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portelli:develop portelli:specflow portelli:feature/deprecate-uvm portelli:feature/boosted portelli:feature/fthmc-optimise portelli:feature/gparity-merge-april24 portelli:fix/HOST_NAME_MAX portelli:rmhmc_merge2 portelli:feature/fthmc portelli:debug-crusher portelli:hotfix/virtual-dtor portelli:hotfix/nvcc-warnings portelli:feature/dirichlet portelli:master portelli:release/0.9.1 portelli:feature/block_lanczos22 portelli:feature/felix-slice-sum-fast portelli:feature/felix-mm-debug portelli:feature/fermtoprop portelli:feature/dirichlet-gparity portelli:feature/gparity_HMC portelli:feature/cpu-threaded-smp portelli:feature/sumd-npr portelli:feature/block_lanczos portelli:feature/ckelly-gparity-merge portelli:feature/feature/staggered-comms portelli:feature/ddhmc portelli:feature/cache-fix portelli:gauge-group-covariance portelli:feature/benchiotimings portelli:feature/serialisation-update portelli:feature/adaptive_wflow portelli:3c67d626ba05 portelli:feature/sycl-simt portelli:feature/conjugate-bc-dirs portelli:sycl-linking-hack portelli:feature/benchmark-io-update portelli:feature/hw-multigrid portelli:feature/a2a-offload portelli:feature/rmhmc portelli:syck portelli:sycl portelli:feature/eigen-relative portelli:feature/hdcr portelli:feature/gpu-port portelli:release/0.8.2 portelli:feature/contractor portelli:feature/resilient-io portelli:feature/npr portelli:feature/hadrons-twist portelli:feature/block-cg portelli:feature/a2a-integration portelli:feature/hadrons-a2a portelli:feature/BCG portelli:feature/Lanczos portelli:feature/summit-lanczos portelli:feature/summit-multigrid portelli:feature/dwf-preconditioning portelli:feature/staggered-comms-compute portelli:feature/scidacRNG portelli:feature/shGordon portelli:release/0.8.0 portelli:gh-pages portelli:FgridStaggered portelli:feature/clover portelli:feature/lanczos-reorg portelli:feature/staggering portelli:feature/fermion-laplace portelli:feature/dwf-multirhs portelli:release/dirac-ITT portelli:feature/multi-communicator portelli:feature/lanczos-simplify portelli:feature/parallelio portelli:release/v0.7.0 portelli:feature/half-prec-comms portelli:feature/normHP portelli:bugfix/dminus portelli:feature/shm-chmod portelli:feature/sitmo-skipahead portelli:feature/bgq-asm portelli:feature/mixedCG portelli:feature/CG_repro portelli:feature/mpi3 portelli:feature/luchang-rng portelli:feature/knl-stats portelli:chulwoo-dec12-2015 portelli:ckelly-dec12-2015
portelli:DiRAC-ITT-2020-UCX-WORKAROUND portelli:DIRAC-ITT-2020 portelli:0.8.2 portelli:ISC-freeze-2 portelli:ISC-freeze-1 portelli:0.8.1 portelli:v0.8.0 portelli:dirac-ITT-fix1 portelli:dirac-ITT-fix portelli:dirac-ITT portelli:v0.7.0 portelli:v0.6.0 portelli:v0.5.1 portelli:v0.5.0
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compare: portelli:feature/parallelio
