ -606,28 +992,54 @@ public:
}
if(hermitian) {
std::cout << GridLogMessage << " ForceHermitian, new code "<<std::endl;
ForceHermitian();
}
InvertSelfStencilLink(); std::cout << GridLogMessage << "Coarse self link inverted" << std::endl;
FillHalfCbs(); std::cout << GridLogMessage << "Coarse half checkerboards filled" << std::endl;
}
void ForceHermitian(void) {
CoarseMatrix Diff (Grid());
for(int p=0;p<geom.npoint;p++){
int dir = geom.directions[p];
int disp = geom.displacements[p];
if(disp==-1) {
// Find the opposite link
for(int pp=0;pp<geom.npoint;pp++){
int dirp = geom.directions[pp];
int dispp = geom.displacements[pp];
if ( (dirp==dir) && (dispp==1) ){
// Diff = adj(Cshift(A[p],dir,1)) - A[pp];
// std::cout << GridLogMessage<<" Replacing stencil leg "<<pp<<" with leg "<<p<< " diff "<<norm2(Diff) <<std::endl;
A[pp] = adj(Cshift(A[p],dir,1));
}
}
}
void InvertSelfStencilLink() {
std::cout << GridLogDebug << "CoarsenedMatrix::InvertSelfStencilLink" << std::endl;
int localVolume = Grid()->lSites();
typedef typename Cobj::scalar_object scalar_object;
autoView(Aself_v, A[geom.npoint-1], CpuRead);
autoView(AselfInv_v, AselfInv, CpuWrite);
thread_for(site, localVolume, { // NOTE: Not able to bring this to GPU because of Eigen + peek/poke
Eigen::MatrixXcd selfLinkEigen = Eigen::MatrixXcd::Zero(nbasis, nbasis);
Eigen::MatrixXcd selfLinkInvEigen = Eigen::MatrixXcd::Zero(nbasis, nbasis);
scalar_object selfLink = Zero();
scalar_object selfLinkInv = Zero();
Coordinate lcoor;
Grid()->LocalIndexToLocalCoor(site, lcoor);
peekLocalSite(selfLink, Aself_v, lcoor);
for (int i = 0; i < nbasis; ++i)
for (int j = 0; j < nbasis; ++j)
selfLinkEigen(i, j) = static_cast<ComplexD>(TensorRemove(selfLink(i, j)));
selfLinkInvEigen = selfLinkEigen.inverse();
for(int i = 0; i < nbasis; ++i)
for(int j = 0; j < nbasis; ++j)
selfLinkInv(i, j) = selfLinkInvEigen(i, j);
pokeLocalSite(selfLinkInv, AselfInv_v, lcoor);
});
}
void FillHalfCbs() {
std::cout << GridLogDebug << "CoarsenedMatrix::FillHalfCbs" << std::endl;
for(int p = 0; p < geom.npoint; ++p) {
pickCheckerboard(Even, Aeven[p], A[p]);
pickCheckerboard(Odd, Aodd[p], A[p]);
}
pickCheckerboard(Even, AselfInvEven, AselfInv);
pickCheckerboard(Odd, AselfInvOdd, AselfInv);
}
};

67
Grid/allocator/AlignedAllocator.cc
View File

@@ -1,67 +0,0 @@
#include <Grid/GridCore.h>
#include <fcntl.h>
NAMESPACE_BEGIN(Grid);
MemoryStats *MemoryProfiler::stats = nullptr;
bool MemoryProfiler::debug = false;
void check_huge_pages(void *Buf,uint64_t BYTES)
{
#ifdef __linux__
int fd = open("/proc/self/pagemap", O_RDONLY);
assert(fd >= 0);
const int page_size = 4096;
uint64_t virt_pfn = (uint64_t)Buf / page_size;
off_t offset = sizeof(uint64_t) * virt_pfn;
uint64_t npages = (BYTES + page_size-1) / page_size;
uint64_t pagedata[npages];
uint64_t ret = lseek(fd, offset, SEEK_SET);
assert(ret == offset);
ret = ::read(fd, pagedata, sizeof(uint64_t)*npages);
assert(ret == sizeof(uint64_t) * npages);
int nhugepages = npages / 512;
int n4ktotal, nnothuge;
n4ktotal = 0;
nnothuge = 0;
for (int i = 0; i < nhugepages; ++i) {
uint64_t baseaddr = (pagedata[i*512] & 0x7fffffffffffffULL) * page_size;
for (int j = 0; j < 512; ++j) {
uint64_t pageaddr = (pagedata[i*512+j] & 0x7fffffffffffffULL) * page_size;
++n4ktotal;
if (pageaddr != baseaddr + j * page_size)
++nnothuge;
}
}
int rank = CartesianCommunicator::RankWorld();
printf("rank %d Allocated %d 4k pages, %d not in huge pages\n", rank, n4ktotal, nnothuge);
#endif
}
std::string sizeString(const size_t bytes)
{
constexpr unsigned int bufSize = 256;
const char *suffixes[7] = {"", "K", "M", "G", "T", "P", "E"};
char buf[256];
size_t s = 0;
double count = bytes;
while (count >= 1024 && s < 7)
{
s++;
count /= 1024;
}
if (count - floor(count) == 0.0)
{
snprintf(buf, bufSize, "%d %sB", (int)count, suffixes[s]);
}
else
{
snprintf(buf, bufSize, "%.1f %sB", count, suffixes[s]);
}
return std::string(buf);
}
NAMESPACE_END(Grid);

13
Grid/allocator/AlignedAllocator.h
View File

@@ -165,9 +165,18 @@ template<typename _Tp> inline bool operator!=(const devAllocator<_Tp>&, const d
////////////////////////////////////////////////////////////////////////////////
// Template typedefs
////////////////////////////////////////////////////////////////////////////////
//template<class T> using commAllocator = devAllocator<T>;
template<class T> using Vector = std::vector<T,uvmAllocator<T> >;
#ifdef ACCELERATOR_CSHIFT
// Cshift on device
template<class T> using cshiftAllocator = devAllocator<T>;
#else
// Cshift on host
template<class T> using cshiftAllocator = std::allocator<T>;
#endif
template<class T> using Vector = std::vector<T,uvmAllocator<T> >;
template<class T> using stencilVector = std::vector<T,alignedAllocator<T> >;
template<class T> using commVector = std::vector<T,devAllocator<T> >;
template<class T> using cshiftVector = std::vector<T,cshiftAllocator<T> >;
NAMESPACE_END(Grid);

2
Grid/allocator/MemoryManager.h
View File

@@ -34,8 +34,6 @@ NAMESPACE_BEGIN(Grid);
// Move control to configure.ac and Config.h?
#define ALLOCATION_CACHE
#define GRID_ALLOC_ALIGN (2*1024*1024)
#define GRID_ALLOC_SMALL_LIMIT (4096)
/*Pinning pages is costly*/

38
Grid/allocator/MemoryManagerCache.cc
View File

@@ -1,11 +1,12 @@
#include <Grid/GridCore.h>
#ifndef GRID_UVM
#warning "Using explicit device memory copies"
NAMESPACE_BEGIN(Grid);
//define dprintf(...) printf ( __VA_ARGS__ ); fflush(stdout);
#define dprintf(...)
////////////////////////////////////////////////////////////
// For caching copies of data on device
////////////////////////////////////////////////////////////
@@ -103,7 +104,7 @@ void MemoryManager::AccDiscard(AcceleratorViewEntry &AccCache)
///////////////////////////////////////////////////////////
assert(AccCache.state!=Empty);
// dprintf("MemoryManager: Discard(%llx) %llx\n",(uint64_t)AccCache.CpuPtr,(uint64_t)AccCache.AccPtr);
dprintf("MemoryManager: Discard(%llx) %llx\n",(uint64_t)AccCache.CpuPtr,(uint64_t)AccCache.AccPtr);
assert(AccCache.accLock==0);
assert(AccCache.cpuLock==0);
assert(AccCache.CpuPtr!=(uint64_t)NULL);
@@ -111,7 +112,7 @@ void MemoryManager::AccDiscard(AcceleratorViewEntry &AccCache)
AcceleratorFree((void *)AccCache.AccPtr,AccCache.bytes);
DeviceBytes -=AccCache.bytes;
LRUremove(AccCache);
// dprintf("MemoryManager: Free(%llx) LRU %lld Total %lld\n",(uint64_t)AccCache.AccPtr,DeviceLRUBytes,DeviceBytes);
dprintf("MemoryManager: Free(%llx) LRU %lld Total %lld\n",(uint64_t)AccCache.AccPtr,DeviceLRUBytes,DeviceBytes);
}
uint64_t CpuPtr = AccCache.CpuPtr;
EntryErase(CpuPtr);
@@ -125,7 +126,7 @@ void MemoryManager::Evict(AcceleratorViewEntry &AccCache)
///////////////////////////////////////////////////////////////////////////
assert(AccCache.state!=Empty);
// dprintf("MemoryManager: Evict(%llx) %llx\n",(uint64_t)AccCache.CpuPtr,(uint64_t)AccCache.AccPtr);
dprintf("MemoryManager: Evict(%llx) %llx\n",(uint64_t)AccCache.CpuPtr,(uint64_t)AccCache.AccPtr);
assert(AccCache.accLock==0);
assert(AccCache.cpuLock==0);
if(AccCache.state==AccDirty) {
@@ -136,7 +137,7 @@ void MemoryManager::Evict(AcceleratorViewEntry &AccCache)
AcceleratorFree((void *)AccCache.AccPtr,AccCache.bytes);
DeviceBytes -=AccCache.bytes;
LRUremove(AccCache);
// dprintf("MemoryManager: Free(%llx) footprint now %lld \n",(uint64_t)AccCache.AccPtr,DeviceBytes);
dprintf("MemoryManager: Free(%llx) footprint now %lld \n",(uint64_t)AccCache.AccPtr,DeviceBytes);
}
uint64_t CpuPtr = AccCache.CpuPtr;
EntryErase(CpuPtr);
@@ -149,7 +150,7 @@ void MemoryManager::Flush(AcceleratorViewEntry &AccCache)
assert(AccCache.AccPtr!=(uint64_t)NULL);
assert(AccCache.CpuPtr!=(uint64_t)NULL);
acceleratorCopyFromDevice((void *)AccCache.AccPtr,(void *)AccCache.CpuPtr,AccCache.bytes);
// dprintf("MemoryManager: Flush %llx -> %llx\n",(uint64_t)AccCache.AccPtr,(uint64_t)AccCache.CpuPtr); fflush(stdout);
dprintf("MemoryManager: Flush %llx -> %llx\n",(uint64_t)AccCache.AccPtr,(uint64_t)AccCache.CpuPtr); fflush(stdout);
DeviceToHostBytes+=AccCache.bytes;
DeviceToHostXfer++;
AccCache.state=Consistent;
@@ -164,7 +165,7 @@ void MemoryManager::Clone(AcceleratorViewEntry &AccCache)
AccCache.AccPtr=(uint64_t)AcceleratorAllocate(AccCache.bytes);
DeviceBytes+=AccCache.bytes;
}
// dprintf("MemoryManager: Clone %llx <- %llx\n",(uint64_t)AccCache.AccPtr,(uint64_t)AccCache.CpuPtr); fflush(stdout);
dprintf("MemoryManager: Clone %llx <- %llx\n",(uint64_t)AccCache.AccPtr,(uint64_t)AccCache.CpuPtr); fflush(stdout);
acceleratorCopyToDevice((void *)AccCache.CpuPtr,(void *)AccCache.AccPtr,AccCache.bytes);
HostToDeviceBytes+=AccCache.bytes;
HostToDeviceXfer++;
@@ -227,18 +228,24 @@ uint64_t MemoryManager::AcceleratorViewOpen(uint64_t CpuPtr,size_t bytes,ViewMod
// Find if present, otherwise get or force an empty
////////////////////////////////////////////////////////////////////////////
if ( EntryPresent(CpuPtr)==0 ){
EvictVictims(bytes);
EntryCreate(CpuPtr,bytes,mode,hint);
}
auto AccCacheIterator = EntryLookup(CpuPtr);
auto & AccCache = AccCacheIterator->second;
if (!AccCache.AccPtr) {
EvictVictims(bytes);
}
assert((mode==AcceleratorRead)||(mode==AcceleratorWrite)||(mode==AcceleratorWriteDiscard));
assert(AccCache.cpuLock==0); // Programming error
if(AccCache.state!=Empty) {
dprintf("ViewOpen found entry %llx %llx : %lld %lld\n",
(uint64_t)AccCache.CpuPtr,
(uint64_t)CpuPtr,
(uint64_t)AccCache.bytes,
(uint64_t)bytes);
assert(AccCache.CpuPtr == CpuPtr);
assert(AccCache.bytes ==bytes);
}
@@ -285,21 +292,21 @@ uint64_t MemoryManager::AcceleratorViewOpen(uint64_t CpuPtr,size_t bytes,ViewMod
AccCache.state = Consistent; // CpuDirty + AccRead => Consistent
}
AccCache.accLock++;
// printf("Copied CpuDirty entry into device accLock %d\n",AccCache.accLock);
dprintf("Copied CpuDirty entry into device accLock %d\n",AccCache.accLock);
} else if(AccCache.state==Consistent) {
if((mode==AcceleratorWrite)||(mode==AcceleratorWriteDiscard))
AccCache.state = AccDirty; // Consistent + AcceleratorWrite=> AccDirty
else
AccCache.state = Consistent; // Consistent + AccRead => Consistent
AccCache.accLock++;
// printf("Consistent entry into device accLock %d\n",AccCache.accLock);
dprintf("Consistent entry into device accLock %d\n",AccCache.accLock);
} else if(AccCache.state==AccDirty) {
if((mode==AcceleratorWrite)||(mode==AcceleratorWriteDiscard))
AccCache.state = AccDirty; // AccDirty + AcceleratorWrite=> AccDirty
else
AccCache.state = AccDirty; // AccDirty + AccRead => AccDirty
AccCache.accLock++;
// printf("AccDirty entry into device accLock %d\n",AccCache.accLock);
dprintf("AccDirty entry into device accLock %d\n",AccCache.accLock);
} else {
assert(0);
}
@@ -361,13 +368,16 @@ uint64_t MemoryManager::CpuViewOpen(uint64_t CpuPtr,size_t bytes,ViewMode mode,V
// Find if present, otherwise get or force an empty
////////////////////////////////////////////////////////////////////////////
if ( EntryPresent(CpuPtr)==0 ){
EvictVictims(bytes);
EntryCreate(CpuPtr,bytes,mode,transient);
}
auto AccCacheIterator = EntryLookup(CpuPtr);
auto & AccCache = AccCacheIterator->second;
if (!AccCache.AccPtr) {
EvictVictims(bytes);
}
assert((mode==CpuRead)||(mode==CpuWrite));
assert(AccCache.accLock==0); // Programming error

1
Grid/allocator/MemoryManagerShared.cc
View File

@@ -1,7 +1,6 @@
#include <Grid/GridCore.h>
#ifdef GRID_UVM
#warning "Grid is assuming unified virtual memory address space"
NAMESPACE_BEGIN(Grid);
/////////////////////////////////////////////////////////////////////////////////
// View management is 1:1 address space mapping

2
Grid/cartesian/Cartesian_red_black.h
View File

@@ -36,7 +36,7 @@ static const int CbBlack=1;
static const int Even =CbRed;
static const int Odd =CbBlack;
accelerator_inline int RedBlackCheckerBoardFromOindex (int oindex, Coordinate &rdim, Coordinate &chk_dim_msk)
accelerator_inline int RedBlackCheckerBoardFromOindex (int oindex,const Coordinate &rdim,const Coordinate &chk_dim_msk)
{
int nd=rdim.size();
Coordinate coor(nd);

3
Grid/communicator/Communicator_base.h
View File

@@ -1,4 +1,3 @@
/*************************************************************************************
Grid physics library, www.github.com/paboyle/Grid
@@ -108,6 +107,8 @@ public:
////////////////////////////////////////////////////////////
// Reduction
////////////////////////////////////////////////////////////
void GlobalMax(RealD &);
void GlobalMax(RealF &);
void GlobalSum(RealF &);
void GlobalSumVector(RealF *,int N);
void GlobalSum(RealD &);

19
Grid/communicator/Communicator_mpi3.cc
View File

@@ -44,7 +44,7 @@ void CartesianCommunicator::Init(int *argc, char ***argv)
MPI_Initialized(&flag); // needed to coexist with other libs apparently
if ( !flag ) {
#if defined (TOFU) // FUGAKU, credits go to Issaku Kanamori
#ifndef GRID_COMMS_THREADS
nCommThreads=1;
// wrong results here too
// For now: comms-overlap leads to wrong results in Benchmark_wilson even on single node MPI runs
@@ -275,6 +275,16 @@ void CartesianCommunicator::GlobalXOR(uint64_t &u){
int ierr=MPI_Allreduce(MPI_IN_PLACE,&u,1,MPI_UINT64_T,MPI_BXOR,communicator);
assert(ierr==0);
}
void CartesianCommunicator::GlobalMax(float &f)
{
int ierr=MPI_Allreduce(MPI_IN_PLACE,&f,1,MPI_FLOAT,MPI_MAX,communicator);
assert(ierr==0);
}
void CartesianCommunicator::GlobalMax(double &d)
{
int ierr = MPI_Allreduce(MPI_IN_PLACE,&d,1,MPI_DOUBLE,MPI_MAX,communicator);
assert(ierr==0);
}
void CartesianCommunicator::GlobalSum(float &f){
int ierr=MPI_Allreduce(MPI_IN_PLACE,&f,1,MPI_FLOAT,MPI_SUM,communicator);
assert(ierr==0);
@@ -358,16 +368,19 @@ double CartesianCommunicator::StencilSendToRecvFromBegin(std::vector<CommsReques
assert(from != _processor);
assert(gme == ShmRank);
double off_node_bytes=0.0;
int tag;
if ( gfrom ==MPI_UNDEFINED) {
ierr=MPI_Irecv(recv, bytes, MPI_CHAR,from,from,communicator_halo[commdir],&rrq);
tag= dir+from*32;
ierr=MPI_Irecv(recv, bytes, MPI_CHAR,from,tag,communicator_halo[commdir],&rrq);
assert(ierr==0);
list.push_back(rrq);
off_node_bytes+=bytes;
}
if ( gdest == MPI_UNDEFINED ) {
ierr =MPI_Isend(xmit, bytes, MPI_CHAR,dest,_processor,communicator_halo[commdir],&xrq);
tag= dir+_processor*32;
ierr =MPI_Isend(xmit, bytes, MPI_CHAR,dest,tag,communicator_halo[commdir],&xrq);
assert(ierr==0);
list.push_back(xrq);
off_node_bytes+=bytes;

2
Grid/communicator/Communicator_none.cc
View File

@@ -67,6 +67,8 @@ CartesianCommunicator::CartesianCommunicator(const Coordinate &processors)
CartesianCommunicator::~CartesianCommunicator(){}
void CartesianCommunicator::GlobalMax(float &){}
void CartesianCommunicator::GlobalMax(double &){}
void CartesianCommunicator::GlobalSum(float &){}
void CartesianCommunicator::GlobalSumVector(float *,int N){}
void CartesianCommunicator::GlobalSum(double &){}

2
Grid/communicator/SharedMemory.h
View File

@@ -102,7 +102,7 @@ public:
///////////////////////////////////////////////////
static void SharedMemoryAllocate(uint64_t bytes, int flags);
static void SharedMemoryFree(void);
static void SharedMemoryCopy(void *dest,const void *src,size_t bytes);
static void SharedMemoryCopy(void *dest,void *src,size_t bytes);
static void SharedMemoryZero(void *dest,size_t bytes);
};

43
Grid/communicator/SharedMemoryMPI.cc
View File

@@ -7,6 +7,7 @@
Copyright (C) 2015
Author: Peter Boyle <paboyle@ph.ed.ac.uk>
Author: Christoph Lehner <christoph@lhnr.de>
This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
@@ -169,6 +170,23 @@ static inline int divides(int a,int b)
}
void GlobalSharedMemory::GetShmDims(const Coordinate &WorldDims,Coordinate &ShmDims)
{
////////////////////////////////////////////////////////////////
// Allow user to configure through environment variable
////////////////////////////////////////////////////////////////
char* str = getenv(("GRID_SHM_DIMS_" + std::to_string(ShmDims.size())).c_str());
if ( str ) {
std::vector<int> IntShmDims;
GridCmdOptionIntVector(std::string(str),IntShmDims);
assert(IntShmDims.size() == WorldDims.size());
long ShmSize = 1;
for (int dim=0;dim<WorldDims.size();dim++) {
ShmSize *= (ShmDims[dim] = IntShmDims[dim]);
assert(divides(ShmDims[dim],WorldDims[dim]));
}
assert(ShmSize == WorldShmSize);
return;
}
////////////////////////////////////////////////////////////////
// Powers of 2,3,5 only in prime decomposition for now
////////////////////////////////////////////////////////////////
@@ -457,8 +475,9 @@ void GlobalSharedMemory::SharedMemoryAllocate(uint64_t bytes, int flags)
std::cerr << " SharedMemoryMPI.cc acceleratorAllocDevice failed NULL pointer for " << bytes<<" bytes " << std::endl;
exit(EXIT_FAILURE);
}
if ( WorldRank == 0 ){
std::cout << header " SharedMemoryMPI.cc cudaMalloc "<< bytes
// if ( WorldRank == 0 ){
if ( 1 ){
std::cout << WorldRank << header " SharedMemoryMPI.cc acceleratorAllocDevice "<< bytes
<< "bytes at "<< std::hex<< ShmCommBuf <<std::dec<<" for comms buffers " <<std::endl;
}
SharedMemoryZero(ShmCommBuf,bytes);
@@ -665,7 +684,6 @@ void GlobalSharedMemory::SharedMemoryAllocate(uint64_t bytes, int flags)
#endif
void * ptr = mmap(NULL,size, PROT_READ | PROT_WRITE, mmap_flag, fd, 0);
// std::cout << "Set WorldShmCommBufs["<<r<<"]="<<ptr<< "("<< size<< "bytes)"<<std::endl;
if ( ptr == (void * )MAP_FAILED ) {
perror("failed mmap");
assert(0);
@@ -715,7 +733,7 @@ void GlobalSharedMemory::SharedMemoryZero(void *dest,size_t bytes)
bzero(dest,bytes);
#endif
}
void GlobalSharedMemory::SharedMemoryCopy(void *dest,const void *src,size_t bytes)
void GlobalSharedMemory::SharedMemoryCopy(void *dest,void *src,size_t bytes)
{
#ifdef GRID_CUDA
cudaMemcpy(dest,src,bytes,cudaMemcpyDefault);
@@ -771,19 +789,12 @@ void SharedMemory::SetCommunicator(Grid_MPI_Comm comm)
std::vector<int> ranks(size); for(int r=0;r<size;r++) ranks[r]=r;
MPI_Group_translate_ranks (FullGroup,size,&ranks[0],ShmGroup, &ShmRanks[0]);
#ifdef GRID_IBM_SUMMIT
// Hide the shared memory path between sockets
// if even number of nodes
if ( (ShmSize & 0x1)==0 ) {
int SocketSize = ShmSize/2;
int mySocket = ShmRank/SocketSize;
#ifdef GRID_SHM_FORCE_MPI
// Hide the shared memory path between ranks
{
for(int r=0;r<size;r++){
int hisRank=ShmRanks[r];
if ( hisRank!= MPI_UNDEFINED ) {
int hisSocket=hisRank/SocketSize;
if ( hisSocket != mySocket ) {
ShmRanks[r] = MPI_UNDEFINED;
}
if ( r!=rank ) {
ShmRanks[r] = MPI_UNDEFINED;
}
}
}

43
Grid/communicator/SharedMemoryNone.cc
View File

@@ -29,6 +29,7 @@ Author: Peter Boyle <paboyle@ph.ed.ac.uk>
#include <Grid/GridCore.h>
NAMESPACE_BEGIN(Grid);
#define header "SharedMemoryNone: "
/*Construct from an MPI communicator*/
void GlobalSharedMemory::Init(Grid_MPI_Comm comm)
@@ -55,6 +56,38 @@ void GlobalSharedMemory::OptimalCommunicator(const Coordinate &processors,Grid_M
////////////////////////////////////////////////////////////////////////////////////////////
// Hugetlbfs mapping intended, use anonymous mmap
////////////////////////////////////////////////////////////////////////////////////////////
#if 1
void GlobalSharedMemory::SharedMemoryAllocate(uint64_t bytes, int flags)
{
std::cout << header "SharedMemoryAllocate "<< bytes<< " GPU implementation "<<std::endl;
void * ShmCommBuf ;
assert(_ShmSetup==1);
assert(_ShmAlloc==0);
///////////////////////////////////////////////////////////////////////////////////////////////////////////
// Each MPI rank should allocate our own buffer
///////////////////////////////////////////////////////////////////////////////////////////////////////////
ShmCommBuf = acceleratorAllocDevice(bytes);
if (ShmCommBuf == (void *)NULL ) {
std::cerr << " SharedMemoryNone.cc acceleratorAllocDevice failed NULL pointer for " << bytes<<" bytes " << std::endl;
exit(EXIT_FAILURE);
}
if ( WorldRank == 0 ){
std::cout << WorldRank << header " SharedMemoryNone.cc acceleratorAllocDevice "<< bytes
<< "bytes at "<< std::hex<< ShmCommBuf <<std::dec<<" for comms buffers " <<std::endl;
}
SharedMemoryZero(ShmCommBuf,bytes);
///////////////////////////////////////////////////////////////////////////////////////////////////////////
// Loop over ranks/gpu's on our node
///////////////////////////////////////////////////////////////////////////////////////////////////////////
WorldShmCommBufs[0] = ShmCommBuf;
_ShmAllocBytes=bytes;
_ShmAlloc=1;
}
#else
void GlobalSharedMemory::SharedMemoryAllocate(uint64_t bytes, int flags)
{
void * ShmCommBuf ;
@@ -83,7 +116,15 @@ void GlobalSharedMemory::SharedMemoryAllocate(uint64_t bytes, int flags)
_ShmAllocBytes=bytes;
_ShmAlloc=1;
};
#endif
void GlobalSharedMemory::SharedMemoryZero(void *dest,size_t bytes)
{
acceleratorMemSet(dest,0,bytes);
}
void GlobalSharedMemory::SharedMemoryCopy(void *dest,void *src,size_t bytes)
{
acceleratorCopyToDevice(src,dest,bytes);
}
////////////////////////////////////////////////////////
// Global shared functionality finished
// Now move to per communicator functionality

102
Grid/cshift/Cshift_common.h
View File

@@ -35,7 +35,7 @@ extern Vector<std::pair<int,int> > Cshift_table;
// Gather for when there is no need to SIMD split
///////////////////////////////////////////////////////////////////
template<class vobj> void
Gather_plane_simple (const Lattice<vobj> &rhs,commVector<vobj> &buffer,int dimension,int plane,int cbmask, int off=0)
Gather_plane_simple (const Lattice<vobj> &rhs,cshiftVector<vobj> &buffer,int dimension,int plane,int cbmask, int off=0)
{
int rd = rhs.Grid()->_rdimensions[dimension];
@@ -73,12 +73,19 @@ Gather_plane_simple (const Lattice<vobj> &rhs,commVector<vobj> &buffer,int dimen
}
}
{
autoView(rhs_v , rhs, AcceleratorRead);
auto buffer_p = & buffer[0];
auto table = &Cshift_table[0];
#ifdef ACCELERATOR_CSHIFT
autoView(rhs_v , rhs, AcceleratorRead);
accelerator_for(i,ent,vobj::Nsimd(),{
coalescedWrite(buffer_p[table[i].first],coalescedRead(rhs_v[table[i].second]));
});
#else
autoView(rhs_v , rhs, CpuRead);
thread_for(i,ent,{
buffer_p[table[i].first]=rhs_v[table[i].second];
});
#endif
}
}
@@ -103,21 +110,36 @@ Gather_plane_extract(const Lattice<vobj> &rhs,
int n1=rhs.Grid()->_slice_stride[dimension];
if ( cbmask ==0x3){
#ifdef ACCELERATOR_CSHIFT
autoView(rhs_v , rhs, AcceleratorRead);
accelerator_for2d(n,e1,b,e2,1,{
accelerator_for(nn,e1*e2,1,{
int n = nn%e1;
int b = nn/e1;
int o = n*n1;
int offset = b+n*e2;
vobj temp =rhs_v[so+o+b];
extract<vobj>(temp,pointers,offset);
});
#else
autoView(rhs_v , rhs, CpuRead);
thread_for2d(n,e1,b,e2,{
int o = n*n1;
int offset = b+n*e2;
vobj temp =rhs_v[so+o+b];
extract<vobj>(temp,pointers,offset);
});
#endif
} else {
autoView(rhs_v , rhs, AcceleratorRead);
Coordinate rdim=rhs.Grid()->_rdimensions;
Coordinate cdm =rhs.Grid()->_checker_dim_mask;
std::cout << " Dense packed buffer WARNING " <<std::endl; // Does this get called twice once for each cb?
accelerator_for2d(n,e1,b,e2,1,{
#ifdef ACCELERATOR_CSHIFT
autoView(rhs_v , rhs, AcceleratorRead);
accelerator_for(nn,e1*e2,1,{
int n = nn%e1;
int b = nn/e1;
Coordinate coor;
@@ -134,13 +156,33 @@ Gather_plane_extract(const Lattice<vobj> &rhs,
extract<vobj>(temp,pointers,offset);
}
});
#else
autoView(rhs_v , rhs, CpuRead);
thread_for2d(n,e1,b,e2,{
Coordinate coor;
int o=n*n1;
int oindex = o+b;
int cb = RedBlackCheckerBoardFromOindex(oindex, rdim, cdm);
int ocb=1<<cb;
int offset = b+n*e2;
if ( ocb & cbmask ) {
vobj temp =rhs_v[so+o+b];
extract<vobj>(temp,pointers,offset);
}
});
#endif
}
}
//////////////////////////////////////////////////////
// Scatter for when there is no need to SIMD split
//////////////////////////////////////////////////////
template<class vobj> void Scatter_plane_simple (Lattice<vobj> &rhs,commVector<vobj> &buffer, int dimension,int plane,int cbmask)
template<class vobj> void Scatter_plane_simple (Lattice<vobj> &rhs,cshiftVector<vobj> &buffer, int dimension,int plane,int cbmask)
{
int rd = rhs.Grid()->_rdimensions[dimension];
@@ -182,12 +224,19 @@ template<class vobj> void Scatter_plane_simple (Lattice<vobj> &rhs,commVector<vo
}
{
autoView( rhs_v, rhs, AcceleratorWrite);
auto buffer_p = & buffer[0];
auto table = &Cshift_table[0];
#ifdef ACCELERATOR_CSHIFT
autoView( rhs_v, rhs, AcceleratorWrite);
accelerator_for(i,ent,vobj::Nsimd(),{
coalescedWrite(rhs_v[table[i].first],coalescedRead(buffer_p[table[i].second]));
});
#else
autoView( rhs_v, rhs, CpuWrite);
thread_for(i,ent,{
rhs_v[table[i].first]=buffer_p[table[i].second];
});
#endif
}
}
@@ -208,19 +257,30 @@ template<class vobj> void Scatter_plane_merge(Lattice<vobj> &rhs,ExtractPointerA
int e2=rhs.Grid()->_slice_block[dimension];
if(cbmask ==0x3 ) {
autoView( rhs_v , rhs, AcceleratorWrite);
int _slice_stride = rhs.Grid()->_slice_stride[dimension];
int _slice_block = rhs.Grid()->_slice_block[dimension];
accelerator_for2d(n,e1,b,e2,1,{
#ifdef ACCELERATOR_CSHIFT
autoView( rhs_v , rhs, AcceleratorWrite);
accelerator_for(nn,e1*e2,1,{
int n = nn%e1;
int b = nn/e1;
int o = n*_slice_stride;
int offset = b+n*_slice_block;
merge(rhs_v[so+o+b],pointers,offset);
});
#else
autoView( rhs_v , rhs, CpuWrite);
thread_for2d(n,e1,b,e2,{
int o = n*_slice_stride;
int offset = b+n*_slice_block;
merge(rhs_v[so+o+b],pointers,offset);
});
#endif
} else {
// Case of SIMD split AND checker dim cannot currently be hit, except in
// Test_cshift_red_black code.
// std::cout << "Scatter_plane merge assert(0); think this is buggy FIXME "<< std::endl;// think this is buggy FIXME
std::cout << "Scatter_plane merge assert(0); think this is buggy FIXME "<< std::endl;// think this is buggy FIXME
std::cout<<" Unthreaded warning -- buffer is not densely packed ??"<<std::endl;
assert(0); // This will fail if hit on GPU
autoView( rhs_v, rhs, CpuWrite);
@@ -280,12 +340,20 @@ template<class vobj> void Copy_plane(Lattice<vobj>& lhs,const Lattice<vobj> &rhs
}
{
auto table = &Cshift_table[0];
#ifdef ACCELERATOR_CSHIFT
autoView(rhs_v , rhs, AcceleratorRead);
autoView(lhs_v , lhs, AcceleratorWrite);
auto table = &Cshift_table[0];
accelerator_for(i,ent,vobj::Nsimd(),{
coalescedWrite(lhs_v[table[i].first],coalescedRead(rhs_v[table[i].second]));
});
#else
autoView(rhs_v , rhs, CpuRead);
autoView(lhs_v , lhs, CpuWrite);
thread_for(i,ent,{
lhs_v[table[i].first]=rhs_v[table[i].second];
});
#endif
}
}
@@ -324,12 +392,20 @@ template<class vobj> void Copy_plane_permute(Lattice<vobj>& lhs,const Lattice<vo
}
{
auto table = &Cshift_table[0];
#ifdef ACCELERATOR_CSHIFT
autoView( rhs_v, rhs, AcceleratorRead);
autoView( lhs_v, lhs, AcceleratorWrite);
auto table = &Cshift_table[0];
accelerator_for(i,ent,1,{
permute(lhs_v[table[i].first],rhs_v[table[i].second],permute_type);
});
#else
autoView( rhs_v, rhs, CpuRead);
autoView( lhs_v, lhs, CpuWrite);
thread_for(i,ent,{
permute(lhs_v[table[i].first],rhs_v[table[i].second],permute_type);
});
#endif
}
}

223
Grid/cshift/Cshift_mpi.h
View File

@@ -101,7 +101,8 @@ template<class vobj> void Cshift_comms_simd(Lattice<vobj>& ret,const Lattice<vob
Cshift_comms_simd(ret,rhs,dimension,shift,0x2);// both with block stride loop iteration
}
}
#define ACCELERATOR_CSHIFT_NO_COPY
#ifdef ACCELERATOR_CSHIFT_NO_COPY
template<class vobj> void Cshift_comms(Lattice<vobj> &ret,const Lattice<vobj> &rhs,int dimension,int shift,int cbmask)
{
typedef typename vobj::vector_type vector_type;
@@ -121,9 +122,9 @@ template<class vobj> void Cshift_comms(Lattice<vobj> &ret,const Lattice<vobj> &r
assert(shift<fd);
int buffer_size = rhs.Grid()->_slice_nblock[dimension]*rhs.Grid()->_slice_block[dimension];
commVector<vobj> send_buf(buffer_size);
commVector<vobj> recv_buf(buffer_size);
static cshiftVector<vobj> send_buf; send_buf.resize(buffer_size);
static cshiftVector<vobj> recv_buf; recv_buf.resize(buffer_size);
int cb= (cbmask==0x2)? Odd : Even;
int sshift= rhs.Grid()->CheckerBoardShiftForCB(rhs.Checkerboard(),dimension,shift,cb);
@@ -138,7 +139,7 @@ template<class vobj> void Cshift_comms(Lattice<vobj> &ret,const Lattice<vobj> &r
} else {
int words = send_buf.size();
int words = buffer_size;
if (cbmask != 0x3) words=words>>1;
int bytes = words * sizeof(vobj);
@@ -150,12 +151,14 @@ template<class vobj> void Cshift_comms(Lattice<vobj> &ret,const Lattice<vobj> &r
int xmit_to_rank;
grid->ShiftedRanks(dimension,comm_proc,xmit_to_rank,recv_from_rank);
grid->Barrier();
grid->SendToRecvFrom((void *)&send_buf[0],
xmit_to_rank,
(void *)&recv_buf[0],
recv_from_rank,
bytes);
grid->Barrier();
Scatter_plane_simple (ret,recv_buf,dimension,x,cbmask);
@@ -195,8 +198,15 @@ template<class vobj> void Cshift_comms_simd(Lattice<vobj> &ret,const Lattice<vo
int buffer_size = grid->_slice_nblock[dimension]*grid->_slice_block[dimension];
// int words = sizeof(vobj)/sizeof(vector_type);
std::vector<commVector<scalar_object> > send_buf_extract(Nsimd,commVector<scalar_object>(buffer_size) );
std::vector<commVector<scalar_object> > recv_buf_extract(Nsimd,commVector<scalar_object>(buffer_size) );
static std::vector<cshiftVector<scalar_object> > send_buf_extract; send_buf_extract.resize(Nsimd);
static std::vector<cshiftVector<scalar_object> > recv_buf_extract; recv_buf_extract.resize(Nsimd);
scalar_object * recv_buf_extract_mpi;
scalar_object * send_buf_extract_mpi;
for(int s=0;s<Nsimd;s++){
send_buf_extract[s].resize(buffer_size);
recv_buf_extract[s].resize(buffer_size);
}
int bytes = buffer_size*sizeof(scalar_object);
@@ -242,11 +252,204 @@ template<class vobj> void Cshift_comms_simd(Lattice<vobj> &ret,const Lattice<vo
if(nbr_proc){
grid->ShiftedRanks(dimension,nbr_proc,xmit_to_rank,recv_from_rank);
grid->SendToRecvFrom((void *)&send_buf_extract[nbr_lane][0],
grid->Barrier();
send_buf_extract_mpi = &send_buf_extract[nbr_lane][0];
recv_buf_extract_mpi = &recv_buf_extract[i][0];
grid->SendToRecvFrom((void *)send_buf_extract_mpi,
xmit_to_rank,
(void *)&recv_buf_extract[i][0],
(void *)recv_buf_extract_mpi,
recv_from_rank,
bytes);
grid->Barrier();
rpointers[i] = &recv_buf_extract[i][0];
} else {
rpointers[i] = &send_buf_extract[nbr_lane][0];
}
}
Scatter_plane_merge(ret,rpointers,dimension,x,cbmask);
}
}
#else
template<class vobj> void Cshift_comms(Lattice<vobj> &ret,const Lattice<vobj> &rhs,int dimension,int shift,int cbmask)
{
typedef typename vobj::vector_type vector_type;
typedef typename vobj::scalar_type scalar_type;
GridBase *grid=rhs.Grid();
Lattice<vobj> temp(rhs.Grid());
int fd = rhs.Grid()->_fdimensions[dimension];
int rd = rhs.Grid()->_rdimensions[dimension];
int pd = rhs.Grid()->_processors[dimension];
int simd_layout = rhs.Grid()->_simd_layout[dimension];
int comm_dim = rhs.Grid()->_processors[dimension] >1 ;
assert(simd_layout==1);
assert(comm_dim==1);
assert(shift>=0);
assert(shift<fd);
int buffer_size = rhs.Grid()->_slice_nblock[dimension]*rhs.Grid()->_slice_block[dimension];
static cshiftVector<vobj> send_buf_v; send_buf_v.resize(buffer_size);
static cshiftVector<vobj> recv_buf_v; recv_buf_v.resize(buffer_size);
vobj *send_buf;
vobj *recv_buf;
{
grid->ShmBufferFreeAll();
size_t bytes = buffer_size*sizeof(vobj);
send_buf=(vobj *)grid->ShmBufferMalloc(bytes);
recv_buf=(vobj *)grid->ShmBufferMalloc(bytes);
}
int cb= (cbmask==0x2)? Odd : Even;
int sshift= rhs.Grid()->CheckerBoardShiftForCB(rhs.Checkerboard(),dimension,shift,cb);
for(int x=0;x<rd;x++){
int sx = (x+sshift)%rd;
int comm_proc = ((x+sshift)/rd)%pd;
if (comm_proc==0) {
Copy_plane(ret,rhs,dimension,x,sx,cbmask);
} else {
int words = buffer_size;
if (cbmask != 0x3) words=words>>1;
int bytes = words * sizeof(vobj);
Gather_plane_simple (rhs,send_buf_v,dimension,sx,cbmask);
// int rank = grid->_processor;
int recv_from_rank;
int xmit_to_rank;
grid->ShiftedRanks(dimension,comm_proc,xmit_to_rank,recv_from_rank);
grid->Barrier();
acceleratorCopyDeviceToDevice((void *)&send_buf_v[0],(void *)&send_buf[0],bytes);
grid->SendToRecvFrom((void *)&send_buf[0],
xmit_to_rank,
(void *)&recv_buf[0],
recv_from_rank,
bytes);
acceleratorCopyDeviceToDevice((void *)&recv_buf[0],(void *)&recv_buf_v[0],bytes);
grid->Barrier();
Scatter_plane_simple (ret,recv_buf_v,dimension,x,cbmask);
}
}
}
template<class vobj> void Cshift_comms_simd(Lattice<vobj> &ret,const Lattice<vobj> &rhs,int dimension,int shift,int cbmask)
{
GridBase *grid=rhs.Grid();
const int Nsimd = grid->Nsimd();
typedef typename vobj::vector_type vector_type;
typedef typename vobj::scalar_object scalar_object;
typedef typename vobj::scalar_type scalar_type;
int fd = grid->_fdimensions[dimension];
int rd = grid->_rdimensions[dimension];
int ld = grid->_ldimensions[dimension];
int pd = grid->_processors[dimension];
int simd_layout = grid->_simd_layout[dimension];
int comm_dim = grid->_processors[dimension] >1 ;
//std::cout << "Cshift_comms_simd dim "<< dimension << " fd "<<fd<<" rd "<<rd
// << " ld "<<ld<<" pd " << pd<<" simd_layout "<<simd_layout
// << " comm_dim " << comm_dim << " cbmask " << cbmask <<std::endl;
assert(comm_dim==1);
assert(simd_layout==2);
assert(shift>=0);
assert(shift<fd);
int permute_type=grid->PermuteType(dimension);
///////////////////////////////////////////////
// Simd direction uses an extract/merge pair
///////////////////////////////////////////////
int buffer_size = grid->_slice_nblock[dimension]*grid->_slice_block[dimension];
// int words = sizeof(vobj)/sizeof(vector_type);
static std::vector<cshiftVector<scalar_object> > send_buf_extract; send_buf_extract.resize(Nsimd);
static std::vector<cshiftVector<scalar_object> > recv_buf_extract; recv_buf_extract.resize(Nsimd);
scalar_object * recv_buf_extract_mpi;
scalar_object * send_buf_extract_mpi;
{
size_t bytes = sizeof(scalar_object)*buffer_size;
grid->ShmBufferFreeAll();
send_buf_extract_mpi = (scalar_object *)grid->ShmBufferMalloc(bytes);
recv_buf_extract_mpi = (scalar_object *)grid->ShmBufferMalloc(bytes);
}
for(int s=0;s<Nsimd;s++){
send_buf_extract[s].resize(buffer_size);
recv_buf_extract[s].resize(buffer_size);
}
int bytes = buffer_size*sizeof(scalar_object);
ExtractPointerArray<scalar_object> pointers(Nsimd); //
ExtractPointerArray<scalar_object> rpointers(Nsimd); // received pointers
///////////////////////////////////////////
// Work out what to send where
///////////////////////////////////////////
int cb = (cbmask==0x2)? Odd : Even;
int sshift= grid->CheckerBoardShiftForCB(rhs.Checkerboard(),dimension,shift,cb);
// loop over outer coord planes orthog to dim
for(int x=0;x<rd;x++){
// FIXME call local permute copy if none are offnode.
for(int i=0;i<Nsimd;i++){
pointers[i] = &send_buf_extract[i][0];
}
int sx = (x+sshift)%rd;
Gather_plane_extract(rhs,pointers,dimension,sx,cbmask);
for(int i=0;i<Nsimd;i++){
int inner_bit = (Nsimd>>(permute_type+1));
int ic= (i&inner_bit)? 1:0;
int my_coor = rd*ic + x;
int nbr_coor = my_coor+sshift;
int nbr_proc = ((nbr_coor)/ld) % pd;// relative shift in processors
int nbr_ic = (nbr_coor%ld)/rd; // inner coord of peer
int nbr_ox = (nbr_coor%rd); // outer coord of peer
int nbr_lane = (i&(~inner_bit));
int recv_from_rank;
int xmit_to_rank;
if (nbr_ic) nbr_lane|=inner_bit;
assert (sx == nbr_ox);
if(nbr_proc){
grid->ShiftedRanks(dimension,nbr_proc,xmit_to_rank,recv_from_rank);
grid->Barrier();
acceleratorCopyDeviceToDevice((void *)&send_buf_extract[nbr_lane][0],(void *)send_buf_extract_mpi,bytes);
grid->SendToRecvFrom((void *)send_buf_extract_mpi,
xmit_to_rank,
(void *)recv_buf_extract_mpi,
recv_from_rank,
bytes);
acceleratorCopyDeviceToDevice((void *)recv_buf_extract_mpi,(void *)&recv_buf_extract[i][0],bytes);
grid->Barrier();
rpointers[i] = &recv_buf_extract[i][0];
} else {
@@ -258,7 +461,7 @@ template<class vobj> void Cshift_comms_simd(Lattice<vobj> &ret,const Lattice<vo
}
}
#endif
NAMESPACE_END(Grid);
#endif

2
Grid/lattice/Lattice.h
View File

@@ -36,7 +36,7 @@ Author: Peter Boyle <paboyle@ph.ed.ac.uk>
#include <Grid/lattice/Lattice_local.h>
#include <Grid/lattice/Lattice_reduction.h>
#include <Grid/lattice/Lattice_peekpoke.h>
//#include <Grid/lattice/Lattice_reality.h>
#include <Grid/lattice/Lattice_reality.h>
#include <Grid/lattice/Lattice_real_imag.h>
#include <Grid/lattice/Lattice_comparison_utils.h>
#include <Grid/lattice/Lattice_comparison.h>

28
Grid/lattice/Lattice_ET.h
View File

@@ -342,19 +342,14 @@ inline void ExpressionViewClose(LatticeTrinaryExpression<Op, T1, T2, T3> &expr)
GridUnopClass(UnarySub, -a);
GridUnopClass(UnaryNot, Not(a));
GridUnopClass(UnaryAdj, adj(a));
GridUnopClass(UnaryConj, conjugate(a));
GridUnopClass(UnaryTrace, trace(a));
GridUnopClass(UnaryTranspose, transpose(a));
GridUnopClass(UnaryTa, Ta(a));
GridUnopClass(UnaryProjectOnGroup, ProjectOnGroup(a));
GridUnopClass(UnaryToReal, toReal(a));
GridUnopClass(UnaryToComplex, toComplex(a));
GridUnopClass(UnaryTimesI, timesI(a));
GridUnopClass(UnaryTimesMinusI, timesMinusI(a));
GridUnopClass(UnaryAbs, abs(a));
GridUnopClass(UnarySqrt, sqrt(a));
GridUnopClass(UnaryRsqrt, rsqrt(a));
GridUnopClass(UnarySin, sin(a));
GridUnopClass(UnaryCos, cos(a));
GridUnopClass(UnaryAsin, asin(a));
@@ -456,20 +451,17 @@ GridTrinOpClass(TrinaryWhere,
GRID_DEF_UNOP(operator-, UnarySub);
GRID_DEF_UNOP(Not, UnaryNot);
GRID_DEF_UNOP(operator!, UnaryNot);
GRID_DEF_UNOP(adj, UnaryAdj);
GRID_DEF_UNOP(conjugate, UnaryConj);
//GRID_DEF_UNOP(adj, UnaryAdj);
//GRID_DEF_UNOP(conjugate, UnaryConj);
GRID_DEF_UNOP(trace, UnaryTrace);
GRID_DEF_UNOP(transpose, UnaryTranspose);
GRID_DEF_UNOP(Ta, UnaryTa);
GRID_DEF_UNOP(ProjectOnGroup, UnaryProjectOnGroup);
GRID_DEF_UNOP(toReal, UnaryToReal);
GRID_DEF_UNOP(toComplex, UnaryToComplex);
GRID_DEF_UNOP(timesI, UnaryTimesI);
GRID_DEF_UNOP(timesMinusI, UnaryTimesMinusI);
GRID_DEF_UNOP(abs, UnaryAbs); // abs overloaded in cmath C++98; DON'T do the
// abs-fabs-dabs-labs thing
GRID_DEF_UNOP(sqrt, UnarySqrt);
GRID_DEF_UNOP(rsqrt, UnaryRsqrt);
GRID_DEF_UNOP(sin, UnarySin);
GRID_DEF_UNOP(cos, UnaryCos);
GRID_DEF_UNOP(asin, UnaryAsin);
@@ -494,27 +486,27 @@ GRID_DEF_TRINOP(where, TrinaryWhere);
/////////////////////////////////////////////////////////////
template <class Op, class T1>
auto closure(const LatticeUnaryExpression<Op, T1> &expr)
-> Lattice<decltype(expr.op.func(vecEval(0, expr.arg1)))>
-> Lattice<typename std::remove_const<decltype(expr.op.func(vecEval(0, expr.arg1)))>::type >
{
Lattice<decltype(expr.op.func(vecEval(0, expr.arg1)))> ret(expr);
Lattice<typename std::remove_const<decltype(expr.op.func(vecEval(0, expr.arg1)))>::type > ret(expr);
return ret;
}
template <class Op, class T1, class T2>
auto closure(const LatticeBinaryExpression<Op, T1, T2> &expr)
-> Lattice<decltype(expr.op.func(vecEval(0, expr.arg1),vecEval(0, expr.arg2)))>
-> Lattice<typename std::remove_const<decltype(expr.op.func(vecEval(0, expr.arg1),vecEval(0, expr.arg2)))>::type >
{
Lattice<decltype(expr.op.func(vecEval(0, expr.arg1),vecEval(0, expr.arg2)))> ret(expr);
Lattice<typename std::remove_const<decltype(expr.op.func(vecEval(0, expr.arg1),vecEval(0, expr.arg2)))>::type > ret(expr);
return ret;
}
template <class Op, class T1, class T2, class T3>
auto closure(const LatticeTrinaryExpression<Op, T1, T2, T3> &expr)
-> Lattice<decltype(expr.op.func(vecEval(0, expr.arg1),
-> Lattice<typename std::remove_const<decltype(expr.op.func(vecEval(0, expr.arg1),
vecEval(0, expr.arg2),
vecEval(0, expr.arg3)))>
vecEval(0, expr.arg3)))>::type >
{
Lattice<decltype(expr.op.func(vecEval(0, expr.arg1),
Lattice<typename std::remove_const<decltype(expr.op.func(vecEval(0, expr.arg1),
vecEval(0, expr.arg2),
vecEval(0, expr.arg3)))> ret(expr);
vecEval(0, expr.arg3)))>::type > ret(expr);
return ret;
}
#define EXPRESSION_CLOSURE(function) \

8
Grid/lattice/Lattice_basis.h
View File

@@ -62,7 +62,7 @@ void basisRotate(VField &basis,Matrix& Qt,int j0, int j1, int k0,int k1,int Nm)
basis_v.push_back(basis[k].View(AcceleratorWrite));
}
#if ( (!defined(GRID_SYCL)) && (!defined(GRID_CUDA)) && (!defined(GRID_HIP)) )
#if ( (!defined(GRID_CUDA)) )
int max_threads = thread_max();
Vector < vobj > Bt(Nm * max_threads);
thread_region
@@ -161,11 +161,13 @@ void basisRotateJ(Field &result,std::vector<Field> &basis,Eigen::MatrixXd& Qt,in
double * Qt_j = & Qt_jv[0];
for(int k=0;k<Nm;++k) Qt_j[k]=Qt(j,k);
auto basis_vp=& basis_v[0];
autoView(result_v,result,AcceleratorWrite);
accelerator_for(ss, grid->oSites(),vobj::Nsimd(),{
auto B=coalescedRead(zz);
vobj zzz=Zero();
auto B=coalescedRead(zzz);
for(int k=k0; k<k1; ++k){
B +=Qt_j[k] * coalescedRead(basis_v[k][ss]);
B +=Qt_j[k] * coalescedRead(basis_vp[k][ss]);
}
coalescedWrite(result_v[ss], B);
});

51
Grid/lattice/Lattice_reality.h
View File

@@ -45,8 +45,8 @@ template<class vobj> inline Lattice<vobj> adj(const Lattice<vobj> &lhs){
autoView( ret_v, ret, AcceleratorWrite);
ret.Checkerboard()=lhs.Checkerboard();
accelerator_for( ss, lhs_v.size(), vobj::Nsimd(), {
coalescedWrite(ret_v[ss], adj(lhs_v(ss)));
accelerator_for( ss, lhs_v.size(), 1, {
ret_v[ss] = adj(lhs_v[ss]);
});
return ret;
};
@@ -64,6 +64,53 @@ template<class vobj> inline Lattice<vobj> conjugate(const Lattice<vobj> &lhs){
return ret;
};
template<class vobj> inline Lattice<typename vobj::Complexified> toComplex(const Lattice<vobj> &lhs){
Lattice<typename vobj::Complexified> ret(lhs.Grid());
autoView( lhs_v, lhs, AcceleratorRead);
autoView( ret_v, ret, AcceleratorWrite);
ret.Checkerboard() = lhs.Checkerboard();
accelerator_for( ss, lhs_v.size(), 1, {
ret_v[ss] = toComplex(lhs_v[ss]);
});
return ret;
};
template<class vobj> inline Lattice<typename vobj::Realified> toReal(const Lattice<vobj> &lhs){
Lattice<typename vobj::Realified> ret(lhs.Grid());
autoView( lhs_v, lhs, AcceleratorRead);
autoView( ret_v, ret, AcceleratorWrite);
ret.Checkerboard() = lhs.Checkerboard();
accelerator_for( ss, lhs_v.size(), 1, {
ret_v[ss] = toReal(lhs_v[ss]);
});
return ret;
};
template<class Expression,typename std::enable_if<is_lattice_expr<Expression>::value,void>::type * = nullptr>
auto toComplex(const Expression &expr) -> decltype(closure(expr))
{
return toComplex(closure(expr));
}
template<class Expression,typename std::enable_if<is_lattice_expr<Expression>::value,void>::type * = nullptr>
auto toReal(const Expression &expr) -> decltype(closure(expr))
{
return toReal(closure(expr));
}
template<class Expression,typename std::enable_if<is_lattice_expr<Expression>::value,void>::type * = nullptr>
auto adj(const Expression &expr) -> decltype(closure(expr))
{
return adj(closure(expr));
}
template<class Expression,typename std::enable_if<is_lattice_expr<Expression>::value,void>::type * = nullptr>
auto conjugate(const Expression &expr) -> decltype(closure(expr))
{
return conjugate(closure(expr));
}
NAMESPACE_END(Grid);
#endif

54
Grid/lattice/Lattice_reduction.h
View File

@@ -96,8 +96,34 @@ inline typename vobj::scalar_objectD sumD_cpu(const vobj *arg, Integer osites)
ssobj ret = ssum;
return ret;
}
/*
Threaded max, don't use for now
template<class Double>
inline Double max(const Double *arg, Integer osites)
{
// const int Nsimd = vobj::Nsimd();
const int nthread = GridThread::GetThreads();
std::vector<Double> maxarray(nthread);
thread_for(thr,nthread, {
int nwork, mywork, myoff;
nwork = osites;
GridThread::GetWork(nwork,thr,mywork,myoff);
Double max=arg[0];
for(int ss=myoff;ss<mywork+myoff; ss++){
if( arg[ss] > max ) max = arg[ss];
}
maxarray[thr]=max;
});
Double tmax=maxarray[0];
for(int i=0;i<nthread;i++){
if (maxarray[i]>tmax) tmax = maxarray[i];
}
return tmax;
}
*/
template<class vobj>
inline typename vobj::scalar_object sum(const vobj *arg, Integer osites)
{
@@ -141,6 +167,32 @@ template<class vobj> inline RealD norm2(const Lattice<vobj> &arg){
return real(nrm);
}
//The global maximum of the site norm2
template<class vobj> inline RealD maxLocalNorm2(const Lattice<vobj> &arg)
{
typedef typename vobj::tensor_reduced vscalar; //iScalar<iScalar<.... <vPODtype> > >
typedef typename vscalar::scalar_object scalar; //iScalar<iScalar<.... <PODtype> > >
Lattice<vscalar> inner = localNorm2(arg);
auto grid = arg.Grid();
RealD max;
for(int l=0;l<grid->lSites();l++){
Coordinate coor;
scalar val;
RealD r;
grid->LocalIndexToLocalCoor(l,coor);
peekLocalSite(val,inner,coor);
r=real(TensorRemove(val));
if( (l==0) || (r>max)){
max=r;
}
}
grid->GlobalMax(max);
return max;
}
// Double inner product
template<class vobj>
inline ComplexD rankInnerProduct(const Lattice<vobj> &left,const Lattice<vobj> &right)