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portelli:develop portelli:specflow portelli:feature/deprecate-uvm portelli:feature/boosted portelli:feature/fthmc-optimise portelli:feature/gparity-merge-april24 portelli:fix/HOST_NAME_MAX portelli:rmhmc_merge2 portelli:feature/fthmc portelli:debug-crusher portelli:hotfix/virtual-dtor portelli:hotfix/nvcc-warnings portelli:feature/dirichlet portelli:master portelli:release/0.9.1 portelli:feature/block_lanczos22 portelli:feature/felix-slice-sum-fast portelli:feature/felix-mm-debug portelli:feature/fermtoprop portelli:feature/dirichlet-gparity portelli:feature/gparity_HMC portelli:feature/cpu-threaded-smp portelli:feature/sumd-npr portelli:feature/block_lanczos portelli:feature/ckelly-gparity-merge portelli:feature/feature/staggered-comms portelli:feature/ddhmc portelli:feature/cache-fix portelli:gauge-group-covariance portelli:feature/benchiotimings portelli:feature/serialisation-update portelli:feature/adaptive_wflow portelli:3c67d626ba05 portelli:feature/sycl-simt portelli:feature/conjugate-bc-dirs portelli:sycl-linking-hack portelli:feature/benchmark-io-update portelli:feature/hw-multigrid portelli:feature/a2a-offload portelli:feature/rmhmc portelli:syck portelli:sycl portelli:feature/eigen-relative portelli:feature/hdcr portelli:feature/gpu-port portelli:release/0.8.2 portelli:feature/contractor portelli:feature/resilient-io portelli:feature/npr portelli:feature/hadrons-twist portelli:feature/block-cg portelli:feature/a2a-integration portelli:feature/hadrons-a2a portelli:feature/BCG portelli:feature/Lanczos portelli:feature/summit-lanczos portelli:feature/summit-multigrid portelli:feature/dwf-preconditioning portelli:feature/staggered-comms-compute portelli:feature/scidacRNG portelli:feature/shGordon portelli:release/0.8.0 portelli:gh-pages portelli:FgridStaggered portelli:feature/clover portelli:feature/lanczos-reorg portelli:feature/staggering portelli:feature/fermion-laplace portelli:feature/dwf-multirhs portelli:release/dirac-ITT portelli:feature/multi-communicator portelli:feature/lanczos-simplify portelli:feature/parallelio portelli:release/v0.7.0 portelli:feature/half-prec-comms portelli:feature/normHP portelli:bugfix/dminus portelli:feature/shm-chmod portelli:feature/sitmo-skipahead portelli:feature/bgq-asm portelli:feature/mixedCG portelli:feature/CG_repro portelli:feature/mpi3 portelli:feature/luchang-rng portelli:feature/knl-stats portelli:chulwoo-dec12-2015 portelli:ckelly-dec12-2015
portelli:DiRAC-ITT-2020-UCX-WORKAROUND portelli:DIRAC-ITT-2020 portelli:0.8.2 portelli:ISC-freeze-2 portelli:ISC-freeze-1 portelli:0.8.1 portelli:v0.8.0 portelli:dirac-ITT-fix1 portelli:dirac-ITT-fix portelli:dirac-ITT portelli:v0.7.0 portelli:v0.6.0 portelli:v0.5.1 portelli:v0.5.0

299 Commits
feature/ha ... feature/pa

Author SHA1 Message Date
paboyle
1300b0b04b Update to enable multiple records per file more consistent with SciDAC. 
open, close, write records...
 2017-06-19 01:01:48 +01:00
paboyle
e6d984b484 ILDG tests 2017-06-18 00:13:22 +01:00
paboyle
1d18d95d4f Class name return 2017-06-18 00:13:03 +01:00
paboyle
ae39ec85a3 ComplexField defined 2017-06-18 00:12:48 +01:00
paboyle
b96daf53a0 Query tensor structures 2017-06-18 00:12:15 +01:00
paboyle
46879e1658 Complex defined in Impl even for gauge. 2017-06-18 00:11:45 +01:00
paboyle
ae4de94798 SciDAC I/O support 2017-06-18 00:11:23 +01:00
paboyle
0ab555b4f5 SciDAC I/O and ILDG improvements 2017-06-18 00:11:02 +01:00
paboyle
8e9be9f84f Updates for SciDAC IO 2017-06-18 00:10:42 +01:00
paboyle
d572170170 Update for SciDAC 2017-06-18 00:10:20 +01:00
paboyle
12ccc73cf5 Serialisation no compile fix 2017-06-14 05:19:17 +01:00
paboyle
e7564f8330 Starting a test for reading an ILDG file. 2017-06-13 12:22:50 +01:00
paboyle
91199a8ea0 openmpi is not const safe 2017-06-13 12:21:29 +01:00
paboyle
0494feec98 Libz dependency 2017-06-13 12:00:23 +01:00
paboyle
a16b1e134e gcc 4.9 fix 2017-06-13 10:48:43 +01:00
paboyle
769ad578f5 Odd new error on G++ 49 on travis 2017-06-12 00:41:21 +01:00
paboyle
eaac0044b5 Compile fixes 2017-06-12 00:20:49 +01:00
paboyle
56042f002c New files 2017-06-11 23:19:20 +01:00
paboyle
3bfd1f13e6 I/O improvements 2017-06-11 23:14:10 +01:00
paboyle
092dcd4e04 MPI I/O only if MPI compiled 2017-06-02 22:50:25 +01:00
paboyle
094c3d091a Improved and RNG's now survive checkpoint 2017-06-02 00:38:58 +01:00
Peter Boyle
4b98e524a0 Roll over to MPI version of I/O 2017-06-01 17:38:18 -04:00
Peter Boyle
1a1f6d55f9 Roll over to MPI IO for parallel IO 2017-06-01 17:37:26 -04:00
Peter Boyle
21421656ab Big changes improving the code to use MPI IO 2017-06-01 17:36:53 -04:00
Peter Boyle
6f687a67cd As local vols increase, use 64 bits for safety 2017-06-01 17:36:18 -04:00
paboyle
b30754e762 Merge branch 'feature/parallelio' of https://github.com/paboyle/Grid into feature/parallelio 2017-05-30 23:41:28 +01:00
paboyle
1e429a0d57 Added MPI version 2017-05-30 23:41:07 +01:00
paboyle
d38a4de36c Beginning move to MPI IO 2017-05-30 23:40:39 +01:00
paboyle
ef1b7db374 Diff comparison check 2017-05-30 23:40:11 +01:00
paboyle
53a9aeb965 Cosmetic only 2017-05-30 23:39:53 +01:00
paboyle
e30fa9f4b8 RankCount; need to clean up ambigious ProcessCount 2017-05-30 23:39:16 +01:00
paboyle
58e8d0a10d reverse direction lexico mapping 2017-05-30 23:38:30 +01:00
paboyle
62cf9cf638 Cleaner code 2017-05-30 23:38:02 +01:00
paboyle
0fb458879d Precision safe compile 2017-05-30 23:37:02 +01:00
Peter Boyle
725c513d94 Better MPI3 benchmarking 2017-05-29 16:47:32 -04:00
paboyle
69470ccc10 Update to do list 2017-05-25 13:41:26 +01:00
paboyle
b8b5934193 Attempts to speed up the parallel IO 2017-05-25 13:32:24 +01:00
paboyle
a8c10b1933 Use a global-X x Local-Y chunksize for parallel binary I/O. 
Gives O(32 x 8 x 18*8*8) chunk size on configuration I/O.

At 150KB should be getting close to packet sizes and 4MB filesystem
block sizes that are reasonably (!?) performant. We shall see once I move
this off my laptop and over to BNL and time it.
 2017-05-25 11:43:33 +01:00
Guido Cossu
15e801af3f Fixing a compilation error for generic SIMD 2017-05-19 16:39:36 +01:00
Guido Cossu
0ffc235741 Adding more statistics to the Benchmark_comms. Min and max 2017-05-19 10:55:04 +01:00
Guido Cossu
8e19c99c7d Adding more statistical info in the Benchmark_comms 2017-05-18 19:07:35 +01:00
Guido Cossu
a0bc0ad06f Reverting change in Bechmark_comms. Keeping 300 iterations 2017-05-18 17:48:11 +01:00
Guido Cossu
a8fb2835ca Merge branch 'develop' of https://github.com/paboyle/Grid into develop 2017-05-18 14:45:00 +01:00
Guido Cossu
bc862ce3ab Fixing an allocation issue in Benchmark_comms 2017-05-18 14:44:56 +01:00
paboyle
3267683e22 Union workaround for g++ 2017-05-17 11:26:18 +01:00
Azusa Yamaguchi
f46a67ffb3 No compile issue on clang on mac fixed. 