33
Grid/lattice/Lattice_transfer.h
View File

@@ -97,6 +97,20 @@ accelerator_inline void convertType(ComplexF & out, const std::complex<float> &
out = in;
}
template<typename T>
accelerator_inline EnableIf<isGridFundamental<T>> convertType(T & out, const T & in) {
out = in;
}
// This would allow for conversions between GridFundamental types, but is not strictly needed as yet
/*template<typename T1, typename T2>
accelerator_inline typename std::enable_if<isGridFundamental<T1>::value && isGridFundamental<T2>::value>::type
// Or to make this very broad, conversions between anything that's not a GridTensor could be allowed
//accelerator_inline typename std::enable_if<!isGridTensor<T1>::value && !isGridTensor<T2>::value>::type
convertType(T1 & out, const T2 & in) {
out = in;
}*/
#ifdef GRID_SIMT
accelerator_inline void convertType(vComplexF & out, const ComplexF & in) {
((ComplexF*)&out)[acceleratorSIMTlane(vComplexF::Nsimd())] = in;
@@ -117,18 +131,18 @@ accelerator_inline void convertType(vComplexD2 & out, const vComplexF & in) {
Optimization::PrecisionChange::StoD(in.v,out._internal[0].v,out._internal[1].v);
}
template<typename T1,typename T2,int N>
accelerator_inline void convertType(iMatrix<T1,N> & out, const iMatrix<T2,N> & in);
template<typename T1,typename T2,int N>
accelerator_inline void convertType(iVector<T1,N> & out, const iVector<T2,N> & in);
template<typename T1,typename T2>
accelerator_inline void convertType(iScalar<T1> & out, const iScalar<T2> & in) {
convertType(out._internal,in._internal);
}
template<typename T1,typename T2, typename std::enable_if<!isGridScalar<T1>::value, T1>::type* = nullptr>
accelerator_inline void convertType(T1 & out, const iScalar<T2> & in) {
template<typename T1,typename T2>
accelerator_inline NotEnableIf<isGridScalar<T1>> convertType(T1 & out, const iScalar<T2> & in) {
convertType(out,in._internal);
}
template<typename T1,typename T2>
accelerator_inline void convertType(iScalar<T1> & out, const T2 & in) {
accelerator_inline NotEnableIf<isGridScalar<T2>> convertType(iScalar<T1> & out, const T2 & in) {
convertType(out._internal,in);
}
@@ -145,11 +159,6 @@ accelerator_inline void convertType(iVector<T1,N> & out, const iVector<T2,N> & i
convertType(out._internal[i],in._internal[i]);
}
template<typename T, typename std::enable_if<isGridFundamental<T>::value, T>::type* = nullptr>
accelerator_inline void convertType(T & out, const T & in) {
out = in;
}
template<typename T1,typename T2>
accelerator_inline void convertType(Lattice<T1> & out, const Lattice<T2> & in) {
autoView( out_v , out,AcceleratorWrite);

7
Grid/lattice/Lattice_view.h
View File

@@ -67,9 +67,14 @@ public:
accelerator_inline const vobj & operator()(size_t i) const { return this->_odata[i]; }
#endif
#if 1
// accelerator_inline const vobj & operator[](size_t i) const { return this->_odata[i]; };
accelerator_inline vobj & operator[](size_t i) const { return this->_odata[i]; };
#else
accelerator_inline const vobj & operator[](size_t i) const { return this->_odata[i]; };
accelerator_inline vobj & operator[](size_t i) { return this->_odata[i]; };
#endif
accelerator_inline uint64_t begin(void) const { return 0;};
accelerator_inline uint64_t end(void) const { return this->_odata_size; };
accelerator_inline uint64_t size(void) const { return this->_odata_size; };

37
Grid/lattice/Lattice_where.h
View File

@@ -43,7 +43,7 @@ inline void whereWolf(Lattice<vobj> &ret,const Lattice<iobj> &predicate,Lattice<
conformable(iftrue,predicate);
conformable(iftrue,ret);
GridBase *grid=iftrue._grid;
GridBase *grid=iftrue.Grid();
typedef typename vobj::scalar_object scalar_object;
typedef typename vobj::scalar_type scalar_type;
@@ -52,22 +52,23 @@ inline void whereWolf(Lattice<vobj> &ret,const Lattice<iobj> &predicate,Lattice<
const int Nsimd = grid->Nsimd();
std::vector<Integer> mask(Nsimd);
std::vector<scalar_object> truevals (Nsimd);
std::vector<scalar_object> falsevals(Nsimd);
parallel_for(int ss=0;ss<iftrue._grid->oSites(); ss++){
extract(iftrue._odata[ss] ,truevals);
extract(iffalse._odata[ss] ,falsevals);
extract<vInteger,Integer>(TensorRemove(predicate._odata[ss]),mask);
for(int s=0;s<Nsimd;s++){
if (mask[s]) falsevals[s]=truevals[s];
autoView(iftrue_v,iftrue,CpuRead);
autoView(iffalse_v,iffalse,CpuRead);
autoView(predicate_v,predicate,CpuRead);
autoView(ret_v,ret,CpuWrite);
Integer NN= grid->oSites();
thread_for(ss,NN,{
Integer mask;
scalar_object trueval;
scalar_object falseval;
for(int l=0;l<Nsimd;l++){
trueval =extractLane(l,iftrue_v[ss]);
falseval=extractLane(l,iffalse_v[ss]);
mask =extractLane(l,predicate_v[ss]);
if (mask) falseval=trueval;
insertLane(l,ret_v[ss],falseval);
}
merge(ret._odata[ss],falsevals);
}
});
}
template<class vobj,class iobj>
@@ -76,9 +77,9 @@ inline Lattice<vobj> whereWolf(const Lattice<iobj> &predicate,Lattice<vobj> &ift
conformable(iftrue,iffalse);
conformable(iftrue,predicate);
Lattice<vobj> ret(iftrue._grid);
Lattice<vobj> ret(iftrue.Grid());
where(ret,predicate,iftrue,iffalse);
whereWolf(ret,predicate,iftrue,iffalse);
return ret;
}

3
Grid/parallelIO/BinaryIO.cc
View File

@@ -1,3 +1,4 @@
#include <Grid/GridCore.h>
int Grid::BinaryIO::latticeWriteMaxRetry = -1;
int Grid::BinaryIO::latticeWriteMaxRetry = -1;
Grid::BinaryIO::IoPerf Grid::BinaryIO::lastPerf;

30
Grid/parallelIO/BinaryIO.h
View File

@@ -79,6 +79,13 @@ inline void removeWhitespace(std::string &key)
///////////////////////////////////////////////////////////////////////////////////////////////////
class BinaryIO {
public:
struct IoPerf
{
uint64_t size{0},time{0};
double mbytesPerSecond{0.};
};
static IoPerf lastPerf;
static int latticeWriteMaxRetry;
/////////////////////////////////////////////////////////////////////////////
@@ -502,12 +509,15 @@ class BinaryIO {
timer.Stop();
}
lastPerf.size = sizeof(fobj)*iodata.size()*nrank;
lastPerf.time = timer.useconds();
lastPerf.mbytesPerSecond = lastPerf.size/1024./1024./(lastPerf.time/1.0e6);
std::cout<<GridLogMessage<<"IOobject: ";
if ( control & BINARYIO_READ) std::cout << " read ";
else std::cout << " write ";
uint64_t bytes = sizeof(fobj)*iodata.size()*nrank;
std::cout<< bytes <<" bytes in "<<timer.Elapsed() <<" "
<< (double)bytes/ (double)timer.useconds() <<" MB/s "<<std::endl;
std::cout<< lastPerf.size <<" bytes in "<< timer.Elapsed() <<" "
<< lastPerf.mbytesPerSecond <<" MB/s "<<std::endl;
std::cout<<GridLogMessage<<"IOobject: endian and checksum overhead "<<bstimer.Elapsed() <<std::endl;
@@ -663,10 +673,15 @@ class BinaryIO {
nersc_csum,scidac_csuma,scidac_csumb);
timer.Start();
thread_for(lidx,lsites,{
thread_for(lidx,lsites,{ // FIX ME, suboptimal implementation
std::vector<RngStateType> tmp(RngStateCount);
std::copy(iodata[lidx].begin(),iodata[lidx].end(),tmp.begin());
parallel_rng.SetState(tmp,lidx);
Coordinate lcoor;
grid->LocalIndexToLocalCoor(lidx, lcoor);
int o_idx=grid->oIndex(lcoor);
int i_idx=grid->iIndex(lcoor);
int gidx=parallel_rng.generator_idx(o_idx,i_idx);
parallel_rng.SetState(tmp,gidx);
});
timer.Stop();
@@ -723,7 +738,12 @@ class BinaryIO {
std::vector<RNGstate> iodata(lsites);
thread_for(lidx,lsites,{
std::vector<RngStateType> tmp(RngStateCount);
parallel_rng.GetState(tmp,lidx);
Coordinate lcoor;
grid->LocalIndexToLocalCoor(lidx, lcoor);
int o_idx=grid->oIndex(lcoor);
int i_idx=grid->iIndex(lcoor);
int gidx=parallel_rng.generator_idx(o_idx,i_idx);
parallel_rng.GetState(tmp,gidx);
std::copy(tmp.begin(),tmp.end(),iodata[lidx].begin());
});
timer.Stop();

22
Grid/parallelIO/IldgIO.h
View File

@@ -123,7 +123,7 @@ assert(GRID_FIELD_NORM_CALC(FieldNormMetaData_, n2ck) < 1.0e-5);
////////////////////////////////////////////////////////////
// Helper to fill out metadata
////////////////////////////////////////////////////////////
template<class vobj> void ScidacMetaData(Lattice<vobj> & field,
template<class vobj> void ScidacMetaData(Lattice<vobj> & field,
FieldMetaData &header,
scidacRecord & _scidacRecord,
scidacFile & _scidacFile)
@@ -619,12 +619,12 @@ class IldgWriter : public ScidacWriter {
// Don't require scidac records EXCEPT checksum
// Use Grid MetaData object if present.
////////////////////////////////////////////////////////////////
template <class vsimd>
void writeConfiguration(Lattice<iLorentzColourMatrix<vsimd> > &Umu,int sequence,std::string LFN,std::string description)
template <class stats = PeriodicGaugeStatistics>
void writeConfiguration(Lattice<vLorentzColourMatrixD > &Umu,int sequence,std::string LFN,std::string description)
{
GridBase * grid = Umu.Grid();
typedef Lattice<iLorentzColourMatrix<vsimd> > GaugeField;
typedef iLorentzColourMatrix<vsimd> vobj;
typedef Lattice<vLorentzColourMatrixD> GaugeField;
typedef vLorentzColourMatrixD vobj;
typedef typename vobj::scalar_object sobj;
////////////////////////////////////////
@@ -636,6 +636,9 @@ class IldgWriter : public ScidacWriter {
ScidacMetaData(Umu,header,_scidacRecord,_scidacFile);
stats Stats;
Stats(Umu,header);
std::string format = header.floating_point;
header.ensemble_id = description;
header.ensemble_label = description;
@@ -705,10 +708,10 @@ class IldgReader : public GridLimeReader {
// Else use ILDG MetaData object if present.
// Else use SciDAC MetaData object if present.
////////////////////////////////////////////////////////////////
template <class vsimd>
void readConfiguration(Lattice<iLorentzColourMatrix<vsimd> > &Umu, FieldMetaData &FieldMetaData_) {
template <class stats = PeriodicGaugeStatistics>
void readConfiguration(Lattice<vLorentzColourMatrixD> &Umu, FieldMetaData &FieldMetaData_) {
typedef Lattice<iLorentzColourMatrix<vsimd> > GaugeField;
typedef Lattice<vLorentzColourMatrixD > GaugeField;
typedef typename GaugeField::vector_object vobj;
typedef typename vobj::scalar_object sobj;
@@ -921,7 +924,8 @@ class IldgReader : public GridLimeReader {
if ( found_FieldMetaData || found_usqcdInfo ) {
FieldMetaData checker;
GaugeStatistics(Umu,checker);
stats Stats;
Stats(Umu,checker);
assert(fabs(checker.plaquette - FieldMetaData_.plaquette )<1.0e-5);
assert(fabs(checker.link_trace - FieldMetaData_.link_trace)<1.0e-5);
std::cout << GridLogMessage<<"Plaquette and link trace match " << std::endl;

36
Grid/parallelIO/MetaData.h
View File

@@ -128,7 +128,7 @@ inline void MachineCharacteristics(FieldMetaData &header)
std::time_t t = std::time(nullptr);
std::tm tm_ = *std::localtime(&t);
std::ostringstream oss;
// oss << std::put_time(&tm_, "%c %Z");
oss << std::put_time(&tm_, "%c %Z");
header.creation_date = oss.str();
header.archive_date = header.creation_date;
@@ -176,29 +176,18 @@ template<class vobj> inline void PrepareMetaData(Lattice<vobj> & field, FieldMet
GridMetaData(grid,header);
MachineCharacteristics(header);
}
inline void GaugeStatistics(Lattice<vLorentzColourMatrixF> & data,FieldMetaData &header)
template<class Impl>
class GaugeStatistics
{
// How to convert data precision etc...
header.link_trace=WilsonLoops<PeriodicGimplF>::linkTrace(data);
header.plaquette =WilsonLoops<PeriodicGimplF>::avgPlaquette(data);
}
inline void GaugeStatistics(Lattice<vLorentzColourMatrixD> & data,FieldMetaData &header)
{
// How to convert data precision etc...
header.link_trace=WilsonLoops<PeriodicGimplD>::linkTrace(data);
header.plaquette =WilsonLoops<PeriodicGimplD>::avgPlaquette(data);
}
template<> inline void PrepareMetaData<vLorentzColourMatrixF>(Lattice<vLorentzColourMatrixF> & field, FieldMetaData &header)
{
GridBase *grid = field.Grid();
std::string format = getFormatString<vLorentzColourMatrixF>();
header.floating_point = format;
header.checksum = 0x0; // Nersc checksum unused in ILDG, Scidac
GridMetaData(grid,header);
GaugeStatistics(field,header);
MachineCharacteristics(header);
}
public:
void operator()(Lattice<vLorentzColourMatrixD> & data,FieldMetaData &header)
{
header.link_trace=WilsonLoops<Impl>::linkTrace(data);
header.plaquette =WilsonLoops<Impl>::avgPlaquette(data);
}
};
typedef GaugeStatistics<PeriodicGimplD> PeriodicGaugeStatistics;
typedef GaugeStatistics<ConjugateGimplD> ConjugateGaugeStatistics;
template<> inline void PrepareMetaData<vLorentzColourMatrixD>(Lattice<vLorentzColourMatrixD> & field, FieldMetaData &header)
{
GridBase *grid = field.Grid();
@@ -206,7 +195,6 @@ template<> inline void PrepareMetaData<vLorentzColourMatrixD>(Lattice<vLorentzCo
header.floating_point = format;
header.checksum = 0x0; // Nersc checksum unused in ILDG, Scidac
GridMetaData(grid,header);
GaugeStatistics(field,header);
MachineCharacteristics(header);
}

63
Grid/parallelIO/NerscIO.h
View File

@@ -40,6 +40,8 @@ using namespace Grid;
class NerscIO : public BinaryIO {
public:
typedef Lattice<vLorentzColourMatrixD> GaugeField;
static inline void truncate(std::string file){
std::ofstream fout(file,std::ios::out);
}
@@ -129,12 +131,12 @@ public:
// Now the meat: the object readers
/////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
template<class vsimd>
static inline void readConfiguration(Lattice<iLorentzColourMatrix<vsimd> > &Umu,
template<class GaugeStats=PeriodicGaugeStatistics>
static inline void readConfiguration(GaugeField &Umu,
FieldMetaData& header,
std::string file)
std::string file,
GaugeStats GaugeStatisticsCalculator=GaugeStats())
{
typedef Lattice<iLorentzColourMatrix<vsimd> > GaugeField;
GridBase *grid = Umu.Grid();
uint64_t offset = readHeader(file,Umu.Grid(),header);
@@ -153,23 +155,23 @@ public:
// munger is a function of <floating point, Real, data_type>
if ( header.data_type == std::string("4D_SU3_GAUGE") ) {
if ( ieee32 || ieee32big ) {
BinaryIO::readLatticeObject<iLorentzColourMatrix<vsimd>, LorentzColour2x3F>
BinaryIO::readLatticeObject<vLorentzColourMatrixD, LorentzColour2x3F>
(Umu,file,Gauge3x2munger<LorentzColour2x3F,LorentzColourMatrix>(), offset,format,
nersc_csum,scidac_csuma,scidac_csumb);
}
if ( ieee64 || ieee64big ) {
BinaryIO::readLatticeObject<iLorentzColourMatrix<vsimd>, LorentzColour2x3D>
BinaryIO::readLatticeObject<vLorentzColourMatrixD, LorentzColour2x3D>
(Umu,file,Gauge3x2munger<LorentzColour2x3D,LorentzColourMatrix>(),offset,format,
nersc_csum,scidac_csuma,scidac_csumb);
}
} else if ( header.data_type == std::string("4D_SU3_GAUGE_3x3") ) {
if ( ieee32 || ieee32big ) {
BinaryIO::readLatticeObject<iLorentzColourMatrix<vsimd>,LorentzColourMatrixF>
BinaryIO::readLatticeObject<vLorentzColourMatrixD,LorentzColourMatrixF>
(Umu,file,GaugeSimpleMunger<LorentzColourMatrixF,LorentzColourMatrix>(),offset,format,
nersc_csum,scidac_csuma,scidac_csumb);
}
if ( ieee64 || ieee64big ) {
BinaryIO::readLatticeObject<iLorentzColourMatrix<vsimd>,LorentzColourMatrixD>
BinaryIO::readLatticeObject<vLorentzColourMatrixD,LorentzColourMatrixD>
(Umu,file,GaugeSimpleMunger<LorentzColourMatrixD,LorentzColourMatrix>(),offset,format,
nersc_csum,scidac_csuma,scidac_csumb);
}
@@ -177,7 +179,7 @@ public:
assert(0);
}
GaugeStatistics(Umu,clone);
GaugeStats Stats; Stats(Umu,clone);
std::cout<<GridLogMessage <<"NERSC Configuration "<<file<<" checksum "<<std::hex<<nersc_csum<< std::dec
<<" header "<<std::hex<<header.checksum<<std::dec <<std::endl;
@@ -203,15 +205,22 @@ public:
std::cout<<GridLogMessage <<"NERSC Configuration "<<file<< " and plaquette, link trace, and checksum agree"<<std::endl;
}
template<class vsimd>
static inline void writeConfiguration(Lattice<iLorentzColourMatrix<vsimd> > &Umu,
// Preferred interface
template<class GaugeStats=PeriodicGaugeStatistics>
static inline void writeConfiguration(Lattice<vLorentzColourMatrixD > &Umu,
std::string file,
std::string ens_label = std::string("DWF"))
{
writeConfiguration(Umu,file,0,1,ens_label);
}
template<class GaugeStats=PeriodicGaugeStatistics>
static inline void writeConfiguration(Lattice<vLorentzColourMatrixD > &Umu,
std::string file,
int two_row,
int bits32)
int bits32,
std::string ens_label = std::string("DWF"))
{
typedef Lattice<iLorentzColourMatrix<vsimd> > GaugeField;
typedef iLorentzColourMatrix<vsimd> vobj;
typedef vLorentzColourMatrixD vobj;
typedef typename vobj::scalar_object sobj;
FieldMetaData header;
@@ -219,8 +228,8 @@ public:
// Following should become arguments
///////////////////////////////////////////
header.sequence_number = 1;
header.ensemble_id = "UKQCD";
header.ensemble_label = "DWF";
header.ensemble_id = std::string("UKQCD");
header.ensemble_label = ens_label;
typedef LorentzColourMatrixD fobj3D;
typedef LorentzColour2x3D fobj2D;
@@ -229,28 +238,28 @@ public:
GridMetaData(grid,header);
assert(header.nd==4);
GaugeStatistics(Umu,header);
GaugeStats Stats; Stats(Umu,header);
MachineCharacteristics(header);
uint64_t offset;
uint64_t offset;
// Sod it -- always write 3x3 double
header.floating_point = std::string("IEEE64BIG");
header.data_type = std::string("4D_SU3_GAUGE_3x3");
GaugeSimpleUnmunger<fobj3D,sobj> munge;
if ( grid->IsBoss() ) {
truncate(file);
offset = writeHeader(header,file);
}
grid->Broadcast(0,(void *)&offset,sizeof(offset));
if ( grid->IsBoss() ) {
truncate(file);
offset = writeHeader(header,file);
}
grid->Broadcast(0,(void *)&offset,sizeof(offset));
uint32_t nersc_csum,scidac_csuma,scidac_csumb;
BinaryIO::writeLatticeObject<vobj,fobj3D>(Umu,file,munge,offset,header.floating_point,
nersc_csum,scidac_csuma,scidac_csumb);
header.checksum = nersc_csum;
if ( grid->IsBoss() ) {
writeHeader(header,file);
}
if ( grid->IsBoss() ) {
writeHeader(header,file);
}
std::cout<<GridLogMessage <<"Written NERSC Configuration on "<< file << " checksum "
<<std::hex<<header.checksum

2
Grid/parallelIO/OpenQcdIO.h
View File

@@ -154,7 +154,7 @@ public:
grid->Barrier(); timer.Stop();
std::cout << Grid::GridLogMessage << "OpenQcdIO::readConfiguration: redistribute overhead " << timer.Elapsed() << std::endl;
GaugeStatistics(Umu, clone);
PeriodicGaugeStatistics Stats; Stats(Umu, clone);
RealD plaq_diff = fabs(clone.plaquette - header.plaquette);

2
Grid/parallelIO/OpenQcdIOChromaReference.h
View File

@@ -208,7 +208,7 @@ public:
FieldMetaData clone(header);
GaugeStatistics(Umu, clone);
PeriodicGaugeStatistics Stats; Stats(Umu, clone);
RealD plaq_diff = fabs(clone.plaquette - header.plaquette);

9
Grid/qcd/QCD.h
View File

@@ -47,7 +47,7 @@ static constexpr int Ym = 5;
static constexpr int Zm = 6;
static constexpr int Tm = 7;
static constexpr int Nc=3;
static constexpr int Nc=Config_Nc;
static constexpr int Ns=4;
static constexpr int Nd=4;
static constexpr int Nhs=2; // half spinor
@@ -80,6 +80,13 @@ template<typename T> struct isSpinor {
template <typename T> using IfSpinor = Invoke<std::enable_if< isSpinor<T>::value,int> > ;
template <typename T> using IfNotSpinor = Invoke<std::enable_if<!isSpinor<T>::value,int> > ;
const int CoarseIndex = 4;
template<typename T> struct isCoarsened {
static constexpr bool value = (CoarseIndex<=T::TensorLevel);
};
template <typename T> using IfCoarsened = Invoke<std::enable_if< isCoarsened<T>::value,int> > ;
template <typename T> using IfNotCoarsened = Invoke<std::enable_if<!isCoarsened<T>::value,int> > ;
// ChrisK very keen to add extra space for Gparity doubling.
//
// Also add domain wall index, in a way where Wilson operator

2
Grid/qcd/action/ActionBase.h
View File

@@ -41,7 +41,7 @@ class Action
public:
bool is_smeared = false;
// Heatbath?
virtual void refresh(const GaugeField& U, GridParallelRNG& pRNG) = 0; // refresh pseudofermions
virtual void refresh(const GaugeField& U, GridSerialRNG &sRNG, GridParallelRNG& pRNG) = 0; // refresh pseudofermions
virtual RealD S(const GaugeField& U) = 0; // evaluate the action
virtual void deriv(const GaugeField& U, GaugeField& dSdU) = 0; // evaluate the action derivative
virtual std::string action_name() = 0; // return the action name

6
Grid/qcd/action/fermion/Fermion.h
View File

@@ -291,12 +291,6 @@ typedef ImprovedStaggeredFermion5D<StaggeredImplR> ImprovedStaggeredFermion5DR;
typedef ImprovedStaggeredFermion5D<StaggeredImplF> ImprovedStaggeredFermion5DF;
typedef ImprovedStaggeredFermion5D<StaggeredImplD> ImprovedStaggeredFermion5DD;
#ifndef GRID_CUDA
typedef ImprovedStaggeredFermion5D<StaggeredVec5dImplR> ImprovedStaggeredFermionVec5dR;
typedef ImprovedStaggeredFermion5D<StaggeredVec5dImplF> ImprovedStaggeredFermionVec5dF;
typedef ImprovedStaggeredFermion5D<StaggeredVec5dImplD> ImprovedStaggeredFermionVec5dD;
#endif
NAMESPACE_END(Grid);
////////////////////

9
Grid/qcd/action/fermion/FermionOperatorImpl.h
View File

@@ -153,8 +153,8 @@ public:
typedef typename Impl::StencilImpl StencilImpl; \
typedef typename Impl::ImplParams ImplParams; \
typedef typename Impl::StencilImpl::View_type StencilView; \
typedef typename ViewMap<FermionField>::Type FermionFieldView; \
typedef typename ViewMap<DoubledGaugeField>::Type DoubledGaugeFieldView;
typedef const typename ViewMap<FermionField>::Type FermionFieldView; \
typedef const typename ViewMap<DoubledGaugeField>::Type DoubledGaugeFieldView;
#define INHERIT_IMPL_TYPES(Base) \
INHERIT_GIMPL_TYPES(Base) \
@@ -183,7 +183,8 @@ NAMESPACE_CHECK(ImplStaggered);
/////////////////////////////////////////////////////////////////////////////
// Single flavour one component spinors with colour index. 5d vec
/////////////////////////////////////////////////////////////////////////////
#include <Grid/qcd/action/fermion/StaggeredVec5dImpl.h>
NAMESPACE_CHECK(ImplStaggered5dVec);
// Deprecate Vec5d
//#include <Grid/qcd/action/fermion/StaggeredVec5dImpl.h>
//NAMESPACE_CHECK(ImplStaggered5dVec);

42
Grid/qcd/action/fermion/GparityWilsonImpl.h
View File

@@ -97,42 +97,30 @@ public:
Coordinate icoor;
#ifdef GRID_SIMT
_Spinor tmp;
const int Nsimd =SiteDoubledGaugeField::Nsimd();
int s = acceleratorSIMTlane(Nsimd);
St.iCoorFromIindex(icoor,s);
int mmu = mu % Nd;
if ( SE->_around_the_world && St.parameters.twists[mmu] ) {
int permute_lane = (sl==1)
|| ((distance== 1)&&(icoor[direction]==1))
|| ((distance==-1)&&(icoor[direction]==0));
if ( permute_lane ) {
tmp(0) = chi(1);
tmp(1) = chi(0);
} else {
tmp(0) = chi(0);
tmp(1) = chi(1);
}
auto UU0=coalescedRead(U(0)(mu));
auto UU1=coalescedRead(U(1)(mu));
//Decide whether we do a G-parity flavor twist
//Note: this assumes (but does not check) that sl==1 || sl==2 i.e. max 2 SIMD lanes in G-parity dir
//It also assumes (but does not check) that abs(distance) == 1
int permute_lane = (sl==1)
|| ((distance== 1)&&(icoor[direction]==1))
|| ((distance==-1)&&(icoor[direction]==0));
auto UU0=coalescedRead(U(0)(mu));
auto UU1=coalescedRead(U(1)(mu));
permute_lane = permute_lane && SE->_around_the_world && St.parameters.twists[mmu]; //only if we are going around the world
mult(&phi(0),&UU0,&tmp(0));
mult(&phi(1),&UU1,&tmp(1));
//Apply the links
int f_upper = permute_lane ? 1 : 0;
int f_lower = !f_upper;
} else {
auto UU0=coalescedRead(U(0)(mu));
auto UU1=coalescedRead(U(1)(mu));
mult(&phi(0),&UU0,&chi(0));
mult(&phi(1),&UU1,&chi(1));
}
mult(&phi(0),&UU0,&chi(f_upper));
mult(&phi(1),&UU1,&chi(f_lower));
#else
typedef _Spinor vobj;

14
Grid/qcd/action/fermion/MADWF.h
View File

@@ -85,7 +85,7 @@ class MADWF
maxiter =_maxiter;
};
void operator() (const FermionFieldo &src4,FermionFieldo &sol5)
void operator() (const FermionFieldo &src,FermionFieldo &sol5)
{
std::cout << GridLogMessage<< " ************************************************" << std::endl;
std::cout << GridLogMessage<< " MADWF-like algorithm " << std::endl;
@@ -114,8 +114,16 @@ class MADWF
///////////////////////////////////////
//Import source, include Dminus factors
///////////////////////////////////////
Mato.ImportPhysicalFermionSource(src4,b);
std::cout << GridLogMessage << " src4 " <<norm2(src4)<<std::endl;
GridBase *src_grid = src.Grid();
assert( (src_grid == Mato.GaugeGrid()) || (src_grid == Mato.FermionGrid()));
if ( src_grid == Mato.GaugeGrid() ) {
Mato.ImportPhysicalFermionSource(src,b);
} else {
b=src;
}
std::cout << GridLogMessage << " src " <<norm2(src)<<std::endl;
std::cout << GridLogMessage << " b " <<norm2(b)<<std::endl;
defect = b;

16
Grid/qcd/action/fermion/StaggeredImpl.h
View File

@@ -72,19 +72,23 @@ public:
StaggeredImpl(const ImplParams &p = ImplParams()) : Params(p){};
static accelerator_inline void multLink(SiteSpinor &phi,
template<class _Spinor>
static accelerator_inline void multLink(_Spinor &phi,
const SiteDoubledGaugeField &U,
const SiteSpinor &chi,
const _Spinor &chi,
int mu)
{
mult(&phi(), &U(mu), &chi());
auto UU = coalescedRead(U(mu));
mult(&phi(), &UU, &chi());
}
static accelerator_inline void multLinkAdd(SiteSpinor &phi,
template<class _Spinor>
static accelerator_inline void multLinkAdd(_Spinor &phi,
const SiteDoubledGaugeField &U,
const SiteSpinor &chi,
const _Spinor &chi,
int mu)
{
mac(&phi(), &U(mu), &chi());
auto UU = coalescedRead(U(mu));
mac(&phi(), &UU, &chi());
}
template <class ref>

2
Grid/qcd/action/fermion/WilsonCloverFermion.h
View File

@@ -245,7 +245,7 @@ public:
return out;
}
private:
protected:
// here fixing the 4 dimensions, make it more general?
RealD csw_r; // Clover coefficient - spatial

24
Grid/qcd/action/fermion/WilsonCompressor.h
View File

@@ -61,7 +61,7 @@ public:
typedef typename SiteHalfSpinor::vector_type vComplexHigh;
constexpr static int Nw=sizeof(SiteHalfSpinor)/sizeof(vComplexHigh);
accelerator_inline int CommDatumSize(void) {
accelerator_inline int CommDatumSize(void) const {
return sizeof(SiteHalfCommSpinor);
}
@@ -69,7 +69,7 @@ public:
/* Compress includes precision change if mpi data is not same */
/*****************************************************/
template<class _SiteHalfSpinor, class _SiteSpinor>
accelerator_inline void Compress(_SiteHalfSpinor *buf,Integer o,const _SiteSpinor &in) {
accelerator_inline void Compress(_SiteHalfSpinor *buf,Integer o,const _SiteSpinor &in) const {
_SiteHalfSpinor tmp;
projector::Proj(tmp,in,mu,dag);
vstream(buf[o],tmp);
@@ -81,7 +81,7 @@ public:
accelerator_inline void Exchange(SiteHalfSpinor *mp,
const SiteHalfSpinor * __restrict__ vp0,
const SiteHalfSpinor * __restrict__ vp1,
Integer type,Integer o){
Integer type,Integer o) const {
SiteHalfSpinor tmp1;
SiteHalfSpinor tmp2;
exchange(tmp1,tmp2,vp0[o],vp1[o],type);
@@ -93,7 +93,7 @@ public:
/* Have a decompression step if mpi data is not same */
/*****************************************************/
accelerator_inline void Decompress(SiteHalfSpinor * __restrict__ out,
SiteHalfSpinor * __restrict__ in, Integer o) {
SiteHalfSpinor * __restrict__ in, Integer o) const {
assert(0);
}
@@ -103,7 +103,7 @@ public:
accelerator_inline void CompressExchange(SiteHalfSpinor * __restrict__ out0,
SiteHalfSpinor * __restrict__ out1,
const SiteSpinor * __restrict__ in,
Integer j,Integer k, Integer m,Integer type)
Integer j,Integer k, Integer m,Integer type) const
{
SiteHalfSpinor temp1, temp2;
SiteHalfSpinor temp3, temp4;
@@ -117,7 +117,7 @@ public:
/*****************************************************/
/* Pass the info to the stencil */
/*****************************************************/
accelerator_inline bool DecompressionStep(void) { return false; }
accelerator_inline bool DecompressionStep(void) const { return false; }
};
@@ -142,7 +142,7 @@ public:
typedef typename SiteHalfSpinor::vector_type vComplexHigh;
constexpr static int Nw=sizeof(SiteHalfSpinor)/sizeof(vComplexHigh);
accelerator_inline int CommDatumSize(void) {
accelerator_inline int CommDatumSize(void) const {
return sizeof(SiteHalfCommSpinor);
}
@@ -150,7 +150,7 @@ public:
/* Compress includes precision change if mpi data is not same */
/*****************************************************/
template<class _SiteHalfSpinor, class _SiteSpinor>
accelerator_inline void Compress(_SiteHalfSpinor *buf,Integer o,const _SiteSpinor &in) {
accelerator_inline void Compress(_SiteHalfSpinor *buf,Integer o,const _SiteSpinor &in) const {
_SiteHalfSpinor hsp;
SiteHalfCommSpinor *hbuf = (SiteHalfCommSpinor *)buf;
projector::Proj(hsp,in,mu,dag);
@@ -163,7 +163,7 @@ public:
accelerator_inline void Exchange(SiteHalfSpinor *mp,
SiteHalfSpinor *vp0,
SiteHalfSpinor *vp1,
Integer type,Integer o){
Integer type,Integer o) const {
SiteHalfSpinor vt0,vt1;
SiteHalfCommSpinor *vpp0 = (SiteHalfCommSpinor *)vp0;
SiteHalfCommSpinor *vpp1 = (SiteHalfCommSpinor *)vp1;
@@ -175,7 +175,7 @@ public:
/*****************************************************/
/* Have a decompression step if mpi data is not same */
/*****************************************************/
accelerator_inline void Decompress(SiteHalfSpinor *out, SiteHalfSpinor *in, Integer o){
accelerator_inline void Decompress(SiteHalfSpinor *out, SiteHalfSpinor *in, Integer o) const {
SiteHalfCommSpinor *hin=(SiteHalfCommSpinor *)in;
precisionChange((vComplexHigh *)&out[o],(vComplexLow *)&hin[o],Nw);
}
@@ -186,7 +186,7 @@ public:
accelerator_inline void CompressExchange(SiteHalfSpinor *out0,
SiteHalfSpinor *out1,
const SiteSpinor *in,
Integer j,Integer k, Integer m,Integer type){
Integer j,Integer k, Integer m,Integer type) const {
SiteHalfSpinor temp1, temp2,temp3,temp4;
SiteHalfCommSpinor *hout0 = (SiteHalfCommSpinor *)out0;
SiteHalfCommSpinor *hout1 = (SiteHalfCommSpinor *)out1;
@@ -200,7 +200,7 @@ public:
/*****************************************************/
/* Pass the info to the stencil */
/*****************************************************/
accelerator_inline bool DecompressionStep(void) { return true; }
accelerator_inline bool DecompressionStep(void) const { return true; }
};

45
Grid/qcd/action/fermion/WilsonImpl.h
View File

@@ -72,7 +72,7 @@ public:
typedef WilsonCompressor<SiteHalfCommSpinor,SiteHalfSpinor, SiteSpinor> Compressor;
typedef WilsonImplParams ImplParams;
typedef WilsonStencil<SiteSpinor, SiteHalfSpinor,ImplParams> StencilImpl;
typedef typename StencilImpl::View_type StencilView;
typedef const typename StencilImpl::View_type StencilView;
ImplParams Params;
@@ -106,11 +106,15 @@ public:
const _SpinorField & phi,
int mu)
{
const int Nsimd = SiteHalfSpinor::Nsimd();
autoView( out_v, out, AcceleratorWrite);
autoView( phi_v, phi, AcceleratorRead);
autoView( Umu_v, Umu, AcceleratorRead);
accelerator_for(sss,out.Grid()->oSites(),1,{
multLink(out_v[sss],Umu_v[sss],phi_v[sss],mu);
typedef decltype(coalescedRead(out_v[0])) calcSpinor;
accelerator_for(sss,out.Grid()->oSites(),Nsimd,{
calcSpinor tmp;
multLink(tmp,Umu_v[sss],phi_v(sss),mu);
coalescedWrite(out_v[sss],tmp);
});
}
@@ -180,18 +184,22 @@ public:
mat = TraceIndex<SpinIndex>(P);
}
inline void extractLinkField(std::vector<GaugeLinkField> &mat, DoubledGaugeField &Uds){
inline void extractLinkField(std::vector<GaugeLinkField> &mat, DoubledGaugeField &Uds)
{
for (int mu = 0; mu < Nd; mu++)
mat[mu] = PeekIndex<LorentzIndex>(Uds, mu);
}
inline void InsertForce5D(GaugeField &mat, FermionField &Btilde, FermionField &Atilde,int mu){
inline void InsertForce5D(GaugeField &mat, FermionField &Btilde, FermionField &Atilde,int mu)
{
#undef USE_OLD_INSERT_FORCE
int Ls=Btilde.Grid()->_fdimensions[0];
autoView( mat_v , mat, AcceleratorWrite);
#ifdef USE_OLD_INSERT_FORCE
GaugeLinkField tmp(mat.Grid());
tmp = Zero();
{
const int Nsimd = SiteSpinor::Nsimd();
autoView( tmp_v , tmp, AcceleratorWrite);
autoView( Btilde_v , Btilde, AcceleratorRead);
autoView( Atilde_v , Atilde, AcceleratorRead);
@@ -204,6 +212,29 @@ public:
});
}
PokeIndex<LorentzIndex>(mat,tmp,mu);
#else
{
const int Nsimd = SiteSpinor::Nsimd();
autoView( Btilde_v , Btilde, AcceleratorRead);
autoView( Atilde_v , Atilde, AcceleratorRead);
accelerator_for(sss,mat.Grid()->oSites(),Nsimd,{
int sU=sss;
typedef decltype(coalescedRead(mat_v[sU](mu)() )) ColorMatrixType;
ColorMatrixType sum;
zeroit(sum);
for(int s=0;s<Ls;s++){
int sF = s+Ls*sU;
for(int spn=0;spn<Ns;spn++){ //sum over spin
auto bb = coalescedRead(Btilde_v[sF]()(spn) ); //color vector
auto aa = coalescedRead(Atilde_v[sF]()(spn) );
auto op = outerProduct(bb,aa);
sum = sum + op;
}
}
coalescedWrite(mat_v[sU](mu)(), sum);
});
}
#endif
}
};

10
Grid/qcd/action/fermion/WilsonKernels.h
View File

@@ -49,9 +49,17 @@ public:
INHERIT_IMPL_TYPES(Impl);
typedef FermionOperator<Impl> Base;
typedef AcceleratorVector<int,STENCIL_MAX> StencilVector;
public:
#ifdef GRID_SYCL
#define SYCL_HACK
#endif
#ifdef SYCL_HACK
static void HandDhopSiteSycl(StencilVector st_perm,StencilEntry *st_p, SiteDoubledGaugeField *U,SiteHalfSpinor *buf,
int ss,int sU,const SiteSpinor *in, SiteSpinor *out);
#endif
static void DhopKernel(int Opt,StencilImpl &st, DoubledGaugeField &U, SiteHalfSpinor * buf,
int Ls, int Nsite, const FermionField &in, FermionField &out,
int interior=1,int exterior=1) ;

18
Grid/qcd/action/fermion/implementation/CayleyFermion5DImplementation.h
View File

@@ -642,7 +642,7 @@ void CayleyFermion5D<Impl>::ContractConservedCurrent( PropagatorField &q_in_1,
Current curr_type,
unsigned int mu)
{
#if (!defined(GRID_CUDA)) && (!defined(GRID_HIP))
#if (!defined(GRID_HIP))
Gamma::Algebra Gmu [] = {
Gamma::Algebra::GammaX,
Gamma::Algebra::GammaY,
@@ -826,7 +826,7 @@ void CayleyFermion5D<Impl>::SeqConservedCurrent(PropagatorField &q_in,
}
#endif
#if (!defined(GRID_CUDA)) && (!defined(GRID_HIP))
#if (!defined(GRID_HIP))
int tshift = (mu == Nd-1) ? 1 : 0;
////////////////////////////////////////////////
// GENERAL CAYLEY CASE
@@ -880,11 +880,23 @@ void CayleyFermion5D<Impl>::SeqConservedCurrent(PropagatorField &q_in,
}
std::vector<RealD> G_s(Ls,1.0);
Integer sign = 1; // sign flip for vector/tadpole
if ( curr_type == Current::Axial ) {
for(int s=0;s<Ls/2;s++){
G_s[s] = -1.0;
}
}
else if ( curr_type == Current::Tadpole ) {
auto b=this->_b;
auto c=this->_c;
if ( b == 1 && c == 0 ) {
sign = -1;
}
else {
std::cerr << "Error: Tadpole implementation currently unavailable for non-Shamir actions." << std::endl;
assert(b==1 && c==0);
}
}
for(int s=0;s<Ls;s++){
@@ -907,7 +919,7 @@ void CayleyFermion5D<Impl>::SeqConservedCurrent(PropagatorField &q_in,
tmp = Cshift(tmp,mu,1);
Impl::multLinkField(Utmp,this->Umu,tmp,mu);
tmp = G_s[s]*( Utmp*ph - gmu*Utmp*ph ); // Forward hop
tmp = sign*G_s[s]*( Utmp*ph - gmu*Utmp*ph ); // Forward hop
tmp = where((lcoor>=tmin),tmp,zz); // Mask the time
L_Q = where((lcoor<=tmax),tmp,zz); // Position of current complicated

5
Grid/qcd/action/fermion/implementation/StaggeredKernelsAsm.h
View File

@@ -680,7 +680,8 @@ void StaggeredKernels<Impl>::DhopSiteAsm(StencilView &st,
gauge2 =(uint64_t)&UU[sU]( Z ); \
gauge3 =(uint64_t)&UU[sU]( T );
#undef STAG_VEC5D
#ifdef STAG_VEC5D
// This is the single precision 5th direction vectorised kernel
#include <Grid/simd/Intel512single.h>
template <> void StaggeredKernels<StaggeredVec5dImplF>::DhopSiteAsm(StencilView &st,
@@ -790,7 +791,7 @@ template <> void StaggeredKernels<StaggeredVec5dImplD>::DhopSiteAsm(StencilView
#endif
}
#endif
#define PERMUTE_DIR3 __asm__ ( \

203
Grid/qcd/action/fermion/implementation/StaggeredKernelsHand.h
View File

@@ -32,25 +32,50 @@ Author: paboyle <paboyle@ph.ed.ac.uk>
NAMESPACE_BEGIN(Grid);
#define LOAD_CHI(b) \
#ifdef GRID_SIMT
#define LOAD_CHI(ptype,b) \
const SiteSpinor & ref (b[offset]); \
Chi_0=coalescedReadPermute<ptype>(ref()()(0),perm,lane); \
Chi_1=coalescedReadPermute<ptype>(ref()()(1),perm,lane); \
Chi_2=coalescedReadPermute<ptype>(ref()()(2),perm,lane);
#define LOAD_CHI_COMMS(b) \
const SiteSpinor & ref (b[offset]); \
Chi_0=ref()()(0);\
Chi_1=ref()()(1);\
Chi_2=ref()()(2);
Chi_0=coalescedRead(ref()()(0),lane); \
Chi_1=coalescedRead(ref()()(1),lane); \
Chi_2=coalescedRead(ref()()(2),lane);
#define PERMUTE_DIR(dir) ;
#else
#define LOAD_CHI(ptype,b) LOAD_CHI_COMMS(b)
#define LOAD_CHI_COMMS(b) \
const SiteSpinor & ref (b[offset]); \
Chi_0=ref()()(0); \
Chi_1=ref()()(1); \
Chi_2=ref()()(2);
#define PERMUTE_DIR(dir) \
permute##dir(Chi_0,Chi_0); \
permute##dir(Chi_1,Chi_1); \
permute##dir(Chi_2,Chi_2);
#endif
// To splat or not to splat depends on the implementation
#define MULT(A,UChi) \
auto & ref(U[sU](A)); \
Impl::loadLinkElement(U_00,ref()(0,0)); \
Impl::loadLinkElement(U_10,ref()(1,0)); \
Impl::loadLinkElement(U_20,ref()(2,0)); \
Impl::loadLinkElement(U_01,ref()(0,1)); \
Impl::loadLinkElement(U_11,ref()(1,1)); \
Impl::loadLinkElement(U_21,ref()(2,1)); \
Impl::loadLinkElement(U_02,ref()(0,2)); \
Impl::loadLinkElement(U_12,ref()(1,2)); \
Impl::loadLinkElement(U_22,ref()(2,2)); \
U_00=coalescedRead(ref()(0,0),lane); \
U_10=coalescedRead(ref()(1,0),lane); \
U_20=coalescedRead(ref()(2,0),lane); \
U_01=coalescedRead(ref()(0,1),lane); \
U_11=coalescedRead(ref()(1,1),lane); \
U_21=coalescedRead(ref()(2,1),lane); \
U_02=coalescedRead(ref()(0,2),lane); \
U_12=coalescedRead(ref()(1,2),lane); \
U_22=coalescedRead(ref()(2,2),lane); \
UChi ## _0 = U_00*Chi_0; \
UChi ## _1 = U_10*Chi_0;\
UChi ## _2 = U_20*Chi_0;\
@@ -63,15 +88,15 @@ NAMESPACE_BEGIN(Grid);
#define MULT_ADD(U,A,UChi) \
auto & ref(U[sU](A)); \
Impl::loadLinkElement(U_00,ref()(0,0)); \
Impl::loadLinkElement(U_10,ref()(1,0)); \
Impl::loadLinkElement(U_20,ref()(2,0)); \
Impl::loadLinkElement(U_01,ref()(0,1)); \
Impl::loadLinkElement(U_11,ref()(1,1)); \
Impl::loadLinkElement(U_21,ref()(2,1)); \
Impl::loadLinkElement(U_02,ref()(0,2)); \
Impl::loadLinkElement(U_12,ref()(1,2)); \
Impl::loadLinkElement(U_22,ref()(2,2)); \
U_00=coalescedRead(ref()(0,0),lane); \
U_10=coalescedRead(ref()(1,0),lane); \
U_20=coalescedRead(ref()(2,0),lane); \
U_01=coalescedRead(ref()(0,1),lane); \
U_11=coalescedRead(ref()(1,1),lane); \
U_21=coalescedRead(ref()(2,1),lane); \
U_02=coalescedRead(ref()(0,2),lane); \
U_12=coalescedRead(ref()(1,2),lane); \
U_22=coalescedRead(ref()(2,2),lane); \
UChi ## _0 += U_00*Chi_0; \
UChi ## _1 += U_10*Chi_0;\
UChi ## _2 += U_20*Chi_0;\
@@ -83,24 +108,18 @@ NAMESPACE_BEGIN(Grid);
UChi ## _2 += U_22*Chi_2;
#define PERMUTE_DIR(dir) \
permute##dir(Chi_0,Chi_0); \
permute##dir(Chi_1,Chi_1); \
permute##dir(Chi_2,Chi_2);
#define HAND_STENCIL_LEG_BASE(Dir,Perm,skew) \
SE=st.GetEntry(ptype,Dir+skew,sF); \
offset = SE->_offset; \
local = SE->_is_local; \
perm = SE->_permute; \
if ( local ) { \
LOAD_CHI(in); \
LOAD_CHI(Perm,in); \
if ( perm) { \
PERMUTE_DIR(Perm); \
} \
} else { \
LOAD_CHI(buf); \
LOAD_CHI_COMMS(buf); \
}
#define HAND_STENCIL_LEG_BEGIN(Dir,Perm,skew,even) \
@@ -116,19 +135,18 @@ NAMESPACE_BEGIN(Grid);
}
#define HAND_STENCIL_LEG_INT(U,Dir,Perm,skew,even) \
SE=st.GetEntry(ptype,Dir+skew,sF); \
offset = SE->_offset; \
local = SE->_is_local; \
perm = SE->_permute; \
if ( local ) { \
LOAD_CHI(in); \
LOAD_CHI(Perm,in); \
if ( perm) { \
PERMUTE_DIR(Perm); \
} \
} else if ( st.same_node[Dir] ) { \
LOAD_CHI(buf); \
LOAD_CHI_COMMS(buf); \
} \
if (local || st.same_node[Dir] ) { \
MULT_ADD(U,Dir,even); \
@@ -140,10 +158,32 @@ NAMESPACE_BEGIN(Grid);
local = SE->_is_local; \
if ((!local) && (!st.same_node[Dir]) ) { \
nmu++; \
{ LOAD_CHI(buf); } \
{ LOAD_CHI_COMMS(buf); } \
{ MULT_ADD(U,Dir,even); } \
}
#define HAND_DECLARATIONS(Simd) \
Simd even_0; \
Simd even_1; \
Simd even_2; \
Simd odd_0; \
Simd odd_1; \
Simd odd_2; \
\
Simd Chi_0; \
Simd Chi_1; \
Simd Chi_2; \
\
Simd U_00; \
Simd U_10; \
Simd U_20; \
Simd U_01; \
Simd U_11; \
Simd U_21; \
Simd U_02; \
Simd U_12; \
Simd U_22;
template <class Impl>
template <int Naik> accelerator_inline
@@ -155,28 +195,14 @@ void StaggeredKernels<Impl>::DhopSiteHand(StencilView &st,
typedef typename Simd::scalar_type S;
typedef typename Simd::vector_type V;
Simd even_0; // 12 regs on knc
Simd even_1;
Simd even_2;
Simd odd_0; // 12 regs on knc
Simd odd_1;
Simd odd_2;
Simd Chi_0; // two spinor; 6 regs
Simd Chi_1;
Simd Chi_2;
Simd U_00; // two rows of U matrix
Simd U_10;
Simd U_20;
Simd U_01;
Simd U_11;
Simd U_21; // 2 reg left.
Simd U_02;
Simd U_12;
Simd U_22;
const int Nsimd = SiteHalfSpinor::Nsimd();
const int lane=acceleratorSIMTlane(Nsimd);
typedef decltype( coalescedRead( in[0]()()(0) )) Simt;
HAND_DECLARATIONS(Simt);
SiteSpinor result;
typedef decltype( coalescedRead( in[0] )) calcSiteSpinor;
calcSiteSpinor result;
int offset,local,perm, ptype;
StencilEntry *SE;
@@ -215,7 +241,7 @@ void StaggeredKernels<Impl>::DhopSiteHand(StencilView &st,
result()()(1) = even_1 + odd_1;
result()()(2) = even_2 + odd_2;
}
vstream(out[sF],result);
coalescedWrite(out[sF],result);
}
}
@@ -230,28 +256,13 @@ void StaggeredKernels<Impl>::DhopSiteHandInt(StencilView &st,
typedef typename Simd::scalar_type S;
typedef typename Simd::vector_type V;
Simd even_0; // 12 regs on knc
Simd even_1;
Simd even_2;
Simd odd_0; // 12 regs on knc
Simd odd_1;
Simd odd_2;
const int Nsimd = SiteHalfSpinor::Nsimd();
const int lane=acceleratorSIMTlane(Nsimd);
typedef decltype( coalescedRead( in[0]()()(0) )) Simt;
HAND_DECLARATIONS(Simt);
Simd Chi_0; // two spinor; 6 regs
Simd Chi_1;
Simd Chi_2;
Simd U_00; // two rows of U matrix
Simd U_10;
Simd U_20;
Simd U_01;
Simd U_11;
Simd U_21; // 2 reg left.
Simd U_02;
Simd U_12;
Simd U_22;
SiteSpinor result;
typedef decltype( coalescedRead( in[0] )) calcSiteSpinor;
calcSiteSpinor result;
int offset, ptype, local, perm;
StencilEntry *SE;
@@ -261,8 +272,8 @@ void StaggeredKernels<Impl>::DhopSiteHandInt(StencilView &st,
// int sF=s+LLs*sU;
{
even_0 = Zero(); even_1 = Zero(); even_2 = Zero();
odd_0 = Zero(); odd_1 = Zero(); odd_2 = Zero();
zeroit(even_0); zeroit(even_1); zeroit(even_2);
zeroit(odd_0); zeroit(odd_1); zeroit(odd_2);
skew = 0;
HAND_STENCIL_LEG_INT(U,Xp,3,skew,even);
@@ -294,7 +305,7 @@ void StaggeredKernels<Impl>::DhopSiteHandInt(StencilView &st,
result()()(1) = even_1 + odd_1;
result()()(2) = even_2 + odd_2;
}
vstream(out[sF],result);
coalescedWrite(out[sF],result);
}
}
@@ -309,28 +320,13 @@ void StaggeredKernels<Impl>::DhopSiteHandExt(StencilView &st,
typedef typename Simd::scalar_type S;
typedef typename Simd::vector_type V;
Simd even_0; // 12 regs on knc
Simd even_1;
Simd even_2;
Simd odd_0; // 12 regs on knc
Simd odd_1;
Simd odd_2;
const int Nsimd = SiteHalfSpinor::Nsimd();
const int lane=acceleratorSIMTlane(Nsimd);
typedef decltype( coalescedRead( in[0]()()(0) )) Simt;
HAND_DECLARATIONS(Simt);
Simd Chi_0; // two spinor; 6 regs
Simd Chi_1;
Simd Chi_2;
Simd U_00; // two rows of U matrix
Simd U_10;
Simd U_20;
Simd U_01;
Simd U_11;
Simd U_21; // 2 reg left.
Simd U_02;
Simd U_12;
Simd U_22;
SiteSpinor result;
typedef decltype( coalescedRead( in[0] )) calcSiteSpinor;
calcSiteSpinor result;
int offset, ptype, local;
StencilEntry *SE;
@@ -340,8 +336,8 @@ void StaggeredKernels<Impl>::DhopSiteHandExt(StencilView &st,
// int sF=s+LLs*sU;
{
even_0 = Zero(); even_1 = Zero(); even_2 = Zero();
odd_0 = Zero(); odd_1 = Zero(); odd_2 = Zero();
zeroit(even_0); zeroit(even_1); zeroit(even_2);
zeroit(odd_0); zeroit(odd_1); zeroit(odd_2);
int nmu=0;
skew = 0;
HAND_STENCIL_LEG_EXT(U,Xp,3,skew,even);
@@ -374,7 +370,7 @@ void StaggeredKernels<Impl>::DhopSiteHandExt(StencilView &st,
result()()(1) = even_1 + odd_1;
result()()(2) = even_2 + odd_2;
}
out[sF] = out[sF] + result;
coalescedWrite(out[sF] , out(sF)+ result);
}
}
}
@@ -397,6 +393,7 @@ void StaggeredKernels<Impl>::DhopSiteHandExt(StencilView &st,
const FermionFieldView &in, FermionFieldView &out, int dag); \
*/
#undef LOAD_CHI
#undef HAND_DECLARATIONS
NAMESPACE_END(Grid);