Compiler version was clang++-3.9 under mpicxx
 2017-05-17 10:51:01 +01:00
paboyle
f7b8383ef5 Half precisoin comms mixed prec test 2017-05-16 14:52:51 +01:00
Guido Cossu
10f2872aae Faster exponentiation for lattice fields 2017-05-15 15:51:16 +01:00
paboyle
cd73897b8d Merge branch 'release/v0.7.0' into develop 2017-05-12 01:16:02 +01:00
paboyle
7a8f6af5f8 Drop verbose compiler predefine check 2017-05-11 12:48:40 +01:00
paboyle
49a5d9bac7 Clang major, minor trailing underscore 2017-05-11 12:25:02 +01:00
paboyle
2b3fdd4a58 Print CXX predefines 2017-05-11 12:05:50 +01:00
paboyle
34502ec471 4.8 dropped as buggy. 2017-05-11 11:43:39 +01:00
paboyle
8a43e88b4f Compiler check early in build 2017-05-11 11:43:06 +01:00
paboyle
238df20370 Still working on the compiler compat checks 2017-05-11 11:30:14 +01:00
paboyle
97a32a6145 Add 4.8 test 2017-05-11 11:24:21 +01:00
paboyle
655492a443 Compiler detection 2017-05-11 11:21:11 +01:00
paboyle
1cab06f6bd Compat checks for compilers 2017-05-11 10:20:24 +01:00
paboyle
f8024c262b Update Eigen 2017-05-10 13:30:09 +01:00
Guido Cossu
4cc5f01f4a Small change in the readme about the intel compiler 2017-05-09 15:38:59 +01:00
Guido Cossu
9c12c37aaf Confirming the fix on the complex boundary conditions 2017-05-09 08:41:29 +01:00
Guido Cossu
806eaa0530 Adding back the IO tests in the list 2017-05-08 22:26:44 +01:00
Guido Cossu
01d0e54594 Merge branch 'release/v0.7.0' into develop 2017-05-08 22:02:51 +01:00
Guido Cossu
5aafa335fe Fixing JSON error for complex numbers 2017-05-08 21:56:44 +01:00
Guido Cossu
8ba0494485 Fixing JSON for complex numbers 2017-05-08 21:41:39 +01:00
Peter Boyle
d99d98d9fd Merge branch 'release/v0.7.0' of https://github.com/paboyle/Grid into release/v0.7.0 2017-05-08 15:08:20 -04:00
Peter Boyle
95a017a4ae Relax force constraints to pass in single precision. 2017-05-08 15:06:41 -04:00
paboyle
92f92379e6 Adding olivers test version 2017-05-08 18:42:19 +01:00
paboyle
529e78d43f Restart the v0.7.0 release 2017-05-08 18:20:04 +01:00
paboyle
4ec746d262 Merge branch 'release/v0.7.0' into develop 2017-05-06 18:43:03 +01:00
paboyle
66d819c054 More info on gcc bug 2017-05-06 18:42:11 +01:00
paboyle
3f3686f869 formattign 2017-05-06 18:41:27 +01:00
paboyle
26bb829f8c Formatting 2017-05-06 18:40:55 +01:00
paboyle
67cb04fc66 README update 2017-05-06 18:39:54 +01:00
paboyle
a40bd68aed Version update 2017-05-06 17:00:14 +01:00
paboyle
36495e0fd2 Merge branch 'develop' of https://github.com/paboyle/Grid into develop 2017-05-06 16:39:27 +01:00
paboyle
93f6c15772 Warning squash 2017-05-06 16:38:58 +01:00
Peter Boyle
cb93eeff21 Update README 2017-05-06 16:28:12 +01:00
paboyle
c7cc7e6101 Fix 2017-05-06 16:10:09 +01:00
paboyle
c349aa6511 DEFINE warning elimination 2017-05-06 16:08:35 +01:00
paboyle
3bae0a2d5c Drop a gcc warning 2017-05-06 15:51:42 +01:00
paboyle
c1c7566089 GCC bug work around in 5.0 through 6.2 inclusive. 2017-05-06 15:20:25 +01:00
paboyle
2439999ec8 Warning elimination; drop to -O2 on G++ bad versions 2017-05-06 14:44:49 +01:00
paboyle