76
Grid/qcd/action/fermion/implementation/StaggeredKernelsImplementation.h
View File

@@ -35,39 +35,32 @@ NAMESPACE_BEGIN(Grid);
#define GENERIC_STENCIL_LEG(U,Dir,skew,multLink) \
SE = st.GetEntry(ptype, Dir+skew, sF); \
if (SE->_is_local ) { \
if (SE->_permute) { \
chi_p = &chi; \
permute(chi, in[SE->_offset], ptype); \
} else { \
chi_p = &in[SE->_offset]; \
} \
int perm= SE->_permute; \
chi = coalescedReadPermute(in[SE->_offset],ptype,perm,lane);\
} else { \
chi_p = &buf[SE->_offset]; \
chi = coalescedRead(buf[SE->_offset],lane); \
} \
multLink(Uchi, U[sU], *chi_p, Dir);
acceleratorSynchronise(); \
multLink(Uchi, U[sU], chi, Dir);
#define GENERIC_STENCIL_LEG_INT(U,Dir,skew,multLink) \
SE = st.GetEntry(ptype, Dir+skew, sF); \
if (SE->_is_local ) { \
if (SE->_permute) { \
chi_p = &chi; \
permute(chi, in[SE->_offset], ptype); \
} else { \
chi_p = &in[SE->_offset]; \
} \
int perm= SE->_permute; \
chi = coalescedReadPermute(in[SE->_offset],ptype,perm,lane);\
} else if ( st.same_node[Dir] ) { \
chi_p = &buf[SE->_offset]; \
chi = coalescedRead(buf[SE->_offset],lane); \
} \
if (SE->_is_local || st.same_node[Dir] ) { \
multLink(Uchi, U[sU], *chi_p, Dir); \
multLink(Uchi, U[sU], chi, Dir); \
}
#define GENERIC_STENCIL_LEG_EXT(U,Dir,skew,multLink) \
SE = st.GetEntry(ptype, Dir+skew, sF); \
if ((!SE->_is_local) && (!st.same_node[Dir]) ) { \
nmu++; \
chi_p = &buf[SE->_offset]; \
multLink(Uchi, U[sU], *chi_p, Dir); \
chi = coalescedRead(buf[SE->_offset],lane); \
multLink(Uchi, U[sU], chi, Dir); \
}
template <class Impl>
@@ -84,12 +77,14 @@ void StaggeredKernels<Impl>::DhopSiteGeneric(StencilView &st,
SiteSpinor *buf, int sF, int sU,
const FermionFieldView &in, FermionFieldView &out, int dag)
{
const SiteSpinor *chi_p;
SiteSpinor chi;
SiteSpinor Uchi;
typedef decltype(coalescedRead(in[0])) calcSpinor;
calcSpinor chi;
calcSpinor Uchi;
StencilEntry *SE;
int ptype;
int skew;
const int Nsimd = SiteHalfSpinor::Nsimd();
const int lane=acceleratorSIMTlane(Nsimd);
// for(int s=0;s<LLs;s++){
//
@@ -118,7 +113,7 @@ void StaggeredKernels<Impl>::DhopSiteGeneric(StencilView &st,
if ( dag ) {
Uchi = - Uchi;
}
vstream(out[sF], Uchi);
coalescedWrite(out[sF], Uchi,lane);
}
};
@@ -130,13 +125,16 @@ template <int Naik> accelerator_inline
void StaggeredKernels<Impl>::DhopSiteGenericInt(StencilView &st,
DoubledGaugeFieldView &U, DoubledGaugeFieldView &UUU,
SiteSpinor *buf, int sF, int sU,
const FermionFieldView &in, FermionFieldView &out,int dag) {
const SiteSpinor *chi_p;
SiteSpinor chi;
SiteSpinor Uchi;
const FermionFieldView &in, FermionFieldView &out,int dag)
{
typedef decltype(coalescedRead(in[0])) calcSpinor;
calcSpinor chi;
calcSpinor Uchi;
StencilEntry *SE;
int ptype;
int skew ;
const int Nsimd = SiteHalfSpinor::Nsimd();
const int lane=acceleratorSIMTlane(Nsimd);
// for(int s=0;s<LLs;s++){
// int sF=LLs*sU+s;
@@ -165,7 +163,7 @@ void StaggeredKernels<Impl>::DhopSiteGenericInt(StencilView &st,
if ( dag ) {
Uchi = - Uchi;
}
vstream(out[sF], Uchi);
coalescedWrite(out[sF], Uchi,lane);
}
};
@@ -178,14 +176,17 @@ template <int Naik> accelerator_inline
void StaggeredKernels<Impl>::DhopSiteGenericExt(StencilView &st,
DoubledGaugeFieldView &U, DoubledGaugeFieldView &UUU,
SiteSpinor *buf, int sF, int sU,
const FermionFieldView &in, FermionFieldView &out,int dag) {
const SiteSpinor *chi_p;
// SiteSpinor chi;
SiteSpinor Uchi;
const FermionFieldView &in, FermionFieldView &out,int dag)
{
typedef decltype(coalescedRead(in[0])) calcSpinor;
calcSpinor chi;
calcSpinor Uchi;
StencilEntry *SE;
int ptype;
int nmu=0;
int skew ;
const int Nsimd = SiteHalfSpinor::Nsimd();
const int lane=acceleratorSIMTlane(Nsimd);
// for(int s=0;s<LLs;s++){
// int sF=LLs*sU+s;
@@ -211,11 +212,12 @@ void StaggeredKernels<Impl>::DhopSiteGenericExt(StencilView &st,
GENERIC_STENCIL_LEG_EXT(UUU,Zm,skew,Impl::multLinkAdd);
GENERIC_STENCIL_LEG_EXT(UUU,Tm,skew,Impl::multLinkAdd);
}
if ( nmu ) {
if ( dag ) {
out[sF] = out[sF] - Uchi;
if ( nmu ) {
auto _out = coalescedRead(out[sF],lane);
if ( dag ) {
coalescedWrite(out[sF], _out-Uchi,lane);
} else {
out[sF] = out[sF] + Uchi;
coalescedWrite(out[sF], _out+Uchi,lane);
}
}
}
@@ -261,6 +263,8 @@ void StaggeredKernels<Impl>::DhopImproved(StencilImpl &st, LebesgueOrder &lo,
GridBase *FGrid=in.Grid();
GridBase *UGrid=U.Grid();
typedef StaggeredKernels<Impl> ThisKernel;
const int Nsimd = SiteHalfSpinor::Nsimd();
const int lane=acceleratorSIMTlane(Nsimd);
autoView( UUU_v , UUU, AcceleratorRead);
autoView( U_v , U, AcceleratorRead);
autoView( in_v , in, AcceleratorRead);
@@ -301,6 +305,8 @@ void StaggeredKernels<Impl>::DhopNaive(StencilImpl &st, LebesgueOrder &lo,
GridBase *FGrid=in.Grid();
GridBase *UGrid=U.Grid();
typedef StaggeredKernels<Impl> ThisKernel;
const int Nsimd = SiteHalfSpinor::Nsimd();
const int lane=acceleratorSIMTlane(Nsimd);
autoView( UUU_v , U, AcceleratorRead);
autoView( U_v , U, AcceleratorRead);
autoView( in_v , in, AcceleratorRead);

24
Grid/qcd/action/fermion/implementation/WilsonCloverFermionImplementation.h
View File

@@ -92,20 +92,16 @@ void WilsonCloverFermion<Impl>::ImportGauge(const GaugeField &_Umu)
int lvol = _Umu.Grid()->lSites();
int DimRep = Impl::Dimension;
Eigen::MatrixXcd EigenCloverOp = Eigen::MatrixXcd::Zero(Ns * DimRep, Ns * DimRep);
Eigen::MatrixXcd EigenInvCloverOp = Eigen::MatrixXcd::Zero(Ns * DimRep, Ns * DimRep);
Coordinate lcoor;
typename SiteCloverType::scalar_object Qx = Zero(), Qxinv = Zero();
{
autoView(CTv,CloverTerm,CpuRead);
autoView(CTIv,CloverTermInv,CpuWrite);
for (int site = 0; site < lvol; site++) {
thread_for(site, lvol, {
Coordinate lcoor;
grid->LocalIndexToLocalCoor(site, lcoor);
EigenCloverOp = Eigen::MatrixXcd::Zero(Ns * DimRep, Ns * DimRep);
Eigen::MatrixXcd EigenCloverOp = Eigen::MatrixXcd::Zero(Ns * DimRep, Ns * DimRep);
Eigen::MatrixXcd EigenInvCloverOp = Eigen::MatrixXcd::Zero(Ns * DimRep, Ns * DimRep);
typename SiteCloverType::scalar_object Qx = Zero(), Qxinv = Zero();
peekLocalSite(Qx, CTv, lcoor);
Qxinv = Zero();
//if (csw!=0){
for (int j = 0; j < Ns; j++)
for (int k = 0; k < Ns; k++)
@@ -126,21 +122,21 @@ void WilsonCloverFermion<Impl>::ImportGauge(const GaugeField &_Umu)
// if (site==0) std::cout << "site =" << site << "\n" << EigenInvCloverOp << std::endl;
// }
pokeLocalSite(Qxinv, CTIv, lcoor);
}
});
}
// Separate the even and odd parts
pickCheckerboard(Even, CloverTermEven, CloverTerm);
pickCheckerboard(Odd, CloverTermOdd, CloverTerm);
pickCheckerboard(Even, CloverTermDagEven, closure(adj(CloverTerm)));
pickCheckerboard(Odd, CloverTermDagOdd, closure(adj(CloverTerm)));
pickCheckerboard(Even, CloverTermDagEven, adj(CloverTerm));
pickCheckerboard(Odd, CloverTermDagOdd, adj(CloverTerm));
pickCheckerboard(Even, CloverTermInvEven, CloverTermInv);
pickCheckerboard(Odd, CloverTermInvOdd, CloverTermInv);
pickCheckerboard(Even, CloverTermInvDagEven, closure(adj(CloverTermInv)));
pickCheckerboard(Odd, CloverTermInvDagOdd, closure(adj(CloverTermInv)));
pickCheckerboard(Even, CloverTermInvDagEven, adj(CloverTermInv));
pickCheckerboard(Odd, CloverTermInvDagOdd, adj(CloverTermInv));
}
template <class Impl>

3
Grid/qcd/action/fermion/implementation/WilsonFermionImplementation.h
View File

@@ -397,6 +397,7 @@ void WilsonFermion<Impl>::DhopDerivEO(GaugeField &mat, const FermionField &U, co
template <class Impl>
void WilsonFermion<Impl>::Dhop(const FermionField &in, FermionField &out, int dag)
{
DhopCalls+=2;
conformable(in.Grid(), _grid); // verifies full grid
conformable(in.Grid(), out.Grid());
@@ -408,6 +409,7 @@ void WilsonFermion<Impl>::Dhop(const FermionField &in, FermionField &out, int da
template <class Impl>
void WilsonFermion<Impl>::DhopOE(const FermionField &in, FermionField &out, int dag)
{
DhopCalls++;
conformable(in.Grid(), _cbgrid); // verifies half grid
conformable(in.Grid(), out.Grid()); // drops the cb check
@@ -420,6 +422,7 @@ void WilsonFermion<Impl>::DhopOE(const FermionField &in, FermionField &out, int
template <class Impl>
void WilsonFermion<Impl>::DhopEO(const FermionField &in, FermionField &out,int dag)
{
DhopCalls++;
conformable(in.Grid(), _cbgrid); // verifies half grid
conformable(in.Grid(), out.Grid()); // drops the cb check

268
Grid/qcd/action/fermion/implementation/WilsonKernelsAsmA64FX.h
View File

@@ -38,9 +38,6 @@ Author: Nils Meyer <nils.meyer@ur.de> Regensburg University
// undefine everything related to kernels
#include <simd/Fujitsu_A64FX_undef.h>
// enable A64FX body
#define WILSONKERNELSASMBODYA64FX
//#pragma message("A64FX Dslash: WilsonKernelsAsmBodyA64FX.h")
///////////////////////////////////////////////////////////
// If we are A64FX specialise the single precision routine
@@ -63,119 +60,89 @@ Author: Nils Meyer <nils.meyer@ur.de> Regensburg University
#define INTERIOR_AND_EXTERIOR
#undef INTERIOR
#undef EXTERIOR
#pragma GCC optimize ("-O3", "-fno-schedule-insns", "-fno-schedule-insns2")
template<> void
WilsonKernels<WilsonImplF>::AsmDhopSite(StencilView &st, DoubledGaugeFieldView &U, SiteHalfSpinor *buf,
int ss,int ssU,int Ls,int Ns,const FermionFieldView &in, FermionFieldView &out)
#if defined (WILSONKERNELSASMBODYA64FX)
#include <qcd/action/fermion/implementation/WilsonKernelsAsmBodyA64FX.h>
#else
#include <qcd/action/fermion/implementation/WilsonKernelsAsmBody.h>
#endif
#pragma GCC optimize ("-O3", "-fno-schedule-insns", "-fno-schedule-insns2")
template<> void
WilsonKernels<ZWilsonImplF>::AsmDhopSite(StencilView &st, DoubledGaugeFieldView &U, SiteHalfSpinor *buf,
int ss,int ssU,int Ls,int Ns,const FermionFieldView &in, FermionFieldView &out)
#if defined (WILSONKERNELSASMBODYA64FX)
#include <qcd/action/fermion/implementation/WilsonKernelsAsmBodyA64FX.h>
#else
#include <qcd/action/fermion/implementation/WilsonKernelsAsmBody.h>
#endif
#pragma GCC optimize ("-O3", "-fno-schedule-insns", "-fno-schedule-insns2")
template<> void
WilsonKernels<WilsonImplFH>::AsmDhopSite(StencilView &st, DoubledGaugeFieldView &U, SiteHalfSpinor *buf,
int ss,int ssU,int Ls,int Ns,const FermionFieldView &in, FermionFieldView &out)
#if defined (WILSONKERNELSASMBODYA64FX)
#include <qcd/action/fermion/implementation/WilsonKernelsAsmBodyA64FX.h>
#else
#include <qcd/action/fermion/implementation/WilsonKernelsAsmBody.h>
#endif
#pragma GCC optimize ("-O3", "-fno-schedule-insns", "-fno-schedule-insns2")
template<> void
WilsonKernels<ZWilsonImplFH>::AsmDhopSite(StencilView &st, DoubledGaugeFieldView &U, SiteHalfSpinor *buf,
int ss,int ssU,int Ls,int Ns,const FermionFieldView &in, FermionFieldView &out)
#if defined (WILSONKERNELSASMBODYA64FX)
#include <qcd/action/fermion/implementation/WilsonKernelsAsmBodyA64FX.h>
#else
#include <qcd/action/fermion/implementation/WilsonKernelsAsmBody.h>
#endif
#undef INTERIOR_AND_EXTERIOR
#define INTERIOR
#undef EXTERIOR
#pragma GCC optimize ("-O3", "-fno-schedule-insns", "-fno-schedule-insns2")
template<> void
WilsonKernels<WilsonImplF>::AsmDhopSiteInt(StencilView &st, DoubledGaugeFieldView &U, SiteHalfSpinor *buf,
int ss,int ssU,int Ls,int Ns,const FermionFieldView &in, FermionFieldView &out)
#if defined (WILSONKERNELSASMBODYA64FX)
#include <qcd/action/fermion/implementation/WilsonKernelsAsmBodyA64FX.h>
#else
#include <qcd/action/fermion/implementation/WilsonKernelsAsmBody.h>
#endif
#pragma GCC optimize ("-O3", "-fno-schedule-insns", "-fno-schedule-insns2")
template<> void
WilsonKernels<ZWilsonImplF>::AsmDhopSiteInt(StencilView &st, DoubledGaugeFieldView &U, SiteHalfSpinor *buf,
int ss,int ssU,int Ls,int Ns,const FermionFieldView &in, FermionFieldView &out)
#if defined (WILSONKERNELSASMBODYA64FX)
#include <qcd/action/fermion/implementation/WilsonKernelsAsmBodyA64FX.h>
#else
#include <qcd/action/fermion/implementation/WilsonKernelsAsmBody.h>
#endif
#pragma GCC optimize ("-O3", "-fno-schedule-insns", "-fno-schedule-insns2")
template<> void
WilsonKernels<WilsonImplFH>::AsmDhopSiteInt(StencilView &st, DoubledGaugeFieldView &U, SiteHalfSpinor *buf,
int ss,int ssU,int Ls,int Ns,const FermionFieldView &in, FermionFieldView &out)
#if defined (WILSONKERNELSASMBODYA64FX)
#include <qcd/action/fermion/implementation/WilsonKernelsAsmBodyA64FX.h>
#else
#include <qcd/action/fermion/implementation/WilsonKernelsAsmBody.h>
#endif
#pragma GCC optimize ("-O3", "-fno-schedule-insns", "-fno-schedule-insns2")
template<> void
WilsonKernels<ZWilsonImplFH>::AsmDhopSiteInt(StencilView &st, DoubledGaugeFieldView &U, SiteHalfSpinor *buf,
int ss,int ssU,int Ls,int Ns,const FermionFieldView &in, FermionFieldView &out)
#if defined (WILSONKERNELSASMBODYA64FX)
#include <qcd/action/fermion/implementation/WilsonKernelsAsmBodyA64FX.h>
#else
#include <qcd/action/fermion/implementation/WilsonKernelsAsmBody.h>
#endif
#undef INTERIOR_AND_EXTERIOR
#undef INTERIOR
#define EXTERIOR
#pragma GCC optimize ("-O3", "-fno-schedule-insns", "-fno-schedule-insns2")
template<> void
WilsonKernels<WilsonImplF>::AsmDhopSiteExt(StencilView &st, DoubledGaugeFieldView &U, SiteHalfSpinor *buf,
int ss,int ssU,int Ls,int Ns,const FermionFieldView &in, FermionFieldView &out)
#if defined (WILSONKERNELSASMBODYA64FX)
#include <qcd/action/fermion/implementation/WilsonKernelsAsmBodyA64FX.h>
#else
#include <qcd/action/fermion/implementation/WilsonKernelsAsmBody.h>
#endif
#pragma GCC optimize ("-O3", "-fno-schedule-insns", "-fno-schedule-insns2")
template<> void
WilsonKernels<ZWilsonImplF>::AsmDhopSiteExt(StencilView &st, DoubledGaugeFieldView &U, SiteHalfSpinor *buf,
int ss,int ssU,int Ls,int Ns,const FermionFieldView &in, FermionFieldView &out)
#if defined (WILSONKERNELSASMBODYA64FX)
#include <qcd/action/fermion/implementation/WilsonKernelsAsmBodyA64FX.h>
#else
#include <qcd/action/fermion/implementation/WilsonKernelsAsmBody.h>
#endif
#pragma GCC optimize ("-O3", "-fno-schedule-insns", "-fno-schedule-insns2")
template<> void
WilsonKernels<WilsonImplFH>::AsmDhopSiteExt(StencilView &st, DoubledGaugeFieldView &U, SiteHalfSpinor *buf,
int ss,int ssU,int Ls,int Ns,const FermionFieldView &in, FermionFieldView &out)
#if defined (WILSONKERNELSASMBODYA64FX)
#include <qcd/action/fermion/implementation/WilsonKernelsAsmBodyA64FX.h>
#else
#include <qcd/action/fermion/implementation/WilsonKernelsAsmBody.h>
#endif
#pragma GCC optimize ("-O3", "-fno-schedule-insns", "-fno-schedule-insns2")
template<> void
WilsonKernels<ZWilsonImplFH>::AsmDhopSiteExt(StencilView &st, DoubledGaugeFieldView &U, SiteHalfSpinor *buf,
int ss,int ssU,int Ls,int Ns,const FermionFieldView &in, FermionFieldView &out)
#if defined (WILSONKERNELSASMBODYA64FX)
#include <qcd/action/fermion/implementation/WilsonKernelsAsmBodyA64FX.h>
#else
#include <qcd/action/fermion/implementation/WilsonKernelsAsmBody.h>
#endif
/////////////////////////////////////////////////////////////////
@@ -185,119 +152,89 @@ WilsonKernels<ZWilsonImplFH>::AsmDhopSiteExt(StencilView &st, DoubledGaugeFieldV
#define INTERIOR_AND_EXTERIOR
#undef INTERIOR
#undef EXTERIOR
#pragma GCC optimize ("-O3", "-fno-schedule-insns", "-fno-schedule-insns2")
template<> void
WilsonKernels<WilsonImplF>::AsmDhopSiteDag(StencilView &st, DoubledGaugeFieldView &U, SiteHalfSpinor *buf,
int ss,int ssU,int Ls,int Ns,const FermionFieldView &in, FermionFieldView &out)
#if defined (WILSONKERNELSASMBODYA64FX)
#include <qcd/action/fermion/implementation/WilsonKernelsAsmBodyA64FX.h>
#else
#include <qcd/action/fermion/implementation/WilsonKernelsAsmBody.h>
#endif
#pragma GCC optimize ("-O3", "-fno-schedule-insns", "-fno-schedule-insns2")
template<> void
WilsonKernels<ZWilsonImplF>::AsmDhopSiteDag(StencilView &st, DoubledGaugeFieldView &U, SiteHalfSpinor *buf,
int ss,int ssU,int Ls,int Ns,const FermionFieldView &in, FermionFieldView &out)
#if defined (WILSONKERNELSASMBODYA64FX)
#include <qcd/action/fermion/implementation/WilsonKernelsAsmBodyA64FX.h>
#else
#include <qcd/action/fermion/implementation/WilsonKernelsAsmBody.h>
#endif
#pragma GCC optimize ("-O3", "-fno-schedule-insns", "-fno-schedule-insns2")
template<> void
WilsonKernels<WilsonImplFH>::AsmDhopSiteDag(StencilView &st, DoubledGaugeFieldView &U, SiteHalfSpinor *buf,
int ss,int ssU,int Ls,int Ns,const FermionFieldView &in, FermionFieldView &out)
#if defined (WILSONKERNELSASMBODYA64FX)
#include <qcd/action/fermion/implementation/WilsonKernelsAsmBodyA64FX.h>
#else
#include <qcd/action/fermion/implementation/WilsonKernelsAsmBody.h>
#endif
#pragma GCC optimize ("-O3", "-fno-schedule-insns", "-fno-schedule-insns2")
template<> void
WilsonKernels<ZWilsonImplFH>::AsmDhopSiteDag(StencilView &st, DoubledGaugeFieldView &U, SiteHalfSpinor *buf,
int ss,int ssU,int Ls,int Ns,const FermionFieldView &in, FermionFieldView &out)
#if defined (WILSONKERNELSASMBODYA64FX)
#include <qcd/action/fermion/implementation/WilsonKernelsAsmBodyA64FX.h>
#else
#include <qcd/action/fermion/implementation/WilsonKernelsAsmBody.h>
#endif
#undef INTERIOR_AND_EXTERIOR
#define INTERIOR
#undef EXTERIOR
#pragma GCC optimize ("-O3", "-fno-schedule-insns", "-fno-schedule-insns2")
template<> void
WilsonKernels<WilsonImplF>::AsmDhopSiteDagInt(StencilView &st, DoubledGaugeFieldView &U, SiteHalfSpinor *buf,
int ss,int ssU,int Ls,int Ns,const FermionFieldView &in, FermionFieldView &out)
#if defined (WILSONKERNELSASMBODYA64FX)
#include <qcd/action/fermion/implementation/WilsonKernelsAsmBodyA64FX.h>
#else
#include <qcd/action/fermion/implementation/WilsonKernelsAsmBody.h>
#endif
#pragma GCC optimize ("-O3", "-fno-schedule-insns", "-fno-schedule-insns2")
template<> void
WilsonKernels<ZWilsonImplF>::AsmDhopSiteDagInt(StencilView &st, DoubledGaugeFieldView &U, SiteHalfSpinor *buf,
int ss,int ssU,int Ls,int Ns,const FermionFieldView &in, FermionFieldView &out)
#if defined (WILSONKERNELSASMBODYA64FX)
#include <qcd/action/fermion/implementation/WilsonKernelsAsmBodyA64FX.h>
#else
#include <qcd/action/fermion/implementation/WilsonKernelsAsmBody.h>
#endif
#pragma GCC optimize ("-O3", "-fno-schedule-insns", "-fno-schedule-insns2")
template<> void
WilsonKernels<WilsonImplFH>::AsmDhopSiteDagInt(StencilView &st, DoubledGaugeFieldView &U, SiteHalfSpinor *buf,
int ss,int ssU,int Ls,int Ns,const FermionFieldView &in, FermionFieldView &out)
#if defined (WILSONKERNELSASMBODYA64FX)
#include <qcd/action/fermion/implementation/WilsonKernelsAsmBodyA64FX.h>
#else
#include <qcd/action/fermion/implementation/WilsonKernelsAsmBody.h>
#endif
#pragma GCC optimize ("-O3", "-fno-schedule-insns", "-fno-schedule-insns2")
template<> void
WilsonKernels<ZWilsonImplFH>::AsmDhopSiteDagInt(StencilView &st, DoubledGaugeFieldView &U, SiteHalfSpinor *buf,
int ss,int ssU,int Ls,int Ns,const FermionFieldView &in, FermionFieldView &out)
#if defined (WILSONKERNELSASMBODYA64FX)
#include <qcd/action/fermion/implementation/WilsonKernelsAsmBodyA64FX.h>
#else
#include <qcd/action/fermion/implementation/WilsonKernelsAsmBody.h>
#endif
#undef INTERIOR_AND_EXTERIOR
#undef INTERIOR
#define EXTERIOR
#pragma GCC optimize ("-O3", "-fno-schedule-insns", "-fno-schedule-insns2")
template<> void
WilsonKernels<WilsonImplF>::AsmDhopSiteDagExt(StencilView &st, DoubledGaugeFieldView &U, SiteHalfSpinor *buf,
int ss,int ssU,int Ls,int Ns,const FermionFieldView &in, FermionFieldView &out)
#if defined (WILSONKERNELSASMBODYA64FX)
#include <qcd/action/fermion/implementation/WilsonKernelsAsmBodyA64FX.h>
#else
#include <qcd/action/fermion/implementation/WilsonKernelsAsmBody.h>
#endif
#pragma GCC optimize ("-O3", "-fno-schedule-insns", "-fno-schedule-insns2")
template<> void
WilsonKernels<ZWilsonImplF>::AsmDhopSiteDagExt(StencilView &st, DoubledGaugeFieldView &U, SiteHalfSpinor *buf,
int ss,int ssU,int Ls,int Ns,const FermionFieldView &in, FermionFieldView &out)
#if defined (WILSONKERNELSASMBODYA64FX)
#include <qcd/action/fermion/implementation/WilsonKernelsAsmBodyA64FX.h>
#else
#include <qcd/action/fermion/implementation/WilsonKernelsAsmBody.h>
#endif
#pragma GCC optimize ("-O3", "-fno-schedule-insns", "-fno-schedule-insns2")
template<> void
WilsonKernels<WilsonImplFH>::AsmDhopSiteDagExt(StencilView &st, DoubledGaugeFieldView &U, SiteHalfSpinor *buf,
int ss,int ssU,int Ls,int Ns,const FermionFieldView &in, FermionFieldView &out)
#if defined (WILSONKERNELSASMBODYA64FX)
#include <qcd/action/fermion/implementation/WilsonKernelsAsmBodyA64FX.h>
#else
#include <qcd/action/fermion/implementation/WilsonKernelsAsmBody.h>
#endif
#pragma GCC optimize ("-O3", "-fno-schedule-insns", "-fno-schedule-insns2")
template<> void
WilsonKernels<ZWilsonImplFH>::AsmDhopSiteDagExt(StencilView &st, DoubledGaugeFieldView &U, SiteHalfSpinor *buf,
int ss,int ssU,int Ls,int Ns,const FermionFieldView &in, FermionFieldView &out)
#if defined (WILSONKERNELSASMBODYA64FX)
#include <qcd/action/fermion/implementation/WilsonKernelsAsmBodyA64FX.h>
#else
#include <qcd/action/fermion/implementation/WilsonKernelsAsmBody.h>
#endif
// undefine
@@ -330,119 +267,89 @@ WilsonKernels<ZWilsonImplFH>::AsmDhopSiteDagExt(StencilView &st, DoubledGaugeFie
#define INTERIOR_AND_EXTERIOR
#undef INTERIOR
#undef EXTERIOR
#pragma GCC optimize ("-O3", "-fno-schedule-insns", "-fno-schedule-insns2")
template<> void
WilsonKernels<WilsonImplD>::AsmDhopSite(StencilView &st, DoubledGaugeFieldView &U, SiteHalfSpinor *buf,
int ss,int ssU,int Ls,int Ns,const FermionFieldView &in, FermionFieldView &out)
#if defined (WILSONKERNELSASMBODYA64FX)
#include <qcd/action/fermion/implementation/WilsonKernelsAsmBodyA64FX.h>
#else
#include <qcd/action/fermion/implementation/WilsonKernelsAsmBody.h>
#endif
#pragma GCC optimize ("-O3", "-fno-schedule-insns", "-fno-schedule-insns2")
template<> void
WilsonKernels<ZWilsonImplD>::AsmDhopSite(StencilView &st, DoubledGaugeFieldView &U, SiteHalfSpinor *buf,
int ss,int ssU,int Ls,int Ns,const FermionFieldView &in, FermionFieldView &out)
#if defined (WILSONKERNELSASMBODYA64FX)
#include <qcd/action/fermion/implementation/WilsonKernelsAsmBodyA64FX.h>
#else
#include <qcd/action/fermion/implementation/WilsonKernelsAsmBody.h>
#endif
#pragma GCC optimize ("-O3", "-fno-schedule-insns", "-fno-schedule-insns2")
template<> void
WilsonKernels<WilsonImplDF>::AsmDhopSite(StencilView &st, DoubledGaugeFieldView &U, SiteHalfSpinor *buf,
int ss,int ssU,int Ls,int Ns,const FermionFieldView &in, FermionFieldView &out)
#if defined (WILSONKERNELSASMBODYA64FX)
#include <qcd/action/fermion/implementation/WilsonKernelsAsmBodyA64FX.h>
#else
#include <qcd/action/fermion/implementation/WilsonKernelsAsmBody.h>
#endif
#pragma GCC optimize ("-O3", "-fno-schedule-insns", "-fno-schedule-insns2")
template<> void
WilsonKernels<ZWilsonImplDF>::AsmDhopSite(StencilView &st, DoubledGaugeFieldView &U, SiteHalfSpinor *buf,
int ss,int ssU,int Ls,int Ns,const FermionFieldView &in, FermionFieldView &out)
#if defined (WILSONKERNELSASMBODYA64FX)
#include <qcd/action/fermion/implementation/WilsonKernelsAsmBodyA64FX.h>
#else
#include <qcd/action/fermion/implementation/WilsonKernelsAsmBody.h>
#endif
#undef INTERIOR_AND_EXTERIOR
#define INTERIOR
#undef EXTERIOR
#pragma GCC optimize ("-O3", "-fno-schedule-insns", "-fno-schedule-insns2")
template<> void
WilsonKernels<WilsonImplD>::AsmDhopSiteInt(StencilView &st, DoubledGaugeFieldView &U, SiteHalfSpinor *buf,
int ss,int ssU,int Ls,int Ns,const FermionFieldView &in, FermionFieldView &out)
#if defined (WILSONKERNELSASMBODYA64FX)
#include <qcd/action/fermion/implementation/WilsonKernelsAsmBodyA64FX.h>
#else
#include <qcd/action/fermion/implementation/WilsonKernelsAsmBody.h>
#endif
#pragma GCC optimize ("-O3", "-fno-schedule-insns", "-fno-schedule-insns2")
template<> void
WilsonKernels<ZWilsonImplD>::AsmDhopSiteInt(StencilView &st, DoubledGaugeFieldView &U, SiteHalfSpinor *buf,
int ss,int ssU,int Ls,int Ns,const FermionFieldView &in, FermionFieldView &out)
#if defined (WILSONKERNELSASMBODYA64FX)
#include <qcd/action/fermion/implementation/WilsonKernelsAsmBodyA64FX.h>
#else
#include <qcd/action/fermion/implementation/WilsonKernelsAsmBody.h>
#endif
#pragma GCC optimize ("-O3", "-fno-schedule-insns", "-fno-schedule-insns2")
template<> void
WilsonKernels<WilsonImplDF>::AsmDhopSiteInt(StencilView &st, DoubledGaugeFieldView &U, SiteHalfSpinor *buf,
int ss,int ssU,int Ls,int Ns,const FermionFieldView &in, FermionFieldView &out)
#if defined (WILSONKERNELSASMBODYA64FX)
#include <qcd/action/fermion/implementation/WilsonKernelsAsmBodyA64FX.h>
#else
#include <qcd/action/fermion/implementation/WilsonKernelsAsmBody.h>
#endif
#pragma GCC optimize ("-O3", "-fno-schedule-insns", "-fno-schedule-insns2")
template<> void
WilsonKernels<ZWilsonImplDF>::AsmDhopSiteInt(StencilView &st, DoubledGaugeFieldView &U, SiteHalfSpinor *buf,
int ss,int ssU,int Ls,int Ns,const FermionFieldView &in, FermionFieldView &out)
#if defined (WILSONKERNELSASMBODYA64FX)
#include <qcd/action/fermion/implementation/WilsonKernelsAsmBodyA64FX.h>
#else
#include <qcd/action/fermion/implementation/WilsonKernelsAsmBody.h>
#endif
#undef INTERIOR_AND_EXTERIOR
#undef INTERIOR
#define EXTERIOR
#pragma GCC optimize ("-O3", "-fno-schedule-insns", "-fno-schedule-insns2")
template<> void
WilsonKernels<WilsonImplD>::AsmDhopSiteExt(StencilView &st, DoubledGaugeFieldView &U, SiteHalfSpinor *buf,
int ss,int ssU,int Ls,int Ns,const FermionFieldView &in, FermionFieldView &out)
#if defined (WILSONKERNELSASMBODYA64FX)
#include <qcd/action/fermion/implementation/WilsonKernelsAsmBodyA64FX.h>
#else
#include <qcd/action/fermion/implementation/WilsonKernelsAsmBody.h>
#endif
#pragma GCC optimize ("-O3", "-fno-schedule-insns", "-fno-schedule-insns2")
template<> void
WilsonKernels<ZWilsonImplD>::AsmDhopSiteExt(StencilView &st, DoubledGaugeFieldView &U, SiteHalfSpinor *buf,
int ss,int ssU,int Ls,int Ns,const FermionFieldView &in, FermionFieldView &out)
#if defined (WILSONKERNELSASMBODYA64FX)
#include <qcd/action/fermion/implementation/WilsonKernelsAsmBodyA64FX.h>
#else
#include <qcd/action/fermion/implementation/WilsonKernelsAsmBody.h>
#endif
#pragma GCC optimize ("-O3", "-fno-schedule-insns", "-fno-schedule-insns2")
template<> void
WilsonKernels<WilsonImplDF>::AsmDhopSiteExt(StencilView &st, DoubledGaugeFieldView &U, SiteHalfSpinor *buf,
int ss,int ssU,int Ls,int Ns,const FermionFieldView &in, FermionFieldView &out)
#if defined (WILSONKERNELSASMBODYA64FX)
#include <qcd/action/fermion/implementation/WilsonKernelsAsmBodyA64FX.h>
#else
#include <qcd/action/fermion/implementation/WilsonKernelsAsmBody.h>
#endif
#pragma GCC optimize ("-O3", "-fno-schedule-insns", "-fno-schedule-insns2")
template<> void
WilsonKernels<ZWilsonImplDF>::AsmDhopSiteExt(StencilView &st, DoubledGaugeFieldView &U, SiteHalfSpinor *buf,
int ss,int ssU,int Ls,int Ns,const FermionFieldView &in, FermionFieldView &out)
#if defined (WILSONKERNELSASMBODYA64FX)
#include <qcd/action/fermion/implementation/WilsonKernelsAsmBodyA64FX.h>
#else
#include <qcd/action/fermion/implementation/WilsonKernelsAsmBody.h>
#endif
/////////////////////////////////////////////////////////////////
// XYZT vectorised, dag Kernel, double
@@ -451,124 +358,93 @@ WilsonKernels<ZWilsonImplDF>::AsmDhopSiteExt(StencilView &st, DoubledGaugeFieldV
#define INTERIOR_AND_EXTERIOR
#undef INTERIOR
#undef EXTERIOR
#pragma GCC optimize ("-O3", "-fno-schedule-insns", "-fno-schedule-insns2")
template<> void
WilsonKernels<WilsonImplD>::AsmDhopSiteDag(StencilView &st, DoubledGaugeFieldView &U, SiteHalfSpinor *buf,
int ss,int ssU,int Ls,int Ns,const FermionFieldView &in, FermionFieldView &out)
#if defined (WILSONKERNELSASMBODYA64FX)
#include <qcd/action/fermion/implementation/WilsonKernelsAsmBodyA64FX.h>
#else
#include <qcd/action/fermion/implementation/WilsonKernelsAsmBody.h>
#endif
#pragma GCC optimize ("-O3", "-fno-schedule-insns", "-fno-schedule-insns2")
template<> void
WilsonKernels<ZWilsonImplD>::AsmDhopSiteDag(StencilView &st, DoubledGaugeFieldView &U, SiteHalfSpinor *buf,
int ss,int ssU,int Ls,int Ns,const FermionFieldView &in, FermionFieldView &out)
#if defined (WILSONKERNELSASMBODYA64FX)
#include <qcd/action/fermion/implementation/WilsonKernelsAsmBodyA64FX.h>
#else
#include <qcd/action/fermion/implementation/WilsonKernelsAsmBody.h>
#endif
#pragma GCC optimize ("-O3", "-fno-schedule-insns", "-fno-schedule-insns2")
template<> void
WilsonKernels<WilsonImplDF>::AsmDhopSiteDag(StencilView &st, DoubledGaugeFieldView &U, SiteHalfSpinor *buf,
int ss,int ssU,int Ls,int Ns,const FermionFieldView &in, FermionFieldView &out)
#if defined (WILSONKERNELSASMBODYA64FX)
#include <qcd/action/fermion/implementation/WilsonKernelsAsmBodyA64FX.h>
#else
#include <qcd/action/fermion/implementation/WilsonKernelsAsmBody.h>
#endif
#pragma GCC optimize ("-O3", "-fno-schedule-insns", "-fno-schedule-insns2")
template<> void
WilsonKernels<ZWilsonImplDF>::AsmDhopSiteDag(StencilView &st, DoubledGaugeFieldView &U, SiteHalfSpinor *buf,
int ss,int ssU,int Ls,int Ns,const FermionFieldView &in, FermionFieldView &out)
#if defined (WILSONKERNELSASMBODYA64FX)
#include <qcd/action/fermion/implementation/WilsonKernelsAsmBodyA64FX.h>
#else
#include <qcd/action/fermion/implementation/WilsonKernelsAsmBody.h>
#endif
#undef INTERIOR_AND_EXTERIOR
#define INTERIOR
#undef EXTERIOR
#pragma GCC optimize ("-O3", "-fno-schedule-insns", "-fno-schedule-insns2")
template<> void
WilsonKernels<WilsonImplD>::AsmDhopSiteDagInt(StencilView &st, DoubledGaugeFieldView &U, SiteHalfSpinor *buf,
int ss,int ssU,int Ls,int Ns,const FermionFieldView &in, FermionFieldView &out)
#if defined (WILSONKERNELSASMBODYA64FX)
#include <qcd/action/fermion/implementation/WilsonKernelsAsmBodyA64FX.h>
#else
#include <qcd/action/fermion/implementation/WilsonKernelsAsmBody.h>
#endif
#pragma GCC optimize ("-O3", "-fno-schedule-insns", "-fno-schedule-insns2")
template<> void
WilsonKernels<ZWilsonImplD>::AsmDhopSiteDagInt(StencilView &st, DoubledGaugeFieldView &U, SiteHalfSpinor *buf,
int ss,int ssU,int Ls,int Ns,const FermionFieldView &in, FermionFieldView &out)
#if defined (WILSONKERNELSASMBODYA64FX)
#include <qcd/action/fermion/implementation/WilsonKernelsAsmBodyA64FX.h>
#else
#include <qcd/action/fermion/implementation/WilsonKernelsAsmBody.h>
#endif
#pragma GCC optimize ("-O3", "-fno-schedule-insns", "-fno-schedule-insns2")
template<> void
WilsonKernels<WilsonImplDF>::AsmDhopSiteDagInt(StencilView &st, DoubledGaugeFieldView &U, SiteHalfSpinor *buf,
int ss,int ssU,int Ls,int Ns,const FermionFieldView &in, FermionFieldView &out)
#if defined (WILSONKERNELSASMBODYA64FX)
#include <qcd/action/fermion/implementation/WilsonKernelsAsmBodyA64FX.h>
#else
#include <qcd/action/fermion/implementation/WilsonKernelsAsmBody.h>
#endif
#pragma GCC optimize ("-O3", "-fno-schedule-insns", "-fno-schedule-insns2")
template<> void
WilsonKernels<ZWilsonImplDF>::AsmDhopSiteDagInt(StencilView &st, DoubledGaugeFieldView &U, SiteHalfSpinor *buf,
int ss,int ssU,int Ls,int Ns,const FermionFieldView &in, FermionFieldView &out)
#if defined (WILSONKERNELSASMBODYA64FX)
#include <qcd/action/fermion/implementation/WilsonKernelsAsmBodyA64FX.h>
#else
#include <qcd/action/fermion/implementation/WilsonKernelsAsmBody.h>
#endif
#undef INTERIOR_AND_EXTERIOR
#undef INTERIOR
#define EXTERIOR
#pragma GCC optimize ("-O3", "-fno-schedule-insns", "-fno-schedule-insns2")
template<> void
WilsonKernels<WilsonImplD>::AsmDhopSiteDagExt(StencilView &st, DoubledGaugeFieldView &U, SiteHalfSpinor *buf,
int ss,int ssU,int Ls,int Ns,const FermionFieldView &in, FermionFieldView &out)
#if defined (WILSONKERNELSASMBODYA64FX)
#include <qcd/action/fermion/implementation/WilsonKernelsAsmBodyA64FX.h>
#else
#include <qcd/action/fermion/implementation/WilsonKernelsAsmBody.h>
#endif
#pragma GCC optimize ("-O3", "-fno-schedule-insns", "-fno-schedule-insns2")
template<> void
WilsonKernels<ZWilsonImplD>::AsmDhopSiteDagExt(StencilView &st, DoubledGaugeFieldView &U, SiteHalfSpinor *buf,
int ss,int ssU,int Ls,int Ns,const FermionFieldView &in, FermionFieldView &out)
#if defined (WILSONKERNELSASMBODYA64FX)
#include <qcd/action/fermion/implementation/WilsonKernelsAsmBodyA64FX.h>
#else
#include <qcd/action/fermion/implementation/WilsonKernelsAsmBody.h>
#endif
#pragma GCC optimize ("-O3", "-fno-schedule-insns", "-fno-schedule-insns2")
template<> void
WilsonKernels<WilsonImplDF>::AsmDhopSiteDagExt(StencilView &st, DoubledGaugeFieldView &U, SiteHalfSpinor *buf,
int ss,int ssU,int Ls,int Ns,const FermionFieldView &in, FermionFieldView &out)
#if defined (WILSONKERNELSASMBODYA64FX)
#include <qcd/action/fermion/implementation/WilsonKernelsAsmBodyA64FX.h>
#else
#include <qcd/action/fermion/implementation/WilsonKernelsAsmBody.h>
#endif
#pragma GCC optimize ("-O3", "-fno-schedule-insns", "-fno-schedule-insns2")
template<> void
WilsonKernels<ZWilsonImplDF>::AsmDhopSiteDagExt(StencilView &st, DoubledGaugeFieldView &U, SiteHalfSpinor *buf,
int ss,int ssU,int Ls,int Ns,const FermionFieldView &in, FermionFieldView &out)
#if defined (WILSONKERNELSASMBODYA64FX)
#include <qcd/action/fermion/implementation/WilsonKernelsAsmBodyA64FX.h>
#else
#include <qcd/action/fermion/implementation/WilsonKernelsAsmBody.h>
#endif
// undefs
#undef WILSONKERNELSASMBODYA64FX
#include <simd/Fujitsu_A64FX_undef.h>
#endif //A64FXASM

101
Grid/qcd/action/fermion/implementation/WilsonKernelsAsmBodyA64FX.h
View File

@@ -25,6 +25,11 @@ Author: Nils Meyer <nils.meyer@ur.de> Regensburg University
See the full license in the file "LICENSE" in the top level distribution directory
*************************************************************************************/
/* END LEGAL */
// GCC 10 messes up SVE instruction scheduling using -O3, but
// -O3 -fno-schedule-insns -fno-schedule-insns2 does wonders
// performance now is better than armclang 20.2
#ifdef KERNEL_DAG
#define DIR0_PROJ XP_PROJ
#define DIR1_PROJ YP_PROJ
@@ -97,7 +102,7 @@ Author: Nils Meyer <nils.meyer@ur.de> Regensburg University
PROJ; \
MAYBEPERM(PERMUTE_DIR,perm); \
} else { \
LOAD_CHI(base); \
LOAD_CHI(base); \
} \
base = st.GetInfo(ptype,local,perm,NxtDir,ent,plocal); ent++; \
MULT_2SPIN_1(Dir); \
@@ -110,6 +115,11 @@ Author: Nils Meyer <nils.meyer@ur.de> Regensburg University
} \
RECON; \
/*
NB: picking PREFETCH_GAUGE_L2(Dir+4); here results in performance penalty
though I expected that it would improve on performance
*/
#define ASM_LEG_XP(Dir,NxtDir,PERMUTE_DIR,PROJ,RECON) \
base = st.GetInfo(ptype,local,perm,Dir,ent,plocal); ent++; \
PREFETCH1_CHIMU(base); \
@@ -126,73 +136,63 @@ Author: Nils Meyer <nils.meyer@ur.de> Regensburg University
#define ASM_LEG(Dir,NxtDir,PERMUTE_DIR,PROJ,RECON) \
basep = st.GetPFInfo(nent,plocal); nent++; \
if ( local ) { \
LOAD_CHIMU(base); \
LOAD_TABLE(PERMUTE_DIR); \
PROJ; \
MAYBEPERM(PERMUTE_DIR,perm); \
}else if ( st.same_node[Dir] ) {LOAD_CHI(base);} \
base = st.GetInfo(ptype,local,perm,NxtDir,ent,plocal); ent++; \
if ( local || st.same_node[Dir] ) { \
MULT_2SPIN_1(Dir); \
PREFETCH_CHIMU(base); \
/* PREFETCH_GAUGE_L1(NxtDir); */ \
MULT_2SPIN_2; \
if (s == 0) { \
if ((Dir == 0) || (Dir == 4)) { PREFETCH_GAUGE_L2(Dir); } \
} \
RECON; \
PREFETCH_CHIMU_L2(basep); \
} else { PREFETCH_CHIMU(base); } \
if ( local ) { \
LOAD_CHIMU(base); \
LOAD_TABLE(PERMUTE_DIR); \
PROJ; \
MAYBEPERM(PERMUTE_DIR,perm); \
}else if ( st.same_node[Dir] ) {LOAD_CHI(base);} \
if ( local || st.same_node[Dir] ) { \
MULT_2SPIN_1(Dir); \
MULT_2SPIN_2; \
RECON; \
} \
base = st.GetInfo(ptype,local,perm,NxtDir,ent,plocal); ent++; \
PREFETCH_CHIMU(base); \
PREFETCH_CHIMU_L2(basep); \
#define ASM_LEG_XP(Dir,NxtDir,PERMUTE_DIR,PROJ,RECON) \
base = st.GetInfo(ptype,local,perm,Dir,ent,plocal); ent++; \
PREFETCH1_CHIMU(base); \
{ ZERO_PSI; } \
ASM_LEG(Dir,NxtDir,PERMUTE_DIR,PROJ,RECON)
#define RESULT(base,basep) SAVE_RESULT(base,basep);
#endif
////////////////////////////////////////////////////////////////////////////////
// Post comms kernel
////////////////////////////////////////////////////////////////////////////////
#ifdef EXTERIOR
#define ASM_LEG(Dir,NxtDir,PERMUTE_DIR,PROJ,RECON) \
base = st.GetInfo(ptype,local,perm,Dir,ent,plocal); ent++; \
if((!local)&&(!st.same_node[Dir]) ) { \
LOAD_CHI(base); \
base = st.GetInfo(ptype,local,perm,Dir,ent,plocal); ent++; \
if((!local)&&(!st.same_node[Dir]) ) { \
LOAD_CHI(base); \
MULT_2SPIN_1(Dir); \
PREFETCH_CHIMU(base); \
/* PREFETCH_GAUGE_L1(NxtDir); */ \
MULT_2SPIN_2; \
if (s == 0) { \
if ((Dir == 0) || (Dir == 4)) { PREFETCH_GAUGE_L2(Dir); } \
} \
RECON; \
nmu++; \
RECON; \
nmu++; \
}
#define ASM_LEG_XP(Dir,NxtDir,PERMUTE_DIR,PROJ,RECON) \
nmu=0; \
base = st.GetInfo(ptype,local,perm,Dir,ent,plocal); ent++;\
if((!local)&&(!st.same_node[Dir]) ) { \
LOAD_CHI(base); \
#define ASM_LEG_XP(Dir,NxtDir,PERMUTE_DIR,PROJ,RECON) \
nmu=0; \
{ ZERO_PSI;} \
base = st.GetInfo(ptype,local,perm,Dir,ent,plocal); ent++; \
if((!local)&&(!st.same_node[Dir]) ) { \
LOAD_CHI(base); \
MULT_2SPIN_1(Dir); \
PREFETCH_CHIMU(base); \
/* PREFETCH_GAUGE_L1(NxtDir); */ \
MULT_2SPIN_2; \
if (s == 0) { \
if ((Dir == 0) || (Dir == 4)) { PREFETCH_GAUGE_L2(Dir); } \
} \
RECON; \
nmu++; \
RECON; \
nmu++; \
}
#define RESULT(base,basep) if (nmu){ ADD_RESULT(base,base);}
#endif
{
int nmu;
int local,perm, ptype;
@@ -209,7 +209,6 @@ Author: Nils Meyer <nils.meyer@ur.de> Regensburg University
int ssn=ssU+1; if(ssn>=nmax) ssn=0;
// int sUn=lo.Reorder(ssn);
int sUn=ssn;
LOCK_GAUGE(0);
#else
int sU =ssU;
int ssn=ssU+1; if(ssn>=nmax) ssn=0;
@@ -295,6 +294,11 @@ Author: Nils Meyer <nils.meyer@ur.de> Regensburg University
std::cout << "----------------------------------------------------" << std::endl;
#endif
// DC ZVA test
// { uint64_t basestore = (uint64_t)&out[ss];
// PREFETCH_RESULT_L2_STORE(basestore); }
ASM_LEG(Ym,Zm,PERMUTE_DIR2,DIR5_PROJ,DIR5_RECON);
#ifdef SHOW
@@ -308,6 +312,11 @@ Author: Nils Meyer <nils.meyer@ur.de> Regensburg University
std::cout << "----------------------------------------------------" << std::endl;
#endif
// DC ZVA test
//{ uint64_t basestore = (uint64_t)&out[ss];
// PREFETCH_RESULT_L2_STORE(basestore); }
ASM_LEG(Zm,Tm,PERMUTE_DIR1,DIR6_PROJ,DIR6_RECON);
#ifdef SHOW
@@ -321,6 +330,11 @@ Author: Nils Meyer <nils.meyer@ur.de> Regensburg University
std::cout << "----------------------------------------------------" << std::endl;
#endif
// DC ZVA test
//{ uint64_t basestore = (uint64_t)&out[ss];
// PREFETCH_RESULT_L2_STORE(basestore); }
ASM_LEG(Tm,Xp,PERMUTE_DIR0,DIR7_PROJ,DIR7_RECON);
#ifdef SHOW
@@ -341,6 +355,7 @@ Author: Nils Meyer <nils.meyer@ur.de> Regensburg University
base = (uint64_t) &out[ss];
basep= st.GetPFInfo(nent,plocal); ent++;
basep = (uint64_t) &out[ssn];
//PREFETCH_RESULT_L1_STORE(base);
RESULT(base,basep);
#ifdef SHOW

319
Grid/qcd/action/fermion/implementation/WilsonKernelsHandImplementation.h
View File

@@ -76,7 +76,24 @@ Author: paboyle <paboyle@ph.ed.ac.uk>
#define REGISTER
#define LOAD_CHIMU \
#ifdef GRID_SIMT
#define LOAD_CHIMU(ptype) \
{const SiteSpinor & ref (in[offset]); \
Chimu_00=coalescedReadPermute<ptype>(ref()(0)(0),perm,lane); \
Chimu_01=coalescedReadPermute<ptype>(ref()(0)(1),perm,lane); \
Chimu_02=coalescedReadPermute<ptype>(ref()(0)(2),perm,lane); \
Chimu_10=coalescedReadPermute<ptype>(ref()(1)(0),perm,lane); \
Chimu_11=coalescedReadPermute<ptype>(ref()(1)(1),perm,lane); \
Chimu_12=coalescedReadPermute<ptype>(ref()(1)(2),perm,lane); \
Chimu_20=coalescedReadPermute<ptype>(ref()(2)(0),perm,lane); \
Chimu_21=coalescedReadPermute<ptype>(ref()(2)(1),perm,lane); \
Chimu_22=coalescedReadPermute<ptype>(ref()(2)(2),perm,lane); \
Chimu_30=coalescedReadPermute<ptype>(ref()(3)(0),perm,lane); \
Chimu_31=coalescedReadPermute<ptype>(ref()(3)(1),perm,lane); \
Chimu_32=coalescedReadPermute<ptype>(ref()(3)(2),perm,lane); }
#define PERMUTE_DIR(dir) ;
#else
#define LOAD_CHIMU(ptype) \
{const SiteSpinor & ref (in[offset]); \
Chimu_00=ref()(0)(0);\
Chimu_01=ref()(0)(1);\
@@ -91,55 +108,55 @@ Author: paboyle <paboyle@ph.ed.ac.uk>
Chimu_31=ref()(3)(1);\
Chimu_32=ref()(3)(2);}
#define LOAD_CHI\
{const SiteHalfSpinor &ref(buf[offset]); \
Chi_00 = ref()(0)(0);\
Chi_01 = ref()(0)(1);\
Chi_02 = ref()(0)(2);\
Chi_10 = ref()(1)(0);\
Chi_11 = ref()(1)(1);\
Chi_12 = ref()(1)(2);}
// To splat or not to splat depends on the implementation
#define MULT_2SPIN(A)\
{auto & ref(U[sU](A)); \
Impl::loadLinkElement(U_00,ref()(0,0)); \
Impl::loadLinkElement(U_10,ref()(1,0)); \
Impl::loadLinkElement(U_20,ref()(2,0)); \
Impl::loadLinkElement(U_01,ref()(0,1)); \
Impl::loadLinkElement(U_11,ref()(1,1)); \
Impl::loadLinkElement(U_21,ref()(2,1)); \
UChi_00 = U_00*Chi_00;\
UChi_10 = U_00*Chi_10;\
UChi_01 = U_10*Chi_00;\
UChi_11 = U_10*Chi_10;\
UChi_02 = U_20*Chi_00;\
UChi_12 = U_20*Chi_10;\
UChi_00+= U_01*Chi_01;\
UChi_10+= U_01*Chi_11;\
UChi_01+= U_11*Chi_01;\
UChi_11+= U_11*Chi_11;\
UChi_02+= U_21*Chi_01;\
UChi_12+= U_21*Chi_11;\
Impl::loadLinkElement(U_00,ref()(0,2)); \
Impl::loadLinkElement(U_10,ref()(1,2)); \
Impl::loadLinkElement(U_20,ref()(2,2)); \
UChi_00+= U_00*Chi_02;\
UChi_10+= U_00*Chi_12;\
UChi_01+= U_10*Chi_02;\
UChi_11+= U_10*Chi_12;\
UChi_02+= U_20*Chi_02;\
UChi_12+= U_20*Chi_12;}
#define PERMUTE_DIR(dir) \
permute##dir(Chi_00,Chi_00);\
permute##dir(Chi_00,Chi_00); \
permute##dir(Chi_01,Chi_01);\
permute##dir(Chi_02,Chi_02);\
permute##dir(Chi_10,Chi_10);\
permute##dir(Chi_10,Chi_10); \
permute##dir(Chi_11,Chi_11);\
permute##dir(Chi_12,Chi_12);
#endif
#define MULT_2SPIN(A)\
{auto & ref(U[sU](A)); \
U_00=coalescedRead(ref()(0,0),lane); \
U_10=coalescedRead(ref()(1,0),lane); \
U_20=coalescedRead(ref()(2,0),lane); \
U_01=coalescedRead(ref()(0,1),lane); \
U_11=coalescedRead(ref()(1,1),lane); \
U_21=coalescedRead(ref()(2,1),lane); \
UChi_00 = U_00*Chi_00; \
UChi_10 = U_00*Chi_10; \
UChi_01 = U_10*Chi_00; \
UChi_11 = U_10*Chi_10; \
UChi_02 = U_20*Chi_00; \
UChi_12 = U_20*Chi_10; \
UChi_00+= U_01*Chi_01; \
UChi_10+= U_01*Chi_11; \
UChi_01+= U_11*Chi_01; \
UChi_11+= U_11*Chi_11; \
UChi_02+= U_21*Chi_01; \
UChi_12+= U_21*Chi_11; \
U_00=coalescedRead(ref()(0,2),lane); \
U_10=coalescedRead(ref()(1,2),lane); \
U_20=coalescedRead(ref()(2,2),lane); \
UChi_00+= U_00*Chi_02; \
UChi_10+= U_00*Chi_12; \
UChi_01+= U_10*Chi_02; \
UChi_11+= U_10*Chi_12; \
UChi_02+= U_20*Chi_02; \
UChi_12+= U_20*Chi_12;}
#define LOAD_CHI \
{const SiteHalfSpinor &ref(buf[offset]); \
Chi_00 = coalescedRead(ref()(0)(0),lane); \
Chi_01 = coalescedRead(ref()(0)(1),lane); \
Chi_02 = coalescedRead(ref()(0)(2),lane); \
Chi_10 = coalescedRead(ref()(1)(0),lane); \
Chi_11 = coalescedRead(ref()(1)(1),lane); \
Chi_12 = coalescedRead(ref()(1)(2),lane);}
// hspin(0)=fspin(0)+timesI(fspin(3));
// hspin(1)=fspin(1)+timesI(fspin(2));
#define XP_PROJ \
@@ -353,13 +370,13 @@ Author: paboyle <paboyle@ph.ed.ac.uk>
result_31-= UChi_11; \
result_32-= UChi_12;
#define HAND_STENCIL_LEG(PROJ,PERM,DIR,RECON) \
#define HAND_STENCIL_LEGB(PROJ,PERM,DIR,RECON) \
SE=st.GetEntry(ptype,DIR,ss); \
offset = SE->_offset; \
local = SE->_is_local; \
perm = SE->_permute; \
if ( local ) { \
LOAD_CHIMU; \
LOAD_CHIMU(PERM); \
PROJ; \
if ( perm) { \
PERMUTE_DIR(PERM); \
@@ -367,6 +384,37 @@ Author: paboyle <paboyle@ph.ed.ac.uk>
} else { \
LOAD_CHI; \
} \
acceleratorSynchronise(); \
MULT_2SPIN(DIR); \
RECON;
#define HAND_STENCIL_LEG(PROJ,PERM,DIR,RECON) \
SE=&st_p[DIR+8*ss]; \
ptype=st_perm[DIR]; \
offset = SE->_offset; \
local = SE->_is_local; \
perm = SE->_permute; \
if ( local ) { \
LOAD_CHIMU(PERM); \
PROJ; \
if ( perm) { \
PERMUTE_DIR(PERM); \
} \
} else { \
LOAD_CHI; \
} \
acceleratorSynchronise(); \
MULT_2SPIN(DIR); \
RECON;
#define HAND_STENCIL_LEGA(PROJ,PERM,DIR,RECON) \
SE=&st_p[DIR+8*ss]; \
ptype=st_perm[DIR]; \
/*SE=st.GetEntry(ptype,DIR,ss);*/ \
offset = SE->_offset; \
perm = SE->_permute; \
LOAD_CHIMU(PERM); \
PROJ; \
MULT_2SPIN(DIR); \
RECON;
@@ -376,7 +424,7 @@ Author: paboyle <paboyle@ph.ed.ac.uk>
local = SE->_is_local; \
perm = SE->_permute; \
if ( local ) { \
LOAD_CHIMU; \
LOAD_CHIMU(PERM); \
PROJ; \
if ( perm) { \
PERMUTE_DIR(PERM); \
@@ -384,10 +432,12 @@ Author: paboyle <paboyle@ph.ed.ac.uk>
} else if ( st.same_node[DIR] ) { \
LOAD_CHI; \
} \
acceleratorSynchronise(); \
if (local || st.same_node[DIR] ) { \
MULT_2SPIN(DIR); \
RECON; \
}
} \
acceleratorSynchronise();
#define HAND_STENCIL_LEG_EXT(PROJ,PERM,DIR,RECON) \
SE=st.GetEntry(ptype,DIR,ss); \
@@ -397,44 +447,44 @@ Author: paboyle <paboyle@ph.ed.ac.uk>
MULT_2SPIN(DIR); \
RECON; \
nmu++; \
}
} \
acceleratorSynchronise();
#define HAND_RESULT(ss) \
{ \
SiteSpinor & ref (out[ss]); \
vstream(ref()(0)(0),result_00); \
vstream(ref()(0)(1),result_01); \
vstream(ref()(0)(2),result_02); \
vstream(ref()(1)(0),result_10); \
vstream(ref()(1)(1),result_11); \
vstream(ref()(1)(2),result_12); \
vstream(ref()(2)(0),result_20); \
vstream(ref()(2)(1),result_21); \
vstream(ref()(2)(2),result_22); \
vstream(ref()(3)(0),result_30); \
vstream(ref()(3)(1),result_31); \
vstream(ref()(3)(2),result_32); \
SiteSpinor & ref (out[ss]); \
coalescedWrite(ref()(0)(0),result_00,lane); \
coalescedWrite(ref()(0)(1),result_01,lane); \
coalescedWrite(ref()(0)(2),result_02,lane); \
coalescedWrite(ref()(1)(0),result_10,lane); \
coalescedWrite(ref()(1)(1),result_11,lane); \
coalescedWrite(ref()(1)(2),result_12,lane); \
coalescedWrite(ref()(2)(0),result_20,lane); \
coalescedWrite(ref()(2)(1),result_21,lane); \
coalescedWrite(ref()(2)(2),result_22,lane); \
coalescedWrite(ref()(3)(0),result_30,lane); \
coalescedWrite(ref()(3)(1),result_31,lane); \
coalescedWrite(ref()(3)(2),result_32,lane); \
}
#define HAND_RESULT_EXT(ss) \
if (nmu){ \
SiteSpinor & ref (out[ss]); \
ref()(0)(0)+=result_00; \
ref()(0)(1)+=result_01; \
ref()(0)(2)+=result_02; \
ref()(1)(0)+=result_10; \
ref()(1)(1)+=result_11; \
ref()(1)(2)+=result_12; \
ref()(2)(0)+=result_20; \
ref()(2)(1)+=result_21; \
ref()(2)(2)+=result_22; \
ref()(3)(0)+=result_30; \
ref()(3)(1)+=result_31; \
ref()(3)(2)+=result_32; \
#define HAND_RESULT_EXT(ss) \
{ \
SiteSpinor & ref (out[ss]); \
coalescedWrite(ref()(0)(0),coalescedRead(ref()(0)(0))+result_00,lane); \
coalescedWrite(ref()(0)(1),coalescedRead(ref()(0)(1))+result_01,lane); \
coalescedWrite(ref()(0)(2),coalescedRead(ref()(0)(2))+result_02,lane); \
coalescedWrite(ref()(1)(0),coalescedRead(ref()(1)(0))+result_10,lane); \
coalescedWrite(ref()(1)(1),coalescedRead(ref()(1)(1))+result_11,lane); \
coalescedWrite(ref()(1)(2),coalescedRead(ref()(1)(2))+result_12,lane); \
coalescedWrite(ref()(2)(0),coalescedRead(ref()(2)(0))+result_20,lane); \
coalescedWrite(ref()(2)(1),coalescedRead(ref()(2)(1))+result_21,lane); \
coalescedWrite(ref()(2)(2),coalescedRead(ref()(2)(2))+result_22,lane); \
coalescedWrite(ref()(3)(0),coalescedRead(ref()(3)(0))+result_30,lane); \
coalescedWrite(ref()(3)(1),coalescedRead(ref()(3)(1))+result_31,lane); \
coalescedWrite(ref()(3)(2),coalescedRead(ref()(3)(2))+result_32,lane); \
}
#define HAND_DECLARATIONS(a) \
#define HAND_DECLARATIONS(Simd) \
Simd result_00; \
Simd result_01; \
Simd result_02; \
@@ -466,19 +516,19 @@ Author: paboyle <paboyle@ph.ed.ac.uk>
Simd U_11; \
Simd U_21;
#define ZERO_RESULT \
result_00=Zero(); \
result_01=Zero(); \
result_02=Zero(); \
result_10=Zero(); \
result_11=Zero(); \
result_12=Zero(); \
result_20=Zero(); \
result_21=Zero(); \
result_22=Zero(); \
result_30=Zero(); \
result_31=Zero(); \
result_32=Zero();
#define ZERO_RESULT \
zeroit(result_00); \
zeroit(result_01); \
zeroit(result_02); \
zeroit(result_10); \
zeroit(result_11); \
zeroit(result_12); \
zeroit(result_20); \
zeroit(result_21); \
zeroit(result_22); \
zeroit(result_30); \
zeroit(result_31); \
zeroit(result_32);
#define Chimu_00 Chi_00
#define Chimu_01 Chi_01
@@ -495,15 +545,53 @@ Author: paboyle <paboyle@ph.ed.ac.uk>
NAMESPACE_BEGIN(Grid);
#ifdef SYCL_HACK
template<class Impl> accelerator_inline void
WilsonKernels<Impl>::HandDhopSite(StencilView &st, DoubledGaugeFieldView &U,SiteHalfSpinor *buf,
int ss,int sU,const FermionFieldView &in, FermionFieldView &out)
WilsonKernels<Impl>::HandDhopSiteSycl(StencilVector st_perm,StencilEntry *st_p, SiteDoubledGaugeField *U,SiteHalfSpinor *buf,
int ss,int sU,const SiteSpinor *in, SiteSpinor *out)
{
// T==0, Z==1, Y==2, Z==3 expect 1,2,2,2 simd layout etc...
typedef typename Simd::scalar_type S;
typedef typename Simd::vector_type V;
typedef iSinglet<Simd> vCplx;
// typedef decltype( coalescedRead( vCplx()()() )) Simt;
typedef decltype( coalescedRead( in[0]()(0)(0) )) Simt;
HAND_DECLARATIONS(ignore);
const int Nsimd = SiteHalfSpinor::Nsimd();
const int lane=acceleratorSIMTlane(Nsimd);
HAND_DECLARATIONS(Simt);
int offset,local,perm, ptype;
StencilEntry *SE;
HAND_STENCIL_LEG(XM_PROJ,3,Xp,XM_RECON);
HAND_STENCIL_LEG(YM_PROJ,2,Yp,YM_RECON_ACCUM);
HAND_STENCIL_LEG(ZM_PROJ,1,Zp,ZM_RECON_ACCUM);
HAND_STENCIL_LEG(TM_PROJ,0,Tp,TM_RECON_ACCUM);
HAND_STENCIL_LEG(XP_PROJ,3,Xm,XP_RECON_ACCUM);
HAND_STENCIL_LEG(YP_PROJ,2,Ym,YP_RECON_ACCUM);
HAND_STENCIL_LEG(ZP_PROJ,1,Zm,ZP_RECON_ACCUM);
HAND_STENCIL_LEG(TP_PROJ,0,Tm,TP_RECON_ACCUM);
HAND_RESULT(ss);
}
#endif
template<class Impl> accelerator_inline void
WilsonKernels<Impl>::HandDhopSite(StencilView &st, DoubledGaugeFieldView &U,SiteHalfSpinor *buf,
int ss,int sU,const FermionFieldView &in, FermionFieldView &out)
{
auto st_p = st._entries_p;
auto st_perm = st._permute_type;
// T==0, Z==1, Y==2, Z==3 expect 1,2,2,2 simd layout etc...
typedef typename Simd::scalar_type S;
typedef typename Simd::vector_type V;
typedef decltype( coalescedRead( in[0]()(0)(0) )) Simt;
const int Nsimd = SiteHalfSpinor::Nsimd();
const int lane=acceleratorSIMTlane(Nsimd);
HAND_DECLARATIONS(Simt);
int offset,local,perm, ptype;
StencilEntry *SE;
@@ -523,10 +611,16 @@ template<class Impl> accelerator_inline
void WilsonKernels<Impl>::HandDhopSiteDag(StencilView &st,DoubledGaugeFieldView &U,SiteHalfSpinor *buf,
int ss,int sU,const FermionFieldView &in, FermionFieldView &out)
{
auto st_p = st._entries_p;
auto st_perm = st._permute_type;
typedef typename Simd::scalar_type S;
typedef typename Simd::vector_type V;
typedef decltype( coalescedRead( in[0]()(0)(0) )) Simt;
HAND_DECLARATIONS(ignore);
const int Nsimd = SiteHalfSpinor::Nsimd();
const int lane=acceleratorSIMTlane(Nsimd);
HAND_DECLARATIONS(Simt);
StencilEntry *SE;
int offset,local,perm, ptype;
@@ -546,11 +640,17 @@ template<class Impl> accelerator_inline void
WilsonKernels<Impl>::HandDhopSiteInt(StencilView &st,DoubledGaugeFieldView &U,SiteHalfSpinor *buf,
int ss,int sU,const FermionFieldView &in, FermionFieldView &out)
{
auto st_p = st._entries_p;
auto st_perm = st._permute_type;
// T==0, Z==1, Y==2, Z==3 expect 1,2,2,2 simd layout etc...
typedef typename Simd::scalar_type S;
typedef typename Simd::vector_type V;
typedef decltype( coalescedRead( in[0]()(0)(0) )) Simt;
HAND_DECLARATIONS(ignore);
const int Nsimd = SiteHalfSpinor::Nsimd();
const int lane=acceleratorSIMTlane(Nsimd);
HAND_DECLARATIONS(Simt);
int offset,local,perm, ptype;
StencilEntry *SE;
@@ -570,10 +670,16 @@ template<class Impl> accelerator_inline
void WilsonKernels<Impl>::HandDhopSiteDagInt(StencilView &st,DoubledGaugeFieldView &U,SiteHalfSpinor *buf,
int ss,int sU,const FermionFieldView &in, FermionFieldView &out)
{
auto st_p = st._entries_p;
auto st_perm = st._permute_type;
typedef typename Simd::scalar_type S;
typedef typename Simd::vector_type V;
typedef decltype( coalescedRead( in[0]()(0)(0) )) Simt;
HAND_DECLARATIONS(ignore);
const int Nsimd = SiteHalfSpinor::Nsimd();
const int lane=acceleratorSIMTlane(Nsimd);
HAND_DECLARATIONS(Simt);
StencilEntry *SE;
int offset,local,perm, ptype;
@@ -593,11 +699,17 @@ template<class Impl> accelerator_inline void
WilsonKernels<Impl>::HandDhopSiteExt(StencilView &st,DoubledGaugeFieldView &U,SiteHalfSpinor *buf,
int ss,int sU,const FermionFieldView &in, FermionFieldView &out)
{
auto st_p = st._entries_p;
auto st_perm = st._permute_type;
// T==0, Z==1, Y==2, Z==3 expect 1,2,2,2 simd layout etc...
typedef typename Simd::scalar_type S;
typedef typename Simd::vector_type V;
typedef decltype( coalescedRead( in[0]()(0)(0) )) Simt;
HAND_DECLARATIONS(ignore);
const int Nsimd = SiteHalfSpinor::Nsimd();
const int lane=acceleratorSIMTlane(Nsimd);
HAND_DECLARATIONS(Simt);
int offset, ptype;
StencilEntry *SE;
@@ -618,10 +730,16 @@ template<class Impl> accelerator_inline
void WilsonKernels<Impl>::HandDhopSiteDagExt(StencilView &st,DoubledGaugeFieldView &U,SiteHalfSpinor *buf,
int ss,int sU,const FermionFieldView &in, FermionFieldView &out)
{
auto st_p = st._entries_p;
auto st_perm = st._permute_type;
typedef typename Simd::scalar_type S;
typedef typename Simd::vector_type V;
typedef decltype( coalescedRead( in[0]()(0)(0) )) Simt;
HAND_DECLARATIONS(ignore);
const int Nsimd = SiteHalfSpinor::Nsimd();
const int lane=acceleratorSIMTlane(Nsimd);
HAND_DECLARATIONS(Simt);
StencilEntry *SE;
int offset, ptype;
@@ -682,3 +800,4 @@ NAMESPACE_END(Grid);
#undef HAND_RESULT
#undef HAND_RESULT_INT
#undef HAND_RESULT_EXT
#undef HAND_DECLARATIONS

32
Grid/qcd/action/fermion/implementation/WilsonKernelsImplementation.h
View File

@@ -416,7 +416,21 @@ void WilsonKernels<Impl>::DhopDirKernel( StencilImpl &st, DoubledGaugeField &U,S
#undef LoopBody
}
#define KERNEL_CALLNB(A) \
#define KERNEL_CALL_TMP(A) \
const uint64_t NN = Nsite*Ls; \
auto U_p = & U_v[0]; \
auto in_p = & in_v[0]; \
auto out_p = & out_v[0]; \
auto st_p = st_v._entries_p; \
auto st_perm = st_v._permute_type; \
accelerator_forNB( ss, NN, Simd::Nsimd(), { \
int sF = ss; \
int sU = ss/Ls; \
WilsonKernels<Impl>::A(st_perm,st_p,U_p,buf,sF,sU,in_p,out_p); \
}); \
accelerator_barrier();
#define KERNEL_CALLNB(A) \
const uint64_t NN = Nsite*Ls; \
accelerator_forNB( ss, NN, Simd::Nsimd(), { \
int sF = ss; \
@@ -445,20 +459,24 @@ void WilsonKernels<Impl>::DhopKernel(int Opt,StencilImpl &st, DoubledGaugeField
if( interior && exterior ) {
if (Opt == WilsonKernelsStatic::OptGeneric ) { KERNEL_CALL(GenericDhopSite); return;}
#ifndef GRID_CUDA
#ifdef SYCL_HACK
if (Opt == WilsonKernelsStatic::OptHandUnroll ) { KERNEL_CALL_TMP(HandDhopSiteSycl); return; }
#else
if (Opt == WilsonKernelsStatic::OptHandUnroll ) { KERNEL_CALL(HandDhopSite); return;}
#endif
#ifndef GRID_CUDA
if (Opt == WilsonKernelsStatic::OptInlineAsm ) { ASM_CALL(AsmDhopSite); return;}
#endif
} else if( interior ) {
if (Opt == WilsonKernelsStatic::OptGeneric ) { KERNEL_CALLNB(GenericDhopSiteInt); return;}
#ifndef GRID_CUDA
if (Opt == WilsonKernelsStatic::OptHandUnroll ) { KERNEL_CALLNB(HandDhopSiteInt); return;}
#ifndef GRID_CUDA
if (Opt == WilsonKernelsStatic::OptInlineAsm ) { ASM_CALL(AsmDhopSiteInt); return;}
#endif
} else if( exterior ) {
if (Opt == WilsonKernelsStatic::OptGeneric ) { KERNEL_CALL(GenericDhopSiteExt); return;}
#ifndef GRID_CUDA
if (Opt == WilsonKernelsStatic::OptHandUnroll ) { KERNEL_CALL(HandDhopSiteExt); return;}
#ifndef GRID_CUDA
if (Opt == WilsonKernelsStatic::OptInlineAsm ) { ASM_CALL(AsmDhopSiteExt); return;}
#endif
}
@@ -476,20 +494,20 @@ void WilsonKernels<Impl>::DhopKernel(int Opt,StencilImpl &st, DoubledGaugeField
if( interior && exterior ) {
if (Opt == WilsonKernelsStatic::OptGeneric ) { KERNEL_CALL(GenericDhopSiteDag); return;}
#ifndef GRID_CUDA
if (Opt == WilsonKernelsStatic::OptHandUnroll ) { KERNEL_CALL(HandDhopSiteDag); return;}
#ifndef GRID_CUDA
if (Opt == WilsonKernelsStatic::OptInlineAsm ) { ASM_CALL(AsmDhopSiteDag); return;}
#endif
} else if( interior ) {
if (Opt == WilsonKernelsStatic::OptGeneric ) { KERNEL_CALL(GenericDhopSiteDagInt); return;}
#ifndef GRID_CUDA
if (Opt == WilsonKernelsStatic::OptHandUnroll ) { KERNEL_CALL(HandDhopSiteDagInt); return;}
#ifndef GRID_CUDA
if (Opt == WilsonKernelsStatic::OptInlineAsm ) { ASM_CALL(AsmDhopSiteDagInt); return;}
#endif
} else if( exterior ) {
if (Opt == WilsonKernelsStatic::OptGeneric ) { KERNEL_CALL(GenericDhopSiteDagExt); return;}
#ifndef GRID_CUDA
if (Opt == WilsonKernelsStatic::OptHandUnroll ) { KERNEL_CALL(HandDhopSiteDagExt); return;}
#ifndef GRID_CUDA
if (Opt == WilsonKernelsStatic::OptInlineAsm ) { ASM_CALL(AsmDhopSiteDagExt); return;}
#endif
}

38
Grid/qcd/action/gauge/Gauge.cc Normal file
View File

@@ -0,0 +1,38 @@
/*************************************************************************************
Grid physics library, www.github.com/paboyle/Grid
Source file: ./lib/qcd/action/gauge/Gauge.cc
Copyright (C) 2020
Author: Peter Boyle <paboyle@ph.ed.ac.uk>
Author: Peter Boyle <peterboyle@Peters-MacBook-Pro-2.local>
Author: paboyle <paboyle@ph.ed.ac.uk>
This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 2 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License along
with this program; if not, write to the Free Software Foundation, Inc.,
51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
See the full license in the file "LICENSE" in the top level distribution
directory
*************************************************************************************/
/* END LEGAL */
#include <Grid/qcd/action/fermion/FermionCore.h>
NAMESPACE_BEGIN(Grid);
std::vector<int> ConjugateGaugeImplBase::_conjDirs;
NAMESPACE_END(Grid);

6
Grid/qcd/action/gauge/GaugeImplTypes.h
View File

@@ -96,7 +96,7 @@ public:
///////////////////////////////////////////////////////////
// Move these to another class
// HMC auxiliary functions
static inline void generate_momenta(Field &P, GridParallelRNG &pRNG)
static inline void generate_momenta(Field &P, GridSerialRNG & sRNG, GridParallelRNG &pRNG)
{
// Zbigniew Srocinsky thesis:
//
@@ -154,6 +154,10 @@ public:
return Hsum.real();
}
static inline void Project(Field &U) {
ProjectSUn(U);
}
static inline void HotConfiguration(GridParallelRNG &pRNG, Field &U) {
SU<Nc>::HotConfiguration(pRNG, U);
}

79
Grid/qcd/action/gauge/GaugeImplementations.h
View File

@@ -59,14 +59,14 @@ public:
}
static inline GaugeLinkField
CovShiftIdentityBackward(const GaugeLinkField &Link, int mu) {
return Cshift(adj(Link), mu, -1);
return PeriodicBC::CovShiftIdentityBackward(Link, mu);
}
static inline GaugeLinkField
CovShiftIdentityForward(const GaugeLinkField &Link, int mu) {
return Link;
return PeriodicBC::CovShiftIdentityForward(Link,mu);
}
static inline GaugeLinkField ShiftStaple(const GaugeLinkField &Link, int mu) {
return Cshift(Link, mu, 1);
return PeriodicBC::ShiftStaple(Link,mu);
}
static inline bool isPeriodicGaugeField(void) { return true; }
@@ -74,7 +74,13 @@ public:
// Composition with smeared link, bc's etc.. probably need multiple inheritance
// Variable precision "S" and variable Nc
template <class GimplTypes> class ConjugateGaugeImpl : public GimplTypes {
class ConjugateGaugeImplBase {
protected:
static std::vector<int> _conjDirs;
};
template <class GimplTypes> class ConjugateGaugeImpl : public GimplTypes, ConjugateGaugeImplBase {
private:
public:
INHERIT_GIMPL_TYPES(GimplTypes);
@@ -84,47 +90,56 @@ public:
////////////////////////////////////////////////////////////////////////////////////////////////////////////
template <class covariant>
static Lattice<covariant> CovShiftForward(const GaugeLinkField &Link, int mu,
const Lattice<covariant> &field) {
return ConjugateBC::CovShiftForward(Link, mu, field);
const Lattice<covariant> &field)
{
assert(_conjDirs.size() == Nd);
if(_conjDirs[mu])
return ConjugateBC::CovShiftForward(Link, mu, field);
else
return PeriodicBC::CovShiftForward(Link, mu, field);
}
template <class covariant>
static Lattice<covariant> CovShiftBackward(const GaugeLinkField &Link, int mu,
const Lattice<covariant> &field) {
return ConjugateBC::CovShiftBackward(Link, mu, field);
const Lattice<covariant> &field)
{
assert(_conjDirs.size() == Nd);
if(_conjDirs[mu])
return ConjugateBC::CovShiftBackward(Link, mu, field);
else
return PeriodicBC::CovShiftBackward(Link, mu, field);
}
static inline GaugeLinkField
CovShiftIdentityBackward(const GaugeLinkField &Link, int mu) {
GridBase *grid = Link.Grid();
int Lmu = grid->GlobalDimensions()[mu] - 1;
Lattice<iScalar<vInteger>> coor(grid);
LatticeCoordinate(coor, mu);
GaugeLinkField tmp(grid);
tmp = adj(Link);
tmp = where(coor == Lmu, conjugate(tmp), tmp);
return Cshift(tmp, mu, -1); // moves towards positive mu
CovShiftIdentityBackward(const GaugeLinkField &Link, int mu)
{
assert(_conjDirs.size() == Nd);
if(_conjDirs[mu])
return ConjugateBC::CovShiftIdentityBackward(Link, mu);
else
return PeriodicBC::CovShiftIdentityBackward(Link, mu);
}
static inline GaugeLinkField
CovShiftIdentityForward(const GaugeLinkField &Link, int mu) {
return Link;
CovShiftIdentityForward(const GaugeLinkField &Link, int mu)
{
assert(_conjDirs.size() == Nd);
if(_conjDirs[mu])
return ConjugateBC::CovShiftIdentityForward(Link,mu);
else
return PeriodicBC::CovShiftIdentityForward(Link,mu);
}
static inline GaugeLinkField ShiftStaple(const GaugeLinkField &Link, int mu) {
GridBase *grid = Link.Grid();
int Lmu = grid->GlobalDimensions()[mu] - 1;
Lattice<iScalar<vInteger>> coor(grid);
LatticeCoordinate(coor, mu);
GaugeLinkField tmp(grid);
tmp = Cshift(Link, mu, 1);
tmp = where(coor == Lmu, conjugate(tmp), tmp);
return tmp;
static inline GaugeLinkField ShiftStaple(const GaugeLinkField &Link, int mu)
{
assert(_conjDirs.size() == Nd);
if(_conjDirs[mu])
return ConjugateBC::ShiftStaple(Link,mu);
else
return PeriodicBC::ShiftStaple(Link,mu);
}
static inline void setDirections(std::vector<int> &conjDirs) { _conjDirs=conjDirs; }
static inline std::vector<int> getDirections(void) { return _conjDirs; }
static inline bool isPeriodicGaugeField(void) { return false; }
};

2
Grid/qcd/action/gauge/PlaqPlusRectangleAction.h
View File

@@ -49,7 +49,7 @@ public:
virtual std::string action_name(){return "PlaqPlusRectangleAction";}
virtual void refresh(const GaugeField &U, GridParallelRNG& pRNG) {}; // noop as no pseudoferms
virtual void refresh(const GaugeField &U, GridSerialRNG &sRNG, GridParallelRNG& pRNG) {}; // noop as no pseudoferms
virtual std::string LogParameters(){
std::stringstream sstream;

3
Grid/qcd/action/gauge/WilsonGaugeAction.h
View File

@@ -54,8 +54,7 @@ public:
return sstream.str();
}
virtual void refresh(const GaugeField &U,
GridParallelRNG &pRNG){}; // noop as no pseudoferms
virtual void refresh(const GaugeField &U, GridSerialRNG &sRNG, GridParallelRNG &pRNG){}; // noop as no pseudoferms
virtual RealD S(const GaugeField &U) {
RealD plaq = WilsonLoops<Gimpl>::avgPlaquette(U);

2
Grid/qcd/action/pseudofermion/ExactOneFlavourRatio.h
View File

@@ -124,7 +124,7 @@ NAMESPACE_BEGIN(Grid);
//
// As a check of rational require \Phi^dag M_{EOFA} \Phi == eta^dag M^-1/2^dag M M^-1/2 eta = eta^dag eta
//
virtual void refresh(const GaugeField& U, GridParallelRNG& pRNG)
virtual void refresh(const GaugeField& U, GridSerialRNG &sRNG, GridParallelRNG& pRNG)
{
Lop.ImportGauge(U);
Rop.ImportGauge(U);

11
Grid/qcd/action/pseudofermion/OneFlavourEvenOddRational.h
View File

@@ -1,4 +1,3 @@
/*************************************************************************************
Grid physics library, www.github.com/paboyle/Grid
@@ -43,8 +42,7 @@ NAMESPACE_BEGIN(Grid);
//
template <class Impl>
class OneFlavourEvenOddRationalPseudoFermionAction
: public Action<typename Impl::GaugeField> {
class OneFlavourEvenOddRationalPseudoFermionAction : public Action<typename Impl::GaugeField> {
public:
INHERIT_IMPL_TYPES(Impl);
@@ -103,7 +101,7 @@ public:
return sstream.str();
}
virtual void refresh(const GaugeField &U, GridParallelRNG &pRNG) {
virtual void refresh(const GaugeField &U, GridSerialRNG &sRNG, GridParallelRNG &pRNG) {
// P(phi) = e^{- phi^dag (MpcdagMpc)^-1/2 phi}
// = e^{- phi^dag (MpcdagMpc)^-1/4 (MpcdagMpc)^-1/4 phi}
// Phi = MpcdagMpc^{1/4} eta
@@ -156,7 +154,10 @@ public:
msCG(Mpc, PhiOdd, Y);
if ( (rand()%param.BoundsCheckFreq)==0 ) {
auto grid = FermOp.FermionGrid();
auto r=rand();
grid->Broadcast(0,r);
if ( (r%param.BoundsCheckFreq)==0 ) {
FermionField gauss(FermOp.FermionRedBlackGrid());
gauss = PhiOdd;
HighBoundCheck(Mpc,gauss,param.hi);

7
Grid/qcd/action/pseudofermion/OneFlavourEvenOddRationalRatio.h
View File

@@ -101,7 +101,7 @@ NAMESPACE_BEGIN(Grid);
}
virtual void refresh(const GaugeField &U, GridParallelRNG& pRNG) {
virtual void refresh(const GaugeField &U, GridSerialRNG &sRNG, GridParallelRNG& pRNG) {
// S_f = chi^dag* P(V^dag*V)/Q(V^dag*V)* N(M^dag*M)/D(M^dag*M)* P(V^dag*V)/Q(V^dag*V)* chi
//
@@ -170,7 +170,10 @@ NAMESPACE_BEGIN(Grid);
msCG_M(MdagM,X,Y);
// Randomly apply rational bounds checks.
if ( (rand()%param.BoundsCheckFreq)==0 ) {
auto grid = NumOp.FermionGrid();
auto r=rand();
grid->Broadcast(0,r);
if ( (r%param.BoundsCheckFreq)==0 ) {
FermionField gauss(NumOp.FermionRedBlackGrid());
gauss = PhiOdd;
HighBoundCheck(MdagM,gauss,param.hi);

7
Grid/qcd/action/pseudofermion/OneFlavourRational.h
View File

@@ -98,7 +98,7 @@ NAMESPACE_BEGIN(Grid);
virtual void refresh(const GaugeField &U, GridParallelRNG& pRNG) {
virtual void refresh(const GaugeField &U, GridSerialRNG &sRNG, GridParallelRNG& pRNG) {
// P(phi) = e^{- phi^dag (MdagM)^-1/2 phi}
@@ -142,7 +142,10 @@ NAMESPACE_BEGIN(Grid);
msCG(MdagMOp,Phi,Y);
if ( (rand()%param.BoundsCheckFreq)==0 ) {
auto grid = FermOp.FermionGrid();
auto r=rand();
grid->Broadcast(0,r);
if ( (r%param.BoundsCheckFreq)==0 ) {
FermionField gauss(FermOp.FermionGrid());
gauss = Phi;
HighBoundCheck(MdagMOp,gauss,param.hi);

7
Grid/qcd/action/pseudofermion/OneFlavourRationalRatio.h
View File

@@ -95,7 +95,7 @@ NAMESPACE_BEGIN(Grid);
}
virtual void refresh(const GaugeField &U, GridParallelRNG& pRNG) {
virtual void refresh(const GaugeField &U, GridSerialRNG &sRNG, GridParallelRNG& pRNG) {
// S_f = chi^dag* P(V^dag*V)/Q(V^dag*V)* N(M^dag*M)/D(M^dag*M)* P(V^dag*V)/Q(V^dag*V)* chi
//
@@ -156,7 +156,10 @@ NAMESPACE_BEGIN(Grid);
msCG_M(MdagM,X,Y);
// Randomly apply rational bounds checks.
if ( (rand()%param.BoundsCheckFreq)==0 ) {
auto grid = NumOp.FermionGrid();
auto r=rand();
grid->Broadcast(0,r);
if ( (r%param.BoundsCheckFreq)==0 ) {
FermionField gauss(NumOp.FermionGrid());
gauss = Phi;
HighBoundCheck(MdagM,gauss,param.hi);

2
Grid/qcd/action/pseudofermion/TwoFlavour.h
View File

@@ -73,7 +73,7 @@ public:
//////////////////////////////////////////////////////////////////////////////////////
// Push the gauge field in to the dops. Assume any BC's and smearing already applied
//////////////////////////////////////////////////////////////////////////////////////
virtual void refresh(const GaugeField &U, GridParallelRNG &pRNG) {
virtual void refresh(const GaugeField &U, GridSerialRNG &sRNG, GridParallelRNG &pRNG) {
// P(phi) = e^{- phi^dag (MdagM)^-1 phi}
// Phi = Mdag eta
// P(eta) = e^{- eta^dag eta}

2
Grid/qcd/action/pseudofermion/TwoFlavourEvenOdd.h
View File

@@ -77,7 +77,7 @@ public:
//////////////////////////////////////////////////////////////////////////////////////
// Push the gauge field in to the dops. Assume any BC's and smearing already applied
//////////////////////////////////////////////////////////////////////////////////////
virtual void refresh(const GaugeField &U, GridParallelRNG& pRNG) {
virtual void refresh(const GaugeField &U, GridSerialRNG &sRNG, GridParallelRNG& pRNG) {
// P(phi) = e^{- phi^dag (MpcdagMpc)^-1 phi}
// Phi = McpDag eta

2
Grid/qcd/action/pseudofermion/TwoFlavourEvenOddRatio.h
View File

@@ -84,7 +84,7 @@ NAMESPACE_BEGIN(Grid);
}
virtual void refresh(const GaugeField &U, GridParallelRNG& pRNG) {
virtual void refresh(const GaugeField &U, GridSerialRNG &sRNG, GridParallelRNG& pRNG) {
// P(phi) = e^{- phi^dag Vpc (MpcdagMpc)^-1 Vpcdag phi}
//

2
Grid/qcd/action/pseudofermion/TwoFlavourRatio.h
View File

@@ -64,7 +64,7 @@ public:
return sstream.str();
}
virtual void refresh(const GaugeField &U, GridParallelRNG& pRNG) {
virtual void refresh(const GaugeField &U, GridSerialRNG &sRNG, GridParallelRNG& pRNG) {
// P(phi) = e^{- phi^dag V (MdagM)^-1 Vdag phi}
//

2
Grid/qcd/action/scalar/ScalarAction.h
View File

@@ -55,7 +55,7 @@ public:
}
virtual std::string action_name() {return "ScalarAction";}
virtual void refresh(const Field &U, GridParallelRNG &pRNG) {} // noop as no pseudoferms
virtual void refresh(const Field &U, GridSerialRNG &sRNG, GridParallelRNG &pRNG) {} // noop as no pseudoferms
virtual RealD S(const Field &p) {
return (mass_square * 0.5 + Nd) * ScalarObs<Impl>::sumphisquared(p) +

12
Grid/qcd/action/scalar/ScalarImpl.h
View File

@@ -27,7 +27,7 @@ public:
typedef Field FermionField;
typedef Field PropagatorField;
static inline void generate_momenta(Field& P, GridParallelRNG& pRNG){
static inline void generate_momenta(Field& P, GridSerialRNG &sRNG, GridParallelRNG& pRNG){
RealD scale = ::sqrt(HMC_MOMENTUM_DENOMINATOR); // CPS/UKQCD momentum rescaling
gaussian(pRNG, P);
P *= scale;
@@ -54,6 +54,10 @@ public:
static inline void ColdConfiguration(GridParallelRNG &pRNG, Field &U) {
U = 1.0;
}
static inline void Project(Field &U) {
return;
}
static void MomentumSpacePropagator(Field &out, RealD m)
{
@@ -147,7 +151,7 @@ public:
out = one / out;
}
static inline void generate_momenta(Field &P, GridParallelRNG &pRNG)
static inline void generate_momenta(Field &P, GridSerialRNG & sRNG, GridParallelRNG &pRNG)
{
RealD scale = ::sqrt(HMC_MOMENTUM_DENOMINATOR); // CPS/UKQCD momentum rescaling
#ifndef USE_FFT_ACCELERATION
@@ -234,6 +238,10 @@ public:
#endif //USE_FFT_ACCELERATION
}
static inline void Project(Field &U) {
return;
}
static inline void HotConfiguration(GridParallelRNG &pRNG, Field &U) {
Group::GaussianFundamentalLieAlgebraMatrix(pRNG, U);
}

2
Grid/qcd/action/scalar/ScalarInteractionAction.h
View File

@@ -77,7 +77,7 @@ public:
virtual std::string action_name() { return "ScalarAction"; }
virtual void refresh(const Field &U, GridParallelRNG &pRNG) {}
virtual void refresh(const Field &U, GridSerialRNG & sRNG, GridParallelRNG &pRNG) {}
virtual RealD S(const Field &p)
{

7
Grid/qcd/hmc/GenericHMCrunner.h
View File

@@ -159,6 +159,13 @@ private:
Resources.GetCheckPointer()->CheckpointRestore(Parameters.StartTrajectory, U,
Resources.GetSerialRNG(),
Resources.GetParallelRNG());
} else {
// others
std::cout << GridLogError << "Unrecognized StartingType\n";
std::cout
<< GridLogError
<< "Valid [HotStart, ColdStart, TepidStart, CheckpointStart]\n";
exit(1);
}
Smearing.set_Field(U);

4
Grid/qcd/hmc/HMC.h
View File

@@ -95,7 +95,7 @@ private:
typedef typename IntegratorType::Field Field;
typedef std::vector< HmcObservable<Field> * > ObsListType;
//pass these from the resource manager
GridSerialRNG &sRNG;
GridParallelRNG &pRNG;
@@ -139,7 +139,7 @@ private:
// Evolution
/////////////////////////////////////////////////////////
RealD evolve_hmc_step(Field &U) {
TheIntegrator.refresh(U, pRNG); // set U and initialize P and phi's
TheIntegrator.refresh(U, sRNG, pRNG); // set U and initialize P and phi's
RealD H0 = TheIntegrator.S(U); // initial state action

3
Grid/qcd/hmc/checkpointers/BaseCheckpointer.h
View File

@@ -74,7 +74,7 @@ public:
conf_file = os.str();
}
}
virtual ~BaseHmcCheckpointer(){};
void check_filename(const std::string &filename){
std::ifstream f(filename.c_str());
if(!f.good()){
@@ -82,7 +82,6 @@ public:
abort();
};
}
virtual void initialize(const CheckpointerParameters &Params) = 0;
virtual void CheckpointRestore(int traj, typename Impl::Field &U,

5
Grid/qcd/hmc/checkpointers/ILDGCheckpointer.h
View File

@@ -45,6 +45,7 @@ private:
public:
INHERIT_GIMPL_TYPES(Implementation);
typedef GaugeStatistics<Implementation> GaugeStats;
ILDGHmcCheckpointer(const CheckpointerParameters &Params_) { initialize(Params_); }
@@ -78,7 +79,7 @@ public:
BinaryIO::writeRNG(sRNG, pRNG, rng, 0,nersc_csum,scidac_csuma,scidac_csumb);
IldgWriter _IldgWriter(grid->IsBoss());
_IldgWriter.open(config);
_IldgWriter.writeConfiguration(U, traj, config, config);
_IldgWriter.writeConfiguration<GaugeStats>(U, traj, config, config);
_IldgWriter.close();
std::cout << GridLogMessage << "Written ILDG Configuration on " << config
@@ -105,7 +106,7 @@ public:
FieldMetaData header;
IldgReader _IldgReader;
_IldgReader.open(config);
_IldgReader.readConfiguration(U,header); // format from the header
_IldgReader.readConfiguration<GaugeStats>(U,header); // format from the header
_IldgReader.close();
std::cout << GridLogMessage << "Read ILDG Configuration from " << config

7
Grid/qcd/hmc/checkpointers/NerscCheckpointer.h
View File

@@ -43,7 +43,8 @@ private:
public:
INHERIT_GIMPL_TYPES(Gimpl); // only for gauge configurations
typedef GaugeStatistics<Gimpl> GaugeStats;
NerscHmcCheckpointer(const CheckpointerParameters &Params_) { initialize(Params_); }
void initialize(const CheckpointerParameters &Params_) {
@@ -60,7 +61,7 @@ public:
int precision32 = 1;
int tworow = 0;
NerscIO::writeRNGState(sRNG, pRNG, rng);
NerscIO::writeConfiguration(U, config, tworow, precision32);
NerscIO::writeConfiguration<GaugeStats>(U, config, tworow, precision32);
}
};
@@ -74,7 +75,7 @@ public:
FieldMetaData header;
NerscIO::readRNGState(sRNG, pRNG, header, rng);
NerscIO::readConfiguration(U, header, config);
NerscIO::readConfiguration<GaugeStats>(U, header, config);
};
};

43
Grid/qcd/hmc/integrators/Integrator.h
View File

@@ -33,6 +33,7 @@ directory
#define INTEGRATOR_INCLUDED
#include <memory>
#include "MomentumFilter.h"
NAMESPACE_BEGIN(Grid);
@@ -78,8 +79,19 @@ protected:
RepresentationPolicy Representations;
IntegratorParameters Params;
//Filters allow the user to manipulate the conjugate momentum, for example to freeze links in DDHMC
//It is applied whenever the momentum is updated / refreshed
//The default filter does nothing
MomentumFilterBase<MomentaField> const* MomFilter;
const ActionSet<Field, RepresentationPolicy> as;
//Get a pointer to a shared static instance of the "do-nothing" momentum filter to serve as a default
static MomentumFilterBase<MomentaField> const* getDefaultMomFilter(){
static MomentumFilterNone<MomentaField> filter;
return &filter;
}
void update_P(Field& U, int level, double ep)
{
t_P[level] += ep;
@@ -135,6 +147,8 @@ protected:
// Force from the other representations
as[level].apply(update_P_hireps, Representations, Mom, U, ep);
MomFilter->applyFilter(Mom);
}
void update_U(Field& U, double ep)
@@ -174,11 +188,23 @@ public:
t_P.resize(levels, 0.0);
t_U = 0.0;
// initialization of smearer delegated outside of Integrator
//Default the momentum filter to "do-nothing"
MomFilter = getDefaultMomFilter();
};
virtual ~Integrator() {}
virtual std::string integrator_name() = 0;
//Set the momentum filter allowing for manipulation of the conjugate momentum
void setMomentumFilter(const MomentumFilterBase<MomentaField> &filter){
MomFilter = &filter;
}
//Access the conjugate momentum
const MomentaField & getMomentum() const{ return P; }
void print_parameters()
{
@@ -210,10 +236,9 @@ public:
// over the representations
struct _refresh {
template <class FieldType, class Repr>
void operator()(std::vector<Action<FieldType>*> repr_set, Repr& Rep,
GridParallelRNG& pRNG) {
void operator()(std::vector<Action<FieldType>*> repr_set, Repr& Rep, GridSerialRNG & sRNG, GridParallelRNG& pRNG) {
for (int a = 0; a < repr_set.size(); ++a){
repr_set.at(a)->refresh(Rep.U, pRNG);
repr_set.at(a)->refresh(Rep.U, sRNG, pRNG);
std::cout << GridLogDebug << "Hirep refreshing pseudofermions" << std::endl;
}
@@ -221,12 +246,12 @@ public:
} refresh_hireps{};
// Initialization of momenta and actions
void refresh(Field& U, GridParallelRNG& pRNG)
void refresh(Field& U, GridSerialRNG & sRNG, GridParallelRNG& pRNG)
{
assert(P.Grid() == U.Grid());
std::cout << GridLogIntegrator << "Integrator refresh\n";
FieldImplementation::generate_momenta(P, pRNG);
FieldImplementation::generate_momenta(P, sRNG, pRNG);
// Update the smeared fields, can be implemented as observer
// necessary to keep the fields updated even after a reject
@@ -243,12 +268,14 @@ public:
// get gauge field from the SmearingPolicy and
// based on the boolean is_smeared in actionID
Field& Us = Smearer.get_U(as[level].actions.at(actionID)->is_smeared);
as[level].actions.at(actionID)->refresh(Us, pRNG);
as[level].actions.at(actionID)->refresh(Us, sRNG, pRNG);
}
// Refresh the higher representation actions
as[level].apply(refresh_hireps, Representations, pRNG);
as[level].apply(refresh_hireps, Representations, sRNG, pRNG);
}
MomFilter->applyFilter(P);
}
// to be used by the actionlevel class to iterate
@@ -313,6 +340,8 @@ public:
std::cout << GridLogIntegrator << " times[" << level << "]= " << t_P[level] << " " << t_U << std::endl;
}
FieldImplementation::Project(U);
// and that we indeed got to the end of the trajectory
assert(fabs(t_U - Params.trajL) < 1.0e-6);

94
Grid/qcd/hmc/integrators/MomentumFilter.h Normal file
View File

@@ -0,0 +1,94 @@
/*************************************************************************************
Grid physics library, www.github.com/paboyle/Grid
Source file: ./lib/qcd/hmc/integrators/MomentumFilter.h
Copyright (C) 2015
Author: Christopher Kelly <ckelly@bnl.gov>
Author: Peter Boyle <paboyle@ph.ed.ac.uk>
This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 2 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License along
with this program; if not, write to the Free Software Foundation, Inc.,
51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
See the full license in the file "LICENSE" in the top level distribution
directory
*************************************************************************************/
/* END LEGAL */
//--------------------------------------------------------------------
#ifndef MOMENTUM_FILTER
#define MOMENTUM_FILTER
NAMESPACE_BEGIN(Grid);
//These filter objects allow the user to manipulate the conjugate momentum as part of the update / refresh
template<typename MomentaField>
struct MomentumFilterBase{
virtual void applyFilter(MomentaField &P) const;
};
//Do nothing
template<typename MomentaField>
struct MomentumFilterNone: public MomentumFilterBase<MomentaField>{
void applyFilter(MomentaField &P) const override{}
};
//Multiply each site/direction by a Lorentz vector complex number field
//Can be used to implement a mask, zeroing out sites
template<typename MomentaField>
struct MomentumFilterApplyPhase: public MomentumFilterBase<MomentaField>{
typedef typename MomentaField::vector_type vector_type; //SIMD-vectorized complex type
typedef typename MomentaField::scalar_type scalar_type; //scalar complex type
typedef iVector<iScalar<iScalar<vector_type> >, Nd > LorentzScalarType; //complex phase for each site/direction
typedef Lattice<LorentzScalarType> LatticeLorentzScalarType;
LatticeLorentzScalarType phase;
MomentumFilterApplyPhase(const LatticeLorentzScalarType _phase): phase(_phase){}
//Default to uniform field of (1,0)
MomentumFilterApplyPhase(GridBase* _grid): phase(_grid){
LorentzScalarType one;
for(int mu=0;mu<Nd;mu++)
one(mu)()() = scalar_type(1.);
phase = one;
}
void applyFilter(MomentaField &P) const override{
conformable(P,phase);
autoView( P_v , P, AcceleratorWrite);
autoView( phase_v , phase, AcceleratorRead);
accelerator_for(ss,P_v.size(),MomentaField::vector_type::Nsimd(),{
auto site_mom = P_v(ss);
auto site_phase = phase_v(ss);
for(int mu=0;mu<Nd;mu++)
site_mom(mu) = site_mom(mu) * site_phase(mu);
coalescedWrite(P_v[ss], site_mom);
});
}
};
NAMESPACE_END(Grid);
#endif

2
Grid/qcd/modules/Modules.h
View File

@@ -99,7 +99,7 @@ public:
virtual Prod* getPtr() = 0;
// add a getReference?
virtual ~HMCModuleBase(){};
virtual void print_parameters(){}; // default to nothing
};

21
Grid/qcd/smearing/StoutSmearing.h
View File

@@ -85,21 +85,18 @@ public:
std::cout << GridLogDebug << "Stout smearing started\n";
// Smear the configurations
// C contains the staples multiplied by some rho
u_smr = U ; // set the smeared field to the current gauge field
SmearBase->smear(C, U);
for (int mu = 0; mu < Nd; mu++) {
if( mu == OrthogDim )
tmp = 1.0; // Don't smear in the orthogonal direction
else {
tmp = peekLorentz(C, mu);
Umu = peekLorentz(U, mu);
iq_mu = Ta(
tmp *
adj(Umu)); // iq_mu = Ta(Omega_mu) to match the signs with the paper
exponentiate_iQ(tmp, iq_mu);
}
pokeLorentz(u_smr, tmp * Umu, mu); // u_smr = exp(iQ_mu)*U_mu
if( mu == OrthogDim ) continue ;
// u_smr = exp(iQ_mu)*U_mu apart from Orthogdim
Umu = peekLorentz(U, mu);
tmp = peekLorentz(C, mu);
iq_mu = Ta( tmp * adj(Umu));
exponentiate_iQ(tmp, iq_mu);
pokeLorentz(u_smr, tmp * Umu, mu);
}
std::cout << GridLogDebug << "Stout smearing completed\n";
};