1d96f662e3 Fixed 4d fermion gparity force. Put strong tests on make check force tests 2017-05-06 00:46:31 +01:00
paboyle
41d1889941 trusty ubuntu 2017-05-05 21:25:35 +01:00
paboyle
0c3981e0c3 Trying to force recent automake 2017-05-05 21:15:22 +01:00
paboyle
c727bd4609 Trying to work around automake version 2017-05-05 21:00:00 +01:00
paboyle
db23749b67 Adding travis to make check 2017-05-05 20:42:08 +01:00
paboyle
751f2b9703 Better check and benchmark driving 2017-05-05 19:54:38 +01:00
paboyle
697c0603ce SITMO I/O for NERSC working now bit repro 2017-05-05 16:54:44 +01:00
paboyle
14bedebb11 Source pointed to 2017-05-05 16:17:27 +01:00
paboyle
47b5c07ffb Merge branch 'develop' of https://github.com/paboyle/Grid into develop 2017-05-05 14:27:02 +01:00
Guido Cossu
da86a2bf54 Merge branch 'feature/hmc_generalise' into develop 2017-05-05 14:23:02 +01:00
paboyle
c1cb60a0b3 Merge branch 'develop' of https://github.com/paboyle/Grid into develop 2017-05-05 14:22:37 +01:00
Guido Cossu
5ed5b4bfbf Merge branch 'develop' into feature/hmc_generalise 2017-05-05 14:22:33 +01:00
Guido Cossu
de84aacdfd Fixing a configure error for the smearing tests 2017-05-05 13:59:10 +01:00
paboyle
2888003765 Merge branch 'develop' of https://github.com/paboyle/Grid into develop 2017-05-05 13:02:24 +01:00
paboyle
da06bf5b95 Zmobius force test added 2017-05-05 12:52:45 +01:00
Guido Cossu
20999c1370 Merge branch 'develop' into feature/hmc_generalise 2017-05-05 12:47:17 +01:00
paboyle
33f0ed1a33 No compile fix 2017-05-05 11:04:30 +01:00
paboyle
50be56433b Delete old and defunct tests 2017-05-04 23:41:16 +01:00
paboyle
43924007db Merge branch 'develop' of https://github.com/paboyle/Grid into develop 2017-05-04 19:53:41 +01:00
paboyle
78ef10e60f Mobius force improvement 2017-05-04 19:53:21 +01:00
Antonin Portelli
679ae98b14 Merge branch 'feature/better-external-library' into develop 2017-05-04 15:42:12 +01:00
paboyle
90f6bc16bb No compile clang fix 2017-05-04 12:15:06 +01:00
Peter Boyle
9b5b639546 Merge branch 'develop' of https://github.com/paboyle/Grid into develop 2017-05-03 20:51:40 -04:00
Peter Boyle
945767c6d8 More info 2017-05-03 20:26:35 -04:00
Peter Boyle
422cdf4979 Some checks 2017-05-03 18:37:38 -04:00
Peter Boyle
38db174f3b Print statement 2017-05-03 18:25:26 -04:00
Peter Boyle
92e364a35f Better reporting in benchmark for MPI3 2017-05-03 15:43:36 -04:00
Antonin Portelli
58299b8ba2 Git info separated from version in git-config 2017-05-02 20:04:41 +01:00
Antonin Portelli
124bf4d829 git ref in config summary 2017-05-02 19:41:01 +01:00
Antonin Portelli
e8e56b3414 Config summary saved in git-config 2017-05-02 19:40:47 +01:00
Antonin Portelli
89c430136d grid-config program 2017-05-02 19:13:13 +01:00
Antonin Portelli
ea9aef7baa New header for standard headers (was an issue with Remez.h and external compilation) 2017-05-02 18:26:11 +01:00
Antonin Portelli
c9e9e8061d Merge branch 'feature/hadrons' into develop 2017-05-02 18:23:47 +01:00
Guido Cossu
453cf2a1c6 Moving the topological charge outside the HMC related routines 2017-05-02 14:40:12 +01:00
Guido Cossu