179
Grid/qcd/spin/TwoSpinor.h
View File

@@ -128,7 +128,6 @@ template<class vtype,IfSpinor<iVector<vtype,Ns> > = 0> accelerator_inline void s
}
template<class vtype,IfSpinor<iVector<vtype,Ns> > = 0> accelerator_inline void spProjTm (iVector<vtype,Nhs> &hspin,const iVector<vtype,Ns> &fspin)
{
//typename std::enable_if<matchGridTensorIndex<iVector<vtype,Ns>,SpinorIndex>::value,iVector<vtype,Ns> >::type *SFINAE;
hspin(0)=fspin(0)-fspin(2);
hspin(1)=fspin(1)-fspin(3);
}
@@ -138,40 +137,50 @@ template<class vtype,IfSpinor<iVector<vtype,Ns> > = 0> accelerator_inline void s
* 0 0 -1 0
* 0 0 0 -1
*/
template<class vtype,IfSpinor<iVector<vtype,Ns> > = 0> accelerator_inline void spProj5p (iVector<vtype,Nhs> &hspin,const iVector<vtype,Ns> &fspin)
{
//typename std::enable_if<matchGridTensorIndex<iVector<vtype,Ns>,SpinorIndex>::value,iVector<vtype,Ns> >::type *SFINAE;
hspin(0)=fspin(0);
hspin(1)=fspin(1);
}
template<class vtype,IfSpinor<iVector<vtype,Ns> > = 0> accelerator_inline void spProj5m (iVector<vtype,Nhs> &hspin,const iVector<vtype,Ns> &fspin)
{
//typename std::enable_if<matchGridTensorIndex<iVector<vtype,Ns>,SpinorIndex>::value,iVector<vtype,Ns> >::type *SFINAE;
hspin(0)=fspin(2);
hspin(1)=fspin(3);
}
// template<class vtype> accelerator_inline void fspProj5p (iVector<vtype,Ns> &rfspin,const iVector<vtype,Ns> &fspin)
template<class vtype,IfSpinor<iVector<vtype,Ns> > = 0> accelerator_inline void spProj5p (iVector<vtype,Ns> &rfspin,const iVector<vtype,Ns> &fspin)
{
//typename std::enable_if<matchGridTensorIndex<iVector<vtype,Ns>,SpinorIndex>::value,iVector<vtype,Ns> >::type *SFINAE;
rfspin(0)=fspin(0);
rfspin(1)=fspin(1);
rfspin(2)=Zero();
rfspin(3)=Zero();
}
// template<class vtype> accelerator_inline void fspProj5m (iVector<vtype,Ns> &rfspin,const iVector<vtype,Ns> &fspin)
template<class vtype,IfSpinor<iVector<vtype,Ns> > = 0> accelerator_inline void spProj5m (iVector<vtype,Ns> &rfspin,const iVector<vtype,Ns> &fspin)
{
//typename std::enable_if<matchGridTensorIndex<iVector<vtype,Ns>,SpinorIndex>::value,iVector<vtype,Ns> >::type *SFINAE;
rfspin(0)=Zero();
rfspin(1)=Zero();
rfspin(2)=fspin(2);
rfspin(3)=fspin(3);
}
template<class vtype,int N,IfCoarsened<iVector<vtype,N> > = 0> accelerator_inline void spProj5p (iVector<vtype,N> &rfspin,const iVector<vtype,N> &fspin)
{
const int hN = N>>1;
for(int s=0;s<hN;s++){
rfspin(s)=fspin(s);
rfspin(s+hN)=Zero();
}
}
template<class vtype,int N,IfCoarsened<iVector<vtype,N> > = 0> accelerator_inline void spProj5m (iVector<vtype,N> &rfspin,const iVector<vtype,N> &fspin)
{
const int hN = N>>1;
for(int s=0;s<hN;s++){
rfspin(s)=Zero();
rfspin(s+hN)=fspin(s+hN);
}
}
////////////////////////////////////////////////////////////////////////////////////////////////////////////////
// Reconstruction routines to move back again to four spin
////////////////////////////////////////////////////////////////////////////////////////////////////////////////
@@ -183,7 +192,6 @@ template<class vtype,IfSpinor<iVector<vtype,Ns> > = 0> accelerator_inline void s
*/
template<class vtype,IfSpinor<iVector<vtype,Ns> > = 0> accelerator_inline void spReconXp (iVector<vtype,Ns> &fspin,const iVector<vtype,Nhs> &hspin)
{
//typename std::enable_if<matchGridTensorIndex<iVector<vtype,Ns>,SpinorIndex>::value,iVector<vtype,Ns> >::type *SFINAE;
fspin(0)=hspin(0);
fspin(1)=hspin(1);
fspin(2)=timesMinusI(hspin(1));
@@ -191,7 +199,6 @@ template<class vtype,IfSpinor<iVector<vtype,Ns> > = 0> accelerator_inline void s
}
template<class vtype,IfSpinor<iVector<vtype,Ns> > = 0> accelerator_inline void spReconXm (iVector<vtype,Ns> &fspin,const iVector<vtype,Nhs> &hspin)
{
//typename std::enable_if<matchGridTensorIndex<iVector<vtype,Ns>,SpinorIndex>::value,iVector<vtype,Ns> >::type *SFINAE;
fspin(0)=hspin(0);
fspin(1)=hspin(1);
fspin(2)=timesI(hspin(1));
@@ -199,7 +206,6 @@ template<class vtype,IfSpinor<iVector<vtype,Ns> > = 0> accelerator_inline void s
}
template<class vtype,IfSpinor<iVector<vtype,Ns> > = 0> accelerator_inline void accumReconXp (iVector<vtype,Ns> &fspin,const iVector<vtype,Nhs> &hspin)
{
//typename std::enable_if<matchGridTensorIndex<iVector<vtype,Ns>,SpinorIndex>::value,iVector<vtype,Ns> >::type *SFINAE;
fspin(0)+=hspin(0);
fspin(1)+=hspin(1);
fspin(2)-=timesI(hspin(1));
@@ -207,7 +213,6 @@ template<class vtype,IfSpinor<iVector<vtype,Ns> > = 0> accelerator_inline void a
}
template<class vtype,IfSpinor<iVector<vtype,Ns> > = 0> accelerator_inline void accumReconXm (iVector<vtype,Ns> &fspin,const iVector<vtype,Nhs> &hspin)
{
//typename std::enable_if<matchGridTensorIndex<iVector<vtype,Ns>,SpinorIndex>::value,iVector<vtype,Ns> >::type *SFINAE;
fspin(0)+=hspin(0);
fspin(1)+=hspin(1);
fspin(2)+=timesI(hspin(1));
@@ -221,7 +226,6 @@ template<class vtype,IfSpinor<iVector<vtype,Ns> > = 0> accelerator_inline void a
template<class vtype,IfSpinor<iVector<vtype,Ns> > = 0> accelerator_inline void spReconYp (iVector<vtype,Ns> &fspin,const iVector<vtype,Nhs> &hspin)
{
//typename std::enable_if<matchGridTensorIndex<iVector<vtype,Ns>,SpinorIndex>::value,iVector<vtype,Ns> >::type *SFINAE;
fspin(0)=hspin(0);
fspin(1)=hspin(1);
fspin(2)= hspin(1);
@@ -229,7 +233,6 @@ template<class vtype,IfSpinor<iVector<vtype,Ns> > = 0> accelerator_inline void s
}
template<class vtype,IfSpinor<iVector<vtype,Ns> > = 0> accelerator_inline void spReconYm (iVector<vtype,Ns> &fspin,const iVector<vtype,Nhs> &hspin)
{
//typename std::enable_if<matchGridTensorIndex<iVector<vtype,Ns>,SpinorIndex>::value,iVector<vtype,Ns> >::type *SFINAE;
fspin(0)=hspin(0);
fspin(1)=hspin(1);
fspin(2)=-hspin(1);
@@ -237,7 +240,6 @@ template<class vtype,IfSpinor<iVector<vtype,Ns> > = 0> accelerator_inline void s
}
template<class vtype,IfSpinor<iVector<vtype,Ns> > = 0> accelerator_inline void accumReconYp (iVector<vtype,Ns> &fspin,const iVector<vtype,Nhs> &hspin)
{
//typename std::enable_if<matchGridTensorIndex<iVector<vtype,Ns>,SpinorIndex>::value,iVector<vtype,Ns> >::type *SFINAE;
fspin(0)+=hspin(0);
fspin(1)+=hspin(1);
fspin(2)+=hspin(1);
@@ -245,7 +247,6 @@ template<class vtype,IfSpinor<iVector<vtype,Ns> > = 0> accelerator_inline void a
}
template<class vtype,IfSpinor<iVector<vtype,Ns> > = 0> accelerator_inline void accumReconYm (iVector<vtype,Ns> &fspin,const iVector<vtype,Nhs> &hspin)
{
//typename std::enable_if<matchGridTensorIndex<iVector<vtype,Ns>,SpinorIndex>::value,iVector<vtype,Ns> >::type *SFINAE;
fspin(0)+=hspin(0);
fspin(1)+=hspin(1);
fspin(2)-=hspin(1);
@@ -260,7 +261,6 @@ template<class vtype,IfSpinor<iVector<vtype,Ns> > = 0> accelerator_inline void a
*/
template<class vtype,IfSpinor<iVector<vtype,Ns> > = 0> accelerator_inline void spReconZp (iVector<vtype,Ns> &fspin,const iVector<vtype,Nhs> &hspin)
{
//typename std::enable_if<matchGridTensorIndex<iVector<vtype,Ns>,SpinorIndex>::value,iVector<vtype,Ns> >::type *SFINAE;
fspin(0)=hspin(0);
fspin(1)=hspin(1);
fspin(2)=timesMinusI(hspin(0));
@@ -268,7 +268,6 @@ template<class vtype,IfSpinor<iVector<vtype,Ns> > = 0> accelerator_inline void s
}
template<class vtype,IfSpinor<iVector<vtype,Ns> > = 0> accelerator_inline void spReconZm (iVector<vtype,Ns> &fspin,const iVector<vtype,Nhs> &hspin)
{
//typename std::enable_if<matchGridTensorIndex<iVector<vtype,Ns>,SpinorIndex>::value,iVector<vtype,Ns> >::type *SFINAE;
fspin(0)=hspin(0);
fspin(1)=hspin(1);
fspin(2)= timesI(hspin(0));
@@ -276,7 +275,6 @@ template<class vtype,IfSpinor<iVector<vtype,Ns> > = 0> accelerator_inline void s
}
template<class vtype,IfSpinor<iVector<vtype,Ns> > = 0> accelerator_inline void accumReconZp (iVector<vtype,Ns> &fspin,const iVector<vtype,Nhs> &hspin)
{
//typename std::enable_if<matchGridTensorIndex<iVector<vtype,Ns>,SpinorIndex>::value,iVector<vtype,Ns> >::type *SFINAE;
fspin(0)+=hspin(0);
fspin(1)+=hspin(1);
fspin(2)-=timesI(hspin(0));
@@ -284,7 +282,6 @@ template<class vtype,IfSpinor<iVector<vtype,Ns> > = 0> accelerator_inline void a
}
template<class vtype,IfSpinor<iVector<vtype,Ns> > = 0> accelerator_inline void accumReconZm (iVector<vtype,Ns> &fspin,const iVector<vtype,Nhs> &hspin)
{
//typename std::enable_if<matchGridTensorIndex<iVector<vtype,Ns>,SpinorIndex>::value,iVector<vtype,Ns> >::type *SFINAE;
fspin(0)+=hspin(0);
fspin(1)+=hspin(1);
fspin(2)+=timesI(hspin(0));
@@ -298,7 +295,6 @@ template<class vtype,IfSpinor<iVector<vtype,Ns> > = 0> accelerator_inline void a
*/
template<class vtype,IfSpinor<iVector<vtype,Ns> > = 0> accelerator_inline void spReconTp (iVector<vtype,Ns> &fspin,const iVector<vtype,Nhs> &hspin)
{
//typename std::enable_if<matchGridTensorIndex<iVector<vtype,Ns>,SpinorIndex>::value,iVector<vtype,Ns> >::type *SFINAE;
fspin(0)=hspin(0);
fspin(1)=hspin(1);
fspin(2)=hspin(0);
@@ -306,7 +302,6 @@ template<class vtype,IfSpinor<iVector<vtype,Ns> > = 0> accelerator_inline void s
}
template<class vtype,IfSpinor<iVector<vtype,Ns> > = 0> accelerator_inline void spReconTm (iVector<vtype,Ns> &fspin,const iVector<vtype,Nhs> &hspin)
{
//typename std::enable_if<matchGridTensorIndex<iVector<vtype,Ns>,SpinorIndex>::value,iVector<vtype,Ns> >::type *SFINAE;
fspin(0)=hspin(0);
fspin(1)=hspin(1);
fspin(2)=-hspin(0);
@@ -314,7 +309,6 @@ template<class vtype,IfSpinor<iVector<vtype,Ns> > = 0> accelerator_inline void s
}
template<class vtype,IfSpinor<iVector<vtype,Ns> > = 0> accelerator_inline void accumReconTp (iVector<vtype,Ns> &fspin,const iVector<vtype,Nhs> &hspin)
{
//typename std::enable_if<matchGridTensorIndex<iVector<vtype,Ns>,SpinorIndex>::value,iVector<vtype,Ns> >::type *SFINAE;
fspin(0)+=hspin(0);
fspin(1)+=hspin(1);
fspin(2)+=hspin(0);
@@ -322,7 +316,6 @@ template<class vtype,IfSpinor<iVector<vtype,Ns> > = 0> accelerator_inline void a
}
template<class vtype,IfSpinor<iVector<vtype,Ns> > = 0> accelerator_inline void accumReconTm (iVector<vtype,Ns> &fspin,const iVector<vtype,Nhs> &hspin)
{
//typename std::enable_if<matchGridTensorIndex<iVector<vtype,Ns>,SpinorIndex>::value,iVector<vtype,Ns> >::type *SFINAE;
fspin(0)+=hspin(0);
fspin(1)+=hspin(1);
fspin(2)-=hspin(0);
@@ -336,7 +329,6 @@ template<class vtype,IfSpinor<iVector<vtype,Ns> > = 0> accelerator_inline void a
*/
template<class vtype,IfSpinor<iVector<vtype,Ns> > = 0> accelerator_inline void spRecon5p (iVector<vtype,Ns> &fspin,const iVector<vtype,Nhs> &hspin)
{
//typename std::enable_if<matchGridTensorIndex<iVector<vtype,Ns>,SpinorIndex>::value,iVector<vtype,Ns> >::type *SFINAE;
fspin(0)=hspin(0)+hspin(0); // add is lower latency than mul
fspin(1)=hspin(1)+hspin(1); // probably no measurable diffence though
fspin(2)=Zero();
@@ -344,7 +336,6 @@ template<class vtype,IfSpinor<iVector<vtype,Ns> > = 0> accelerator_inline void s
}
template<class vtype,IfSpinor<iVector<vtype,Ns> > = 0> accelerator_inline void spRecon5m (iVector<vtype,Ns> &fspin,const iVector<vtype,Nhs> &hspin)
{
//typename std::enable_if<matchGridTensorIndex<iVector<vtype,Ns>,SpinorIndex>::value,iVector<vtype,Ns> >::type *SFINAE;
fspin(0)=Zero();
fspin(1)=Zero();
fspin(2)=hspin(0)+hspin(0);
@@ -352,7 +343,6 @@ template<class vtype,IfSpinor<iVector<vtype,Ns> > = 0> accelerator_inline void s
}
template<class vtype,IfSpinor<iVector<vtype,Ns> > = 0> accelerator_inline void accumRecon5p (iVector<vtype,Ns> &fspin,const iVector<vtype,Nhs> &hspin)
{
//typename std::enable_if<matchGridTensorIndex<iVector<vtype,Ns>,SpinorIndex>::value,iVector<vtype,Ns> >::type *SFINAE;
fspin(0)+=hspin(0)+hspin(0);
fspin(1)+=hspin(1)+hspin(1);
}
@@ -372,7 +362,6 @@ template<class vtype,IfSpinor<iVector<vtype,Ns> > = 0> accelerator_inline void a
//////////
template<class rtype,class vtype,int N,IfNotSpinor<iVector<vtype,N> > = 0> accelerator_inline void spProjXp (iVector<rtype,N> &hspin,const iVector<vtype,N> &fspin)
{
//typename std::enable_if<matchGridTensorIndex<iVector<vtype,N>,SpinorIndex>::notvalue,iVector<vtype,N> >::type *temp;
for(int i=0;i<N;i++) {
spProjXp(hspin._internal[i],fspin._internal[i]);
}
@@ -426,26 +415,21 @@ template<class rtype,class vtype,int N> accelerator_inline void accumReconXp (iM
}}
}
////////
// Xm
////////
template<class rtype,class vtype> accelerator_inline void spProjXm (iScalar<rtype> &hspin,const iScalar<vtype> &fspin)
{
//typename std::enable_if<matchGridTensorIndex<iScalar<vtype>,SpinorIndex>::notvalue,iScalar<vtype> >::type *temp;
spProjXm(hspin._internal,fspin._internal);
}
template<class rtype,class vtype,int N,IfNotSpinor<iVector<vtype,N> > = 0> accelerator_inline void spProjXm (iVector<rtype,N> &hspin,const iVector<vtype,N> &fspin)
{
//typename std::enable_if<matchGridTensorIndex<iVector<vtype,N>,SpinorIndex>::notvalue,iVector<vtype,N> >::type *temp;
for(int i=0;i<N;i++) {
spProjXm(hspin._internal[i],fspin._internal[i]);
}
}
template<class rtype,class vtype,int N> accelerator_inline void spProjXm (iMatrix<rtype,N> &hspin,const iMatrix<vtype,N> &fspin)
{
//typename std::enable_if<matchGridTensorIndex<iMatrix<vtype,N>,SpinorIndex>::notvalue,iMatrix<vtype,N> >::type *temp;
for(int i=0;i<N;i++){
for(int j=0;j<N;j++){
spProjXm(hspin._internal[i][j],fspin._internal[i][j]);
@@ -455,19 +439,16 @@ template<class rtype,class vtype,int N> accelerator_inline void spProjXm (iMatri
template<class rtype,class vtype> accelerator_inline void spReconXm (iScalar<rtype> &hspin,const iScalar<vtype> &fspin)
{
//typename std::enable_if<matchGridTensorIndex<iScalar<vtype>,SpinorIndex>::notvalue,iScalar<vtype> >::type *temp;
spReconXm(hspin._internal,fspin._internal);
}
template<class rtype,class vtype,int N,IfNotSpinor<iVector<vtype,N> > = 0> accelerator_inline void spReconXm (iVector<rtype,N> &hspin,const iVector<vtype,N> &fspin)
{
//typename std::enable_if<matchGridTensorIndex<iVector<vtype,N>,SpinorIndex>::notvalue,iVector<vtype,N> >::type *temp;
for(int i=0;i<N;i++) {
spReconXm(hspin._internal[i],fspin._internal[i]);
}
}
template<class rtype,class vtype,int N> accelerator_inline void spReconXm (iMatrix<rtype,N> &hspin,const iMatrix<vtype,N> &fspin)
{
//typename std::enable_if<matchGridTensorIndex<iMatrix<vtype,N>,SpinorIndex>::notvalue,iMatrix<vtype,N> >::type *temp;
for(int i=0;i<N;i++){
for(int j=0;j<N;j++){
spReconXm(hspin._internal[i][j],fspin._internal[i][j]);
@@ -476,45 +457,37 @@ template<class rtype,class vtype,int N> accelerator_inline void spReconXm (iMatr
template<class rtype,class vtype> accelerator_inline void accumReconXm (iScalar<rtype> &hspin,const iScalar<vtype> &fspin)
{
//typename std::enable_if<matchGridTensorIndex<iScalar<vtype>,SpinorIndex>::notvalue,iScalar<vtype> >::type *temp;
accumReconXm(hspin._internal,fspin._internal);
}
template<class rtype,class vtype,int N,IfNotSpinor<iVector<vtype,N> > = 0> accelerator_inline void accumReconXm (iVector<rtype,N> &hspin,const iVector<vtype,N> &fspin)
{
//typename std::enable_if<matchGridTensorIndex<iVector<vtype,N>,SpinorIndex>::notvalue,iVector<vtype,N> >::type *temp;
for(int i=0;i<N;i++) {
accumReconXm(hspin._internal[i],fspin._internal[i]);
}
}
template<class rtype,class vtype,int N> accelerator_inline void accumReconXm (iMatrix<rtype,N> &hspin,const iMatrix<vtype,N> &fspin)
{
//typename std::enable_if<matchGridTensorIndex<iMatrix<vtype,N>,SpinorIndex>::notvalue,iMatrix<vtype,N> >::type *temp;
for(int i=0;i<N;i++){
for(int j=0;j<N;j++){
accumReconXm(hspin._internal[i][j],fspin._internal[i][j]);
}}
}
////////
// Yp
////////
template<class rtype,class vtype> accelerator_inline void spProjYp (iScalar<rtype> &hspin,const iScalar<vtype> &fspin)
{
//typename std::enable_if<matchGridTensorIndex<iScalar<vtype>,SpinorIndex>::notvalue,iScalar<vtype> >::type *temp;
spProjYp(hspin._internal,fspin._internal);
}
template<class rtype,class vtype,int N,IfNotSpinor<iVector<vtype,N> > = 0> accelerator_inline void spProjYp (iVector<rtype,N> &hspin,const iVector<vtype,N> &fspin)
{
//typename std::enable_if<matchGridTensorIndex<iVector<vtype,N>,SpinorIndex>::notvalue,iVector<vtype,N> >::type *temp;
for(int i=0;i<N;i++) {
spProjYp(hspin._internal[i],fspin._internal[i]);
}
}
template<class rtype,class vtype,int N> accelerator_inline void spProjYp (iMatrix<rtype,N> &hspin,const iMatrix<vtype,N> &fspin)
{
//typename std::enable_if<matchGridTensorIndex<iMatrix<vtype,N>,SpinorIndex>::notvalue,iMatrix<vtype,N> >::type *temp;
for(int i=0;i<N;i++){
for(int j=0;j<N;j++){
spProjYp(hspin._internal[i][j],fspin._internal[i][j]);
@@ -524,19 +497,16 @@ template<class rtype,class vtype,int N> accelerator_inline void spProjYp (iMatri
template<class rtype,class vtype> accelerator_inline void spReconYp (iScalar<rtype> &hspin,const iScalar<vtype> &fspin)
{
//typename std::enable_if<matchGridTensorIndex<iScalar<vtype>,SpinorIndex>::notvalue,iScalar<vtype> >::type *temp;
spReconYp(hspin._internal,fspin._internal);
}
template<class rtype,class vtype,int N,IfNotSpinor<iVector<vtype,N> > = 0> accelerator_inline void spReconYp (iVector<rtype,N> &hspin,const iVector<vtype,N> &fspin)
{
//typename std::enable_if<matchGridTensorIndex<iVector<vtype,N>,SpinorIndex>::notvalue,iVector<vtype,N> >::type *temp;
for(int i=0;i<N;i++) {
spReconYp(hspin._internal[i],fspin._internal[i]);
}
}
template<class rtype,class vtype,int N> accelerator_inline void spReconYp (iMatrix<rtype,N> &hspin,const iMatrix<vtype,N> &fspin)
{
//typename std::enable_if<matchGridTensorIndex<iMatrix<vtype,N>,SpinorIndex>::notvalue,iMatrix<vtype,N> >::type *temp;
for(int i=0;i<N;i++){
for(int j=0;j<N;j++){
spReconYp(hspin._internal[i][j],fspin._internal[i][j]);
@@ -545,66 +515,55 @@ template<class rtype,class vtype,int N> accelerator_inline void spReconYp (iMatr
template<class rtype,class vtype> accelerator_inline void accumReconYp (iScalar<rtype> &hspin,const iScalar<vtype> &fspin)
{
//typename std::enable_if<matchGridTensorIndex<iScalar<vtype>,SpinorIndex>::notvalue,iScalar<vtype> >::type *temp;
accumReconYp(hspin._internal,fspin._internal);
}
template<class rtype,class vtype,int N,IfNotSpinor<iVector<vtype,N> > = 0> accelerator_inline void accumReconYp (iVector<rtype,N> &hspin,const iVector<vtype,N> &fspin)
{
//typename std::enable_if<matchGridTensorIndex<iVector<vtype,N>,SpinorIndex>::notvalue,iVector<vtype,N> >::type *temp;
for(int i=0;i<N;i++) {
accumReconYp(hspin._internal[i],fspin._internal[i]);
}
}
template<class rtype,class vtype,int N> accelerator_inline void accumReconYp (iMatrix<rtype,N> &hspin,const iMatrix<vtype,N> &fspin)
{
//typename std::enable_if<matchGridTensorIndex<iMatrix<vtype,N>,SpinorIndex>::notvalue,iMatrix<vtype,N> >::type *temp;
for(int i=0;i<N;i++){
for(int j=0;j<N;j++){
accumReconYp(hspin._internal[i][j],fspin._internal[i][j]);
}}
}
////////
// Ym
////////
template<class rtype,class vtype> accelerator_inline void spProjYm (iScalar<rtype> &hspin,const iScalar<vtype> &fspin)
{
//typename std::enable_if<matchGridTensorIndex<iScalar<vtype>,SpinorIndex>::notvalue,iScalar<vtype> >::type *temp;
spProjYm(hspin._internal,fspin._internal);
}
template<class rtype,class vtype,int N,IfNotSpinor<iVector<vtype,N> > = 0> accelerator_inline void spProjYm (iVector<rtype,N> &hspin,const iVector<vtype,N> &fspin)
{
//typename std::enable_if<matchGridTensorIndex<iVector<vtype,N>,SpinorIndex>::notvalue,iVector<vtype,N> >::type *temp;
for(int i=0;i<N;i++) {
spProjYm(hspin._internal[i],fspin._internal[i]);
}
}
template<class rtype,class vtype,int N> accelerator_inline void spProjYm (iMatrix<rtype,N> &hspin,const iMatrix<vtype,N> &fspin)
{
//typename std::enable_if<matchGridTensorIndex<iMatrix<vtype,N>,SpinorIndex>::notvalue,iMatrix<vtype,N> >::type *temp;
for(int i=0;i<N;i++){
for(int j=0;j<N;j++){
spProjYm(hspin._internal[i][j],fspin._internal[i][j]);
}}
}
template<class rtype,class vtype> accelerator_inline void spReconYm (iScalar<rtype> &hspin,const iScalar<vtype> &fspin)
{
//typename std::enable_if<matchGridTensorIndex<iScalar<vtype>,SpinorIndex>::notvalue,iScalar<vtype> >::type *temp;
spReconYm(hspin._internal,fspin._internal);
}
template<class rtype,class vtype,int N,IfNotSpinor<iVector<vtype,N> > = 0> accelerator_inline void spReconYm (iVector<rtype,N> &hspin,const iVector<vtype,N> &fspin)
{
//typename std::enable_if<matchGridTensorIndex<iVector<vtype,N>,SpinorIndex>::notvalue,const iVector<vtype,N> >::type *temp;
for(int i=0;i<N;i++) {
spReconYm(hspin._internal[i],fspin._internal[i]);
}
}
template<class rtype,class vtype,int N> accelerator_inline void spReconYm (iMatrix<rtype,N> &hspin,const iMatrix<vtype,N> &fspin)
{
//typename std::enable_if<matchGridTensorIndex<iMatrix<vtype,N>,SpinorIndex>::notvalue,iMatrix<vtype,N> >::type *temp;
for(int i=0;i<N;i++){
for(int j=0;j<N;j++){
spReconYm(hspin._internal[i][j],fspin._internal[i][j]);
@@ -613,19 +572,16 @@ template<class rtype,class vtype,int N> accelerator_inline void spReconYm (iMatr
template<class rtype,class vtype> accelerator_inline void accumReconYm (iScalar<rtype> &hspin,const iScalar<vtype> &fspin)
{
//typename std::enable_if<matchGridTensorIndex<iScalar<vtype>,SpinorIndex>::notvalue,iScalar<vtype> >::type *temp;
accumReconYm(hspin._internal,fspin._internal);
}
template<class rtype,class vtype,int N,IfNotSpinor<iVector<vtype,N> > = 0> accelerator_inline void accumReconYm (iVector<rtype,N> &hspin,const iVector<vtype,N> &fspin)
{
//typename std::enable_if<matchGridTensorIndex<iVector<vtype,N>,SpinorIndex>::notvalue,iVector<vtype,N> >::type *temp;
for(int i=0;i<N;i++) {
accumReconYm(hspin._internal[i],fspin._internal[i]);
}
}
template<class rtype,class vtype,int N> accelerator_inline void accumReconYm (iMatrix<rtype,N> &hspin,const iMatrix<vtype,N> &fspin)
{
//typename std::enable_if<matchGridTensorIndex<iMatrix<vtype,N>,SpinorIndex>::notvalue,iMatrix<vtype,N> >::type *temp;
for(int i=0;i<N;i++){
for(int j=0;j<N;j++){
accumReconYm(hspin._internal[i][j],fspin._internal[i][j]);
@@ -638,66 +594,57 @@ template<class rtype,class vtype,int N> accelerator_inline void accumReconYm (iM
////////
template<class rtype,class vtype> accelerator_inline void spProjZp (iScalar<rtype> &hspin,const iScalar<vtype> &fspin)
{
//typename std::enable_if<matchGridTensorIndex<iScalar<vtype>,SpinorIndex>::notvalue,iScalar<vtype> >::type *temp;
spProjZp(hspin._internal,fspin._internal);
}
template<class rtype,class vtype,int N,IfNotSpinor<iVector<vtype,N> > = 0> accelerator_inline void spProjZp (iVector<rtype,N> &hspin,const iVector<vtype,N> &fspin)
{
//typename std::enable_if<matchGridTensorIndex<iVector<vtype,N>,SpinorIndex>::notvalue,iVector<vtype,N> >::type *temp;
for(int i=0;i<N;i++) {
spProjZp(hspin._internal[i],fspin._internal[i]);
}
}
template<class rtype,class vtype,int N> accelerator_inline void spProjZp (iMatrix<rtype,N> &hspin,const iMatrix<vtype,N> &fspin)
{
//typename std::enable_if<matchGridTensorIndex<iMatrix<vtype,N>,SpinorIndex>::notvalue,iMatrix<vtype,N> >::type *temp;
for(int i=0;i<N;i++){
for(int j=0;j<N;j++){
spProjZp(hspin._internal[i][j],fspin._internal[i][j]);
}}
}}
}
template<class rtype,class vtype> accelerator_inline void spReconZp (iScalar<rtype> &hspin,const iScalar<vtype> &fspin)
{
//typename std::enable_if<matchGridTensorIndex<iScalar<vtype>,SpinorIndex>::notvalue,iScalar<vtype> >::type *temp;
spReconZp(hspin._internal,fspin._internal);
}
template<class rtype,class vtype,int N,IfNotSpinor<iVector<vtype,N> > = 0> accelerator_inline void spReconZp (iVector<rtype,N> &hspin,const iVector<vtype,N> &fspin)
{
//typename std::enable_if<matchGridTensorIndex<iVector<vtype,N>,SpinorIndex>::notvalue,iVector<vtype,N> >::type *temp;
for(int i=0;i<N;i++) {
spReconZp(hspin._internal[i],fspin._internal[i]);
}
}
template<class rtype,class vtype,int N> accelerator_inline void spReconZp (iMatrix<rtype,N> &hspin,const iMatrix<vtype,N> &fspin)
{
//typename std::enable_if<matchGridTensorIndex<iMatrix<vtype,N>,SpinorIndex>::notvalue,iMatrix<vtype,N> >::type *temp;
for(int i=0;i<N;i++){
for(int j=0;j<N;j++){
spReconZp(hspin._internal[i][j],fspin._internal[i][j]);
}}
}}
}
template<class rtype,class vtype> accelerator_inline void accumReconZp (iScalar<rtype> &hspin,const iScalar<vtype> &fspin)
{
//typename std::enable_if<matchGridTensorIndex<iScalar<vtype>,SpinorIndex>::notvalue,iScalar<vtype> >::type *temp;
accumReconZp(hspin._internal,fspin._internal);
}
template<class rtype,class vtype,int N,IfNotSpinor<iVector<vtype,N> > = 0> accelerator_inline void accumReconZp (iVector<rtype,N> &hspin,const iVector<vtype,N> &fspin)
{
//typename std::enable_if<matchGridTensorIndex<iVector<vtype,N>,SpinorIndex>::notvalue,iVector<vtype,N> >::type *temp;
for(int i=0;i<N;i++) {
accumReconZp(hspin._internal[i],fspin._internal[i]);
}
}
template<class rtype,class vtype,int N> accelerator_inline void accumReconZp (iMatrix<rtype,N> &hspin,const iMatrix<vtype,N> &fspin)
{
//typename std::enable_if<matchGridTensorIndex<iMatrix<vtype,N>,SpinorIndex>::notvalue,iMatrix<vtype,N> >::type *temp;
for(int i=0;i<N;i++){
for(int j=0;j<N;j++){
accumReconZp(hspin._internal[i][j],fspin._internal[i][j]);
}}
}}
}
@@ -706,62 +653,53 @@ template<class rtype,class vtype,int N> accelerator_inline void accumReconZp (iM
////////
template<class rtype,class vtype> accelerator_inline void spProjZm (iScalar<rtype> &hspin,const iScalar<vtype> &fspin)
{
//typename std::enable_if<matchGridTensorIndex<iScalar<vtype>,SpinorIndex>::notvalue,iScalar<vtype> >::type *temp;
spProjZm(hspin._internal,fspin._internal);
}
template<class rtype,class vtype,int N,IfNotSpinor<iVector<vtype,N> > = 0> accelerator_inline void spProjZm (iVector<rtype,N> &hspin,const iVector<vtype,N> &fspin)
{
//typename std::enable_if<matchGridTensorIndex<iVector<vtype,N>,SpinorIndex>::notvalue,iVector<vtype,N> >::type *temp;
for(int i=0;i<N;i++) {
spProjZm(hspin._internal[i],fspin._internal[i]);
}
}
template<class rtype,class vtype,int N> accelerator_inline void spProjZm (iMatrix<rtype,N> &hspin,const iMatrix<vtype,N> &fspin)
{
//typename std::enable_if<matchGridTensorIndex<iMatrix<vtype,N>,SpinorIndex>::notvalue,iMatrix<vtype,N> >::type *temp;
for(int i=0;i<N;i++){
for(int j=0;j<N;j++){
spProjZm(hspin._internal[i][j],fspin._internal[i][j]);
}}
}}
}
template<class rtype,class vtype> accelerator_inline void spReconZm (iScalar<rtype> &hspin,const iScalar<vtype> &fspin)
{
//typename std::enable_if<matchGridTensorIndex<iScalar<vtype>,SpinorIndex>::notvalue,iScalar<vtype> >::type *temp;
spReconZm(hspin._internal,fspin._internal);
}
template<class rtype,class vtype,int N,IfNotSpinor<iVector<vtype,N> > = 0> accelerator_inline void spReconZm (iVector<rtype,N> &hspin,const iVector<vtype,N> &fspin)
{
//typename std::enable_if<matchGridTensorIndex<iVector<vtype,N>,SpinorIndex>::notvalue,iVector<vtype,N> >::type *temp;
for(int i=0;i<N;i++) {
spReconZm(hspin._internal[i],fspin._internal[i]);
}
}
template<class rtype,class vtype,int N> accelerator_inline void spReconZm (iMatrix<rtype,N> &hspin,const iMatrix<vtype,N> &fspin)
{
//typename std::enable_if<matchGridTensorIndex<iMatrix<vtype,N>,SpinorIndex>::notvalue,iMatrix<vtype,N> >::type *temp;
for(int i=0;i<N;i++){
for(int j=0;j<N;j++){
spReconZm(hspin._internal[i][j],fspin._internal[i][j]);
}}
}}
}
template<class rtype,class vtype> accelerator_inline void accumReconZm (iScalar<rtype> &hspin,const iScalar<vtype> &fspin)
{
//typename std::enable_if<matchGridTensorIndex<iScalar<vtype>,SpinorIndex>::notvalue,iScalar<vtype> >::type *temp;
accumReconZm(hspin._internal,fspin._internal);
}
template<class rtype,class vtype,int N,IfNotSpinor<iVector<vtype,N> > = 0> accelerator_inline void accumReconZm (iVector<rtype,N> &hspin,const iVector<vtype,N> &fspin)
{
//typename std::enable_if<matchGridTensorIndex<iVector<vtype,N>,SpinorIndex>::notvalue,iVector<vtype,N> >::type *temp;
for(int i=0;i<N;i++) {
accumReconZm(hspin._internal[i],fspin._internal[i]);
}
}
template<class rtype,class vtype,int N> accelerator_inline void accumReconZm (iMatrix<rtype,N> &hspin,const iMatrix<vtype,N> &fspin)
{
//typename std::enable_if<matchGridTensorIndex<iMatrix<vtype,N>,SpinorIndex>::notvalue,iMatrix<vtype,N> >::type *temp;
for(int i=0;i<N;i++){
for(int j=0;j<N;j++){
accumReconZm(hspin._internal[i][j],fspin._internal[i][j]);
@@ -774,41 +712,35 @@ template<class rtype,class vtype,int N> accelerator_inline void accumReconZm (iM
////////
template<class rtype,class vtype> accelerator_inline void spProjTp (iScalar<rtype> &hspin,const iScalar<vtype> &fspin)
{
//typename std::enable_if<matchGridTensorIndex<iScalar<vtype>,SpinorIndex>::notvalue,iScalar<vtype> >::type *temp;
spProjTp(hspin._internal,fspin._internal);
}
template<class rtype,class vtype,int N,IfNotSpinor<iVector<vtype,N> > = 0> accelerator_inline void spProjTp (iVector<rtype,N> &hspin,const iVector<vtype,N> &fspin)
{
//typename std::enable_if<matchGridTensorIndex<iVector<vtype,N>,SpinorIndex>::notvalue,iVector<vtype,N> >::type *temp;
for(int i=0;i<N;i++) {
spProjTp(hspin._internal[i],fspin._internal[i]);
}
}
template<class rtype,class vtype,int N> accelerator_inline void spProjTp (iMatrix<rtype,N> &hspin,const iMatrix<vtype,N> &fspin)
{
//typename std::enable_if<matchGridTensorIndex<iMatrix<vtype,N>,SpinorIndex>::notvalue,iMatrix<vtype,N> >::type *temp;
for(int i=0;i<N;i++){
for(int j=0;j<N;j++){
spProjTp(hspin._internal[i][j],fspin._internal[i][j]);
}}
}}
}
template<class rtype,class vtype> accelerator_inline void spReconTp (iScalar<rtype> &hspin,const iScalar<vtype> &fspin)
{
//typename std::enable_if<matchGridTensorIndex<iScalar<vtype>,SpinorIndex>::notvalue,iScalar<vtype> >::type *temp;
spReconTp(hspin._internal,fspin._internal);
}
template<class rtype,class vtype,int N,IfNotSpinor<iVector<vtype,N> > = 0> accelerator_inline void spReconTp (iVector<rtype,N> &hspin,const iVector<vtype,N> &fspin)
{
//typename std::enable_if<matchGridTensorIndex<iVector<vtype,N>,SpinorIndex>::notvalue,iVector<vtype,N> >::type *temp;
for(int i=0;i<N;i++) {
spReconTp(hspin._internal[i],fspin._internal[i]);
}
}
template<class rtype,class vtype,int N> accelerator_inline void spReconTp (iMatrix<rtype,N> &hspin,const iMatrix<vtype,N> &fspin)
{
//typename std::enable_if<matchGridTensorIndex<iMatrix<vtype,N>,SpinorIndex>::notvalue,iMatrix<vtype,N> >::type *temp;
for(int i=0;i<N;i++){
for(int j=0;j<N;j++){
spReconTp(hspin._internal[i][j],fspin._internal[i][j]);
@@ -817,44 +749,37 @@ template<class rtype,class vtype,int N> accelerator_inline void spReconTp (iMatr
template<class rtype,class vtype> accelerator_inline void accumReconTp (iScalar<rtype> &hspin, iScalar<vtype> &fspin)
{
//typename std::enable_if<matchGridTensorIndex<iScalar<vtype>,SpinorIndex>::notvalue,iScalar<vtype> >::type *temp;
accumReconTp(hspin._internal,fspin._internal);
}
template<class rtype,class vtype,int N,IfNotSpinor<iVector<vtype,N> > = 0> accelerator_inline void accumReconTp (iVector<rtype,N> &hspin, const iVector<vtype,N> &fspin)
{
//typename std::enable_if<matchGridTensorIndex<iVector<vtype,N>,SpinorIndex>::notvalue,iVector<vtype,N> >::type *temp;
for(int i=0;i<N;i++) {
accumReconTp(hspin._internal[i],fspin._internal[i]);
}
}
template<class rtype,class vtype,int N> accelerator_inline void accumReconTp (iMatrix<rtype,N> &hspin, const iMatrix<vtype,N> &fspin)
{
//typename std::enable_if<matchGridTensorIndex<iMatrix<vtype,N>,SpinorIndex>::notvalue,iMatrix<vtype,N> >::type *temp;
for(int i=0;i<N;i++){
for(int j=0;j<N;j++){
accumReconTp(hspin._internal[i][j],fspin._internal[i][j]);
}}
}
////////
// Tm
////////
template<class rtype,class vtype> accelerator_inline void spProjTm (iScalar<rtype> &hspin,const iScalar<vtype> &fspin)
{
//typename std::enable_if<matchGridTensorIndex<iScalar<vtype>,SpinorIndex>::notvalue,iScalar<vtype> >::type *temp;
spProjTm(hspin._internal,fspin._internal);
}
template<class rtype,class vtype,int N,IfNotSpinor<iVector<vtype,N> > = 0> accelerator_inline void spProjTm (iVector<rtype,N> &hspin,const iVector<vtype,N> &fspin)
{
//typename std::enable_if<matchGridTensorIndex<iVector<vtype,N>,SpinorIndex>::notvalue,iVector<vtype,N> >::type *temp;
for(int i=0;i<N;i++) {
spProjTm(hspin._internal[i],fspin._internal[i]);
}
}
template<class rtype,class vtype,int N> accelerator_inline void spProjTm (iMatrix<rtype,N> &hspin,const iMatrix<vtype,N> &fspin)
{
//typename std::enable_if<matchGridTensorIndex<iMatrix<vtype,N>,SpinorIndex>::notvalue,iMatrix<vtype,N> >::type *temp;
for(int i=0;i<N;i++){
for(int j=0;j<N;j++){
spProjTm(hspin._internal[i][j],fspin._internal[i][j]);
@@ -864,19 +789,16 @@ template<class rtype,class vtype,int N> accelerator_inline void spProjTm (iMatri
template<class rtype,class vtype> accelerator_inline void spReconTm (iScalar<rtype> &hspin, const iScalar<vtype> &fspin)
{
//typename std::enable_if<matchGridTensorIndex<iScalar<vtype>,SpinorIndex>::notvalue,iScalar<vtype> >::type *temp;
spReconTm(hspin._internal,fspin._internal);
}
template<class rtype,class vtype,int N,IfNotSpinor<iVector<vtype,N> > = 0> accelerator_inline void spReconTm (iVector<rtype,N> &hspin, const iVector<vtype,N> &fspin)
{
//typename std::enable_if<matchGridTensorIndex<iVector<vtype,N>,SpinorIndex>::notvalue,iVector<vtype,N> >::type *temp;
for(int i=0;i<N;i++) {
spReconTm(hspin._internal[i],fspin._internal[i]);
}
}
template<class rtype,class vtype,int N> accelerator_inline void spReconTm (iMatrix<rtype,N> &hspin, const iMatrix<vtype,N> &fspin)
{
//typename std::enable_if<matchGridTensorIndex<iMatrix<vtype,N>,SpinorIndex>::notvalue,iMatrix<vtype,N> >::type *temp;
for(int i=0;i<N;i++){
for(int j=0;j<N;j++){
spReconTm(hspin._internal[i][j],fspin._internal[i][j]);
@@ -885,44 +807,37 @@ template<class rtype,class vtype,int N> accelerator_inline void spReconTm (iMatr
template<class rtype,class vtype> accelerator_inline void accumReconTm (iScalar<rtype> &hspin, const iScalar<vtype> &fspin)
{
//typename std::enable_if<matchGridTensorIndex<iScalar<vtype>,SpinorIndex>::notvalue,iScalar<vtype> >::type *temp;
accumReconTm(hspin._internal,fspin._internal);
}
template<class rtype,class vtype,int N,IfNotSpinor<iVector<vtype,N> > = 0> accelerator_inline void accumReconTm (iVector<rtype,N> &hspin, const iVector<vtype,N> &fspin)
{
//typename std::enable_if<matchGridTensorIndex<iVector<vtype,N>,SpinorIndex>::notvalue,iVector<vtype,N> >::type *temp;
for(int i=0;i<N;i++) {
accumReconTm(hspin._internal[i],fspin._internal[i]);
}
}
template<class rtype,class vtype,int N> accelerator_inline void accumReconTm (iMatrix<rtype,N> &hspin, const iMatrix<vtype,N> &fspin)
{
//typename std::enable_if<matchGridTensorIndex<iMatrix<vtype,N>,SpinorIndex>::notvalue,iMatrix<vtype,N> >::type *temp;
for(int i=0;i<N;i++){
for(int j=0;j<N;j++){
accumReconTm(hspin._internal[i][j],fspin._internal[i][j]);
}}
}
////////
// 5p
////////
template<class rtype,class vtype> accelerator_inline void spProj5p (iScalar<rtype> &hspin,const iScalar<vtype> &fspin)
template<class rtype,class vtype,IfNotCoarsened<iScalar<vtype> > = 0> accelerator_inline void spProj5p (iScalar<rtype> &hspin,const iScalar<vtype> &fspin)
{
//typename std::enable_if<matchGridTensorIndex<iScalar<vtype>,SpinorIndex>::notvalue,iScalar<vtype> >::type *temp;
spProj5p(hspin._internal,fspin._internal);
}
template<class rtype,class vtype,int N,IfNotSpinor<iVector<vtype,N> > = 0> accelerator_inline void spProj5p (iVector<rtype,N> &hspin,const iVector<vtype,N> &fspin)
{
//typename std::enable_if<matchGridTensorIndex<iVector<vtype,N>,SpinorIndex>::notvalue,iVector<vtype,N> >::type *temp;
for(int i=0;i<N;i++) {
spProj5p(hspin._internal[i],fspin._internal[i]);
}
}
template<class rtype,class vtype,int N> accelerator_inline void spProj5p (iMatrix<rtype,N> &hspin,const iMatrix<vtype,N> &fspin)
template<class rtype,class vtype,int N,IfNotCoarsened<iScalar<vtype> > = 0> accelerator_inline void spProj5p (iMatrix<rtype,N> &hspin,const iMatrix<vtype,N> &fspin)
{
//typename std::enable_if<matchGridTensorIndex<iMatrix<vtype,N>,SpinorIndex>::notvalue,iMatrix<vtype,N> >::type *temp;
for(int i=0;i<N;i++){
for(int j=0;j<N;j++){
spProj5p(hspin._internal[i][j],fspin._internal[i][j]);
@@ -931,19 +846,16 @@ template<class rtype,class vtype,int N> accelerator_inline void spProj5p (iMatri
template<class rtype,class vtype> accelerator_inline void spRecon5p (iScalar<rtype> &hspin,const iScalar<vtype> &fspin)
{
//typename std::enable_if<matchGridTensorIndex<iScalar<vtype>,SpinorIndex>::notvalue,iScalar<vtype> >::type *temp;
spRecon5p(hspin._internal,fspin._internal);
}
template<class rtype,class vtype,int N,IfNotSpinor<iVector<vtype,N> > = 0> accelerator_inline void spRecon5p (iVector<rtype,N> &hspin,const iVector<vtype,N> &fspin)
{
//typename std::enable_if<matchGridTensorIndex<iVector<vtype,N>,SpinorIndex>::notvalue,iVector<vtype,N> >::type *temp;
for(int i=0;i<N;i++) {
spRecon5p(hspin._internal[i],fspin._internal[i]);
}
}
template<class rtype,class vtype,int N> accelerator_inline void spRecon5p (iMatrix<rtype,N> &hspin,const iMatrix<vtype,N> &fspin)
{
//typename std::enable_if<matchGridTensorIndex<iMatrix<vtype,N>,SpinorIndex>::notvalue,iMatrix<vtype,N> >::type *temp;
for(int i=0;i<N;i++){
for(int j=0;j<N;j++){
spRecon5p(hspin._internal[i][j],fspin._internal[i][j]);
@@ -952,19 +864,16 @@ template<class rtype,class vtype,int N> accelerator_inline void spRecon5p (iMatr
template<class rtype,class vtype> accelerator_inline void accumRecon5p (iScalar<rtype> &hspin,const iScalar<vtype> &fspin)
{
//typename std::enable_if<matchGridTensorIndex<iScalar<vtype>,SpinorIndex>::notvalue,iScalar<vtype> >::type *temp;
accumRecon5p(hspin._internal,fspin._internal);
}
template<class rtype,class vtype,int N,IfNotSpinor<iVector<vtype,N> > = 0> accelerator_inline void accumRecon5p (iVector<rtype,N> &hspin,const iVector<vtype,N> &fspin)
{
//typename std::enable_if<matchGridTensorIndex<iVector<vtype,N>,SpinorIndex>::notvalue,iVector<vtype,N> >::type *temp;
for(int i=0;i<N;i++) {
accumRecon5p(hspin._internal[i],fspin._internal[i]);
}
}
template<class rtype,class vtype,int N> accelerator_inline void accumRecon5p (iMatrix<rtype,N> &hspin,const iMatrix<vtype,N> &fspin)
{
//typename std::enable_if<matchGridTensorIndex<iMatrix<vtype,N>,SpinorIndex>::notvalue,iMatrix<vtype,N> >::type *temp;
for(int i=0;i<N;i++){
for(int j=0;j<N;j++){
accumRecon5p(hspin._internal[i][j],fspin._internal[i][j]);
@@ -972,24 +881,18 @@ template<class rtype,class vtype,int N> accelerator_inline void accumRecon5p (iM
}
// four spinor projectors for chiral proj
// template<class vtype> accelerator_inline void fspProj5p (iScalar<vtype> &hspin,const iScalar<vtype> &fspin)
template<class vtype> accelerator_inline void spProj5p (iScalar<vtype> &hspin,const iScalar<vtype> &fspin)
template<class vtype,IfNotCoarsened<iScalar<vtype> > = 0> accelerator_inline void spProj5p (iScalar<vtype> &hspin,const iScalar<vtype> &fspin)
{
//typename std::enable_if<matchGridTensorIndex<iScalar<vtype>,SpinorIndex>::notvalue,iScalar<vtype> >::type *temp;
spProj5p(hspin._internal,fspin._internal);
}
// template<class vtype,int N> accelerator_inline void fspProj5p (iVector<vtype,N> &hspin,iVector<vtype,N> &fspin)
template<class vtype,int N,IfNotSpinor<iVector<vtype,N> > = 0> accelerator_inline void spProj5p (iVector<vtype,N> &hspin,const iVector<vtype,N> &fspin)
template<class vtype,int N,IfNotSpinor<iVector<vtype,N> > = 0,IfNotCoarsened<iScalar<vtype> > = 0> accelerator_inline void spProj5p (iVector<vtype,N> &hspin,const iVector<vtype,N> &fspin)
{
//typename std::enable_if<matchGridTensorIndex<iVector<vtype,N>,SpinorIndex>::notvalue,iVector<vtype,N> >::type *temp;
for(int i=0;i<N;i++) {
spProj5p(hspin._internal[i],fspin._internal[i]);
}
}
// template<class vtype,int N> accelerator_inline void fspProj5p (iMatrix<vtype,N> &hspin,iMatrix<vtype,N> &fspin)
template<class vtype,int N> accelerator_inline void spProj5p (iMatrix<vtype,N> &hspin,const iMatrix<vtype,N> &fspin)
template<class vtype,int N,IfNotCoarsened<iScalar<vtype> > = 0> accelerator_inline void spProj5p (iMatrix<vtype,N> &hspin,const iMatrix<vtype,N> &fspin)
{
//typename std::enable_if<matchGridTensorIndex<iMatrix<vtype,N>,SpinorIndex>::notvalue,iMatrix<vtype,N> >::type *temp;
for(int i=0;i<N;i++){
for(int j=0;j<N;j++){
spProj5p(hspin._internal[i][j],fspin._internal[i][j]);
@@ -1001,17 +904,17 @@ template<class vtype,int N> accelerator_inline void spProj5p (iMatrix<vtype,N> &
// 5m
////////
template<class rtype,class vtype> accelerator_inline void spProj5m (iScalar<rtype> &hspin,const iScalar<vtype> &fspin)
template<class rtype,class vtype,IfNotCoarsened<iScalar<vtype> > = 0> accelerator_inline void spProj5m (iScalar<rtype> &hspin,const iScalar<vtype> &fspin)
{
spProj5m(hspin._internal,fspin._internal);
}
template<class rtype,class vtype,int N,IfNotSpinor<iVector<rtype,N> > = 0> accelerator_inline void spProj5m (iVector<rtype,N> &hspin,const iVector<vtype,N> &fspin)
template<class rtype,class vtype,int N,IfNotSpinor<iVector<rtype,N> > = 0,IfNotCoarsened<iScalar<vtype> > = 0> accelerator_inline void spProj5m (iVector<rtype,N> &hspin,const iVector<vtype,N> &fspin)
{
for(int i=0;i<N;i++) {
spProj5m(hspin._internal[i],fspin._internal[i]);
}
}
template<class rtype,class vtype,int N> accelerator_inline void spProj5m (iMatrix<rtype,N> &hspin,const iMatrix<vtype,N> &fspin)
template<class rtype,class vtype,int N,IfNotCoarsened<iScalar<vtype> > = 0> accelerator_inline void spProj5m (iMatrix<rtype,N> &hspin,const iMatrix<vtype,N> &fspin)
{
for(int i=0;i<N;i++){
for(int j=0;j<N;j++){
@@ -1021,40 +924,34 @@ template<class rtype,class vtype,int N> accelerator_inline void spProj5m (iMatri
template<class rtype,class vtype> accelerator_inline void spRecon5m (iScalar<rtype> &hspin,const iScalar<vtype> &fspin)
{
//typename std::enable_if<matchGridTensorIndex<iScalar<vtype>,SpinorIndex>::notvalue,iScalar<vtype> >::type *temp;
spRecon5m(hspin._internal,fspin._internal);
}
template<class rtype,class vtype,int N,IfNotSpinor<iVector<vtype,N> > = 0> accelerator_inline void spRecon5m (iVector<rtype,N> &hspin,const iVector<vtype,N> &fspin)
{
//typename std::enable_if<matchGridTensorIndex<iVector<vtype,N>,SpinorIndex>::notvalue,iVector<vtype,N> >::type *temp;
for(int i=0;i<N;i++) {
spRecon5m(hspin._internal[i],fspin._internal[i]);
}
}
template<class rtype,class vtype,int N> accelerator_inline void spRecon5m (iMatrix<rtype,N> &hspin,const iMatrix<vtype,N> &fspin)
{
//typename std::enable_if<matchGridTensorIndex<iMatrix<vtype,N>,SpinorIndex>::notvalue,iMatrix<vtype,N> >::type *temp;
for(int i=0;i<N;i++){
for(int j=0;j<N;j++){
spRecon5m(hspin._internal[i][j],fspin._internal[i][j]);
}}
}}
}
template<class rtype,class vtype> accelerator_inline void accumRecon5m (iScalar<rtype> &hspin,const iScalar<vtype> &fspin)
{
//typename std::enable_if<matchGridTensorIndex<iScalar<vtype>,SpinorIndex>::notvalue,iScalar<vtype> >::type *temp;
accumRecon5m(hspin._internal,fspin._internal);
}
template<class rtype,class vtype,int N,IfNotSpinor<iVector<vtype,N> > = 0> accelerator_inline void accumRecon5m (iVector<rtype,N> &hspin,const iVector<vtype,N> &fspin)
{
//typename std::enable_if<matchGridTensorIndex<iVector<vtype,N>,SpinorIndex>::notvalue,iVector<vtype,N> >::type *temp;
for(int i=0;i<N;i++) {
accumRecon5m(hspin._internal[i],fspin._internal[i]);
}
}
template<class rtype,class vtype,int N> accelerator_inline void accumRecon5m (iMatrix<rtype,N> &hspin,const iMatrix<vtype,N> &fspin)
{
//typename std::enable_if<matchGridTensorIndex<iMatrix<vtype,N>,SpinorIndex>::notvalue,iMatrix<vtype,N> >::type *temp;
for(int i=0;i<N;i++){
for(int j=0;j<N;j++){
accumRecon5m(hspin._internal[i][j],fspin._internal[i][j]);
@@ -1063,24 +960,18 @@ template<class rtype,class vtype,int N> accelerator_inline void accumRecon5m (iM
// four spinor projectors for chiral proj
// template<class vtype> accelerator_inline void fspProj5m (iScalar<vtype> &hspin,const iScalar<vtype> &fspin)
template<class vtype> accelerator_inline void spProj5m (iScalar<vtype> &hspin,const iScalar<vtype> &fspin)
template<class vtype,IfNotCoarsened<iScalar<vtype> > = 0> accelerator_inline void spProj5m (iScalar<vtype> &hspin,const iScalar<vtype> &fspin)
{
//typename std::enable_if<matchGridTensorIndex<iScalar<vtype>,SpinorIndex>::notvalue,iScalar<vtype> >::type *temp;
spProj5m(hspin._internal,fspin._internal);
}
// template<class vtype,int N> accelerator_inline void fspProj5m (iVector<vtype,N> &hspin,iVector<vtype,N> &fspin)
template<class vtype,int N,IfNotSpinor<iVector<vtype,N> > = 0> accelerator_inline void spProj5m (iVector<vtype,N> &hspin,const iVector<vtype,N> &fspin)
template<class vtype,int N,IfNotSpinor<iVector<vtype,N> > = 0,IfNotCoarsened<iScalar<vtype> > = 0> accelerator_inline void spProj5m (iVector<vtype,N> &hspin,const iVector<vtype,N> &fspin)
{
//typename std::enable_if<matchGridTensorIndex<iVector<vtype,N>,SpinorIndex>::notvalue,iVector<vtype,N> >::type *temp;
for(int i=0;i<N;i++) {
spProj5m(hspin._internal[i],fspin._internal[i]);
}
}
// template<class vtype,int N> accelerator_inline void fspProj5m (iMatrix<vtype,N> &hspin,iMatrix<vtype,N> &fspin)
template<class vtype,int N> accelerator_inline void spProj5m (iMatrix<vtype,N> &hspin,const iMatrix<vtype,N> &fspin)
template<class vtype,int N,IfNotCoarsened<iScalar<vtype> > = 0> accelerator_inline void spProj5m (iMatrix<vtype,N> &hspin,const iMatrix<vtype,N> &fspin)
{
//typename std::enable_if<matchGridTensorIndex<iMatrix<vtype,N>,SpinorIndex>::notvalue,iMatrix<vtype,N> >::type *temp;
for(int i=0;i<N;i++){
for(int j=0;j<N;j++){
spProj5m(hspin._internal[i][j],fspin._internal[i][j]);

1862
Grid/qcd/utils/BaryonUtils.h
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File diff suppressed because it is too large Load Diff

51
Grid/qcd/utils/CovariantCshift.h
View File

@@ -53,6 +53,24 @@ namespace PeriodicBC {
return Cshift(tmp,mu,-1);// moves towards positive mu
}
template<class gauge> Lattice<gauge>
CovShiftIdentityBackward(const Lattice<gauge> &Link, int mu)
{
return Cshift(adj(Link), mu, -1);
}
template<class gauge> Lattice<gauge>
CovShiftIdentityForward(const Lattice<gauge> &Link, int mu)
{
return Link;
}
template<class gauge> Lattice<gauge>
ShiftStaple(const Lattice<gauge> &Link, int mu)
{
return Cshift(Link, mu, 1);
}
template<class gauge,class Expr,typename std::enable_if<is_lattice_expr<Expr>::value,void>::type * = nullptr>
auto CovShiftForward(const Lattice<gauge> &Link,
int mu,
@@ -70,6 +88,7 @@ namespace PeriodicBC {
return CovShiftBackward(Link,mu,arg);
}
}
@@ -139,6 +158,38 @@ namespace ConjugateBC {
// std::cout<<"Gparity::CovCshiftBackward mu="<<mu<<std::endl;
return Cshift(tmp,mu,-1);// moves towards positive mu
}
template<class gauge> Lattice<gauge>
CovShiftIdentityBackward(const Lattice<gauge> &Link, int mu) {
GridBase *grid = Link.Grid();
int Lmu = grid->GlobalDimensions()[mu] - 1;
Lattice<iScalar<vInteger>> coor(grid);
LatticeCoordinate(coor, mu);
Lattice<gauge> tmp(grid);
tmp = adj(Link);
tmp = where(coor == Lmu, conjugate(tmp), tmp);
return Cshift(tmp, mu, -1); // moves towards positive mu
}
template<class gauge> Lattice<gauge>
CovShiftIdentityForward(const Lattice<gauge> &Link, int mu) {
return Link;
}
template<class gauge> Lattice<gauge>
ShiftStaple(const Lattice<gauge> &Link, int mu)
{
GridBase *grid = Link.Grid();
int Lmu = grid->GlobalDimensions()[mu] - 1;
Lattice<iScalar<vInteger>> coor(grid);
LatticeCoordinate(coor, mu);
Lattice<gauge> tmp(grid);
tmp = Cshift(Link, mu, 1);
tmp = where(coor == Lmu, conjugate(tmp), tmp);
return tmp;
}
template<class gauge,class Expr,typename std::enable_if<is_lattice_expr<Expr>::value,void>::type * = nullptr>
auto CovShiftForward(const Lattice<gauge> &Link,

28
Grid/qcd/utils/LinalgUtils.h
View File

@@ -154,8 +154,8 @@ void axpby_ssp_pminus(Lattice<vobj> &z,Coeff a,const Lattice<vobj> &x,Coeff b,co
accelerator_for(sss,nloop,vobj::Nsimd(),{
uint64_t ss = sss*Ls;
decltype(coalescedRead(y_v[ss+sp])) tmp;
spProj5m(tmp,y_v(ss+sp));
tmp = a*x_v(ss+s)+b*tmp;
spProj5m(tmp,y_v(ss+sp));
tmp = a*x_v(ss+s)+b*tmp;
coalescedWrite(z_v[ss+s],tmp);
});
}
@@ -188,7 +188,6 @@ void G5R5(Lattice<vobj> &z,const Lattice<vobj> &x)
z.Checkerboard() = x.Checkerboard();
conformable(x,z);
int Ls = grid->_rdimensions[0];
Gamma G5(Gamma::Algebra::Gamma5);
autoView( x_v, x, AcceleratorRead);
autoView( z_v, z, AcceleratorWrite);
uint64_t nloop = grid->oSites()/Ls;
@@ -196,7 +195,13 @@ void G5R5(Lattice<vobj> &z,const Lattice<vobj> &x)
uint64_t ss = sss*Ls;
for(int s=0;s<Ls;s++){
int sp = Ls-1-s;
coalescedWrite(z_v[ss+sp],G5*x_v(ss+s));
auto tmp = x_v(ss+s);
decltype(tmp) tmp_p;
decltype(tmp) tmp_m;
spProj5p(tmp_p,tmp);
spProj5m(tmp_m,tmp);
// Use of spProj5m, 5p captures the coarse space too
coalescedWrite(z_v[ss+sp],tmp_p - tmp_m);
}
});
}
@@ -208,10 +213,20 @@ void G5C(Lattice<vobj> &z, const Lattice<vobj> &x)
z.Checkerboard() = x.Checkerboard();
conformable(x, z);
Gamma G5(Gamma::Algebra::Gamma5);
z = G5 * x;
autoView( x_v, x, AcceleratorRead);
autoView( z_v, z, AcceleratorWrite);
uint64_t nloop = grid->oSites();
accelerator_for(ss,nloop,vobj::Nsimd(),{
auto tmp = x_v(ss);
decltype(tmp) tmp_p;
decltype(tmp) tmp_m;
spProj5p(tmp_p,tmp);
spProj5m(tmp_m,tmp);
coalescedWrite(z_v[ss],tmp_p - tmp_m);
});
}
/*
template<class CComplex, int nbasis>
void G5C(Lattice<iVector<CComplex, nbasis>> &z, const Lattice<iVector<CComplex, nbasis>> &x)
{
@@ -234,6 +249,7 @@ void G5C(Lattice<iVector<CComplex, nbasis>> &z, const Lattice<iVector<CComplex,
}
});
}
*/
NAMESPACE_END(Grid);

8
Grid/qcd/utils/Metric.h
View File

@@ -93,13 +93,13 @@ public:
GeneralisedMomenta(GridBase* grid, Metric<MomentaField>& M): M(M), Mom(grid), AuxMom(grid), AuxField(grid){}
// Correct
void MomentaDistribution(GridParallelRNG& pRNG){
void MomentaDistribution(GridSerialRNG & sRNG, GridParallelRNG& pRNG){
// Generate a distribution for
// P^dag G P
// where G = M^-1
// Generate gaussian momenta
Implementation::generate_momenta(Mom, pRNG);
Implementation::generate_momenta(Mom, sRNG, pRNG);
// Modify the distribution with the metric
M.MSquareRoot(Mom);
@@ -107,8 +107,8 @@ public:
// Auxiliary momenta
// do nothing if trivial, so hide in the metric
MomentaField AuxMomTemp(Mom.Grid());
Implementation::generate_momenta(AuxMom, pRNG);
Implementation::generate_momenta(AuxField, pRNG);
Implementation::generate_momenta(AuxMom, sRNG, pRNG);
Implementation::generate_momenta(AuxField, sRNG, pRNG);
// Modify the distribution with the metric
// Aux^dag M Aux
M.MInvSquareRoot(AuxMom); // AuxMom = M^{-1/2} AuxMomTemp

86
Grid/qcd/utils/SUn.h
View File

@@ -449,7 +449,8 @@ public:
LatticeReal alpha(grid);
// std::cout<<GridLogMessage<<"xi "<<xi <<std::endl;
alpha = toReal(2.0 * xi);
xi = 2.0 *xi;
alpha = toReal(xi);
do {
// A. Generate two uniformly distributed pseudo-random numbers R and R',
@@ -734,7 +735,6 @@ public:
}
}
template <typename GaugeField>
static void HotConfiguration(GridParallelRNG &pRNG, GaugeField &out) {
typedef typename GaugeField::vector_type vector_type;
@@ -799,6 +799,88 @@ public:
}
};
template<int N>
LatticeComplexD Determinant(const Lattice<iScalar<iScalar<iMatrix<vComplexD, N> > > > &Umu)
{
GridBase *grid=Umu.Grid();
auto lvol = grid->lSites();
LatticeComplexD ret(grid);
autoView(Umu_v,Umu,CpuRead);
autoView(ret_v,ret,CpuWrite);
thread_for(site,lvol,{
Eigen::MatrixXcd EigenU = Eigen::MatrixXcd::Zero(N,N);
Coordinate lcoor;
grid->LocalIndexToLocalCoor(site, lcoor);
iScalar<iScalar<iMatrix<ComplexD, N> > > Us;
peekLocalSite(Us, Umu_v, lcoor);
for(int i=0;i<N;i++){
for(int j=0;j<N;j++){
EigenU(i,j) = Us()()(i,j);
}}
ComplexD det = EigenU.determinant();
pokeLocalSite(det,ret_v,lcoor);
});
return ret;
}
template<int N>
static void ProjectSUn(Lattice<iScalar<iScalar<iMatrix<vComplexD, N> > > > &Umu)
{
Umu = ProjectOnGroup(Umu);
auto det = Determinant(Umu);
det = conjugate(det);
for(int i=0;i<N;i++){
auto element = PeekIndex<ColourIndex>(Umu,N-1,i);
element = element * det;
PokeIndex<ColourIndex>(Umu,element,Nc-1,i);
}
}
template<int N>
static void ProjectSUn(Lattice<iVector<iScalar<iMatrix<vComplexD, N> >,Nd> > &U)
{
GridBase *grid=U.Grid();
// Reunitarise
for(int mu=0;mu<Nd;mu++){
auto Umu = PeekIndex<LorentzIndex>(U,mu);
Umu = ProjectOnGroup(Umu);
ProjectSUn(Umu);
PokeIndex<LorentzIndex>(U,Umu,mu);
}
}
// Explicit specialisation for SU(3).
// Explicit specialisation for SU(3).
static void
ProjectSU3 (Lattice<iScalar<iScalar<iMatrix<vComplexD, 3> > > > &Umu)
{
GridBase *grid=Umu.Grid();
const int x=0;
const int y=1;
const int z=2;
// Reunitarise
Umu = ProjectOnGroup(Umu);
autoView(Umu_v,Umu,CpuWrite);
thread_for(ss,grid->oSites(),{
auto cm = Umu_v[ss];
cm()()(2,x) = adj(cm()()(0,y)*cm()()(1,z)-cm()()(0,z)*cm()()(1,y)); //x= yz-zy
cm()()(2,y) = adj(cm()()(0,z)*cm()()(1,x)-cm()()(0,x)*cm()()(1,z)); //y= zx-xz
cm()()(2,z) = adj(cm()()(0,x)*cm()()(1,y)-cm()()(0,y)*cm()()(1,x)); //z= xy-yx
Umu_v[ss]=cm;
});
}
static void ProjectSU3(Lattice<iVector<iScalar<iMatrix<vComplexD, 3> >,Nd> > &U)
{
GridBase *grid=U.Grid();
// Reunitarise
for(int mu=0;mu<Nd;mu++){
auto Umu = PeekIndex<LorentzIndex>(U,mu);
Umu = ProjectOnGroup(Umu);
ProjectSU3(Umu);
PokeIndex<LorentzIndex>(U,Umu,mu);
}
}
typedef SU<2> SU2;
typedef SU<3> SU3;
typedef SU<4> SU4;

35
Grid/serialisation/BaseIO.cc Normal file
View File

@@ -0,0 +1,35 @@
/*************************************************************************************
Grid physics library, www.github.com/paboyle/Grid
Source file: ./lib/serialisation/BaseIO.h
Copyright (C) 2015
Author: Michael Marshall <michael.marshall@ed.ac.uk>
This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 2 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License along
with this program; if not, write to the Free Software Foundation, Inc.,
51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
See the full license in the file "LICENSE" in the top level distribution directory
*************************************************************************************/
/* END LEGAL */
#include <Grid/GridCore.h>
NAMESPACE_BEGIN(Grid)
std::uint64_t EigenIO::EigenResizeCounter(0);
NAMESPACE_END(Grid)

12
Grid/serialisation/BaseIO.h
View File

@@ -9,6 +9,7 @@
Author: Antonin Portelli <antonin.portelli@me.com>
Author: Peter Boyle <paboyle@ph.ed.ac.uk>
Author: Guido Cossu <guido.cossu@ed.ac.uk>
Author: Michael Marshall <michael.marshall@ed.ac.uk>
This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
@@ -30,6 +31,7 @@ Author: Guido Cossu <guido.cossu@ed.ac.uk>
#ifndef GRID_SERIALISATION_ABSTRACT_READER_H
#define GRID_SERIALISATION_ABSTRACT_READER_H
#include <atomic>
#include <type_traits>
#include <Grid/tensors/Tensors.h>
#include <Grid/serialisation/VectorUtils.h>
@@ -110,6 +112,10 @@ namespace Grid {
template <typename ET>
inline typename std::enable_if<is_tensor_of_container<ET>::value, typename Traits<ET>::scalar_type *>::type
getFirstScalar(ET &eigenTensor) { return eigenTensor.data()->begin(); }
// Counter for resized EigenTensors (poor man's substitute for allocator)
// Defined in BinaryIO.cc
extern std::uint64_t EigenResizeCounter;
}
// Abstract writer/reader classes ////////////////////////////////////////////
@@ -497,8 +503,14 @@ namespace Grid {
typename std::enable_if<EigenIO::is_tensor_variable<ETensor>::value, void>::type
Reader<T>::Reshape(ETensor &t, const std::array<typename ETensor::Index, ETensor::NumDimensions> &dims )
{
#ifdef GRID_OMP
// The memory counter is the reason this must be done from the primary thread
assert(omp_in_parallel()==0 && "Deserialisation which resizes Eigen tensor must happen from primary thread");
#endif
EigenIO::EigenResizeCounter -= static_cast<uint64_t>(t.size()) * sizeof(typename ETensor::Scalar);
//t.reshape( dims );
t.resize( dims );
EigenIO::EigenResizeCounter += static_cast<uint64_t>(t.size()) * sizeof(typename ETensor::Scalar);
}
template <typename T>

31
Grid/serialisation/Hdf5IO.cc
View File

@@ -1,3 +1,34 @@
/*************************************************************************************
Grid physics library, www.github.com/paboyle/Grid
Source file: ./Grid/serialisation/VectorUtils.h
Copyright (C) 2015
Author: Antonin Portelli <antonin.portelli@me.com>
Author: Peter Boyle <paboyle@ed.ac.uk>
Author: Guido Cossu <guido.cossu@ed.ac.uk>
Author: Michael Marshall <michael.marshall@ed.ac.uk>
This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 2 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License along
with this program; if not, write to the Free Software Foundation, Inc.,
51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
See the full license in the file "LICENSE" in the top level distribution directory
*************************************************************************************/
/* END LEGAL */
#include <Grid/Grid.h>
using namespace Grid;

116
Grid/serialisation/Hdf5IO.h
View File

@@ -1,3 +1,34 @@
/*************************************************************************************
Grid physics library, www.github.com/paboyle/Grid
Source file: ./Grid/serialisation/VectorUtils.h
Copyright (C) 2015
Author: Peter Boyle <paboyle@ed.ac.uk>
Author: Antonin Portelli <antonin.portelli@me.com>
Author: Guido Cossu <guido.cossu@ed.ac.uk>
Author: Michael Marshall <michael.marshall@ed.ac.uk>
This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 2 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License along
with this program; if not, write to the Free Software Foundation, Inc.,
51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
See the full license in the file "LICENSE" in the top level distribution directory
*************************************************************************************/
/* END LEGAL */
#ifndef GRID_SERIALISATION_HDF5_H
#define GRID_SERIALISATION_HDF5_H
@@ -34,11 +65,13 @@ namespace Grid
template <typename U>
void writeDefault(const std::string &s, const U &x);
template <typename U>
typename std::enable_if<element<std::vector<U>>::is_number, void>::type
void writeRagged(const std::string &s, const std::vector<U> &x);
template <typename U>
typename std::enable_if<is_flattenable<std::vector<U>>::value>::type
writeDefault(const std::string &s, const std::vector<U> &x);
template <typename U>
typename std::enable_if<!element<std::vector<U>>::is_number, void>::type
writeDefault(const std::string &s, const std::vector<U> &x);
typename std::enable_if<!is_flattenable<std::vector<U>>::value>::type
writeDefault(const std::string &s, const std::vector<U> &x) { writeRagged(s, x); }
template <typename U>
void writeMultiDim(const std::string &s, const std::vector<size_t> & Dimensions, const U * pDataRowMajor, size_t NumElements);
H5NS::Group & getGroup(void);
@@ -64,11 +97,13 @@ namespace Grid
template <typename U>
void readDefault(const std::string &s, U &output);
template <typename U>
typename std::enable_if<element<std::vector<U>>::is_number, void>::type
void readRagged(const std::string &s, std::vector<U> &x);
template <typename U>
typename std::enable_if<is_flattenable<std::vector<U>>::value>::type
readDefault(const std::string &s, std::vector<U> &x);
template <typename U>
typename std::enable_if<!element<std::vector<U>>::is_number, void>::type
readDefault(const std::string &s, std::vector<U> &x);
typename std::enable_if<!is_flattenable<std::vector<U>>::value>::type
readDefault(const std::string &s, std::vector<U> &x) { readRagged(s, x); }
template <typename U>
void readMultiDim(const std::string &s, std::vector<U> &buf, std::vector<size_t> &dim);
H5NS::Group & getGroup(void);
@@ -176,24 +211,30 @@ namespace Grid
}
template <typename U>
typename std::enable_if<element<std::vector<U>>::is_number, void>::type
typename std::enable_if<is_flattenable<std::vector<U>>::value>::type
Hdf5Writer::writeDefault(const std::string &s, const std::vector<U> &x)
{
// alias to element type
typedef typename element<std::vector<U>>::type Element;
// flatten the vector and getting dimensions
Flatten<std::vector<U>> flat(x);
std::vector<size_t> dim;
const auto &flatx = flat.getFlatVector();
for (auto &d: flat.getDim())
dim.push_back(d);
writeMultiDim<Element>(s, dim, &flatx[0], flatx.size());
if (isRegularShape(x))
{
// alias to element type
using Scalar = typename is_flattenable<std::vector<U>>::type;
// flatten the vector and getting dimensions
Flatten<std::vector<U>> flat(x);
std::vector<size_t> dim;
const auto &flatx = flat.getFlatVector();
for (auto &d: flat.getDim())
dim.push_back(d);
writeMultiDim<Scalar>(s, dim, &flatx[0], flatx.size());
}
else
{
writeRagged(s, x);
}
}
template <typename U>
typename std::enable_if<!element<std::vector<U>>::is_number, void>::type
Hdf5Writer::writeDefault(const std::string &s, const std::vector<U> &x)
void Hdf5Writer::writeRagged(const std::string &s, const std::vector<U> &x)
{
push(s);
writeSingleAttribute(x.size(), HDF5_GRID_GUARD "vector_size",
@@ -229,7 +270,7 @@ namespace Grid
void Hdf5Reader::readMultiDim(const std::string &s, std::vector<U> &buf, std::vector<size_t> &dim)
{
// alias to element type
typedef typename element<std::vector<U>>::type Element;
using Scalar = typename is_flattenable<std::vector<U>>::type;
// read the dimensions
H5NS::DataSpace dataSpace;
@@ -260,37 +301,44 @@ namespace Grid
H5NS::DataSet dataSet;
dataSet = group_.openDataSet(s);
dataSet.read(buf.data(), Hdf5Type<Element>::type());
dataSet.read(buf.data(), Hdf5Type<Scalar>::type());
}
else
{
H5NS::Attribute attribute;
attribute = group_.openAttribute(s);
attribute.read(Hdf5Type<Element>::type(), buf.data());
attribute.read(Hdf5Type<Scalar>::type(), buf.data());
}
}
template <typename U>
typename std::enable_if<element<std::vector<U>>::is_number, void>::type
typename std::enable_if<is_flattenable<std::vector<U>>::value>::type
Hdf5Reader::readDefault(const std::string &s, std::vector<U> &x)
{
// alias to element type
typedef typename element<std::vector<U>>::type Element;
if (H5Lexists (group_.getId(), s.c_str(), H5P_DEFAULT) > 0
&& H5Aexists_by_name(group_.getId(), s.c_str(), HDF5_GRID_GUARD "vector_size", H5P_DEFAULT ) > 0)
{
readRagged(s, x);
}
else
{
// alias to element type
using Scalar = typename is_flattenable<std::vector<U>>::type;
std::vector<size_t> dim;
std::vector<Element> buf;
readMultiDim( s, buf, dim );
std::vector<size_t> dim;
std::vector<Scalar> buf;
readMultiDim( s, buf, dim );
// reconstruct the multidimensional vector
Reconstruct<std::vector<U>> r(buf, dim);
x = r.getVector();
// reconstruct the multidimensional vector
Reconstruct<std::vector<U>> r(buf, dim);
x = r.getVector();
}
}
template <typename U>
typename std::enable_if<!element<std::vector<U>>::is_number, void>::type
Hdf5Reader::readDefault(const std::string &s, std::vector<U> &x)
void Hdf5Reader::readRagged(const std::string &s, std::vector<U> &x)
{
uint64_t size;

2
Grid/serialisation/JSON_IO.cc
View File

@@ -26,7 +26,7 @@
*************************************************************************************/
/* END LEGAL */
#include <Grid/Grid.h>
#ifndef __NVCC__
#if (!defined(GRID_CUDA)) && (!defined(GRID_HIP))
NAMESPACE_BEGIN(Grid);

4
Grid/serialisation/MacroMagic.h
View File

@@ -118,13 +118,13 @@ static inline std::string SerialisableClassName(void) {return std::string(#cname
static constexpr bool isEnum = false; \
GRID_MACRO_EVAL(GRID_MACRO_MAP(GRID_MACRO_MEMBER,__VA_ARGS__))\
template <typename T>\
static inline void write(Writer<T> &WR,const std::string &s, const cname &obj){ \
static inline void write(::Grid::Writer<T> &WR,const std::string &s, const cname &obj){ \
push(WR,s);\
GRID_MACRO_EVAL(GRID_MACRO_MAP(GRID_MACRO_WRITE_MEMBER,__VA_ARGS__)) \
pop(WR);\
}\
template <typename T>\
static inline void read(Reader<T> &RD,const std::string &s, cname &obj){ \
static inline void read(::Grid::Reader<T> &RD,const std::string &s, cname &obj){ \
if (!push(RD,s))\
{\
std::cout << ::Grid::GridLogWarning << "IO: Cannot open node '" << s << "'" << std::endl; \

288
Grid/serialisation/VectorUtils.h
View File

@@ -9,7 +9,8 @@
Author: Antonin Portelli <antonin.portelli@me.com>
Author: Peter Boyle <paboyle@ph.ed.ac.uk>
Author: paboyle <paboyle@ph.ed.ac.uk>
Author: Michael Marshall <michael.marshall@ed.ac.uk>
This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 2 of the License, or
@@ -236,21 +237,36 @@ namespace Grid {
}
}
// Vector element trait //////////////////////////////////////////////////////
template <typename T>
struct element
// is_flattenable<T>::value is true if T is a std::vector<> which can be flattened //////////////////////
template <typename T, typename V = void>
struct is_flattenable : std::false_type
{
typedef T type;
static constexpr bool is_number = false;
using type = T;
using grid_type = T;
static constexpr int vecRank = 0;
static constexpr bool isGridTensor = false;
static constexpr bool children_flattenable = std::is_arithmetic<T>::value or is_complex<T>::value;
};
template <typename T>
struct element<std::vector<T>>
struct is_flattenable<T, typename std::enable_if<isGridTensor<T>::value>::type> : std::false_type
{
typedef typename element<T>::type type;
static constexpr bool is_number = std::is_arithmetic<T>::value
or is_complex<T>::value
or element<T>::is_number;
using type = typename GridTypeMapper<T>::scalar_type;
using grid_type = T;
static constexpr int vecRank = 0;
static constexpr bool isGridTensor = true;
static constexpr bool children_flattenable = true;
};
template <typename T>
struct is_flattenable<std::vector<T>, typename std::enable_if<is_flattenable<T>::children_flattenable>::type>
: std::true_type
{
using type = typename is_flattenable<T>::type;
using grid_type = typename is_flattenable<T>::grid_type;
static constexpr bool isGridTensor = is_flattenable<T>::isGridTensor;
static constexpr int vecRank = is_flattenable<T>::vecRank + 1;
static constexpr bool children_flattenable = true;
};
// Vector flattening utility class ////////////////////////////////////////////
@@ -259,23 +275,30 @@ namespace Grid {
class Flatten
{
public:
typedef typename element<V>::type Element;
using Scalar = typename is_flattenable<V>::type;
static constexpr bool isGridTensor = is_flattenable<V>::isGridTensor;
public:
explicit Flatten(const V &vector);
const V & getVector(void);
const std::vector<Element> & getFlatVector(void);
const std::vector<size_t> & getDim(void);
explicit Flatten(const V &vector);
const V & getVector(void) const { return vector_; }
const std::vector<Scalar> & getFlatVector(void) const { return flatVector_; }
const std::vector<size_t> & getDim(void) const { return dim_; }
private:
void accumulate(const Element &e);
template <typename W>
void accumulate(const W &v);
void accumulateDim(const Element &e);
template <typename W>
void accumulateDim(const W &v);
template <typename W> typename std::enable_if<!is_flattenable<W>::value && !is_flattenable<W>::isGridTensor>::type
accumulate(const W &e);
template <typename W> typename std::enable_if<!is_flattenable<W>::value && is_flattenable<W>::isGridTensor>::type
accumulate(const W &e);
template <typename W> typename std::enable_if< is_flattenable<W>::value>::type
accumulate(const W &v);
template <typename W> typename std::enable_if<!is_flattenable<W>::value && !is_flattenable<W>::isGridTensor>::type
accumulateDim(const W &e) {} // Innermost is a scalar - do nothing
template <typename W> typename std::enable_if<!is_flattenable<W>::value && is_flattenable<W>::isGridTensor>::type
accumulateDim(const W &e);
template <typename W> typename std::enable_if< is_flattenable<W>::value>::type
accumulateDim(const W &v);
private:
const V &vector_;
std::vector<Element> flatVector_;
std::vector<size_t> dim_;
const V &vector_;
std::vector<Scalar> flatVector_;
std::vector<size_t> dim_;
};
// Class to reconstruct a multidimensional std::vector
@@ -283,38 +306,57 @@ namespace Grid {
class Reconstruct
{
public:
typedef typename element<V>::type Element;
using Scalar = typename is_flattenable<V>::type;
static constexpr bool isGridTensor = is_flattenable<V>::isGridTensor;
public:
Reconstruct(const std::vector<Element> &flatVector,
Reconstruct(const std::vector<Scalar> &flatVector,
const std::vector<size_t> &dim);
const V & getVector(void);
const std::vector<Element> & getFlatVector(void);
const std::vector<size_t> & getDim(void);
const V & getVector(void) const { return vector_; }
const std::vector<Scalar> & getFlatVector(void) const { return flatVector_; }
const std::vector<size_t> & getDim(void) const { return dim_; }
private:
void fill(std::vector<Element> &v);
template <typename W>
void fill(W &v);
void resize(std::vector<Element> &v, const unsigned int dim);
template <typename W>
void resize(W &v, const unsigned int dim);
template <typename W> typename std::enable_if<!is_flattenable<W>::value && !is_flattenable<W>::isGridTensor>::type
fill(W &v);
template <typename W> typename std::enable_if<!is_flattenable<W>::value && is_flattenable<W>::isGridTensor>::type
fill(W &v);
template <typename W> typename std::enable_if< is_flattenable<W>::value>::type
fill(W &v);
template <typename W> typename std::enable_if< is_flattenable<W>::value && is_flattenable<W>::vecRank==1>::type
resize(W &v, const unsigned int dim);
template <typename W> typename std::enable_if< is_flattenable<W>::value && (is_flattenable<W>::vecRank>1)>::type
resize(W &v, const unsigned int dim);
template <typename W> typename std::enable_if<!is_flattenable<W>::isGridTensor>::type
checkInnermost(const W &e) {} // Innermost is a scalar - do nothing
template <typename W> typename std::enable_if< is_flattenable<W>::isGridTensor>::type
checkInnermost(const W &e);
private:
V vector_;
const std::vector<Element> &flatVector_;
std::vector<size_t> dim_;
size_t ind_{0};
unsigned int dimInd_{0};
V vector_;
const std::vector<Scalar> &flatVector_;
std::vector<size_t> dim_;
size_t ind_{0};
unsigned int dimInd_{0};
};
// Flatten class template implementation
template <typename V>
void Flatten<V>::accumulate(const Element &e)
template <typename W> typename std::enable_if<!is_flattenable<W>::value && !is_flattenable<W>::isGridTensor>::type
Flatten<V>::accumulate(const W &e)
{
flatVector_.push_back(e);
}
template <typename V>
template <typename W>
void Flatten<V>::accumulate(const W &v)
template <typename W> typename std::enable_if<!is_flattenable<W>::value && is_flattenable<W>::isGridTensor>::type
Flatten<V>::accumulate(const W &e)
{
for (const Scalar &x: e) {
flatVector_.push_back(x);
}
}
template <typename V>
template <typename W> typename std::enable_if<is_flattenable<W>::value>::type
Flatten<V>::accumulate(const W &v)
{
for (auto &e: v)
{
@@ -323,11 +365,17 @@ namespace Grid {
}
template <typename V>
void Flatten<V>::accumulateDim(const Element &e) {};
template <typename W> typename std::enable_if<!is_flattenable<W>::value && is_flattenable<W>::isGridTensor>::type
Flatten<V>::accumulateDim(const W &e)
{
using Traits = GridTypeMapper<typename is_flattenable<W>::grid_type>;
for (int rank=0; rank < Traits::Rank; ++rank)
dim_.push_back(Traits::Dimension(rank));
}
template <typename V>
template <typename W>
void Flatten<V>::accumulateDim(const W &v)
template <typename W> typename std::enable_if<is_flattenable<W>::value>::type
Flatten<V>::accumulateDim(const W &v)
{
dim_.push_back(v.size());
accumulateDim(v[0]);
@@ -337,42 +385,36 @@ namespace Grid {
Flatten<V>::Flatten(const V &vector)
: vector_(vector)
{
accumulate(vector_);
accumulateDim(vector_);
}
template <typename V>
const V & Flatten<V>::getVector(void)
{
return vector_;
}
template <typename V>
const std::vector<typename Flatten<V>::Element> &
Flatten<V>::getFlatVector(void)
{
return flatVector_;
}
template <typename V>
const std::vector<size_t> & Flatten<V>::getDim(void)
{
return dim_;
std::size_t TotalSize{ dim_[0] };
for (int i = 1; i < dim_.size(); ++i) {
TotalSize *= dim_[i];
}
flatVector_.reserve(TotalSize);
accumulate(vector_);
}
// Reconstruct class template implementation
template <typename V>
void Reconstruct<V>::fill(std::vector<Element> &v)
template <typename W> typename std::enable_if<!is_flattenable<W>::value && !is_flattenable<W>::isGridTensor>::type
Reconstruct<V>::fill(W &v)
{
v = flatVector_[ind_++];
}
template <typename V>
template <typename W> typename std::enable_if<!is_flattenable<W>::value && is_flattenable<W>::isGridTensor>::type
Reconstruct<V>::fill(W &v)
{
for (auto &e: v)
{
e = flatVector_[ind_++];
}
}
template <typename V>
template <typename W>
void Reconstruct<V>::fill(W &v)
template <typename W> typename std::enable_if<is_flattenable<W>::value>::type
Reconstruct<V>::fill(W &v)
{
for (auto &e: v)
{
@@ -381,14 +423,15 @@ namespace Grid {
}
template <typename V>
void Reconstruct<V>::resize(std::vector<Element> &v, const unsigned int dim)
template <typename W> typename std::enable_if<is_flattenable<W>::value && is_flattenable<W>::vecRank==1>::type
Reconstruct<V>::resize(W &v, const unsigned int dim)
{
v.resize(dim_[dim]);
}
template <typename V>
template <typename W>
void Reconstruct<V>::resize(W &v, const unsigned int dim)
template <typename W> typename std::enable_if<is_flattenable<W>::value && (is_flattenable<W>::vecRank>1)>::type
Reconstruct<V>::resize(W &v, const unsigned int dim)
{
v.resize(dim_[dim]);
for (auto &e: v)
@@ -398,34 +441,31 @@ namespace Grid {
}
template <typename V>
Reconstruct<V>::Reconstruct(const std::vector<Element> &flatVector,
template <typename W> typename std::enable_if<is_flattenable<W>::isGridTensor>::type
Reconstruct<V>::checkInnermost(const W &)
{
using Traits = GridTypeMapper<typename is_flattenable<W>::grid_type>;
const int gridRank{Traits::Rank};
const int dimRank{static_cast<int>(dim_.size())};
assert(dimRank >= gridRank && "Tensor rank too low for Grid tensor");
for (int i=0; i<gridRank; ++i) {
assert(dim_[dimRank - gridRank + i] == Traits::Dimension(i) && "Tensor dimension doesn't match Grid tensor");
}
dim_.resize(dimRank - gridRank);
}
template <typename V>
Reconstruct<V>::Reconstruct(const std::vector<Scalar> &flatVector,
const std::vector<size_t> &dim)
: flatVector_(flatVector)
, dim_(dim)
{
checkInnermost(vector_);
assert(dim_.size() == is_flattenable<V>::vecRank && "Tensor rank doesn't match nested std::vector rank");
resize(vector_, 0);
fill(vector_);
}
template <typename V>
const V & Reconstruct<V>::getVector(void)
{
return vector_;
}
template <typename V>
const std::vector<typename Reconstruct<V>::Element> &
Reconstruct<V>::getFlatVector(void)
{
return flatVector_;
}
template <typename V>
const std::vector<size_t> & Reconstruct<V>::getDim(void)
{
return dim_;
}
// Vector IO utilities ///////////////////////////////////////////////////////
// helper function to read space-separated values
template <typename T>
@@ -459,6 +499,64 @@ namespace Grid {
return os;
}
// In general, scalar types are considered "flattenable" (regularly shaped)
template <typename T>
bool isRegularShapeHelper(const std::vector<T> &, std::vector<std::size_t> &, int, bool)
{
return true;
}
template <typename T>
bool isRegularShapeHelper(const std::vector<std::vector<T>> &v, std::vector<std::size_t> &Dims, int Depth, bool bFirst)
{
if( bFirst)
{
assert( Dims.size() == Depth && "Bug: Delete this message after testing" );
Dims.push_back(v[0].size());
if (!Dims[Depth])
return false;
}
else
{
assert( Dims.size() >= Depth + 1 && "Bug: Delete this message after testing" );
}
for (std::size_t i = 0; i < v.size(); ++i)
{
if (v[i].size() != Dims[Depth] || !isRegularShapeHelper(v[i], Dims, Depth + 1, bFirst && i==0))
{
return false;
}
}
return true;
}
template <typename T>
bool isRegularShape(const T &t) { return true; }
template <typename T>
bool isRegularShape(const std::vector<T> &v) { return !v.empty(); }
// Return non-zero if all dimensions of this std::vector<std::vector<T>> are regularly shaped
template <typename T>
bool isRegularShape(const std::vector<std::vector<T>> &v)
{
if (v.empty() || v[0].empty())
return false;
// Make sure all of my rows are the same size
std::vector<std::size_t> Dims;
Dims.reserve(is_flattenable<T>::vecRank);
Dims.push_back(v.size());
Dims.push_back(v[0].size());
for (std::size_t i = 0; i < Dims[0]; ++i)
{
if (v[i].size() != Dims[1] || !isRegularShapeHelper(v[i], Dims, 2, i==0))
{
return false;
}
}
return true;
}
}
// helper function to read space-separated values

779
Grid/simd/Fujitsu_A64FX_asm_double.h
View File

@@ -1,779 +0,0 @@
/*************************************************************************************
Grid physics library, www.github.com/paboyle/Grid
Source file: Fujitsu_A64FX_asm_double.h
Copyright (C) 2020
Author: Nils Meyer <nils.meyer@ur.de>
This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 2 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License along
with this program; if not, write to the Free Software Foundation, Inc.,
51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
See the full license in the file "LICENSE" in the top level distribution directory
*************************************************************************************/
/* END LEGAL */
#define LOAD_CHIMU(base) LOAD_CHIMU_INTERLEAVED_A64FXd(base)
#define PREFETCH_CHIMU_L1(A) PREFETCH_CHIMU_L1_INTERNAL_A64FXd(A)
#define PREFETCH_GAUGE_L1(A) PREFETCH_GAUGE_L1_INTERNAL_A64FXd(A)
#define PREFETCH_CHIMU_L2(A) PREFETCH_CHIMU_L2_INTERNAL_A64FXd(A)
#define PREFETCH_GAUGE_L2(A) PREFETCH_GAUGE_L2_INTERNAL_A64FXd(A)
#define PF_GAUGE(A)
#define PREFETCH_RESULT_L2_STORE(A) PREFETCH_RESULT_L2_STORE_INTERNAL_A64FXd(A)
#define PREFETCH_RESULT_L1_STORE(A) PREFETCH_RESULT_L1_STORE_INTERNAL_A64FXd(A)
#define PREFETCH1_CHIMU(A) PREFETCH_CHIMU_L1(A)
#define PREFETCH_CHIMU(A) PREFETCH_CHIMU_L1(A)
#define LOCK_GAUGE(A)
#define UNLOCK_GAUGE(A)
#define MASK_REGS DECLARATIONS_A64FXd
#define SAVE_RESULT(A,B) RESULT_A64FXd(A); PREFETCH_RESULT_L2_STORE(B)
#define MULT_2SPIN_1(Dir) MULT_2SPIN_1_A64FXd(Dir)
#define MULT_2SPIN_2 MULT_2SPIN_2_A64FXd
#define LOAD_CHI(base) LOAD_CHI_A64FXd(base)
#define ADD_RESULT(base,basep) LOAD_CHIMU(base); ADD_RESULT_INTERNAL_A64FXd; RESULT_A64FXd(base)
#define XP_PROJ XP_PROJ_A64FXd
#define YP_PROJ YP_PROJ_A64FXd
#define ZP_PROJ ZP_PROJ_A64FXd
#define TP_PROJ TP_PROJ_A64FXd
#define XM_PROJ XM_PROJ_A64FXd
#define YM_PROJ YM_PROJ_A64FXd
#define ZM_PROJ ZM_PROJ_A64FXd
#define TM_PROJ TM_PROJ_A64FXd
#define XP_RECON XP_RECON_A64FXd
#define XM_RECON XM_RECON_A64FXd
#define XM_RECON_ACCUM XM_RECON_ACCUM_A64FXd
#define YM_RECON_ACCUM YM_RECON_ACCUM_A64FXd
#define ZM_RECON_ACCUM ZM_RECON_ACCUM_A64FXd
#define TM_RECON_ACCUM TM_RECON_ACCUM_A64FXd
#define XP_RECON_ACCUM XP_RECON_ACCUM_A64FXd
#define YP_RECON_ACCUM YP_RECON_ACCUM_A64FXd
#define ZP_RECON_ACCUM ZP_RECON_ACCUM_A64FXd
#define TP_RECON_ACCUM TP_RECON_ACCUM_A64FXd
#define PERMUTE_DIR0 0
#define PERMUTE_DIR1 1
#define PERMUTE_DIR2 2
#define PERMUTE_DIR3 3
#define PERMUTE PERMUTE_A64FXd;
#define LOAD_TABLE(Dir) if (Dir == 0) { LOAD_TABLE0; } else if (Dir == 1) { LOAD_TABLE1; } else if (Dir == 2) { LOAD_TABLE2; }
#define MAYBEPERM(Dir,perm) if (Dir != 3) { if (perm) { PERMUTE; } }
// DECLARATIONS
#define DECLARATIONS_A64FXd \
const uint64_t lut[4][8] = { \
{4, 5, 6, 7, 0, 1, 2, 3}, \
{2, 3, 0, 1, 6, 7, 4, 5}, \
{1, 0, 3, 2, 5, 4, 7, 6}, \
{0, 1, 2, 4, 5, 6, 7, 8} };\
asm ( \
"fmov z31.d , 0 \n\t" \
: \
: \
: "p5","cc","z0","z1","z2","z3","z4","z5","z6","z7","z8","z9","z10","z11","z12","z13","z14","z15","z16","z17","z18","z19","z20","z21","z22","z23","z24","z25","z26","z27","z28","z29","z30","z31" \
);
// RESULT
#define RESULT_A64FXd(base) \
{ \
asm ( \
"str z0, [%[storeptr], -6, mul vl] \n\t" \
"str z1, [%[storeptr], -5, mul vl] \n\t" \
"str z2, [%[storeptr], -4, mul vl] \n\t" \
"str z3, [%[storeptr], -3, mul vl] \n\t" \
"str z4, [%[storeptr], -2, mul vl] \n\t" \
"str z5, [%[storeptr], -1, mul vl] \n\t" \
"str z6, [%[storeptr], 0, mul vl] \n\t" \
"str z7, [%[storeptr], 1, mul vl] \n\t" \
"str z8, [%[storeptr], 2, mul vl] \n\t" \
"str z9, [%[storeptr], 3, mul vl] \n\t" \
"str z10, [%[storeptr], 4, mul vl] \n\t" \
"str z11, [%[storeptr], 5, mul vl] \n\t" \
: \
: [storeptr] "r" (base + 2 * 3 * 64) \
: "p5","cc","z0","z1","z2","z3","z4","z5","z6","z7","z8","z9","z10","z11","z12","z13","z14","z15","z16","z17","z18","z19","z20","z21","z22","z23","z24","z25","z26","z27","z28","z29","z30","z31","memory" \
); \
}
// PREFETCH_CHIMU_L2 (prefetch to L2)
#define PREFETCH_CHIMU_L2_INTERNAL_A64FXd(base) \
{ \
asm ( \
"prfd PLDL2STRM, p5, [%[fetchptr], 0, mul vl] \n\t" \
"prfd PLDL2STRM, p5, [%[fetchptr], 4, mul vl] \n\t" \
"prfd PLDL2STRM, p5, [%[fetchptr], 8, mul vl] \n\t" \
: \
: [fetchptr] "r" (base) \
: "p5","cc","z0","z1","z2","z3","z4","z5","z6","z7","z8","z9","z10","z11","z12","z13","z14","z15","z16","z17","z18","z19","z20","z21","z22","z23","z24","z25","z26","z27","z28","z29","z30","z31","memory" \
); \
}
// PREFETCH_CHIMU_L1 (prefetch to L1)
#define PREFETCH_CHIMU_L1_INTERNAL_A64FXd(base) \
{ \
asm ( \
"prfd PLDL1STRM, p5, [%[fetchptr], 0, mul vl] \n\t" \
"prfd PLDL1STRM, p5, [%[fetchptr], 4, mul vl] \n\t" \
"prfd PLDL1STRM, p5, [%[fetchptr], 8, mul vl] \n\t" \
: \
: [fetchptr] "r" (base) \
: "p5","cc","z0","z1","z2","z3","z4","z5","z6","z7","z8","z9","z10","z11","z12","z13","z14","z15","z16","z17","z18","z19","z20","z21","z22","z23","z24","z25","z26","z27","z28","z29","z30","z31","memory" \
); \
}
// PREFETCH_GAUGE_L2 (prefetch to L2)
#define PREFETCH_GAUGE_L2_INTERNAL_A64FXd(A) \
{ \
const auto & ref(U[sUn](A)); uint64_t baseU = (uint64_t)&ref + 3 * 3 * 64; \
asm ( \
"prfd PLDL2STRM, p5, [%[fetchptr], -4, mul vl] \n\t" \
"prfd PLDL2STRM, p5, [%[fetchptr], 0, mul vl] \n\t" \
"prfd PLDL2STRM, p5, [%[fetchptr], 4, mul vl] \n\t" \
"prfd PLDL2STRM, p5, [%[fetchptr], 8, mul vl] \n\t" \
"prfd PLDL2STRM, p5, [%[fetchptr], 12, mul vl] \n\t" \
"prfd PLDL2STRM, p5, [%[fetchptr], 16, mul vl] \n\t" \
"prfd PLDL2STRM, p5, [%[fetchptr], 20, mul vl] \n\t" \
"prfd PLDL2STRM, p5, [%[fetchptr], 24, mul vl] \n\t" \
"prfd PLDL2STRM, p5, [%[fetchptr], 28, mul vl] \n\t" \
: \
: [fetchptr] "r" (baseU) \
: "p5","cc","z0","z1","z2","z3","z4","z5","z6","z7","z8","z9","z10","z11","z12","z13","z14","z15","z16","z17","z18","z19","z20","z21","z22","z23","z24","z25","z26","z27","z28","z29","z30","z31","memory" \
); \
}
// PREFETCH_GAUGE_L1 (prefetch to L1)
#define PREFETCH_GAUGE_L1_INTERNAL_A64FXd(A) \
{ \
const auto & ref(U[sU](A)); uint64_t baseU = (uint64_t)&ref; \
asm ( \
"prfd PLDL1STRM, p5, [%[fetchptr], 0, mul vl] \n\t" \
"prfd PLDL1STRM, p5, [%[fetchptr], 4, mul vl] \n\t" \
"prfd PLDL1STRM, p5, [%[fetchptr], 8, mul vl] \n\t" \
: \
: [fetchptr] "r" (baseU) \
: "p5","cc","z0","z1","z2","z3","z4","z5","z6","z7","z8","z9","z10","z11","z12","z13","z14","z15","z16","z17","z18","z19","z20","z21","z22","z23","z24","z25","z26","z27","z28","z29","z30","z31","memory" \
); \
}
// LOAD_CHI
#define LOAD_CHI_A64FXd(base) \
{ \
asm ( \
"ldr z12, [%[fetchptr], 0, mul vl] \n\t" \
"ldr z13, [%[fetchptr], 1, mul vl] \n\t" \
"ldr z14, [%[fetchptr], 2, mul vl] \n\t" \
"ldr z15, [%[fetchptr], 3, mul vl] \n\t" \
"ldr z16, [%[fetchptr], 4, mul vl] \n\t" \
"ldr z17, [%[fetchptr], 5, mul vl] \n\t" \
: \
: [fetchptr] "r" (base) \
: "p5","cc","z0","z1","z2","z3","z4","z5","z6","z7","z8","z9","z10","z11","z12","z13","z14","z15","z16","z17","z18","z19","z20","z21","z22","z23","z24","z25","z26","z27","z28","z29","z30","z31","memory" \
); \
}
// LOAD_CHIMU
#define LOAD_CHIMU_INTERLEAVED_A64FXd(base) \
{ \
asm ( \
"ptrue p5.d \n\t" \
"ldr z12, [%[fetchptr], -6, mul vl] \n\t" \
"ldr z21, [%[fetchptr], 3, mul vl] \n\t" \
"ldr z15, [%[fetchptr], -3, mul vl] \n\t" \
"ldr z18, [%[fetchptr], 0, mul vl] \n\t" \
"ldr z13, [%[fetchptr], -5, mul vl] \n\t" \
"ldr z22, [%[fetchptr], 4, mul vl] \n\t" \
"ldr z16, [%[fetchptr], -2, mul vl] \n\t" \
"ldr z19, [%[fetchptr], 1, mul vl] \n\t" \
"ldr z14, [%[fetchptr], -4, mul vl] \n\t" \
"ldr z23, [%[fetchptr], 5, mul vl] \n\t" \
"ldr z17, [%[fetchptr], -1, mul vl] \n\t" \
"ldr z20, [%[fetchptr], 2, mul vl] \n\t" \
: \
: [fetchptr] "r" (base + 2 * 3 * 64) \
: "p5","cc","z0","z1","z2","z3","z4","z5","z6","z7","z8","z9","z10","z11","z12","z13","z14","z15","z16","z17","z18","z19","z20","z21","z22","z23","z24","z25","z26","z27","z28","z29","z30","z31","memory" \
); \
}
// LOAD_CHIMU_0213
#define LOAD_CHIMU_0213_A64FXd \
{ \
const SiteSpinor & ref(in[offset]); \
asm ( \
"ptrue p5.d \n\t" \
"ldr z12, [%[fetchptr], -6, mul vl] \n\t" \
"ldr z18, [%[fetchptr], 0, mul vl] \n\t" \
"ldr z13, [%[fetchptr], -5, mul vl] \n\t" \
"ldr z19, [%[fetchptr], 1, mul vl] \n\t" \
"ldr z14, [%[fetchptr], -4, mul vl] \n\t" \
"ldr z20, [%[fetchptr], 2, mul vl] \n\t" \
"ldr z15, [%[fetchptr], -3, mul vl] \n\t" \
"ldr z21, [%[fetchptr], 3, mul vl] \n\t" \
"ldr z16, [%[fetchptr], -2, mul vl] \n\t" \
"ldr z22, [%[fetchptr], 4, mul vl] \n\t" \
"ldr z17, [%[fetchptr], -1, mul vl] \n\t" \
"ldr z23, [%[fetchptr], 5, mul vl] \n\t" \
: \
: [fetchptr] "r" (&ref[2][0]) \
: "p5","cc","z0","z1","z2","z3","z4","z5","z6","z7","z8","z9","z10","z11","z12","z13","z14","z15","z16","z17","z18","z19","z20","z21","z22","z23","z24","z25","z26","z27","z28","z29","z30","z31","memory" \
); \
}
// LOAD_CHIMU_0312
#define LOAD_CHIMU_0312_A64FXd \
{ \
const SiteSpinor & ref(in[offset]); \
asm ( \
"ptrue p5.d \n\t" \
"ldr z12, [%[fetchptr], -6, mul vl] \n\t" \
"ldr z21, [%[fetchptr], 3, mul vl] \n\t" \
"ldr z13, [%[fetchptr], -5, mul vl] \n\t" \
"ldr z22, [%[fetchptr], 4, mul vl] \n\t" \
"ldr z14, [%[fetchptr], -4, mul vl] \n\t" \
"ldr z23, [%[fetchptr], 5, mul vl] \n\t" \
"ldr z15, [%[fetchptr], -3, mul vl] \n\t" \
"ldr z18, [%[fetchptr], 0, mul vl] \n\t" \
"ldr z16, [%[fetchptr], -2, mul vl] \n\t" \
"ldr z19, [%[fetchptr], 1, mul vl] \n\t" \
"ldr z17, [%[fetchptr], -1, mul vl] \n\t" \
"ldr z20, [%[fetchptr], 2, mul vl] \n\t" \
: \
: [fetchptr] "r" (&ref[2][0]) \
: "p5","cc","z0","z1","z2","z3","z4","z5","z6","z7","z8","z9","z10","z11","z12","z13","z14","z15","z16","z17","z18","z19","z20","z21","z22","z23","z24","z25","z26","z27","z28","z29","z30","z31","memory" \
); \
}
// LOAD_TABLE0
#define LOAD_TABLE0 \
asm ( \
"ldr z30, [%[tableptr], %[index], mul vl] \n\t" \
: \
: [tableptr] "r" (&lut[0]),[index] "i" (0) \
: "memory","cc","p5","z0","z1","z2","z3","z4","z5","z6","z7","z8","z9","z10","z11","z12","z13","z14","z15","z16","z17","z18","z19","z20","z21","z22","z23","z24","z25","z26","z27","z28","z29","z30","z31" \
);
// LOAD_TABLE1
#define LOAD_TABLE1 \
asm ( \
"ldr z30, [%[tableptr], %[index], mul vl] \n\t" \
: \
: [tableptr] "r" (&lut[0]),[index] "i" (1) \
: "memory","cc","p5","z0","z1","z2","z3","z4","z5","z6","z7","z8","z9","z10","z11","z12","z13","z14","z15","z16","z17","z18","z19","z20","z21","z22","z23","z24","z25","z26","z27","z28","z29","z30","z31" \
);
// LOAD_TABLE2
#define LOAD_TABLE2 \
asm ( \
"ldr z30, [%[tableptr], %[index], mul vl] \n\t" \
: \
: [tableptr] "r" (&lut[0]),[index] "i" (2) \
: "memory","cc","p5","z0","z1","z2","z3","z4","z5","z6","z7","z8","z9","z10","z11","z12","z13","z14","z15","z16","z17","z18","z19","z20","z21","z22","z23","z24","z25","z26","z27","z28","z29","z30","z31" \
);
// LOAD_TABLE3
#define LOAD_TABLE3 \
asm ( \
"ldr z30, [%[tableptr], %[index], mul vl] \n\t" \
: \
: [tableptr] "r" (&lut[0]),[index] "i" (3) \
: "memory","cc","p5","z0","z1","z2","z3","z4","z5","z6","z7","z8","z9","z10","z11","z12","z13","z14","z15","z16","z17","z18","z19","z20","z21","z22","z23","z24","z25","z26","z27","z28","z29","z30","z31" \
);
// PERMUTE
#define PERMUTE_A64FXd \
asm ( \
"tbl z12.d, { z12.d }, z30.d \n\t" \
"tbl z13.d, { z13.d }, z30.d \n\t" \
"tbl z14.d, { z14.d }, z30.d \n\t" \
"tbl z15.d, { z15.d }, z30.d \n\t" \
"tbl z16.d, { z16.d }, z30.d \n\t" \
"tbl z17.d, { z17.d }, z30.d \n\t" \
: \
: \
: "p5","cc","z0","z1","z2","z3","z4","z5","z6","z7","z8","z9","z10","z11","z12","z13","z14","z15","z16","z17","z18","z19","z20","z21","z22","z23","z24","z25","z26","z27","z28","z29","z30","z31" \
);
// LOAD_GAUGE
#define LOAD_GAUGE \
const auto & ref(U[sU](A)); uint64_t baseU = (uint64_t)&ref; \
{ \
asm ( \
"ptrue p5.d \n\t" \
"ldr z24, [%[fetchptr], -6, mul vl] \n\t" \
"ldr z25, [%[fetchptr], -3, mul vl] \n\t" \
"ldr z26, [%[fetchptr], 0, mul vl] \n\t" \
"ldr z27, [%[fetchptr], -5, mul vl] \n\t" \
"ldr z28, [%[fetchptr], -2, mul vl] \n\t" \
"ldr z29, [%[fetchptr], 1, mul vl] \n\t" \
: \
: [fetchptr] "r" (baseU + 2 * 3 * 64) \
: "p5","cc","z0","z1","z2","z3","z4","z5","z6","z7","z8","z9","z10","z11","z12","z13","z14","z15","z16","z17","z18","z19","z20","z21","z22","z23","z24","z25","z26","z27","z28","z29","z30","z31","memory" \
); \
}
// MULT_2SPIN
#define MULT_2SPIN_1_A64FXd(A) \
{ \
const auto & ref(U[sU](A)); uint64_t baseU = (uint64_t)&ref; \
asm ( \
"ldr z24, [%[fetchptr], -6, mul vl] \n\t" \
"ldr z25, [%[fetchptr], -3, mul vl] \n\t" \
"ldr z26, [%[fetchptr], 0, mul vl] \n\t" \
"ldr z27, [%[fetchptr], -5, mul vl] \n\t" \
"ldr z28, [%[fetchptr], -2, mul vl] \n\t" \
"ldr z29, [%[fetchptr], 1, mul vl] \n\t" \
"movprfx z18.d, p5/m, z31.d \n\t" \
"fcmla z18.d, p5/m, z24.d, z12.d, 0 \n\t" \
"movprfx z21.d, p5/m, z31.d \n\t" \
"fcmla z21.d, p5/m, z24.d, z15.d, 0 \n\t" \
"movprfx z19.d, p5/m, z31.d \n\t" \
"fcmla z19.d, p5/m, z25.d, z12.d, 0 \n\t" \
"movprfx z22.d, p5/m, z31.d \n\t" \
"fcmla z22.d, p5/m, z25.d, z15.d, 0 \n\t" \
"movprfx z20.d, p5/m, z31.d \n\t" \
"fcmla z20.d, p5/m, z26.d, z12.d, 0 \n\t" \
"movprfx z23.d, p5/m, z31.d \n\t" \
"fcmla z23.d, p5/m, z26.d, z15.d, 0 \n\t" \
"fcmla z18.d, p5/m, z24.d, z12.d, 90 \n\t" \
"fcmla z21.d, p5/m, z24.d, z15.d, 90 \n\t" \
"fcmla z19.d, p5/m, z25.d, z12.d, 90 \n\t" \
"fcmla z22.d, p5/m, z25.d, z15.d, 90 \n\t" \
"fcmla z20.d, p5/m, z26.d, z12.d, 90 \n\t" \
"fcmla z23.d, p5/m, z26.d, z15.d, 90 \n\t" \
"ldr z24, [%[fetchptr], -4, mul vl] \n\t" \
"ldr z25, [%[fetchptr], -1, mul vl] \n\t" \
"ldr z26, [%[fetchptr], 2, mul vl] \n\t" \
: \
: [fetchptr] "r" (baseU + 2 * 3 * 64) \
: "p5","cc","z0","z1","z2","z3","z4","z5","z6","z7","z8","z9","z10","z11","z12","z13","z14","z15","z16","z17","z18","z19","z20","z21","z22","z23","z24","z25","z26","z27","z28","z29","z30","z31","memory" \
); \
}
// MULT_2SPIN_BACKEND
#define MULT_2SPIN_2_A64FXd \
{ \
asm ( \
"fcmla z18.d, p5/m, z27.d, z13.d, 0 \n\t" \
"fcmla z21.d, p5/m, z27.d, z16.d, 0 \n\t" \
"fcmla z19.d, p5/m, z28.d, z13.d, 0 \n\t" \
"fcmla z22.d, p5/m, z28.d, z16.d, 0 \n\t" \
"fcmla z20.d, p5/m, z29.d, z13.d, 0 \n\t" \
"fcmla z23.d, p5/m, z29.d, z16.d, 0 \n\t" \
"fcmla z18.d, p5/m, z27.d, z13.d, 90 \n\t" \
"fcmla z21.d, p5/m, z27.d, z16.d, 90 \n\t" \
"fcmla z19.d, p5/m, z28.d, z13.d, 90 \n\t" \
"fcmla z22.d, p5/m, z28.d, z16.d, 90 \n\t" \
"fcmla z20.d, p5/m, z29.d, z13.d, 90 \n\t" \
"fcmla z23.d, p5/m, z29.d, z16.d, 90 \n\t" \
"fcmla z18.d, p5/m, z24.d, z14.d, 0 \n\t" \
"fcmla z21.d, p5/m, z24.d, z17.d, 0 \n\t" \
"fcmla z19.d, p5/m, z25.d, z14.d, 0 \n\t" \
"fcmla z22.d, p5/m, z25.d, z17.d, 0 \n\t" \
"fcmla z20.d, p5/m, z26.d, z14.d, 0 \n\t" \
"fcmla z23.d, p5/m, z26.d, z17.d, 0 \n\t" \
"fcmla z18.d, p5/m, z24.d, z14.d, 90 \n\t" \
"fcmla z21.d, p5/m, z24.d, z17.d, 90 \n\t" \
"fcmla z19.d, p5/m, z25.d, z14.d, 90 \n\t" \
"fcmla z22.d, p5/m, z25.d, z17.d, 90 \n\t" \
"fcmla z20.d, p5/m, z26.d, z14.d, 90 \n\t" \
"fcmla z23.d, p5/m, z26.d, z17.d, 90 \n\t" \
: \
: \
: "p5","cc","z0","z1","z2","z3","z4","z5","z6","z7","z8","z9","z10","z11","z12","z13","z14","z15","z16","z17","z18","z19","z20","z21","z22","z23","z24","z25","z26","z27","z28","z29","z30","z31" \
); \
}
// XP_PROJ
#define XP_PROJ_A64FXd \
{ \
asm ( \
"fcadd z12.d, p5/m, z12.d, z21.d, 90 \n\t" \
"fcadd z13.d, p5/m, z13.d, z22.d, 90 \n\t" \
"fcadd z14.d, p5/m, z14.d, z23.d, 90 \n\t" \
"fcadd z15.d, p5/m, z15.d, z18.d, 90 \n\t" \
"fcadd z16.d, p5/m, z16.d, z19.d, 90 \n\t" \
"fcadd z17.d, p5/m, z17.d, z20.d, 90 \n\t" \
: \
: \
: "p5","cc","z0","z1","z2","z3","z4","z5","z6","z7","z8","z9","z10","z11","z12","z13","z14","z15","z16","z17","z18","z19","z20","z21","z22","z23","z24","z25","z26","z27","z28","z29","z30","z31" \
); \
}
// XP_RECON
#define XP_RECON_A64FXd \
asm ( \
"movprfx z6.d, p5/m, z31.d \n\t" \
"fcadd z6.d, p5/m, z6.d, z21.d, 270 \n\t" \
"movprfx z7.d, p5/m, z31.d \n\t" \
"fcadd z7.d, p5/m, z7.d, z22.d, 270 \n\t" \
"movprfx z8.d, p5/m, z31.d \n\t" \
"fcadd z8.d, p5/m, z8.d, z23.d, 270 \n\t" \
"movprfx z9.d, p5/m, z31.d \n\t" \
"fcadd z9.d, p5/m, z9.d, z18.d, 270 \n\t" \
"movprfx z10.d, p5/m, z31.d \n\t" \
"fcadd z10.d, p5/m, z10.d, z19.d, 270 \n\t" \
"movprfx z11.d, p5/m, z31.d \n\t" \
"fcadd z11.d, p5/m, z11.d, z20.d, 270 \n\t" \
"mov z0.d, p5/m, z18.d \n\t" \
"mov z1.d, p5/m, z19.d \n\t" \
"mov z2.d, p5/m, z20.d \n\t" \
"mov z3.d, p5/m, z21.d \n\t" \
"mov z4.d, p5/m, z22.d \n\t" \
"mov z5.d, p5/m, z23.d \n\t" \
: \
: \
: "p5","cc","z0","z1","z2","z3","z4","z5","z6","z7","z8","z9","z10","z11","z12","z13","z14","z15","z16","z17","z18","z19","z20","z21","z22","z23","z24","z25","z26","z27","z28","z29","z30","z31" \
);
// XP_RECON_ACCUM
#define XP_RECON_ACCUM_A64FXd \
asm ( \
"fcadd z9.d, p5/m, z9.d, z18.d, 270 \n\t" \
"fadd z0.d, p5/m, z0.d, z18.d \n\t" \
"fcadd z10.d, p5/m, z10.d, z19.d, 270 \n\t" \
"fadd z1.d, p5/m, z1.d, z19.d \n\t" \
"fcadd z11.d, p5/m, z11.d, z20.d, 270 \n\t" \
"fadd z2.d, p5/m, z2.d, z20.d \n\t" \
"fcadd z6.d, p5/m, z6.d, z21.d, 270 \n\t" \
"fadd z3.d, p5/m, z3.d, z21.d \n\t" \
"fcadd z7.d, p5/m, z7.d, z22.d, 270 \n\t" \
"fadd z4.d, p5/m, z4.d, z22.d \n\t" \
"fcadd z8.d, p5/m, z8.d, z23.d, 270 \n\t" \
"fadd z5.d, p5/m, z5.d, z23.d \n\t" \
: \
: \
: "p5","cc","z0","z1","z2","z3","z4","z5","z6","z7","z8","z9","z10","z11","z12","z13","z14","z15","z16","z17","z18","z19","z20","z21","z22","z23","z24","z25","z26","z27","z28","z29","z30","z31" \
);
// YP_PROJ
#define YP_PROJ_A64FXd \
{ \
asm ( \
"fsub z12.d, p5/m, z12.d, z21.d \n\t" \
"fsub z13.d, p5/m, z13.d, z22.d \n\t" \
"fsub z14.d, p5/m, z14.d, z23.d \n\t" \
"fadd z15.d, p5/m, z15.d, z18.d \n\t" \
"fadd z16.d, p5/m, z16.d, z19.d \n\t" \
"fadd z17.d, p5/m, z17.d, z20.d \n\t" \
: \
: \
: "p5","cc","z0","z1","z2","z3","z4","z5","z6","z7","z8","z9","z10","z11","z12","z13","z14","z15","z16","z17","z18","z19","z20","z21","z22","z23","z24","z25","z26","z27","z28","z29","z30","z31" \
); \
}
// ZP_PROJ
#define ZP_PROJ_A64FXd \
{ \
asm ( \
"fcadd z12.d, p5/m, z12.d, z18.d, 90 \n\t" \
"fcadd z13.d, p5/m, z13.d, z19.d, 90 \n\t" \
"fcadd z14.d, p5/m, z14.d, z20.d, 90 \n\t" \
"fcadd z15.d, p5/m, z15.d, z21.d, 270 \n\t" \
"fcadd z16.d, p5/m, z16.d, z22.d, 270 \n\t" \
"fcadd z17.d, p5/m, z17.d, z23.d, 270 \n\t" \
: \
: \
: "p5","cc","z0","z1","z2","z3","z4","z5","z6","z7","z8","z9","z10","z11","z12","z13","z14","z15","z16","z17","z18","z19","z20","z21","z22","z23","z24","z25","z26","z27","z28","z29","z30","z31" \
); \
}
// TP_PROJ
#define TP_PROJ_A64FXd \
{ \
asm ( \
"fadd z12.d, p5/m, z12.d, z18.d \n\t" \
"fadd z13.d, p5/m, z13.d, z19.d \n\t" \
"fadd z14.d, p5/m, z14.d, z20.d \n\t" \
"fadd z15.d, p5/m, z15.d, z21.d \n\t" \
"fadd z16.d, p5/m, z16.d, z22.d \n\t" \
"fadd z17.d, p5/m, z17.d, z23.d \n\t" \
: \
: \
: "p5","cc","z0","z1","z2","z3","z4","z5","z6","z7","z8","z9","z10","z11","z12","z13","z14","z15","z16","z17","z18","z19","z20","z21","z22","z23","z24","z25","z26","z27","z28","z29","z30","z31" \
); \
}
// XM_PROJ
#define XM_PROJ_A64FXd \
{ \
asm ( \
"fcadd z12.d, p5/m, z12.d, z21.d, 270 \n\t" \
"fcadd z13.d, p5/m, z13.d, z22.d, 270 \n\t" \
"fcadd z14.d, p5/m, z14.d, z23.d, 270 \n\t" \
"fcadd z15.d, p5/m, z15.d, z18.d, 270 \n\t" \
"fcadd z16.d, p5/m, z16.d, z19.d, 270 \n\t" \
"fcadd z17.d, p5/m, z17.d, z20.d, 270 \n\t" \
: \
: \
: "p5","cc","z0","z1","z2","z3","z4","z5","z6","z7","z8","z9","z10","z11","z12","z13","z14","z15","z16","z17","z18","z19","z20","z21","z22","z23","z24","z25","z26","z27","z28","z29","z30","z31" \
); \
}
// XM_RECON
#define XM_RECON_A64FXd \
asm ( \
"movprfx z6.d, p5/m, z31.d \n\t" \
"fcadd z6.d, p5/m, z6.d, z21.d, 90 \n\t" \
"movprfx z7.d, p5/m, z31.d \n\t" \
"fcadd z7.d, p5/m, z7.d, z22.d, 90 \n\t" \
"movprfx z8.d, p5/m, z31.d \n\t" \
"fcadd z8.d, p5/m, z8.d, z23.d, 90 \n\t" \
"movprfx z9.d, p5/m, z31.d \n\t" \
"fcadd z9.d, p5/m, z9.d, z18.d, 90 \n\t" \
"movprfx z10.d, p5/m, z31.d \n\t" \
"fcadd z10.d, p5/m, z10.d, z19.d, 90 \n\t" \
"movprfx z11.d, p5/m, z31.d \n\t" \
"fcadd z11.d, p5/m, z11.d, z20.d, 90 \n\t" \
"mov z0.d, p5/m, z18.d \n\t" \
"mov z1.d, p5/m, z19.d \n\t" \
"mov z2.d, p5/m, z20.d \n\t" \
"mov z3.d, p5/m, z21.d \n\t" \
"mov z4.d, p5/m, z22.d \n\t" \
"mov z5.d, p5/m, z23.d \n\t" \
: \
: \
: "p5","cc","z0","z1","z2","z3","z4","z5","z6","z7","z8","z9","z10","z11","z12","z13","z14","z15","z16","z17","z18","z19","z20","z21","z22","z23","z24","z25","z26","z27","z28","z29","z30","z31" \
);
// YM_PROJ
#define YM_PROJ_A64FXd \
{ \
asm ( \
"fadd z12.d, p5/m, z12.d, z21.d \n\t" \
"fadd z13.d, p5/m, z13.d, z22.d \n\t" \
"fadd z14.d, p5/m, z14.d, z23.d \n\t" \
"fsub z15.d, p5/m, z15.d, z18.d \n\t" \
"fsub z16.d, p5/m, z16.d, z19.d \n\t" \
"fsub z17.d, p5/m, z17.d, z20.d \n\t" \
: \
: \
: "p5","cc","z0","z1","z2","z3","z4","z5","z6","z7","z8","z9","z10","z11","z12","z13","z14","z15","z16","z17","z18","z19","z20","z21","z22","z23","z24","z25","z26","z27","z28","z29","z30","z31" \
); \
}
// ZM_PROJ
#define ZM_PROJ_A64FXd \
{ \
asm ( \
"fcadd z12.d, p5/m, z12.d, z18.d, 270 \n\t" \
"fcadd z13.d, p5/m, z13.d, z19.d, 270 \n\t" \
"fcadd z14.d, p5/m, z14.d, z20.d, 270 \n\t" \
"fcadd z15.d, p5/m, z15.d, z21.d, 90 \n\t" \
"fcadd z16.d, p5/m, z16.d, z22.d, 90 \n\t" \
"fcadd z17.d, p5/m, z17.d, z23.d, 90 \n\t" \
: \
: \
: "p5","cc","z0","z1","z2","z3","z4","z5","z6","z7","z8","z9","z10","z11","z12","z13","z14","z15","z16","z17","z18","z19","z20","z21","z22","z23","z24","z25","z26","z27","z28","z29","z30","z31" \
); \
}
// TM_PROJ
#define TM_PROJ_A64FXd \
{ \
asm ( \
"ptrue p5.d \n\t" \
"fsub z12.d, p5/m, z12.d, z18.d \n\t" \
"fsub z13.d, p5/m, z13.d, z19.d \n\t" \
"fsub z14.d, p5/m, z14.d, z20.d \n\t" \
"fsub z15.d, p5/m, z15.d, z21.d \n\t" \
"fsub z16.d, p5/m, z16.d, z22.d \n\t" \
"fsub z17.d, p5/m, z17.d, z23.d \n\t" \
: \
: \
: "p5","cc","z0","z1","z2","z3","z4","z5","z6","z7","z8","z9","z10","z11","z12","z13","z14","z15","z16","z17","z18","z19","z20","z21","z22","z23","z24","z25","z26","z27","z28","z29","z30","z31" \
); \
}
// XM_RECON_ACCUM
#define XM_RECON_ACCUM_A64FXd \
asm ( \
"fcadd z9.d, p5/m, z9.d, z18.d, 90 \n\t" \
"fcadd z10.d, p5/m, z10.d, z19.d, 90 \n\t" \
"fcadd z11.d, p5/m, z11.d, z20.d, 90 \n\t" \
"fcadd z6.d, p5/m, z6.d, z21.d, 90 \n\t" \
"fcadd z7.d, p5/m, z7.d, z22.d, 90 \n\t" \
"fcadd z8.d, p5/m, z8.d, z23.d, 90 \n\t" \
"fadd z0.d, p5/m, z0.d, z18.d \n\t" \
"fadd z1.d, p5/m, z1.d, z19.d \n\t" \
"fadd z2.d, p5/m, z2.d, z20.d \n\t" \
"fadd z3.d, p5/m, z3.d, z21.d \n\t" \
"fadd z4.d, p5/m, z4.d, z22.d \n\t" \
"fadd z5.d, p5/m, z5.d, z23.d \n\t" \
: \
: \
: "p5","cc","z0","z1","z2","z3","z4","z5","z6","z7","z8","z9","z10","z11","z12","z13","z14","z15","z16","z17","z18","z19","z20","z21","z22","z23","z24","z25","z26","z27","z28","z29","z30","z31" \
);
// YP_RECON_ACCUM
#define YP_RECON_ACCUM_A64FXd \
asm ( \
"fadd z0.d, p5/m, z0.d, z18.d \n\t" \
"fsub z9.d, p5/m, z9.d, z18.d \n\t" \
"fadd z1.d, p5/m, z1.d, z19.d \n\t" \
"fsub z10.d, p5/m, z10.d, z19.d \n\t" \
"fadd z2.d, p5/m, z2.d, z20.d \n\t" \
"fsub z11.d, p5/m, z11.d, z20.d \n\t" \
"fadd z3.d, p5/m, z3.d, z21.d \n\t" \
"fadd z6.d, p5/m, z6.d, z21.d \n\t" \
"fadd z4.d, p5/m, z4.d, z22.d \n\t" \
"fadd z7.d, p5/m, z7.d, z22.d \n\t" \
"fadd z5.d, p5/m, z5.d, z23.d \n\t" \
"fadd z8.d, p5/m, z8.d, z23.d \n\t" \
: \
: \
: "p5","cc","z0","z1","z2","z3","z4","z5","z6","z7","z8","z9","z10","z11","z12","z13","z14","z15","z16","z17","z18","z19","z20","z21","z22","z23","z24","z25","z26","z27","z28","z29","z30","z31" \
);
// YM_RECON_ACCUM
#define YM_RECON_ACCUM_A64FXd \
asm ( \
"fadd z0.d, p5/m, z0.d, z18.d \n\t" \
"fadd z9.d, p5/m, z9.d, z18.d \n\t" \
"fadd z1.d, p5/m, z1.d, z19.d \n\t" \
"fadd z10.d, p5/m, z10.d, z19.d \n\t" \
"fadd z2.d, p5/m, z2.d, z20.d \n\t" \
"fadd z11.d, p5/m, z11.d, z20.d \n\t" \
"fadd z3.d, p5/m, z3.d, z21.d \n\t" \
"fsub z6.d, p5/m, z6.d, z21.d \n\t" \
"fadd z4.d, p5/m, z4.d, z22.d \n\t" \
"fsub z7.d, p5/m, z7.d, z22.d \n\t" \
"fadd z5.d, p5/m, z5.d, z23.d \n\t" \
"fsub z8.d, p5/m, z8.d, z23.d \n\t" \
: \
: \
: "p5","cc","z0","z1","z2","z3","z4","z5","z6","z7","z8","z9","z10","z11","z12","z13","z14","z15","z16","z17","z18","z19","z20","z21","z22","z23","z24","z25","z26","z27","z28","z29","z30","z31" \
);
// ZP_RECON_ACCUM
#define ZP_RECON_ACCUM_A64FXd \
asm ( \
"fcadd z6.d, p5/m, z6.d, z18.d, 270 \n\t" \
"fadd z0.d, p5/m, z0.d, z18.d \n\t" \
"fcadd z7.d, p5/m, z7.d, z19.d, 270 \n\t" \
"fadd z1.d, p5/m, z1.d, z19.d \n\t" \
"fcadd z8.d, p5/m, z8.d, z20.d, 270 \n\t" \
"fadd z2.d, p5/m, z2.d, z20.d \n\t" \
"fcadd z9.d, p5/m, z9.d, z21.d, 90 \n\t" \
"fadd z3.d, p5/m, z3.d, z21.d \n\t" \
"fcadd z10.d, p5/m, z10.d, z22.d, 90 \n\t" \
"fadd z4.d, p5/m, z4.d, z22.d \n\t" \
"fcadd z11.d, p5/m, z11.d, z23.d, 90 \n\t" \
"fadd z5.d, p5/m, z5.d, z23.d \n\t" \
: \
: \
: "p5","cc","z0","z1","z2","z3","z4","z5","z6","z7","z8","z9","z10","z11","z12","z13","z14","z15","z16","z17","z18","z19","z20","z21","z22","z23","z24","z25","z26","z27","z28","z29","z30","z31" \
);
// ZM_RECON_ACCUM
#define ZM_RECON_ACCUM_A64FXd \
asm ( \
"fcadd z6.d, p5/m, z6.d, z18.d, 90 \n\t" \
"fadd z0.d, p5/m, z0.d, z18.d \n\t" \
"fcadd z7.d, p5/m, z7.d, z19.d, 90 \n\t" \
"fadd z1.d, p5/m, z1.d, z19.d \n\t" \
"fcadd z8.d, p5/m, z8.d, z20.d, 90 \n\t" \
"fadd z2.d, p5/m, z2.d, z20.d \n\t" \
"fcadd z9.d, p5/m, z9.d, z21.d, 270 \n\t" \
"fadd z3.d, p5/m, z3.d, z21.d \n\t" \
"fcadd z10.d, p5/m, z10.d, z22.d, 270 \n\t" \
"fadd z4.d, p5/m, z4.d, z22.d \n\t" \
"fcadd z11.d, p5/m, z11.d, z23.d, 270 \n\t" \
"fadd z5.d, p5/m, z5.d, z23.d \n\t" \
: \
: \
: "p5","cc","z0","z1","z2","z3","z4","z5","z6","z7","z8","z9","z10","z11","z12","z13","z14","z15","z16","z17","z18","z19","z20","z21","z22","z23","z24","z25","z26","z27","z28","z29","z30","z31" \
);
// TP_RECON_ACCUM
#define TP_RECON_ACCUM_A64FXd \
asm ( \
"fadd z0.d, p5/m, z0.d, z18.d \n\t" \
"fadd z6.d, p5/m, z6.d, z18.d \n\t" \
"fadd z1.d, p5/m, z1.d, z19.d \n\t" \
"fadd z7.d, p5/m, z7.d, z19.d \n\t" \
"fadd z2.d, p5/m, z2.d, z20.d \n\t" \
"fadd z8.d, p5/m, z8.d, z20.d \n\t" \
"fadd z3.d, p5/m, z3.d, z21.d \n\t" \
"fadd z9.d, p5/m, z9.d, z21.d \n\t" \
"fadd z4.d, p5/m, z4.d, z22.d \n\t" \
"fadd z10.d, p5/m, z10.d, z22.d \n\t" \
"fadd z5.d, p5/m, z5.d, z23.d \n\t" \
"fadd z11.d, p5/m, z11.d, z23.d \n\t" \
: \
: \
: "p5","cc","z0","z1","z2","z3","z4","z5","z6","z7","z8","z9","z10","z11","z12","z13","z14","z15","z16","z17","z18","z19","z20","z21","z22","z23","z24","z25","z26","z27","z28","z29","z30","z31" \
);
// TM_RECON_ACCUM
#define TM_RECON_ACCUM_A64FXd \
asm ( \
"fadd z0.d, p5/m, z0.d, z18.d \n\t" \
"fsub z6.d, p5/m, z6.d, z18.d \n\t" \
"fadd z1.d, p5/m, z1.d, z19.d \n\t" \
"fsub z7.d, p5/m, z7.d, z19.d \n\t" \
"fadd z2.d, p5/m, z2.d, z20.d \n\t" \
"fsub z8.d, p5/m, z8.d, z20.d \n\t" \
"fadd z3.d, p5/m, z3.d, z21.d \n\t" \
"fsub z9.d, p5/m, z9.d, z21.d \n\t" \
"fadd z4.d, p5/m, z4.d, z22.d \n\t" \
"fsub z10.d, p5/m, z10.d, z22.d \n\t" \
"fadd z5.d, p5/m, z5.d, z23.d \n\t" \
"fsub z11.d, p5/m, z11.d, z23.d \n\t" \
: \
: \
: "p5","cc","z0","z1","z2","z3","z4","z5","z6","z7","z8","z9","z10","z11","z12","z13","z14","z15","z16","z17","z18","z19","z20","z21","z22","z23","z24","z25","z26","z27","z28","z29","z30","z31" \
);
// ZERO_PSI
#define ZERO_PSI_A64FXd \
asm ( \
"ptrue p5.d \n\t" \
"fmov z0.d , 0 \n\t" \
"fmov z1.d , 0 \n\t" \
"fmov z2.d , 0 \n\t" \
"fmov z3.d , 0 \n\t" \
"fmov z4.d , 0 \n\t" \
"fmov z5.d , 0 \n\t" \
"fmov z6.d , 0 \n\t" \
"fmov z7.d , 0 \n\t" \
"fmov z8.d , 0 \n\t" \
"fmov z9.d , 0 \n\t" \
"fmov z10.d , 0 \n\t" \
"fmov z11.d , 0 \n\t" \
: \
: \
: "p5","cc","z0","z1","z2","z3","z4","z5","z6","z7","z8","z9","z10","z11","z12","z13","z14","z15","z16","z17","z18","z19","z20","z21","z22","z23","z24","z25","z26","z27","z28","z29","z30","z31" \
);
// PREFETCH_RESULT_L2_STORE (prefetch store to L2)
#define PREFETCH_RESULT_L2_STORE_INTERNAL_A64FXd(base) \
{ \
asm ( \
"prfd PSTL2STRM, p5, [%[fetchptr], 0, mul vl] \n\t" \
"prfd PSTL2STRM, p5, [%[fetchptr], 4, mul vl] \n\t" \
"prfd PSTL2STRM, p5, [%[fetchptr], 8, mul vl] \n\t" \
: \
: [fetchptr] "r" (base) \
: "p5","cc","z0","z1","z2","z3","z4","z5","z6","z7","z8","z9","z10","z11","z12","z13","z14","z15","z16","z17","z18","z19","z20","z21","z22","z23","z24","z25","z26","z27","z28","z29","z30","z31","memory" \
); \
}
// PREFETCH_RESULT_L1_STORE (prefetch store to L1)
#define PREFETCH_RESULT_L1_STORE_INTERNAL_A64FXd(base) \
{ \
asm ( \
"prfd PSTL1STRM, p5, [%[fetchptr], 0, mul vl] \n\t" \
"prfd PSTL1STRM, p5, [%[fetchptr], 4, mul vl] \n\t" \
"prfd PSTL1STRM, p5, [%[fetchptr], 8, mul vl] \n\t" \
: \
: [fetchptr] "r" (base) \
: "p5","cc","z0","z1","z2","z3","z4","z5","z6","z7","z8","z9","z10","z11","z12","z13","z14","z15","z16","z17","z18","z19","z20","z21","z22","z23","z24","z25","z26","z27","z28","z29","z30","z31","memory" \
); \
}
// ADD_RESULT_INTERNAL
#define ADD_RESULT_INTERNAL_A64FXd \
asm ( \
"fadd z0.d, p5/m, z0.d, z12.d \n\t" \
"fadd z1.d, p5/m, z1.d, z13.d \n\t" \
"fadd z2.d, p5/m, z2.d, z14.d \n\t" \
"fadd z3.d, p5/m, z3.d, z15.d \n\t" \
"fadd z4.d, p5/m, z4.d, z16.d \n\t" \
"fadd z5.d, p5/m, z5.d, z17.d \n\t" \
"fadd z6.d, p5/m, z6.d, z18.d \n\t" \
"fadd z7.d, p5/m, z7.d, z19.d \n\t" \
"fadd z8.d, p5/m, z8.d, z20.d \n\t" \
"fadd z9.d, p5/m, z9.d, z21.d \n\t" \
"fadd z10.d, p5/m, z10.d, z22.d \n\t" \
"fadd z11.d, p5/m, z11.d, z23.d \n\t" \
: \
: \
: "p5","cc","z0","z1","z2","z3","z4","z5","z6","z7","z8","z9","z10","z11","z12","z13","z14","z15","z16","z17","z18","z19","z20","z21","z22","z23","z24","z25","z26","z27","z28","z29","z30","z31" \
);

779
Grid/simd/Fujitsu_A64FX_asm_single.h
View File

@@ -1,779 +0,0 @@
/*************************************************************************************
Grid physics library, www.github.com/paboyle/Grid
Source file: Fujitsu_A64FX_asm_single.h
Copyright (C) 2020
Author: Nils Meyer <nils.meyer@ur.de>
This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 2 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License along
with this program; if not, write to the Free Software Foundation, Inc.,
51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
See the full license in the file "LICENSE" in the top level distribution directory
*************************************************************************************/
/* END LEGAL */
#define LOAD_CHIMU(base) LOAD_CHIMU_INTERLEAVED_A64FXf(base)
#define PREFETCH_CHIMU_L1(A) PREFETCH_CHIMU_L1_INTERNAL_A64FXf(A)
#define PREFETCH_GAUGE_L1(A) PREFETCH_GAUGE_L1_INTERNAL_A64FXf(A)
#define PREFETCH_CHIMU_L2(A) PREFETCH_CHIMU_L2_INTERNAL_A64FXf(A)
#define PREFETCH_GAUGE_L2(A) PREFETCH_GAUGE_L2_INTERNAL_A64FXf(A)
#define PF_GAUGE(A)
#define PREFETCH_RESULT_L2_STORE(A) PREFETCH_RESULT_L2_STORE_INTERNAL_A64FXf(A)
#define PREFETCH_RESULT_L1_STORE(A) PREFETCH_RESULT_L1_STORE_INTERNAL_A64FXf(A)
#define PREFETCH1_CHIMU(A) PREFETCH_CHIMU_L1(A)
#define PREFETCH_CHIMU(A) PREFETCH_CHIMU_L1(A)
#define LOCK_GAUGE(A)
#define UNLOCK_GAUGE(A)
#define MASK_REGS DECLARATIONS_A64FXf
#define SAVE_RESULT(A,B) RESULT_A64FXf(A); PREFETCH_RESULT_L2_STORE(B)
#define MULT_2SPIN_1(Dir) MULT_2SPIN_1_A64FXf(Dir)
#define MULT_2SPIN_2 MULT_2SPIN_2_A64FXf
#define LOAD_CHI(base) LOAD_CHI_A64FXf(base)
#define ADD_RESULT(base,basep) LOAD_CHIMU(base); ADD_RESULT_INTERNAL_A64FXf; RESULT_A64FXf(base)
#define XP_PROJ XP_PROJ_A64FXf
#define YP_PROJ YP_PROJ_A64FXf
#define ZP_PROJ ZP_PROJ_A64FXf
#define TP_PROJ TP_PROJ_A64FXf
#define XM_PROJ XM_PROJ_A64FXf
#define YM_PROJ YM_PROJ_A64FXf
#define ZM_PROJ ZM_PROJ_A64FXf
#define TM_PROJ TM_PROJ_A64FXf
#define XP_RECON XP_RECON_A64FXf
#define XM_RECON XM_RECON_A64FXf
#define XM_RECON_ACCUM XM_RECON_ACCUM_A64FXf
#define YM_RECON_ACCUM YM_RECON_ACCUM_A64FXf
#define ZM_RECON_ACCUM ZM_RECON_ACCUM_A64FXf
#define TM_RECON_ACCUM TM_RECON_ACCUM_A64FXf
#define XP_RECON_ACCUM XP_RECON_ACCUM_A64FXf
#define YP_RECON_ACCUM YP_RECON_ACCUM_A64FXf
#define ZP_RECON_ACCUM ZP_RECON_ACCUM_A64FXf
#define TP_RECON_ACCUM TP_RECON_ACCUM_A64FXf
#define PERMUTE_DIR0 0
#define PERMUTE_DIR1 1
#define PERMUTE_DIR2 2
#define PERMUTE_DIR3 3
#define PERMUTE PERMUTE_A64FXf;
#define LOAD_TABLE(Dir) if (Dir == 0) { LOAD_TABLE0; } else if (Dir == 1) { LOAD_TABLE1 } else if (Dir == 2) { LOAD_TABLE2; } else if (Dir == 3) { LOAD_TABLE3; }
#define MAYBEPERM(A,perm) if (perm) { PERMUTE; }
// DECLARATIONS
#define DECLARATIONS_A64FXf \
const uint32_t lut[4][16] = { \
{8, 9, 10, 11, 12, 13, 14, 15, 0, 1, 2, 3, 4, 5, 6, 7}, \
{4, 5, 6, 7, 0, 1, 2, 3, 12, 13, 14, 15, 8, 9, 10, 11}, \
{2, 3, 0, 1, 6, 7, 4, 5, 10, 11, 8, 9, 14, 15, 12, 13}, \
{1, 0, 3, 2, 5, 4, 7, 6, 9, 8, 11, 10, 13, 12, 15, 14} }; \
asm ( \
"fmov z31.s , 0 \n\t" \
: \
: \
: "p5","cc","z0","z1","z2","z3","z4","z5","z6","z7","z8","z9","z10","z11","z12","z13","z14","z15","z16","z17","z18","z19","z20","z21","z22","z23","z24","z25","z26","z27","z28","z29","z30","z31" \
);
// RESULT
#define RESULT_A64FXf(base) \
{ \
asm ( \
"str z0, [%[storeptr], -6, mul vl] \n\t" \
"str z1, [%[storeptr], -5, mul vl] \n\t" \
"str z2, [%[storeptr], -4, mul vl] \n\t" \
"str z3, [%[storeptr], -3, mul vl] \n\t" \
"str z4, [%[storeptr], -2, mul vl] \n\t" \
"str z5, [%[storeptr], -1, mul vl] \n\t" \
"str z6, [%[storeptr], 0, mul vl] \n\t" \
"str z7, [%[storeptr], 1, mul vl] \n\t" \
"str z8, [%[storeptr], 2, mul vl] \n\t" \
"str z9, [%[storeptr], 3, mul vl] \n\t" \
"str z10, [%[storeptr], 4, mul vl] \n\t" \
"str z11, [%[storeptr], 5, mul vl] \n\t" \
: \
: [storeptr] "r" (base + 2 * 3 * 64) \
: "p5","cc","z0","z1","z2","z3","z4","z5","z6","z7","z8","z9","z10","z11","z12","z13","z14","z15","z16","z17","z18","z19","z20","z21","z22","z23","z24","z25","z26","z27","z28","z29","z30","z31","memory" \
); \
}
// PREFETCH_CHIMU_L2 (prefetch to L2)
#define PREFETCH_CHIMU_L2_INTERNAL_A64FXf(base) \
{ \
asm ( \
"prfd PLDL2STRM, p5, [%[fetchptr], 0, mul vl] \n\t" \
"prfd PLDL2STRM, p5, [%[fetchptr], 4, mul vl] \n\t" \
"prfd PLDL2STRM, p5, [%[fetchptr], 8, mul vl] \n\t" \
: \
: [fetchptr] "r" (base) \
: "p5","cc","z0","z1","z2","z3","z4","z5","z6","z7","z8","z9","z10","z11","z12","z13","z14","z15","z16","z17","z18","z19","z20","z21","z22","z23","z24","z25","z26","z27","z28","z29","z30","z31","memory" \
); \
}
// PREFETCH_CHIMU_L1 (prefetch to L1)
#define PREFETCH_CHIMU_L1_INTERNAL_A64FXf(base) \
{ \
asm ( \
"prfd PLDL1STRM, p5, [%[fetchptr], 0, mul vl] \n\t" \
"prfd PLDL1STRM, p5, [%[fetchptr], 4, mul vl] \n\t" \
"prfd PLDL1STRM, p5, [%[fetchptr], 8, mul vl] \n\t" \
: \
: [fetchptr] "r" (base) \
: "p5","cc","z0","z1","z2","z3","z4","z5","z6","z7","z8","z9","z10","z11","z12","z13","z14","z15","z16","z17","z18","z19","z20","z21","z22","z23","z24","z25","z26","z27","z28","z29","z30","z31","memory" \
); \
}
// PREFETCH_GAUGE_L2 (prefetch to L2)
#define PREFETCH_GAUGE_L2_INTERNAL_A64FXf(A) \
{ \
const auto & ref(U[sUn](A)); uint64_t baseU = (uint64_t)&ref + 3 * 3 * 64; \
asm ( \
"prfd PLDL2STRM, p5, [%[fetchptr], -4, mul vl] \n\t" \
"prfd PLDL2STRM, p5, [%[fetchptr], 0, mul vl] \n\t" \
"prfd PLDL2STRM, p5, [%[fetchptr], 4, mul vl] \n\t" \
"prfd PLDL2STRM, p5, [%[fetchptr], 8, mul vl] \n\t" \
"prfd PLDL2STRM, p5, [%[fetchptr], 12, mul vl] \n\t" \
"prfd PLDL2STRM, p5, [%[fetchptr], 16, mul vl] \n\t" \
"prfd PLDL2STRM, p5, [%[fetchptr], 20, mul vl] \n\t" \
"prfd PLDL2STRM, p5, [%[fetchptr], 24, mul vl] \n\t" \
"prfd PLDL2STRM, p5, [%[fetchptr], 28, mul vl] \n\t" \
: \
: [fetchptr] "r" (baseU) \
: "p5","cc","z0","z1","z2","z3","z4","z5","z6","z7","z8","z9","z10","z11","z12","z13","z14","z15","z16","z17","z18","z19","z20","z21","z22","z23","z24","z25","z26","z27","z28","z29","z30","z31","memory" \
); \
}
// PREFETCH_GAUGE_L1 (prefetch to L1)
#define PREFETCH_GAUGE_L1_INTERNAL_A64FXf(A) \
{ \
const auto & ref(U[sU](A)); uint64_t baseU = (uint64_t)&ref; \
asm ( \
"prfd PLDL1STRM, p5, [%[fetchptr], 0, mul vl] \n\t" \
"prfd PLDL1STRM, p5, [%[fetchptr], 4, mul vl] \n\t" \
"prfd PLDL1STRM, p5, [%[fetchptr], 8, mul vl] \n\t" \
: \
: [fetchptr] "r" (baseU) \
: "p5","cc","z0","z1","z2","z3","z4","z5","z6","z7","z8","z9","z10","z11","z12","z13","z14","z15","z16","z17","z18","z19","z20","z21","z22","z23","z24","z25","z26","z27","z28","z29","z30","z31","memory" \
); \
}
// LOAD_CHI
#define LOAD_CHI_A64FXf(base) \
{ \
asm ( \
"ldr z12, [%[fetchptr], 0, mul vl] \n\t" \
"ldr z13, [%[fetchptr], 1, mul vl] \n\t" \
"ldr z14, [%[fetchptr], 2, mul vl] \n\t" \
"ldr z15, [%[fetchptr], 3, mul vl] \n\t" \
"ldr z16, [%[fetchptr], 4, mul vl] \n\t" \
"ldr z17, [%[fetchptr], 5, mul vl] \n\t" \
: \
: [fetchptr] "r" (base) \
: "p5","cc","z0","z1","z2","z3","z4","z5","z6","z7","z8","z9","z10","z11","z12","z13","z14","z15","z16","z17","z18","z19","z20","z21","z22","z23","z24","z25","z26","z27","z28","z29","z30","z31","memory" \
); \
}
// LOAD_CHIMU
#define LOAD_CHIMU_INTERLEAVED_A64FXf(base) \
{ \
asm ( \
"ptrue p5.s \n\t" \
"ldr z12, [%[fetchptr], -6, mul vl] \n\t" \
"ldr z21, [%[fetchptr], 3, mul vl] \n\t" \
"ldr z15, [%[fetchptr], -3, mul vl] \n\t" \
"ldr z18, [%[fetchptr], 0, mul vl] \n\t" \
"ldr z13, [%[fetchptr], -5, mul vl] \n\t" \
"ldr z22, [%[fetchptr], 4, mul vl] \n\t" \
"ldr z16, [%[fetchptr], -2, mul vl] \n\t" \
"ldr z19, [%[fetchptr], 1, mul vl] \n\t" \
"ldr z14, [%[fetchptr], -4, mul vl] \n\t" \
"ldr z23, [%[fetchptr], 5, mul vl] \n\t" \
"ldr z17, [%[fetchptr], -1, mul vl] \n\t" \
"ldr z20, [%[fetchptr], 2, mul vl] \n\t" \
: \
: [fetchptr] "r" (base + 2 * 3 * 64) \
: "p5","cc","z0","z1","z2","z3","z4","z5","z6","z7","z8","z9","z10","z11","z12","z13","z14","z15","z16","z17","z18","z19","z20","z21","z22","z23","z24","z25","z26","z27","z28","z29","z30","z31","memory" \
); \
}
// LOAD_CHIMU_0213
#define LOAD_CHIMU_0213_A64FXf \
{ \
const SiteSpinor & ref(in[offset]); \
asm ( \
"ptrue p5.s \n\t" \
"ldr z12, [%[fetchptr], -6, mul vl] \n\t" \
"ldr z18, [%[fetchptr], 0, mul vl] \n\t" \
"ldr z13, [%[fetchptr], -5, mul vl] \n\t" \
"ldr z19, [%[fetchptr], 1, mul vl] \n\t" \
"ldr z14, [%[fetchptr], -4, mul vl] \n\t" \
"ldr z20, [%[fetchptr], 2, mul vl] \n\t" \
"ldr z15, [%[fetchptr], -3, mul vl] \n\t" \
"ldr z21, [%[fetchptr], 3, mul vl] \n\t" \
"ldr z16, [%[fetchptr], -2, mul vl] \n\t" \
"ldr z22, [%[fetchptr], 4, mul vl] \n\t" \
"ldr z17, [%[fetchptr], -1, mul vl] \n\t" \
"ldr z23, [%[fetchptr], 5, mul vl] \n\t" \
: \
: [fetchptr] "r" (&ref[2][0]) \
: "p5","cc","z0","z1","z2","z3","z4","z5","z6","z7","z8","z9","z10","z11","z12","z13","z14","z15","z16","z17","z18","z19","z20","z21","z22","z23","z24","z25","z26","z27","z28","z29","z30","z31","memory" \
); \
}
// LOAD_CHIMU_0312
#define LOAD_CHIMU_0312_A64FXf \
{ \
const SiteSpinor & ref(in[offset]); \
asm ( \
"ptrue p5.s \n\t" \
"ldr z12, [%[fetchptr], -6, mul vl] \n\t" \
"ldr z21, [%[fetchptr], 3, mul vl] \n\t" \
"ldr z13, [%[fetchptr], -5, mul vl] \n\t" \
"ldr z22, [%[fetchptr], 4, mul vl] \n\t" \
"ldr z14, [%[fetchptr], -4, mul vl] \n\t" \
"ldr z23, [%[fetchptr], 5, mul vl] \n\t" \
"ldr z15, [%[fetchptr], -3, mul vl] \n\t" \
"ldr z18, [%[fetchptr], 0, mul vl] \n\t" \
"ldr z16, [%[fetchptr], -2, mul vl] \n\t" \
"ldr z19, [%[fetchptr], 1, mul vl] \n\t" \
"ldr z17, [%[fetchptr], -1, mul vl] \n\t" \
"ldr z20, [%[fetchptr], 2, mul vl] \n\t" \
: \
: [fetchptr] "r" (&ref[2][0]) \
: "p5","cc","z0","z1","z2","z3","z4","z5","z6","z7","z8","z9","z10","z11","z12","z13","z14","z15","z16","z17","z18","z19","z20","z21","z22","z23","z24","z25","z26","z27","z28","z29","z30","z31","memory" \
); \
}
// LOAD_TABLE0
#define LOAD_TABLE0 \
asm ( \
"ldr z30, [%[tableptr], %[index], mul vl] \n\t" \
: \
: [tableptr] "r" (&lut[0]),[index] "i" (0) \
: "memory","cc","p5","z0","z1","z2","z3","z4","z5","z6","z7","z8","z9","z10","z11","z12","z13","z14","z15","z16","z17","z18","z19","z20","z21","z22","z23","z24","z25","z26","z27","z28","z29","z30","z31" \
);
// LOAD_TABLE1
#define LOAD_TABLE1 \
asm ( \
"ldr z30, [%[tableptr], %[index], mul vl] \n\t" \
: \
: [tableptr] "r" (&lut[0]),[index] "i" (1) \
: "memory","cc","p5","z0","z1","z2","z3","z4","z5","z6","z7","z8","z9","z10","z11","z12","z13","z14","z15","z16","z17","z18","z19","z20","z21","z22","z23","z24","z25","z26","z27","z28","z29","z30","z31" \
);
// LOAD_TABLE2
#define LOAD_TABLE2 \
asm ( \
"ldr z30, [%[tableptr], %[index], mul vl] \n\t" \
: \
: [tableptr] "r" (&lut[0]),[index] "i" (2) \
: "memory","cc","p5","z0","z1","z2","z3","z4","z5","z6","z7","z8","z9","z10","z11","z12","z13","z14","z15","z16","z17","z18","z19","z20","z21","z22","z23","z24","z25","z26","z27","z28","z29","z30","z31" \
);
// LOAD_TABLE3
#define LOAD_TABLE3 \
asm ( \
"ldr z30, [%[tableptr], %[index], mul vl] \n\t" \
: \
: [tableptr] "r" (&lut[0]),[index] "i" (3) \
: "memory","cc","p5","z0","z1","z2","z3","z4","z5","z6","z7","z8","z9","z10","z11","z12","z13","z14","z15","z16","z17","z18","z19","z20","z21","z22","z23","z24","z25","z26","z27","z28","z29","z30","z31" \
);
// PERMUTE
#define PERMUTE_A64FXf \
asm ( \
"tbl z12.s, { z12.s }, z30.s \n\t" \
"tbl z13.s, { z13.s }, z30.s \n\t" \
"tbl z14.s, { z14.s }, z30.s \n\t" \
"tbl z15.s, { z15.s }, z30.s \n\t" \
"tbl z16.s, { z16.s }, z30.s \n\t" \
"tbl z17.s, { z17.s }, z30.s \n\t" \
: \
: \
: "p5","cc","z0","z1","z2","z3","z4","z5","z6","z7","z8","z9","z10","z11","z12","z13","z14","z15","z16","z17","z18","z19","z20","z21","z22","z23","z24","z25","z26","z27","z28","z29","z30","z31" \
);
// LOAD_GAUGE
#define LOAD_GAUGE \
const auto & ref(U[sU](A)); uint64_t baseU = (uint64_t)&ref; \
{ \
asm ( \
"ptrue p5.s \n\t" \
"ldr z24, [%[fetchptr], -6, mul vl] \n\t" \
"ldr z25, [%[fetchptr], -3, mul vl] \n\t" \
"ldr z26, [%[fetchptr], 0, mul vl] \n\t" \
"ldr z27, [%[fetchptr], -5, mul vl] \n\t" \
"ldr z28, [%[fetchptr], -2, mul vl] \n\t" \
"ldr z29, [%[fetchptr], 1, mul vl] \n\t" \
: \
: [fetchptr] "r" (baseU + 2 * 3 * 64) \
: "p5","cc","z0","z1","z2","z3","z4","z5","z6","z7","z8","z9","z10","z11","z12","z13","z14","z15","z16","z17","z18","z19","z20","z21","z22","z23","z24","z25","z26","z27","z28","z29","z30","z31","memory" \
); \
}
// MULT_2SPIN
#define MULT_2SPIN_1_A64FXf(A) \
{ \
const auto & ref(U[sU](A)); uint64_t baseU = (uint64_t)&ref; \
asm ( \
"ldr z24, [%[fetchptr], -6, mul vl] \n\t" \
"ldr z25, [%[fetchptr], -3, mul vl] \n\t" \
"ldr z26, [%[fetchptr], 0, mul vl] \n\t" \
"ldr z27, [%[fetchptr], -5, mul vl] \n\t" \
"ldr z28, [%[fetchptr], -2, mul vl] \n\t" \
"ldr z29, [%[fetchptr], 1, mul vl] \n\t" \
"movprfx z18.s, p5/m, z31.s \n\t" \
"fcmla z18.s, p5/m, z24.s, z12.s, 0 \n\t" \
"movprfx z21.s, p5/m, z31.s \n\t" \
"fcmla z21.s, p5/m, z24.s, z15.s, 0 \n\t" \
"movprfx z19.s, p5/m, z31.s \n\t" \
"fcmla z19.s, p5/m, z25.s, z12.s, 0 \n\t" \
"movprfx z22.s, p5/m, z31.s \n\t" \
"fcmla z22.s, p5/m, z25.s, z15.s, 0 \n\t" \
"movprfx z20.s, p5/m, z31.s \n\t" \
"fcmla z20.s, p5/m, z26.s, z12.s, 0 \n\t" \
"movprfx z23.s, p5/m, z31.s \n\t" \
"fcmla z23.s, p5/m, z26.s, z15.s, 0 \n\t" \
"fcmla z18.s, p5/m, z24.s, z12.s, 90 \n\t" \
"fcmla z21.s, p5/m, z24.s, z15.s, 90 \n\t" \
"fcmla z19.s, p5/m, z25.s, z12.s, 90 \n\t" \
"fcmla z22.s, p5/m, z25.s, z15.s, 90 \n\t" \
"fcmla z20.s, p5/m, z26.s, z12.s, 90 \n\t" \
"fcmla z23.s, p5/m, z26.s, z15.s, 90 \n\t" \
"ldr z24, [%[fetchptr], -4, mul vl] \n\t" \
"ldr z25, [%[fetchptr], -1, mul vl] \n\t" \
"ldr z26, [%[fetchptr], 2, mul vl] \n\t" \
: \
: [fetchptr] "r" (baseU + 2 * 3 * 64) \
: "p5","cc","z0","z1","z2","z3","z4","z5","z6","z7","z8","z9","z10","z11","z12","z13","z14","z15","z16","z17","z18","z19","z20","z21","z22","z23","z24","z25","z26","z27","z28","z29","z30","z31","memory" \
); \
}
// MULT_2SPIN_BACKEND
#define MULT_2SPIN_2_A64FXf \
{ \
asm ( \
"fcmla z18.s, p5/m, z27.s, z13.s, 0 \n\t" \
"fcmla z21.s, p5/m, z27.s, z16.s, 0 \n\t" \
"fcmla z19.s, p5/m, z28.s, z13.s, 0 \n\t" \
"fcmla z22.s, p5/m, z28.s, z16.s, 0 \n\t" \
"fcmla z20.s, p5/m, z29.s, z13.s, 0 \n\t" \
"fcmla z23.s, p5/m, z29.s, z16.s, 0 \n\t" \
"fcmla z18.s, p5/m, z27.s, z13.s, 90 \n\t" \
"fcmla z21.s, p5/m, z27.s, z16.s, 90 \n\t" \
"fcmla z19.s, p5/m, z28.s, z13.s, 90 \n\t" \
"fcmla z22.s, p5/m, z28.s, z16.s, 90 \n\t" \
"fcmla z20.s, p5/m, z29.s, z13.s, 90 \n\t" \
"fcmla z23.s, p5/m, z29.s, z16.s, 90 \n\t" \
"fcmla z18.s, p5/m, z24.s, z14.s, 0 \n\t" \
"fcmla z21.s, p5/m, z24.s, z17.s, 0 \n\t" \
"fcmla z19.s, p5/m, z25.s, z14.s, 0 \n\t" \
"fcmla z22.s, p5/m, z25.s, z17.s, 0 \n\t" \
"fcmla z20.s, p5/m, z26.s, z14.s, 0 \n\t" \
"fcmla z23.s, p5/m, z26.s, z17.s, 0 \n\t" \
"fcmla z18.s, p5/m, z24.s, z14.s, 90 \n\t" \
"fcmla z21.s, p5/m, z24.s, z17.s, 90 \n\t" \
"fcmla z19.s, p5/m, z25.s, z14.s, 90 \n\t" \
"fcmla z22.s, p5/m, z25.s, z17.s, 90 \n\t" \
"fcmla z20.s, p5/m, z26.s, z14.s, 90 \n\t" \
"fcmla z23.s, p5/m, z26.s, z17.s, 90 \n\t" \
: \
: \
: "p5","cc","z0","z1","z2","z3","z4","z5","z6","z7","z8","z9","z10","z11","z12","z13","z14","z15","z16","z17","z18","z19","z20","z21","z22","z23","z24","z25","z26","z27","z28","z29","z30","z31" \
); \
}
// XP_PROJ
#define XP_PROJ_A64FXf \
{ \
asm ( \
"fcadd z12.s, p5/m, z12.s, z21.s, 90 \n\t" \
"fcadd z13.s, p5/m, z13.s, z22.s, 90 \n\t" \
"fcadd z14.s, p5/m, z14.s, z23.s, 90 \n\t" \
"fcadd z15.s, p5/m, z15.s, z18.s, 90 \n\t" \
"fcadd z16.s, p5/m, z16.s, z19.s, 90 \n\t" \
"fcadd z17.s, p5/m, z17.s, z20.s, 90 \n\t" \
: \
: \
: "p5","cc","z0","z1","z2","z3","z4","z5","z6","z7","z8","z9","z10","z11","z12","z13","z14","z15","z16","z17","z18","z19","z20","z21","z22","z23","z24","z25","z26","z27","z28","z29","z30","z31" \
); \
}
// XP_RECON
#define XP_RECON_A64FXf \
asm ( \
"movprfx z6.s, p5/m, z31.s \n\t" \
"fcadd z6.s, p5/m, z6.s, z21.s, 270 \n\t" \
"movprfx z7.s, p5/m, z31.s \n\t" \
"fcadd z7.s, p5/m, z7.s, z22.s, 270 \n\t" \
"movprfx z8.s, p5/m, z31.s \n\t" \
"fcadd z8.s, p5/m, z8.s, z23.s, 270 \n\t" \
"movprfx z9.s, p5/m, z31.s \n\t" \
"fcadd z9.s, p5/m, z9.s, z18.s, 270 \n\t" \
"movprfx z10.s, p5/m, z31.s \n\t" \
"fcadd z10.s, p5/m, z10.s, z19.s, 270 \n\t" \
"movprfx z11.s, p5/m, z31.s \n\t" \
"fcadd z11.s, p5/m, z11.s, z20.s, 270 \n\t" \
"mov z0.s, p5/m, z18.s \n\t" \
"mov z1.s, p5/m, z19.s \n\t" \
"mov z2.s, p5/m, z20.s \n\t" \
"mov z3.s, p5/m, z21.s \n\t" \
"mov z4.s, p5/m, z22.s \n\t" \
"mov z5.s, p5/m, z23.s \n\t" \
: \
: \
: "p5","cc","z0","z1","z2","z3","z4","z5","z6","z7","z8","z9","z10","z11","z12","z13","z14","z15","z16","z17","z18","z19","z20","z21","z22","z23","z24","z25","z26","z27","z28","z29","z30","z31" \
);
// XP_RECON_ACCUM
#define XP_RECON_ACCUM_A64FXf \
asm ( \
"fcadd z9.s, p5/m, z9.s, z18.s, 270 \n\t" \
"fadd z0.s, p5/m, z0.s, z18.s \n\t" \
"fcadd z10.s, p5/m, z10.s, z19.s, 270 \n\t" \
"fadd z1.s, p5/m, z1.s, z19.s \n\t" \
"fcadd z11.s, p5/m, z11.s, z20.s, 270 \n\t" \
"fadd z2.s, p5/m, z2.s, z20.s \n\t" \
"fcadd z6.s, p5/m, z6.s, z21.s, 270 \n\t" \
"fadd z3.s, p5/m, z3.s, z21.s \n\t" \
"fcadd z7.s, p5/m, z7.s, z22.s, 270 \n\t" \
"fadd z4.s, p5/m, z4.s, z22.s \n\t" \
"fcadd z8.s, p5/m, z8.s, z23.s, 270 \n\t" \
"fadd z5.s, p5/m, z5.s, z23.s \n\t" \
: \
: \
: "p5","cc","z0","z1","z2","z3","z4","z5","z6","z7","z8","z9","z10","z11","z12","z13","z14","z15","z16","z17","z18","z19","z20","z21","z22","z23","z24","z25","z26","z27","z28","z29","z30","z31" \
);
// YP_PROJ
#define YP_PROJ_A64FXf \
{ \
asm ( \
"fsub z12.s, p5/m, z12.s, z21.s \n\t" \
"fsub z13.s, p5/m, z13.s, z22.s \n\t" \
"fsub z14.s, p5/m, z14.s, z23.s \n\t" \
"fadd z15.s, p5/m, z15.s, z18.s \n\t" \
"fadd z16.s, p5/m, z16.s, z19.s \n\t" \
"fadd z17.s, p5/m, z17.s, z20.s \n\t" \
: \
: \
: "p5","cc","z0","z1","z2","z3","z4","z5","z6","z7","z8","z9","z10","z11","z12","z13","z14","z15","z16","z17","z18","z19","z20","z21","z22","z23","z24","z25","z26","z27","z28","z29","z30","z31" \
); \
}
// ZP_PROJ
#define ZP_PROJ_A64FXf \
{ \
asm ( \
"fcadd z12.s, p5/m, z12.s, z18.s, 90 \n\t" \
"fcadd z13.s, p5/m, z13.s, z19.s, 90 \n\t" \
"fcadd z14.s, p5/m, z14.s, z20.s, 90 \n\t" \
"fcadd z15.s, p5/m, z15.s, z21.s, 270 \n\t" \
"fcadd z16.s, p5/m, z16.s, z22.s, 270 \n\t" \
"fcadd z17.s, p5/m, z17.s, z23.s, 270 \n\t" \
: \
: \
: "p5","cc","z0","z1","z2","z3","z4","z5","z6","z7","z8","z9","z10","z11","z12","z13","z14","z15","z16","z17","z18","z19","z20","z21","z22","z23","z24","z25","z26","z27","z28","z29","z30","z31" \
); \
}
// TP_PROJ
#define TP_PROJ_A64FXf \
{ \
asm ( \
"fadd z12.s, p5/m, z12.s, z18.s \n\t" \
"fadd z13.s, p5/m, z13.s, z19.s \n\t" \
"fadd z14.s, p5/m, z14.s, z20.s \n\t" \
"fadd z15.s, p5/m, z15.s, z21.s \n\t" \
"fadd z16.s, p5/m, z16.s, z22.s \n\t" \
"fadd z17.s, p5/m, z17.s, z23.s \n\t" \
: \
: \
: "p5","cc","z0","z1","z2","z3","z4","z5","z6","z7","z8","z9","z10","z11","z12","z13","z14","z15","z16","z17","z18","z19","z20","z21","z22","z23","z24","z25","z26","z27","z28","z29","z30","z31" \
); \
}
// XM_PROJ
#define XM_PROJ_A64FXf \
{ \
asm ( \
"fcadd z12.s, p5/m, z12.s, z21.s, 270 \n\t" \
"fcadd z13.s, p5/m, z13.s, z22.s, 270 \n\t" \
"fcadd z14.s, p5/m, z14.s, z23.s, 270 \n\t" \
"fcadd z15.s, p5/m, z15.s, z18.s, 270 \n\t" \
"fcadd z16.s, p5/m, z16.s, z19.s, 270 \n\t" \
"fcadd z17.s, p5/m, z17.s, z20.s, 270 \n\t" \
: \
: \
: "p5","cc","z0","z1","z2","z3","z4","z5","z6","z7","z8","z9","z10","z11","z12","z13","z14","z15","z16","z17","z18","z19","z20","z21","z22","z23","z24","z25","z26","z27","z28","z29","z30","z31" \
); \
}
// XM_RECON
#define XM_RECON_A64FXf \
asm ( \
"movprfx z6.s, p5/m, z31.s \n\t" \
"fcadd z6.s, p5/m, z6.s, z21.s, 90 \n\t" \
"movprfx z7.s, p5/m, z31.s \n\t" \
"fcadd z7.s, p5/m, z7.s, z22.s, 90 \n\t" \
"movprfx z8.s, p5/m, z31.s \n\t" \
"fcadd z8.s, p5/m, z8.s, z23.s, 90 \n\t" \
"movprfx z9.s, p5/m, z31.s \n\t" \
"fcadd z9.s, p5/m, z9.s, z18.s, 90 \n\t" \
"movprfx z10.s, p5/m, z31.s \n\t" \
"fcadd z10.s, p5/m, z10.s, z19.s, 90 \n\t" \
"movprfx z11.s, p5/m, z31.s \n\t" \
"fcadd z11.s, p5/m, z11.s, z20.s, 90 \n\t" \
"mov z0.s, p5/m, z18.s \n\t" \
"mov z1.s, p5/m, z19.s \n\t" \
"mov z2.s, p5/m, z20.s \n\t" \
"mov z3.s, p5/m, z21.s \n\t" \
"mov z4.s, p5/m, z22.s \n\t" \
"mov z5.s, p5/m, z23.s \n\t" \
: \
: \
: "p5","cc","z0","z1","z2","z3","z4","z5","z6","z7","z8","z9","z10","z11","z12","z13","z14","z15","z16","z17","z18","z19","z20","z21","z22","z23","z24","z25","z26","z27","z28","z29","z30","z31" \
);
// YM_PROJ
#define YM_PROJ_A64FXf \
{ \
asm ( \
"fadd z12.s, p5/m, z12.s, z21.s \n\t" \
"fadd z13.s, p5/m, z13.s, z22.s \n\t" \
"fadd z14.s, p5/m, z14.s, z23.s \n\t" \
"fsub z15.s, p5/m, z15.s, z18.s \n\t" \
"fsub z16.s, p5/m, z16.s, z19.s \n\t" \
"fsub z17.s, p5/m, z17.s, z20.s \n\t" \
: \
: \
: "p5","cc","z0","z1","z2","z3","z4","z5","z6","z7","z8","z9","z10","z11","z12","z13","z14","z15","z16","z17","z18","z19","z20","z21","z22","z23","z24","z25","z26","z27","z28","z29","z30","z31" \
); \
}
// ZM_PROJ
#define ZM_PROJ_A64FXf \
{ \
asm ( \
"fcadd z12.s, p5/m, z12.s, z18.s, 270 \n\t" \
"fcadd z13.s, p5/m, z13.s, z19.s, 270 \n\t" \
"fcadd z14.s, p5/m, z14.s, z20.s, 270 \n\t" \
"fcadd z15.s, p5/m, z15.s, z21.s, 90 \n\t" \
"fcadd z16.s, p5/m, z16.s, z22.s, 90 \n\t" \
"fcadd z17.s, p5/m, z17.s, z23.s, 90 \n\t" \
: \
: \
: "p5","cc","z0","z1","z2","z3","z4","z5","z6","z7","z8","z9","z10","z11","z12","z13","z14","z15","z16","z17","z18","z19","z20","z21","z22","z23","z24","z25","z26","z27","z28","z29","z30","z31" \
); \
}
// TM_PROJ
#define TM_PROJ_A64FXf \
{ \
asm ( \
"ptrue p5.s \n\t" \
"fsub z12.s, p5/m, z12.s, z18.s \n\t" \
"fsub z13.s, p5/m, z13.s, z19.s \n\t" \
"fsub z14.s, p5/m, z14.s, z20.s \n\t" \
"fsub z15.s, p5/m, z15.s, z21.s \n\t" \
"fsub z16.s, p5/m, z16.s, z22.s \n\t" \
"fsub z17.s, p5/m, z17.s, z23.s \n\t" \
: \
: \
: "p5","cc","z0","z1","z2","z3","z4","z5","z6","z7","z8","z9","z10","z11","z12","z13","z14","z15","z16","z17","z18","z19","z20","z21","z22","z23","z24","z25","z26","z27","z28","z29","z30","z31" \
); \
}
// XM_RECON_ACCUM
#define XM_RECON_ACCUM_A64FXf \
asm ( \
"fcadd z9.s, p5/m, z9.s, z18.s, 90 \n\t" \
"fcadd z10.s, p5/m, z10.s, z19.s, 90 \n\t" \
"fcadd z11.s, p5/m, z11.s, z20.s, 90 \n\t" \
"fcadd z6.s, p5/m, z6.s, z21.s, 90 \n\t" \
"fcadd z7.s, p5/m, z7.s, z22.s, 90 \n\t" \
"fcadd z8.s, p5/m, z8.s, z23.s, 90 \n\t" \
"fadd z0.s, p5/m, z0.s, z18.s \n\t" \
"fadd z1.s, p5/m, z1.s, z19.s \n\t" \
"fadd z2.s, p5/m, z2.s, z20.s \n\t" \
"fadd z3.s, p5/m, z3.s, z21.s \n\t" \
"fadd z4.s, p5/m, z4.s, z22.s \n\t" \
"fadd z5.s, p5/m, z5.s, z23.s \n\t" \
: \
: \
: "p5","cc","z0","z1","z2","z3","z4","z5","z6","z7","z8","z9","z10","z11","z12","z13","z14","z15","z16","z17","z18","z19","z20","z21","z22","z23","z24","z25","z26","z27","z28","z29","z30","z31" \
);
// YP_RECON_ACCUM
#define YP_RECON_ACCUM_A64FXf \
asm ( \
"fadd z0.s, p5/m, z0.s, z18.s \n\t" \
"fsub z9.s, p5/m, z9.s, z18.s \n\t" \
"fadd z1.s, p5/m, z1.s, z19.s \n\t" \
"fsub z10.s, p5/m, z10.s, z19.s \n\t" \
"fadd z2.s, p5/m, z2.s, z20.s \n\t" \
"fsub z11.s, p5/m, z11.s, z20.s \n\t" \
"fadd z3.s, p5/m, z3.s, z21.s \n\t" \
"fadd z6.s, p5/m, z6.s, z21.s \n\t" \
"fadd z4.s, p5/m, z4.s, z22.s \n\t" \
"fadd z7.s, p5/m, z7.s, z22.s \n\t" \
"fadd z5.s, p5/m, z5.s, z23.s \n\t" \
"fadd z8.s, p5/m, z8.s, z23.s \n\t" \
: \
: \
: "p5","cc","z0","z1","z2","z3","z4","z5","z6","z7","z8","z9","z10","z11","z12","z13","z14","z15","z16","z17","z18","z19","z20","z21","z22","z23","z24","z25","z26","z27","z28","z29","z30","z31" \
);
// YM_RECON_ACCUM
#define YM_RECON_ACCUM_A64FXf \
asm ( \
"fadd z0.s, p5/m, z0.s, z18.s \n\t" \
"fadd z9.s, p5/m, z9.s, z18.s \n\t" \
"fadd z1.s, p5/m, z1.s, z19.s \n\t" \
"fadd z10.s, p5/m, z10.s, z19.s \n\t" \
"fadd z2.s, p5/m, z2.s, z20.s \n\t" \
"fadd z11.s, p5/m, z11.s, z20.s \n\t" \
"fadd z3.s, p5/m, z3.s, z21.s \n\t" \
"fsub z6.s, p5/m, z6.s, z21.s \n\t" \
"fadd z4.s, p5/m, z4.s, z22.s \n\t" \
"fsub z7.s, p5/m, z7.s, z22.s \n\t" \
"fadd z5.s, p5/m, z5.s, z23.s \n\t" \
"fsub z8.s, p5/m, z8.s, z23.s \n\t" \
: \
: \
: "p5","cc","z0","z1","z2","z3","z4","z5","z6","z7","z8","z9","z10","z11","z12","z13","z14","z15","z16","z17","z18","z19","z20","z21","z22","z23","z24","z25","z26","z27","z28","z29","z30","z31" \
);
// ZP_RECON_ACCUM
#define ZP_RECON_ACCUM_A64FXf \
asm ( \
"fcadd z6.s, p5/m, z6.s, z18.s, 270 \n\t" \
"fadd z0.s, p5/m, z0.s, z18.s \n\t" \
"fcadd z7.s, p5/m, z7.s, z19.s, 270 \n\t" \
"fadd z1.s, p5/m, z1.s, z19.s \n\t" \
"fcadd z8.s, p5/m, z8.s, z20.s, 270 \n\t" \
"fadd z2.s, p5/m, z2.s, z20.s \n\t" \
"fcadd z9.s, p5/m, z9.s, z21.s, 90 \n\t" \
"fadd z3.s, p5/m, z3.s, z21.s \n\t" \
"fcadd z10.s, p5/m, z10.s, z22.s, 90 \n\t" \
"fadd z4.s, p5/m, z4.s, z22.s \n\t" \
"fcadd z11.s, p5/m, z11.s, z23.s, 90 \n\t" \
"fadd z5.s, p5/m, z5.s, z23.s \n\t" \
: \
: \
: "p5","cc","z0","z1","z2","z3","z4","z5","z6","z7","z8","z9","z10","z11","z12","z13","z14","z15","z16","z17","z18","z19","z20","z21","z22","z23","z24","z25","z26","z27","z28","z29","z30","z31" \
);
// ZM_RECON_ACCUM
#define ZM_RECON_ACCUM_A64FXf \
asm ( \
"fcadd z6.s, p5/m, z6.s, z18.s, 90 \n\t" \
"fadd z0.s, p5/m, z0.s, z18.s \n\t" \
"fcadd z7.s, p5/m, z7.s, z19.s, 90 \n\t" \
"fadd z1.s, p5/m, z1.s, z19.s \n\t" \
"fcadd z8.s, p5/m, z8.s, z20.s, 90 \n\t" \
"fadd z2.s, p5/m, z2.s, z20.s \n\t" \
"fcadd z9.s, p5/m, z9.s, z21.s, 270 \n\t" \
"fadd z3.s, p5/m, z3.s, z21.s \n\t" \
"fcadd z10.s, p5/m, z10.s, z22.s, 270 \n\t" \
"fadd z4.s, p5/m, z4.s, z22.s \n\t" \
"fcadd z11.s, p5/m, z11.s, z23.s, 270 \n\t" \
"fadd z5.s, p5/m, z5.s, z23.s \n\t" \
: \
: \
: "p5","cc","z0","z1","z2","z3","z4","z5","z6","z7","z8","z9","z10","z11","z12","z13","z14","z15","z16","z17","z18","z19","z20","z21","z22","z23","z24","z25","z26","z27","z28","z29","z30","z31" \
);
// TP_RECON_ACCUM
#define TP_RECON_ACCUM_A64FXf \
asm ( \
"fadd z0.s, p5/m, z0.s, z18.s \n\t" \
"fadd z6.s, p5/m, z6.s, z18.s \n\t" \
"fadd z1.s, p5/m, z1.s, z19.s \n\t" \
"fadd z7.s, p5/m, z7.s, z19.s \n\t" \
"fadd z2.s, p5/m, z2.s, z20.s \n\t" \
"fadd z8.s, p5/m, z8.s, z20.s \n\t" \
"fadd z3.s, p5/m, z3.s, z21.s \n\t" \
"fadd z9.s, p5/m, z9.s, z21.s \n\t" \
"fadd z4.s, p5/m, z4.s, z22.s \n\t" \
"fadd z10.s, p5/m, z10.s, z22.s \n\t" \
"fadd z5.s, p5/m, z5.s, z23.s \n\t" \
"fadd z11.s, p5/m, z11.s, z23.s \n\t" \
: \
: \
: "p5","cc","z0","z1","z2","z3","z4","z5","z6","z7","z8","z9","z10","z11","z12","z13","z14","z15","z16","z17","z18","z19","z20","z21","z22","z23","z24","z25","z26","z27","z28","z29","z30","z31" \
);
// TM_RECON_ACCUM
#define TM_RECON_ACCUM_A64FXf \
asm ( \
"fadd z0.s, p5/m, z0.s, z18.s \n\t" \
"fsub z6.s, p5/m, z6.s, z18.s \n\t" \
"fadd z1.s, p5/m, z1.s, z19.s \n\t" \
"fsub z7.s, p5/m, z7.s, z19.s \n\t" \
"fadd z2.s, p5/m, z2.s, z20.s \n\t" \
"fsub z8.s, p5/m, z8.s, z20.s \n\t" \
"fadd z3.s, p5/m, z3.s, z21.s \n\t" \
"fsub z9.s, p5/m, z9.s, z21.s \n\t" \
"fadd z4.s, p5/m, z4.s, z22.s \n\t" \
"fsub z10.s, p5/m, z10.s, z22.s \n\t" \
"fadd z5.s, p5/m, z5.s, z23.s \n\t" \
"fsub z11.s, p5/m, z11.s, z23.s \n\t" \
: \
: \
: "p5","cc","z0","z1","z2","z3","z4","z5","z6","z7","z8","z9","z10","z11","z12","z13","z14","z15","z16","z17","z18","z19","z20","z21","z22","z23","z24","z25","z26","z27","z28","z29","z30","z31" \
);
// ZERO_PSI
#define ZERO_PSI_A64FXf \
asm ( \
"ptrue p5.s \n\t" \
"fmov z0.s , 0 \n\t" \
"fmov z1.s , 0 \n\t" \
"fmov z2.s , 0 \n\t" \
"fmov z3.s , 0 \n\t" \
"fmov z4.s , 0 \n\t" \
"fmov z5.s , 0 \n\t" \
"fmov z6.s , 0 \n\t" \
"fmov z7.s , 0 \n\t" \
"fmov z8.s , 0 \n\t" \
"fmov z9.s , 0 \n\t" \
"fmov z10.s , 0 \n\t" \
"fmov z11.s , 0 \n\t" \
: \
: \
: "p5","cc","z0","z1","z2","z3","z4","z5","z6","z7","z8","z9","z10","z11","z12","z13","z14","z15","z16","z17","z18","z19","z20","z21","z22","z23","z24","z25","z26","z27","z28","z29","z30","z31" \
);
// PREFETCH_RESULT_L2_STORE (prefetch store to L2)
#define PREFETCH_RESULT_L2_STORE_INTERNAL_A64FXf(base) \
{ \
asm ( \
"prfd PSTL2STRM, p5, [%[fetchptr], 0, mul vl] \n\t" \
"prfd PSTL2STRM, p5, [%[fetchptr], 4, mul vl] \n\t" \
"prfd PSTL2STRM, p5, [%[fetchptr], 8, mul vl] \n\t" \
: \
: [fetchptr] "r" (base) \
: "p5","cc","z0","z1","z2","z3","z4","z5","z6","z7","z8","z9","z10","z11","z12","z13","z14","z15","z16","z17","z18","z19","z20","z21","z22","z23","z24","z25","z26","z27","z28","z29","z30","z31","memory" \
); \
}
// PREFETCH_RESULT_L1_STORE (prefetch store to L1)
#define PREFETCH_RESULT_L1_STORE_INTERNAL_A64FXf(base) \
{ \
asm ( \
"prfd PSTL1STRM, p5, [%[fetchptr], 0, mul vl] \n\t" \
"prfd PSTL1STRM, p5, [%[fetchptr], 4, mul vl] \n\t" \
"prfd PSTL1STRM, p5, [%[fetchptr], 8, mul vl] \n\t" \
: \
: [fetchptr] "r" (base) \
: "p5","cc","z0","z1","z2","z3","z4","z5","z6","z7","z8","z9","z10","z11","z12","z13","z14","z15","z16","z17","z18","z19","z20","z21","z22","z23","z24","z25","z26","z27","z28","z29","z30","z31","memory" \
); \
}
// ADD_RESULT_INTERNAL
#define ADD_RESULT_INTERNAL_A64FXf \
asm ( \
"fadd z0.s, p5/m, z0.s, z12.s \n\t" \
"fadd z1.s, p5/m, z1.s, z13.s \n\t" \
"fadd z2.s, p5/m, z2.s, z14.s \n\t" \
"fadd z3.s, p5/m, z3.s, z15.s \n\t" \
"fadd z4.s, p5/m, z4.s, z16.s \n\t" \
"fadd z5.s, p5/m, z5.s, z17.s \n\t" \
"fadd z6.s, p5/m, z6.s, z18.s \n\t" \
"fadd z7.s, p5/m, z7.s, z19.s \n\t" \
"fadd z8.s, p5/m, z8.s, z20.s \n\t" \
"fadd z9.s, p5/m, z9.s, z21.s \n\t" \
"fadd z10.s, p5/m, z10.s, z22.s \n\t" \
"fadd z11.s, p5/m, z11.s, z23.s \n\t" \
: \
: \
: "p5","cc","z0","z1","z2","z3","z4","z5","z6","z7","z8","z9","z10","z11","z12","z13","z14","z15","z16","z17","z18","z19","z20","z21","z22","z23","z24","z25","z26","z27","z28","z29","z30","z31" \
);

196
Grid/simd/Fujitsu_A64FX_intrin_double.h
View File

@@ -38,10 +38,11 @@ Author: Nils Meyer <nils.meyer@ur.de>
#define LOCK_GAUGE(A)
#define UNLOCK_GAUGE(A)
#define MASK_REGS DECLARATIONS_A64FXd
#define SAVE_RESULT(A,B) RESULT_A64FXd(A); PREFETCH_RESULT_L2_STORE(B)
#define SAVE_RESULT(A,B) RESULT_A64FXd(A);
#define MULT_2SPIN_1(Dir) MULT_2SPIN_1_A64FXd(Dir)
#define MULT_2SPIN_2 MULT_2SPIN_2_A64FXd
#define LOAD_CHI(base) LOAD_CHI_A64FXd(base)
#define ZERO_PSI ZERO_PSI_A64FXd
#define ADD_RESULT(base,basep) LOAD_CHIMU(base); ADD_RESULT_INTERNAL_A64FXd; RESULT_A64FXd(base)
#define XP_PROJ XP_PROJ_A64FXd
#define YP_PROJ YP_PROJ_A64FXd
@@ -70,6 +71,7 @@ Author: Nils Meyer <nils.meyer@ur.de>
#define MAYBEPERM(Dir,perm) if (Dir != 3) { if (perm) { PERMUTE; } }
// DECLARATIONS
#define DECLARATIONS_A64FXd \
uint64_t baseU; \
const uint64_t lut[4][8] = { \
{4, 5, 6, 7, 0, 1, 2, 3}, \
{2, 3, 0, 1, 6, 7, 4, 5}, \
@@ -126,114 +128,114 @@ Author: Nils Meyer <nils.meyer@ur.de>
// RESULT
#define RESULT_A64FXd(base) \
{ \
svst1(pg1, (float64_t*)(base + 2 * 3 * 64 + -6 * 64), result_00); \
svst1(pg1, (float64_t*)(base + 2 * 3 * 64 + -5 * 64), result_01); \
svst1(pg1, (float64_t*)(base + 2 * 3 * 64 + -4 * 64), result_02); \
svst1(pg1, (float64_t*)(base + 2 * 3 * 64 + -3 * 64), result_10); \
svst1(pg1, (float64_t*)(base + 2 * 3 * 64 + -2 * 64), result_11); \
svst1(pg1, (float64_t*)(base + 2 * 3 * 64 + -1 * 64), result_12); \
svst1(pg1, (float64_t*)(base + 2 * 3 * 64 + 0 * 64), result_20); \
svst1(pg1, (float64_t*)(base + 2 * 3 * 64 + 1 * 64), result_21); \
svst1(pg1, (float64_t*)(base + 2 * 3 * 64 + 2 * 64), result_22); \
svst1(pg1, (float64_t*)(base + 2 * 3 * 64 + 3 * 64), result_30); \
svst1(pg1, (float64_t*)(base + 2 * 3 * 64 + 4 * 64), result_31); \
svst1(pg1, (float64_t*)(base + 2 * 3 * 64 + 5 * 64), result_32); \
svst1_vnum(pg1, (float64_t*)(base + 2 * 3 * 64),(int64_t)(-6), result_00); \
svst1_vnum(pg1, (float64_t*)(base + 2 * 3 * 64),(int64_t)(-5), result_01); \
svst1_vnum(pg1, (float64_t*)(base + 2 * 3 * 64),(int64_t)(-4), result_02); \
svst1_vnum(pg1, (float64_t*)(base + 2 * 3 * 64),(int64_t)(-3), result_10); \
svst1_vnum(pg1, (float64_t*)(base + 2 * 3 * 64),(int64_t)(-2), result_11); \
svst1_vnum(pg1, (float64_t*)(base + 2 * 3 * 64),(int64_t)(-1), result_12); \
svst1_vnum(pg1, (float64_t*)(base + 2 * 3 * 64),(int64_t)(0), result_20); \
svst1_vnum(pg1, (float64_t*)(base + 2 * 3 * 64),(int64_t)(1), result_21); \
svst1_vnum(pg1, (float64_t*)(base + 2 * 3 * 64),(int64_t)(2), result_22); \
svst1_vnum(pg1, (float64_t*)(base + 2 * 3 * 64),(int64_t)(3), result_30); \
svst1_vnum(pg1, (float64_t*)(base + 2 * 3 * 64),(int64_t)(4), result_31); \
svst1_vnum(pg1, (float64_t*)(base + 2 * 3 * 64),(int64_t)(5), result_32); \
}
// PREFETCH_CHIMU_L2 (prefetch to L2)
#define PREFETCH_CHIMU_L2_INTERNAL_A64FXd(base) \
{ \
svprfd(pg1, (int64_t*)(base + 0), SV_PLDL2STRM); \
svprfd(pg1, (int64_t*)(base + 256), SV_PLDL2STRM); \
svprfd(pg1, (int64_t*)(base + 512), SV_PLDL2STRM); \
svprfd_vnum(pg1, (void*)(base), (int64_t)(0), SV_PLDL2STRM); \
svprfd_vnum(pg1, (void*)(base), (int64_t)(4), SV_PLDL2STRM); \
svprfd_vnum(pg1, (void*)(base), (int64_t)(8), SV_PLDL2STRM); \
}
// PREFETCH_CHIMU_L1 (prefetch to L1)
#define PREFETCH_CHIMU_L1_INTERNAL_A64FXd(base) \
{ \
svprfd(pg1, (int64_t*)(base + 0), SV_PLDL1STRM); \
svprfd(pg1, (int64_t*)(base + 256), SV_PLDL1STRM); \
svprfd(pg1, (int64_t*)(base + 512), SV_PLDL1STRM); \
svprfd_vnum(pg1, (void*)(base), (int64_t)(0), SV_PLDL1STRM); \
svprfd_vnum(pg1, (void*)(base), (int64_t)(4), SV_PLDL1STRM); \
svprfd_vnum(pg1, (void*)(base), (int64_t)(8), SV_PLDL1STRM); \
}
// PREFETCH_GAUGE_L2 (prefetch to L2)
#define PREFETCH_GAUGE_L2_INTERNAL_A64FXd(A) \
{ \
const auto & ref(U[sUn](A)); uint64_t baseU = (uint64_t)&ref + 3 * 3 * 64; \
svprfd(pg1, (int64_t*)(baseU + -256), SV_PLDL2STRM); \
svprfd(pg1, (int64_t*)(baseU + 0), SV_PLDL2STRM); \
svprfd(pg1, (int64_t*)(baseU + 256), SV_PLDL2STRM); \
svprfd(pg1, (int64_t*)(baseU + 512), SV_PLDL2STRM); \
svprfd(pg1, (int64_t*)(baseU + 768), SV_PLDL2STRM); \
svprfd(pg1, (int64_t*)(baseU + 1024), SV_PLDL2STRM); \
svprfd(pg1, (int64_t*)(baseU + 1280), SV_PLDL2STRM); \
svprfd(pg1, (int64_t*)(baseU + 1536), SV_PLDL2STRM); \
svprfd(pg1, (int64_t*)(baseU + 1792), SV_PLDL2STRM); \
const auto & ref(U[sUn](A)); baseU = (uint64_t)&ref + 3 * 3 * 64; \
svprfd_vnum(pg1, (void*)(baseU), (int64_t)(-4), SV_PLDL2STRM); \
svprfd_vnum(pg1, (void*)(baseU), (int64_t)(0), SV_PLDL2STRM); \
svprfd_vnum(pg1, (void*)(baseU), (int64_t)(4), SV_PLDL2STRM); \
svprfd_vnum(pg1, (void*)(baseU), (int64_t)(8), SV_PLDL2STRM); \
svprfd_vnum(pg1, (void*)(baseU), (int64_t)(12), SV_PLDL2STRM); \
svprfd_vnum(pg1, (void*)(baseU), (int64_t)(16), SV_PLDL2STRM); \
svprfd_vnum(pg1, (void*)(baseU), (int64_t)(20), SV_PLDL2STRM); \
svprfd_vnum(pg1, (void*)(baseU), (int64_t)(24), SV_PLDL2STRM); \
svprfd_vnum(pg1, (void*)(baseU), (int64_t)(28), SV_PLDL2STRM); \
}
// PREFETCH_GAUGE_L1 (prefetch to L1)
#define PREFETCH_GAUGE_L1_INTERNAL_A64FXd(A) \
{ \
const auto & ref(U[sU](A)); uint64_t baseU = (uint64_t)&ref; \
svprfd(pg1, (int64_t*)(baseU + 0), SV_PLDL1STRM); \
svprfd(pg1, (int64_t*)(baseU + 256), SV_PLDL1STRM); \
svprfd(pg1, (int64_t*)(baseU + 512), SV_PLDL1STRM); \
const auto & ref(U[sU](A)); baseU = (uint64_t)&ref; \
svprfd_vnum(pg1, (void*)(baseU), (int64_t)(0), SV_PLDL1STRM); \
svprfd_vnum(pg1, (void*)(baseU), (int64_t)(4), SV_PLDL1STRM); \
svprfd_vnum(pg1, (void*)(baseU), (int64_t)(8), SV_PLDL1STRM); \
}
// LOAD_CHI
#define LOAD_CHI_A64FXd(base) \
{ \
Chi_00 = svld1(pg1, (float64_t*)(base + 0 * 64)); \
Chi_01 = svld1(pg1, (float64_t*)(base + 1 * 64)); \
Chi_02 = svld1(pg1, (float64_t*)(base + 2 * 64)); \
Chi_10 = svld1(pg1, (float64_t*)(base + 3 * 64)); \
Chi_11 = svld1(pg1, (float64_t*)(base + 4 * 64)); \
Chi_12 = svld1(pg1, (float64_t*)(base + 5 * 64)); \
Chi_00 = svld1_vnum(pg1, (float64_t*)(base), (int64_t)(0)); \
Chi_01 = svld1_vnum(pg1, (float64_t*)(base), (int64_t)(1)); \
Chi_02 = svld1_vnum(pg1, (float64_t*)(base), (int64_t)(2)); \
Chi_10 = svld1_vnum(pg1, (float64_t*)(base), (int64_t)(3)); \
Chi_11 = svld1_vnum(pg1, (float64_t*)(base), (int64_t)(4)); \
Chi_12 = svld1_vnum(pg1, (float64_t*)(base), (int64_t)(5)); \
}
// LOAD_CHIMU
#define LOAD_CHIMU_INTERLEAVED_A64FXd(base) \
{ \
Chimu_00 = svld1(pg1, (float64_t*)(base + 2 * 3 * 64 + -6 * 64)); \
Chimu_30 = svld1(pg1, (float64_t*)(base + 2 * 3 * 64 + 3 * 64)); \
Chimu_10 = svld1(pg1, (float64_t*)(base + 2 * 3 * 64 + -3 * 64)); \
Chimu_20 = svld1(pg1, (float64_t*)(base + 2 * 3 * 64 + 0 * 64)); \
Chimu_01 = svld1(pg1, (float64_t*)(base + 2 * 3 * 64 + -5 * 64)); \
Chimu_31 = svld1(pg1, (float64_t*)(base + 2 * 3 * 64 + 4 * 64)); \
Chimu_11 = svld1(pg1, (float64_t*)(base + 2 * 3 * 64 + -2 * 64)); \
Chimu_21 = svld1(pg1, (float64_t*)(base + 2 * 3 * 64 + 1 * 64)); \
Chimu_02 = svld1(pg1, (float64_t*)(base + 2 * 3 * 64 + -4 * 64)); \
Chimu_32 = svld1(pg1, (float64_t*)(base + 2 * 3 * 64 + 5 * 64)); \
Chimu_12 = svld1(pg1, (float64_t*)(base + 2 * 3 * 64 + -1 * 64)); \
Chimu_22 = svld1(pg1, (float64_t*)(base + 2 * 3 * 64 + 2 * 64)); \
Chimu_00 = svld1_vnum(pg1, (float64_t*)(base + 2 * 3 * 64), (int64_t)(-6)); \
Chimu_30 = svld1_vnum(pg1, (float64_t*)(base + 2 * 3 * 64), (int64_t)(3)); \
Chimu_10 = svld1_vnum(pg1, (float64_t*)(base + 2 * 3 * 64), (int64_t)(-3)); \
Chimu_20 = svld1_vnum(pg1, (float64_t*)(base + 2 * 3 * 64), (int64_t)(0)); \
Chimu_01 = svld1_vnum(pg1, (float64_t*)(base + 2 * 3 * 64), (int64_t)(-5)); \
Chimu_31 = svld1_vnum(pg1, (float64_t*)(base + 2 * 3 * 64), (int64_t)(4)); \
Chimu_11 = svld1_vnum(pg1, (float64_t*)(base + 2 * 3 * 64), (int64_t)(-2)); \
Chimu_21 = svld1_vnum(pg1, (float64_t*)(base + 2 * 3 * 64), (int64_t)(1)); \
Chimu_02 = svld1_vnum(pg1, (float64_t*)(base + 2 * 3 * 64), (int64_t)(-4)); \
Chimu_32 = svld1_vnum(pg1, (float64_t*)(base + 2 * 3 * 64), (int64_t)(5)); \
Chimu_12 = svld1_vnum(pg1, (float64_t*)(base + 2 * 3 * 64), (int64_t)(-1)); \
Chimu_22 = svld1_vnum(pg1, (float64_t*)(base + 2 * 3 * 64), (int64_t)(2)); \
}
// LOAD_CHIMU_0213
#define LOAD_CHIMU_0213_A64FXd \
{ \
const SiteSpinor & ref(in[offset]); \
Chimu_00 = svld1(pg1, (float64_t*)(base + 2 * 3 * 64 + -6 * 64)); \
Chimu_20 = svld1(pg1, (float64_t*)(base + 2 * 3 * 64 + 0 * 64)); \
Chimu_01 = svld1(pg1, (float64_t*)(base + 2 * 3 * 64 + -5 * 64)); \
Chimu_21 = svld1(pg1, (float64_t*)(base + 2 * 3 * 64 + 1 * 64)); \
Chimu_02 = svld1(pg1, (float64_t*)(base + 2 * 3 * 64 + -4 * 64)); \
Chimu_22 = svld1(pg1, (float64_t*)(base + 2 * 3 * 64 + 2 * 64)); \
Chimu_10 = svld1(pg1, (float64_t*)(base + 2 * 3 * 64 + -3 * 64)); \
Chimu_30 = svld1(pg1, (float64_t*)(base + 2 * 3 * 64 + 3 * 64)); \
Chimu_11 = svld1(pg1, (float64_t*)(base + 2 * 3 * 64 + -2 * 64)); \
Chimu_31 = svld1(pg1, (float64_t*)(base + 2 * 3 * 64 + 4 * 64)); \
Chimu_12 = svld1(pg1, (float64_t*)(base + 2 * 3 * 64 + -1 * 64)); \
Chimu_32 = svld1(pg1, (float64_t*)(base + 2 * 3 * 64 + 5 * 64)); \
Chimu_00 = svld1_vnum(pg1, (float64_t*)(base + 2 * 3 * 64), (int64_t)(-6)); \
Chimu_20 = svld1_vnum(pg1, (float64_t*)(base + 2 * 3 * 64), (int64_t)(0)); \
Chimu_01 = svld1_vnum(pg1, (float64_t*)(base + 2 * 3 * 64), (int64_t)(-5)); \
Chimu_21 = svld1_vnum(pg1, (float64_t*)(base + 2 * 3 * 64), (int64_t)(1)); \
Chimu_02 = svld1_vnum(pg1, (float64_t*)(base + 2 * 3 * 64), (int64_t)(-4)); \
Chimu_22 = svld1_vnum(pg1, (float64_t*)(base + 2 * 3 * 64), (int64_t)(2)); \
Chimu_10 = svld1_vnum(pg1, (float64_t*)(base + 2 * 3 * 64), (int64_t)(-3)); \
Chimu_30 = svld1_vnum(pg1, (float64_t*)(base + 2 * 3 * 64), (int64_t)(3)); \
Chimu_11 = svld1_vnum(pg1, (float64_t*)(base + 2 * 3 * 64), (int64_t)(-2)); \
Chimu_31 = svld1_vnum(pg1, (float64_t*)(base + 2 * 3 * 64), (int64_t)(4)); \
Chimu_12 = svld1_vnum(pg1, (float64_t*)(base + 2 * 3 * 64), (int64_t)(-1)); \
Chimu_32 = svld1_vnum(pg1, (float64_t*)(base + 2 * 3 * 64), (int64_t)(5)); \
}
// LOAD_CHIMU_0312
#define LOAD_CHIMU_0312_A64FXd \
{ \
const SiteSpinor & ref(in[offset]); \
Chimu_00 = svld1(pg1, (float64_t*)(base + 2 * 3 * 64 + -6 * 64)); \
Chimu_30 = svld1(pg1, (float64_t*)(base + 2 * 3 * 64 + 3 * 64)); \
Chimu_01 = svld1(pg1, (float64_t*)(base + 2 * 3 * 64 + -5 * 64)); \
Chimu_31 = svld1(pg1, (float64_t*)(base + 2 * 3 * 64 + 4 * 64)); \
Chimu_02 = svld1(pg1, (float64_t*)(base + 2 * 3 * 64 + -4 * 64)); \
Chimu_32 = svld1(pg1, (float64_t*)(base + 2 * 3 * 64 + 5 * 64)); \
Chimu_10 = svld1(pg1, (float64_t*)(base + 2 * 3 * 64 + -3 * 64)); \
Chimu_20 = svld1(pg1, (float64_t*)(base + 2 * 3 * 64 + 0 * 64)); \
Chimu_11 = svld1(pg1, (float64_t*)(base + 2 * 3 * 64 + -2 * 64)); \
Chimu_21 = svld1(pg1, (float64_t*)(base + 2 * 3 * 64 + 1 * 64)); \
Chimu_12 = svld1(pg1, (float64_t*)(base + 2 * 3 * 64 + -1 * 64)); \
Chimu_22 = svld1(pg1, (float64_t*)(base + 2 * 3 * 64 + 2 * 64)); \
Chimu_00 = svld1_vnum(pg1, (float64_t*)(base + 2 * 3 * 64), (int64_t)(-6)); \
Chimu_30 = svld1_vnum(pg1, (float64_t*)(base + 2 * 3 * 64), (int64_t)(3)); \
Chimu_01 = svld1_vnum(pg1, (float64_t*)(base + 2 * 3 * 64), (int64_t)(-5)); \
Chimu_31 = svld1_vnum(pg1, (float64_t*)(base + 2 * 3 * 64), (int64_t)(4)); \
Chimu_02 = svld1_vnum(pg1, (float64_t*)(base + 2 * 3 * 64), (int64_t)(-4)); \
Chimu_32 = svld1_vnum(pg1, (float64_t*)(base + 2 * 3 * 64), (int64_t)(5)); \
Chimu_10 = svld1_vnum(pg1, (float64_t*)(base + 2 * 3 * 64), (int64_t)(-3)); \
Chimu_20 = svld1_vnum(pg1, (float64_t*)(base + 2 * 3 * 64), (int64_t)(0)); \
Chimu_11 = svld1_vnum(pg1, (float64_t*)(base + 2 * 3 * 64), (int64_t)(-2)); \
Chimu_21 = svld1_vnum(pg1, (float64_t*)(base + 2 * 3 * 64), (int64_t)(1)); \
Chimu_12 = svld1_vnum(pg1, (float64_t*)(base + 2 * 3 * 64), (int64_t)(-1)); \
Chimu_22 = svld1_vnum(pg1, (float64_t*)(base + 2 * 3 * 64), (int64_t)(2)); \
}
// LOAD_TABLE0
#define LOAD_TABLE0 \
@@ -261,26 +263,26 @@ Author: Nils Meyer <nils.meyer@ur.de>
Chi_12 = svtbl(Chi_12, table0);
// LOAD_GAUGE
#define LOAD_GAUGE \
const auto & ref(U[sU](A)); uint64_t baseU = (uint64_t)&ref; \
#define LOAD_GAUGE(A) \
{ \
U_00 = svld1(pg1, (float64_t*)(baseU + 2 * 3 * 64 + -6 * 64)); \
U_10 = svld1(pg1, (float64_t*)(baseU + 2 * 3 * 64 + -3 * 64)); \
U_20 = svld1(pg1, (float64_t*)(baseU + 2 * 3 * 64 + 0 * 64)); \
U_01 = svld1(pg1, (float64_t*)(baseU + 2 * 3 * 64 + -5 * 64)); \
U_11 = svld1(pg1, (float64_t*)(baseU + 2 * 3 * 64 + -2 * 64)); \
U_21 = svld1(pg1, (float64_t*)(baseU + 2 * 3 * 64 + 1 * 64)); \
const auto & ref(U[sU](A)); baseU = (uint64_t)&ref; \
U_00 = svld1_vnum(pg1, (float64_t*)(baseU + 2 * 3 * 64), (int64_t)(-6)); \
U_10 = svld1_vnum(pg1, (float64_t*)(baseU + 2 * 3 * 64), (int64_t)(-3)); \
U_20 = svld1_vnum(pg1, (float64_t*)(baseU + 2 * 3 * 64), (int64_t)(0)); \
U_01 = svld1_vnum(pg1, (float64_t*)(baseU + 2 * 3 * 64), (int64_t)(-5)); \
U_11 = svld1_vnum(pg1, (float64_t*)(baseU + 2 * 3 * 64), (int64_t)(-2)); \
U_21 = svld1_vnum(pg1, (float64_t*)(baseU + 2 * 3 * 64), (int64_t)(1)); \
}
// MULT_2SPIN
#define MULT_2SPIN_1_A64FXd(A) \
{ \
const auto & ref(U[sU](A)); uint64_t baseU = (uint64_t)&ref; \
U_00 = svld1(pg1, (float64_t*)(baseU + 2 * 3 * 64 + -6 * 64)); \
U_10 = svld1(pg1, (float64_t*)(baseU + 2 * 3 * 64 + -3 * 64)); \
U_20 = svld1(pg1, (float64_t*)(baseU + 2 * 3 * 64 + 0 * 64)); \
U_01 = svld1(pg1, (float64_t*)(baseU + 2 * 3 * 64 + -5 * 64)); \
U_11 = svld1(pg1, (float64_t*)(baseU + 2 * 3 * 64 + -2 * 64)); \
U_21 = svld1(pg1, (float64_t*)(baseU + 2 * 3 * 64 + 1 * 64)); \
const auto & ref(U[sU](A)); baseU = (uint64_t)&ref; \
U_00 = svld1_vnum(pg1, (float64_t*)(baseU + 2 * 3 * 64), (int64_t)(-6)); \
U_10 = svld1_vnum(pg1, (float64_t*)(baseU + 2 * 3 * 64), (int64_t)(-3)); \
U_20 = svld1_vnum(pg1, (float64_t*)(baseU + 2 * 3 * 64), (int64_t)(0)); \
U_01 = svld1_vnum(pg1, (float64_t*)(baseU + 2 * 3 * 64), (int64_t)(-5)); \
U_11 = svld1_vnum(pg1, (float64_t*)(baseU + 2 * 3 * 64), (int64_t)(-2)); \
U_21 = svld1_vnum(pg1, (float64_t*)(baseU + 2 * 3 * 64), (int64_t)(1)); \
UChi_00 = svcmla_x(pg1, zero0, U_00, Chi_00, 0); \
UChi_10 = svcmla_x(pg1, zero0, U_00, Chi_10, 0); \
UChi_01 = svcmla_x(pg1, zero0, U_10, Chi_00, 0); \
@@ -293,9 +295,9 @@ Author: Nils Meyer <nils.meyer@ur.de>
UChi_11 = svcmla_x(pg1, UChi_11, U_10, Chi_10, 90); \
UChi_02 = svcmla_x(pg1, UChi_02, U_20, Chi_00, 90); \
UChi_12 = svcmla_x(pg1, UChi_12, U_20, Chi_10, 90); \
U_00 = svld1(pg1, (float64_t*)(baseU + 2 * 3 * 64 + -4 * 64)); \
U_10 = svld1(pg1, (float64_t*)(baseU + 2 * 3 * 64 + -1 * 64)); \
U_20 = svld1(pg1, (float64_t*)(baseU + 2 * 3 * 64 + 2 * 64)); \
U_00 = svld1_vnum(pg1, (float64_t*)(baseU + 2 * 3 * 64), (int64_t)(-4)); \
U_10 = svld1_vnum(pg1, (float64_t*)(baseU + 2 * 3 * 64), (int64_t)(-1)); \
U_20 = svld1_vnum(pg1, (float64_t*)(baseU + 2 * 3 * 64), (int64_t)(2)); \
}
// MULT_2SPIN_BACKEND
#define MULT_2SPIN_2_A64FXd \
@@ -570,12 +572,12 @@ Author: Nils Meyer <nils.meyer@ur.de>
result_31 = svdup_f64(0.); \
result_32 = svdup_f64(0.);
// PREFETCH_RESULT_L2_STORE (prefetch store to L2)
// PREFETCH_RESULT_L2_STORE (uses DC ZVA for cache line zeroing)
#define PREFETCH_RESULT_L2_STORE_INTERNAL_A64FXd(base) \
{ \
svprfd(pg1, (int64_t*)(base + 0), SV_PSTL2STRM); \
svprfd(pg1, (int64_t*)(base + 256), SV_PSTL2STRM); \
svprfd(pg1, (int64_t*)(base + 512), SV_PSTL2STRM); \
asm( "dc zva, %[fetchptr] \n\t" : : [fetchptr] "r" (base + 256 * 0) : "memory" ); \
asm( "dc zva, %[fetchptr] \n\t" : : [fetchptr] "r" (base + 256 * 1) : "memory" ); \
asm( "dc zva, %[fetchptr] \n\t" : : [fetchptr] "r" (base + 256 * 2) : "memory" ); \
}
// PREFETCH_RESULT_L1_STORE (prefetch store to L1)
#define PREFETCH_RESULT_L1_STORE_INTERNAL_A64FXd(base) \

196
Grid/simd/Fujitsu_A64FX_intrin_single.h
View File

@@ -38,10 +38,11 @@ Author: Nils Meyer <nils.meyer@ur.de>
#define LOCK_GAUGE(A)
#define UNLOCK_GAUGE(A)
#define MASK_REGS DECLARATIONS_A64FXf
#define SAVE_RESULT(A,B) RESULT_A64FXf(A); PREFETCH_RESULT_L2_STORE(B)
#define SAVE_RESULT(A,B) RESULT_A64FXf(A);
#define MULT_2SPIN_1(Dir) MULT_2SPIN_1_A64FXf(Dir)
#define MULT_2SPIN_2 MULT_2SPIN_2_A64FXf
#define LOAD_CHI(base) LOAD_CHI_A64FXf(base)
#define ZERO_PSI ZERO_PSI_A64FXf
#define ADD_RESULT(base,basep) LOAD_CHIMU(base); ADD_RESULT_INTERNAL_A64FXf; RESULT_A64FXf(base)
#define XP_PROJ XP_PROJ_A64FXf
#define YP_PROJ YP_PROJ_A64FXf
@@ -70,6 +71,7 @@ Author: Nils Meyer <nils.meyer@ur.de>
#define MAYBEPERM(A,perm) if (perm) { PERMUTE; }
// DECLARATIONS
#define DECLARATIONS_A64FXf \
uint64_t baseU; \
const uint32_t lut[4][16] = { \
{8, 9, 10, 11, 12, 13, 14, 15, 0, 1, 2, 3, 4, 5, 6, 7}, \
{4, 5, 6, 7, 0, 1, 2, 3, 12, 13, 14, 15, 8, 9, 10, 11}, \
@@ -126,114 +128,114 @@ Author: Nils Meyer <nils.meyer@ur.de>
// RESULT
#define RESULT_A64FXf(base) \
{ \
svst1(pg1, (float32_t*)(base + 2 * 3 * 64 + -6 * 64), result_00); \
svst1(pg1, (float32_t*)(base + 2 * 3 * 64 + -5 * 64), result_01); \
svst1(pg1, (float32_t*)(base + 2 * 3 * 64 + -4 * 64), result_02); \
svst1(pg1, (float32_t*)(base + 2 * 3 * 64 + -3 * 64), result_10); \
svst1(pg1, (float32_t*)(base + 2 * 3 * 64 + -2 * 64), result_11); \
svst1(pg1, (float32_t*)(base + 2 * 3 * 64 + -1 * 64), result_12); \
svst1(pg1, (float32_t*)(base + 2 * 3 * 64 + 0 * 64), result_20); \
svst1(pg1, (float32_t*)(base + 2 * 3 * 64 + 1 * 64), result_21); \
svst1(pg1, (float32_t*)(base + 2 * 3 * 64 + 2 * 64), result_22); \
svst1(pg1, (float32_t*)(base + 2 * 3 * 64 + 3 * 64), result_30); \
svst1(pg1, (float32_t*)(base + 2 * 3 * 64 + 4 * 64), result_31); \
svst1(pg1, (float32_t*)(base + 2 * 3 * 64 + 5 * 64), result_32); \
svst1_vnum(pg1, (float32_t*)(base + 2 * 3 * 64),(int64_t)(-6), result_00); \
svst1_vnum(pg1, (float32_t*)(base + 2 * 3 * 64),(int64_t)(-5), result_01); \
svst1_vnum(pg1, (float32_t*)(base + 2 * 3 * 64),(int64_t)(-4), result_02); \
svst1_vnum(pg1, (float32_t*)(base + 2 * 3 * 64),(int64_t)(-3), result_10); \
svst1_vnum(pg1, (float32_t*)(base + 2 * 3 * 64),(int64_t)(-2), result_11); \
svst1_vnum(pg1, (float32_t*)(base + 2 * 3 * 64),(int64_t)(-1), result_12); \
svst1_vnum(pg1, (float32_t*)(base + 2 * 3 * 64),(int64_t)(0), result_20); \
svst1_vnum(pg1, (float32_t*)(base + 2 * 3 * 64),(int64_t)(1), result_21); \
svst1_vnum(pg1, (float32_t*)(base + 2 * 3 * 64),(int64_t)(2), result_22); \
svst1_vnum(pg1, (float32_t*)(base + 2 * 3 * 64),(int64_t)(3), result_30); \
svst1_vnum(pg1, (float32_t*)(base + 2 * 3 * 64),(int64_t)(4), result_31); \
svst1_vnum(pg1, (float32_t*)(base + 2 * 3 * 64),(int64_t)(5), result_32); \
}
// PREFETCH_CHIMU_L2 (prefetch to L2)
#define PREFETCH_CHIMU_L2_INTERNAL_A64FXf(base) \
{ \
svprfd(pg1, (int64_t*)(base + 0), SV_PLDL2STRM); \
svprfd(pg1, (int64_t*)(base + 256), SV_PLDL2STRM); \
svprfd(pg1, (int64_t*)(base + 512), SV_PLDL2STRM); \
svprfd_vnum(pg1, (void*)(base), (int64_t)(0), SV_PLDL2STRM); \
svprfd_vnum(pg1, (void*)(base), (int64_t)(4), SV_PLDL2STRM); \
svprfd_vnum(pg1, (void*)(base), (int64_t)(8), SV_PLDL2STRM); \
}
// PREFETCH_CHIMU_L1 (prefetch to L1)
#define PREFETCH_CHIMU_L1_INTERNAL_A64FXf(base) \
{ \
svprfd(pg1, (int64_t*)(base + 0), SV_PLDL1STRM); \
svprfd(pg1, (int64_t*)(base + 256), SV_PLDL1STRM); \
svprfd(pg1, (int64_t*)(base + 512), SV_PLDL1STRM); \
svprfd_vnum(pg1, (void*)(base), (int64_t)(0), SV_PLDL1STRM); \
svprfd_vnum(pg1, (void*)(base), (int64_t)(4), SV_PLDL1STRM); \
svprfd_vnum(pg1, (void*)(base), (int64_t)(8), SV_PLDL1STRM); \
}
// PREFETCH_GAUGE_L2 (prefetch to L2)
#define PREFETCH_GAUGE_L2_INTERNAL_A64FXf(A) \
{ \
const auto & ref(U[sUn](A)); uint64_t baseU = (uint64_t)&ref + 3 * 3 * 64; \
svprfd(pg1, (int64_t*)(baseU + -256), SV_PLDL2STRM); \
svprfd(pg1, (int64_t*)(baseU + 0), SV_PLDL2STRM); \
svprfd(pg1, (int64_t*)(baseU + 256), SV_PLDL2STRM); \
svprfd(pg1, (int64_t*)(baseU + 512), SV_PLDL2STRM); \
svprfd(pg1, (int64_t*)(baseU + 768), SV_PLDL2STRM); \
svprfd(pg1, (int64_t*)(baseU + 1024), SV_PLDL2STRM); \
svprfd(pg1, (int64_t*)(baseU + 1280), SV_PLDL2STRM); \
svprfd(pg1, (int64_t*)(baseU + 1536), SV_PLDL2STRM); \
svprfd(pg1, (int64_t*)(baseU + 1792), SV_PLDL2STRM); \
const auto & ref(U[sUn](A)); baseU = (uint64_t)&ref + 3 * 3 * 64; \
svprfd_vnum(pg1, (void*)(baseU), (int64_t)(-4), SV_PLDL2STRM); \
svprfd_vnum(pg1, (void*)(baseU), (int64_t)(0), SV_PLDL2STRM); \
svprfd_vnum(pg1, (void*)(baseU), (int64_t)(4), SV_PLDL2STRM); \
svprfd_vnum(pg1, (void*)(baseU), (int64_t)(8), SV_PLDL2STRM); \
svprfd_vnum(pg1, (void*)(baseU), (int64_t)(12), SV_PLDL2STRM); \
svprfd_vnum(pg1, (void*)(baseU), (int64_t)(16), SV_PLDL2STRM); \
svprfd_vnum(pg1, (void*)(baseU), (int64_t)(20), SV_PLDL2STRM); \
svprfd_vnum(pg1, (void*)(baseU), (int64_t)(24), SV_PLDL2STRM); \
svprfd_vnum(pg1, (void*)(baseU), (int64_t)(28), SV_PLDL2STRM); \
}
// PREFETCH_GAUGE_L1 (prefetch to L1)
#define PREFETCH_GAUGE_L1_INTERNAL_A64FXf(A) \
{ \
const auto & ref(U[sU](A)); uint64_t baseU = (uint64_t)&ref; \
svprfd(pg1, (int64_t*)(baseU + 0), SV_PLDL1STRM); \
svprfd(pg1, (int64_t*)(baseU + 256), SV_PLDL1STRM); \
svprfd(pg1, (int64_t*)(baseU + 512), SV_PLDL1STRM); \
const auto & ref(U[sU](A)); baseU = (uint64_t)&ref; \
svprfd_vnum(pg1, (void*)(baseU), (int64_t)(0), SV_PLDL1STRM); \
svprfd_vnum(pg1, (void*)(baseU), (int64_t)(4), SV_PLDL1STRM); \
svprfd_vnum(pg1, (void*)(baseU), (int64_t)(8), SV_PLDL1STRM); \
}
// LOAD_CHI
#define LOAD_CHI_A64FXf(base) \
{ \
Chi_00 = svld1(pg1, (float32_t*)(base + 0 * 64)); \
Chi_01 = svld1(pg1, (float32_t*)(base + 1 * 64)); \
Chi_02 = svld1(pg1, (float32_t*)(base + 2 * 64)); \
Chi_10 = svld1(pg1, (float32_t*)(base + 3 * 64)); \
Chi_11 = svld1(pg1, (float32_t*)(base + 4 * 64)); \
Chi_12 = svld1(pg1, (float32_t*)(base + 5 * 64)); \
Chi_00 = svld1_vnum(pg1, (float32_t*)(base), (int64_t)(0)); \
Chi_01 = svld1_vnum(pg1, (float32_t*)(base), (int64_t)(1)); \
Chi_02 = svld1_vnum(pg1, (float32_t*)(base), (int64_t)(2)); \
Chi_10 = svld1_vnum(pg1, (float32_t*)(base), (int64_t)(3)); \
Chi_11 = svld1_vnum(pg1, (float32_t*)(base), (int64_t)(4)); \
Chi_12 = svld1_vnum(pg1, (float32_t*)(base), (int64_t)(5)); \
}
// LOAD_CHIMU
#define LOAD_CHIMU_INTERLEAVED_A64FXf(base) \
{ \
Chimu_00 = svld1(pg1, (float32_t*)(base + 2 * 3 * 64 + -6 * 64)); \
Chimu_30 = svld1(pg1, (float32_t*)(base + 2 * 3 * 64 + 3 * 64)); \
Chimu_10 = svld1(pg1, (float32_t*)(base + 2 * 3 * 64 + -3 * 64)); \
Chimu_20 = svld1(pg1, (float32_t*)(base + 2 * 3 * 64 + 0 * 64)); \
Chimu_01 = svld1(pg1, (float32_t*)(base + 2 * 3 * 64 + -5 * 64)); \
Chimu_31 = svld1(pg1, (float32_t*)(base + 2 * 3 * 64 + 4 * 64)); \
Chimu_11 = svld1(pg1, (float32_t*)(base + 2 * 3 * 64 + -2 * 64)); \
Chimu_21 = svld1(pg1, (float32_t*)(base + 2 * 3 * 64 + 1 * 64)); \
Chimu_02 = svld1(pg1, (float32_t*)(base + 2 * 3 * 64 + -4 * 64)); \
Chimu_32 = svld1(pg1, (float32_t*)(base + 2 * 3 * 64 + 5 * 64)); \
Chimu_12 = svld1(pg1, (float32_t*)(base + 2 * 3 * 64 + -1 * 64)); \
Chimu_22 = svld1(pg1, (float32_t*)(base + 2 * 3 * 64 + 2 * 64)); \
Chimu_00 = svld1_vnum(pg1, (float32_t*)(base + 2 * 3 * 64), (int64_t)(-6)); \
Chimu_30 = svld1_vnum(pg1, (float32_t*)(base + 2 * 3 * 64), (int64_t)(3)); \
Chimu_10 = svld1_vnum(pg1, (float32_t*)(base + 2 * 3 * 64), (int64_t)(-3)); \
Chimu_20 = svld1_vnum(pg1, (float32_t*)(base + 2 * 3 * 64), (int64_t)(0)); \
Chimu_01 = svld1_vnum(pg1, (float32_t*)(base + 2 * 3 * 64), (int64_t)(-5)); \
Chimu_31 = svld1_vnum(pg1, (float32_t*)(base + 2 * 3 * 64), (int64_t)(4)); \
Chimu_11 = svld1_vnum(pg1, (float32_t*)(base + 2 * 3 * 64), (int64_t)(-2)); \
Chimu_21 = svld1_vnum(pg1, (float32_t*)(base + 2 * 3 * 64), (int64_t)(1)); \
Chimu_02 = svld1_vnum(pg1, (float32_t*)(base + 2 * 3 * 64), (int64_t)(-4)); \
Chimu_32 = svld1_vnum(pg1, (float32_t*)(base + 2 * 3 * 64), (int64_t)(5)); \
Chimu_12 = svld1_vnum(pg1, (float32_t*)(base + 2 * 3 * 64), (int64_t)(-1)); \
Chimu_22 = svld1_vnum(pg1, (float32_t*)(base + 2 * 3 * 64), (int64_t)(2)); \
}
// LOAD_CHIMU_0213
#define LOAD_CHIMU_0213_A64FXf \
{ \
const SiteSpinor & ref(in[offset]); \
Chimu_00 = svld1(pg1, (float32_t*)(base + 2 * 3 * 64 + -6 * 64)); \
Chimu_20 = svld1(pg1, (float32_t*)(base + 2 * 3 * 64 + 0 * 64)); \
Chimu_01 = svld1(pg1, (float32_t*)(base + 2 * 3 * 64 + -5 * 64)); \
Chimu_21 = svld1(pg1, (float32_t*)(base + 2 * 3 * 64 + 1 * 64)); \
Chimu_02 = svld1(pg1, (float32_t*)(base + 2 * 3 * 64 + -4 * 64)); \
Chimu_22 = svld1(pg1, (float32_t*)(base + 2 * 3 * 64 + 2 * 64)); \
Chimu_10 = svld1(pg1, (float32_t*)(base + 2 * 3 * 64 + -3 * 64)); \
Chimu_30 = svld1(pg1, (float32_t*)(base + 2 * 3 * 64 + 3 * 64)); \
Chimu_11 = svld1(pg1, (float32_t*)(base + 2 * 3 * 64 + -2 * 64)); \
Chimu_31 = svld1(pg1, (float32_t*)(base + 2 * 3 * 64 + 4 * 64)); \
Chimu_12 = svld1(pg1, (float32_t*)(base + 2 * 3 * 64 + -1 * 64)); \
Chimu_32 = svld1(pg1, (float32_t*)(base + 2 * 3 * 64 + 5 * 64)); \
Chimu_00 = svld1_vnum(pg1, (float32_t*)(base + 2 * 3 * 64), (int64_t)(-6)); \
Chimu_20 = svld1_vnum(pg1, (float32_t*)(base + 2 * 3 * 64), (int64_t)(0)); \
Chimu_01 = svld1_vnum(pg1, (float32_t*)(base + 2 * 3 * 64), (int64_t)(-5)); \
Chimu_21 = svld1_vnum(pg1, (float32_t*)(base + 2 * 3 * 64), (int64_t)(1)); \
Chimu_02 = svld1_vnum(pg1, (float32_t*)(base + 2 * 3 * 64), (int64_t)(-4)); \
Chimu_22 = svld1_vnum(pg1, (float32_t*)(base + 2 * 3 * 64), (int64_t)(2)); \
Chimu_10 = svld1_vnum(pg1, (float32_t*)(base + 2 * 3 * 64), (int64_t)(-3)); \
Chimu_30 = svld1_vnum(pg1, (float32_t*)(base + 2 * 3 * 64), (int64_t)(3)); \
Chimu_11 = svld1_vnum(pg1, (float32_t*)(base + 2 * 3 * 64), (int64_t)(-2)); \
Chimu_31 = svld1_vnum(pg1, (float32_t*)(base + 2 * 3 * 64), (int64_t)(4)); \
Chimu_12 = svld1_vnum(pg1, (float32_t*)(base + 2 * 3 * 64), (int64_t)(-1)); \
Chimu_32 = svld1_vnum(pg1, (float32_t*)(base + 2 * 3 * 64), (int64_t)(5)); \
}
// LOAD_CHIMU_0312
#define LOAD_CHIMU_0312_A64FXf \
{ \
const SiteSpinor & ref(in[offset]); \
Chimu_00 = svld1(pg1, (float32_t*)(base + 2 * 3 * 64 + -6 * 64)); \
Chimu_30 = svld1(pg1, (float32_t*)(base + 2 * 3 * 64 + 3 * 64)); \
Chimu_01 = svld1(pg1, (float32_t*)(base + 2 * 3 * 64 + -5 * 64)); \
Chimu_31 = svld1(pg1, (float32_t*)(base + 2 * 3 * 64 + 4 * 64)); \
Chimu_02 = svld1(pg1, (float32_t*)(base + 2 * 3 * 64 + -4 * 64)); \
Chimu_32 = svld1(pg1, (float32_t*)(base + 2 * 3 * 64 + 5 * 64)); \
Chimu_10 = svld1(pg1, (float32_t*)(base + 2 * 3 * 64 + -3 * 64)); \
Chimu_20 = svld1(pg1, (float32_t*)(base + 2 * 3 * 64 + 0 * 64)); \
Chimu_11 = svld1(pg1, (float32_t*)(base + 2 * 3 * 64 + -2 * 64)); \
Chimu_21 = svld1(pg1, (float32_t*)(base + 2 * 3 * 64 + 1 * 64)); \
Chimu_12 = svld1(pg1, (float32_t*)(base + 2 * 3 * 64 + -1 * 64)); \
Chimu_22 = svld1(pg1, (float32_t*)(base + 2 * 3 * 64 + 2 * 64)); \
Chimu_00 = svld1_vnum(pg1, (float32_t*)(base + 2 * 3 * 64), (int64_t)(-6)); \
Chimu_30 = svld1_vnum(pg1, (float32_t*)(base + 2 * 3 * 64), (int64_t)(3)); \
Chimu_01 = svld1_vnum(pg1, (float32_t*)(base + 2 * 3 * 64), (int64_t)(-5)); \
Chimu_31 = svld1_vnum(pg1, (float32_t*)(base + 2 * 3 * 64), (int64_t)(4)); \
Chimu_02 = svld1_vnum(pg1, (float32_t*)(base + 2 * 3 * 64), (int64_t)(-4)); \
Chimu_32 = svld1_vnum(pg1, (float32_t*)(base + 2 * 3 * 64), (int64_t)(5)); \
Chimu_10 = svld1_vnum(pg1, (float32_t*)(base + 2 * 3 * 64), (int64_t)(-3)); \
Chimu_20 = svld1_vnum(pg1, (float32_t*)(base + 2 * 3 * 64), (int64_t)(0)); \
Chimu_11 = svld1_vnum(pg1, (float32_t*)(base + 2 * 3 * 64), (int64_t)(-2)); \
Chimu_21 = svld1_vnum(pg1, (float32_t*)(base + 2 * 3 * 64), (int64_t)(1)); \
Chimu_12 = svld1_vnum(pg1, (float32_t*)(base + 2 * 3 * 64), (int64_t)(-1)); \
Chimu_22 = svld1_vnum(pg1, (float32_t*)(base + 2 * 3 * 64), (int64_t)(2)); \
}
// LOAD_TABLE0
#define LOAD_TABLE0 \
@@ -261,26 +263,26 @@ Author: Nils Meyer <nils.meyer@ur.de>
Chi_12 = svtbl(Chi_12, table0);
// LOAD_GAUGE
#define LOAD_GAUGE \
const auto & ref(U[sU](A)); uint64_t baseU = (uint64_t)&ref; \
#define LOAD_GAUGE(A) \
{ \
U_00 = svld1(pg1, (float32_t*)(baseU + 2 * 3 * 64 + -6 * 64)); \
U_10 = svld1(pg1, (float32_t*)(baseU + 2 * 3 * 64 + -3 * 64)); \
U_20 = svld1(pg1, (float32_t*)(baseU + 2 * 3 * 64 + 0 * 64)); \
U_01 = svld1(pg1, (float32_t*)(baseU + 2 * 3 * 64 + -5 * 64)); \
U_11 = svld1(pg1, (float32_t*)(baseU + 2 * 3 * 64 + -2 * 64)); \
U_21 = svld1(pg1, (float32_t*)(baseU + 2 * 3 * 64 + 1 * 64)); \
const auto & ref(U[sU](A)); baseU = (uint64_t)&ref; \
U_00 = svld1_vnum(pg1, (float32_t*)(baseU + 2 * 3 * 64), (int64_t)(-6)); \
U_10 = svld1_vnum(pg1, (float32_t*)(baseU + 2 * 3 * 64), (int64_t)(-3)); \
U_20 = svld1_vnum(pg1, (float32_t*)(baseU + 2 * 3 * 64), (int64_t)(0)); \
U_01 = svld1_vnum(pg1, (float32_t*)(baseU + 2 * 3 * 64), (int64_t)(-5)); \
U_11 = svld1_vnum(pg1, (float32_t*)(baseU + 2 * 3 * 64), (int64_t)(-2)); \
U_21 = svld1_vnum(pg1, (float32_t*)(baseU + 2 * 3 * 64), (int64_t)(1)); \
}
// MULT_2SPIN
#define MULT_2SPIN_1_A64FXf(A) \
{ \
const auto & ref(U[sU](A)); uint64_t baseU = (uint64_t)&ref; \
U_00 = svld1(pg1, (float32_t*)(baseU + 2 * 3 * 64 + -6 * 64)); \
U_10 = svld1(pg1, (float32_t*)(baseU + 2 * 3 * 64 + -3 * 64)); \
U_20 = svld1(pg1, (float32_t*)(baseU + 2 * 3 * 64 + 0 * 64)); \
U_01 = svld1(pg1, (float32_t*)(baseU + 2 * 3 * 64 + -5 * 64)); \
U_11 = svld1(pg1, (float32_t*)(baseU + 2 * 3 * 64 + -2 * 64)); \
U_21 = svld1(pg1, (float32_t*)(baseU + 2 * 3 * 64 + 1 * 64)); \
const auto & ref(U[sU](A)); baseU = (uint64_t)&ref; \
U_00 = svld1_vnum(pg1, (float32_t*)(baseU + 2 * 3 * 64), (int64_t)(-6)); \
U_10 = svld1_vnum(pg1, (float32_t*)(baseU + 2 * 3 * 64), (int64_t)(-3)); \
U_20 = svld1_vnum(pg1, (float32_t*)(baseU + 2 * 3 * 64), (int64_t)(0)); \
U_01 = svld1_vnum(pg1, (float32_t*)(baseU + 2 * 3 * 64), (int64_t)(-5)); \
U_11 = svld1_vnum(pg1, (float32_t*)(baseU + 2 * 3 * 64), (int64_t)(-2)); \
U_21 = svld1_vnum(pg1, (float32_t*)(baseU + 2 * 3 * 64), (int64_t)(1)); \
UChi_00 = svcmla_x(pg1, zero0, U_00, Chi_00, 0); \
UChi_10 = svcmla_x(pg1, zero0, U_00, Chi_10, 0); \
UChi_01 = svcmla_x(pg1, zero0, U_10, Chi_00, 0); \
@@ -293,9 +295,9 @@ Author: Nils Meyer <nils.meyer@ur.de>
UChi_11 = svcmla_x(pg1, UChi_11, U_10, Chi_10, 90); \
UChi_02 = svcmla_x(pg1, UChi_02, U_20, Chi_00, 90); \
UChi_12 = svcmla_x(pg1, UChi_12, U_20, Chi_10, 90); \
U_00 = svld1(pg1, (float32_t*)(baseU + 2 * 3 * 64 + -4 * 64)); \
U_10 = svld1(pg1, (float32_t*)(baseU + 2 * 3 * 64 + -1 * 64)); \
U_20 = svld1(pg1, (float32_t*)(baseU + 2 * 3 * 64 + 2 * 64)); \
U_00 = svld1_vnum(pg1, (float32_t*)(baseU + 2 * 3 * 64), (int64_t)(-4)); \
U_10 = svld1_vnum(pg1, (float32_t*)(baseU + 2 * 3 * 64), (int64_t)(-1)); \
U_20 = svld1_vnum(pg1, (float32_t*)(baseU + 2 * 3 * 64), (int64_t)(2)); \
}
// MULT_2SPIN_BACKEND
#define MULT_2SPIN_2_A64FXf \
@@ -570,12 +572,12 @@ Author: Nils Meyer <nils.meyer@ur.de>
result_31 = svdup_f32(0.); \
result_32 = svdup_f32(0.);
// PREFETCH_RESULT_L2_STORE (prefetch store to L2)
// PREFETCH_RESULT_L2_STORE (uses DC ZVA for cache line zeroing)
#define PREFETCH_RESULT_L2_STORE_INTERNAL_A64FXf(base) \
{ \
svprfd(pg1, (int64_t*)(base + 0), SV_PSTL2STRM); \
svprfd(pg1, (int64_t*)(base + 256), SV_PSTL2STRM); \
svprfd(pg1, (int64_t*)(base + 512), SV_PSTL2STRM); \
asm( "dc zva, %[fetchptr] \n\t" : : [fetchptr] "r" (base + 256 * 0) : "memory" ); \
asm( "dc zva, %[fetchptr] \n\t" : : [fetchptr] "r" (base + 256 * 1) : "memory" ); \
asm( "dc zva, %[fetchptr] \n\t" : : [fetchptr] "r" (base + 256 * 2) : "memory" ); \
}
// PREFETCH_RESULT_L1_STORE (prefetch store to L1)
#define PREFETCH_RESULT_L1_STORE_INTERNAL_A64FXf(base) \

1
Grid/simd/Fujitsu_A64FX_undef.h
View File

@@ -46,6 +46,7 @@ Author: Nils Meyer <nils.meyer@ur.de>
#undef MULT_2SPIN_2
#undef MAYBEPERM
#undef LOAD_CHI
#undef ZERO_PSI
#undef XP_PROJ
#undef YP_PROJ
#undef ZP_PROJ

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