de7bbfa5f9 Adding ParameterFile option for the HMC 2017-05-02 12:16:16 +01:00
Antonin Portelli
dda8d77c87 Merge branch 'feature/hadrons' into feature/rare_kaon 2017-05-01 17:50:57 +01:00
Antonin Portelli
aa29f4346a Hadrons: weird bus error with recent macOS clang 2017-05-01 17:49:08 +01:00
Guido Cossu
86116dbed6 Adding boundary condition switch (compile time) for the Mobius HMC example 2017-05-01 16:33:11 +01:00
Guido Cossu
7bd31e3f7c Adding external file support in the Mobius example (JSON) 2017-05-01 16:30:24 +01:00
Guido Cossu
74f451715f Fix for Mac compilation on the size_t uint64_t types 2017-05-01 15:12:07 +01:00
Guido Cossu
655be8ed76 Adding tests for the mobius operator 2017-05-01 14:42:16 +01:00
Guido Cossu
4063238943 Adding HMC test file example for Mobius + smearing 2017-05-01 13:44:00 +01:00
Guido Cossu
3344788fa1 Merge branch 'develop' into feature/hmc_generalise 2017-05-01 12:13:56 +01:00
Peter Boyle
99220f6531 Fixes and better timing 2017-04-26 17:24:11 -04:00
paboyle
2a6d093749 move the sudo: required to match locatoin on Guido's branch 2017-04-26 09:15:34 +01:00
paboyle
c947947fad sudo required suggested by guido 2017-04-26 08:45:36 +01:00
paboyle
f555b50547 Merge branch 'feature/half-prec-comms' into develop 2017-04-26 08:43:40 +01:00
Antonin Portelli
90ec6eda0c Rare K test solver name fix 2017-04-10 17:48:58 +01:00
Antonin Portelli
fe8d625694 Merge commit '5e477ec553aa48d7d19b5a7c45d41acbb3392bcb' into feature/rare_kaon 2017-04-10 17:23:37 +01:00
Antonin Portelli
53e76b41d2 Merge branch 'develop' into feature/hadrons 2017-04-10 17:00:53 +01:00
Lanny91
5e477ec553 Merge branch 'feature/hadrons' of https://github.com/paboyle/Grid into feature/rare_kaon 2017-04-07 11:51:09 +01:00
Guido Cossu
8c540333d5 Merge branch 'develop' into feature/hmc_generalise 2017-04-05 14:41:04 +01:00
Antonin Portelli
ff4e54ef80 Merge branch 'develop' into feature/hadrons 2017-04-03 18:56:21 +01:00
Lanny91
cd1bd921bd Reduced code duplication for Weak Hamiltonian contraction modules 2017-03-30 18:02:14 +01:00
Lanny91
fff5751b1a HADRONS: Updated rare kaon test program, including all contractions. Sink smearing still to be implemented. 2017-03-30 10:57:01 +01:00
Lanny91
2c81696fdd HADRONS: 4pt Weak + current disconnected topology (e.g. for rare neutral kaon decays) 2017-03-30 10:37:17 +01:00
Lanny91
c9dc22efa1 HADRONS: Standalone disconnected loop contraction. 2017-03-30 10:33:18 +01:00
Lanny91
0ab04a000f HADRONS: 3pt contraction with gamma insertion between two propagators. 2017-03-30 10:30:58 +01:00
Guido Cossu
4c1ea8677e Small cosmetic changes and vscode gitignore 2017-03-23 14:09:35 +09:00
Guido Cossu
120fb59978 Adding tests for WilsonFlow classes 2017-03-21 16:11:35 +09:00
Guido Cossu
fd56b3ff38 Merge branch 'develop' into feature/hmc_generalise 2017-03-21 13:33:41 +09:00
Guido Cossu
0ec6829edc Fixing compilation errors for the WilsonFlow 2017-03-21 13:06:32 +09:00
Guido Cossu
18b7845b7b Adding WilsonFlow smearing 2017-03-21 11:52:05 +09:00
Guido Cossu
3d0fe15374 Added topological charge measurement 2017-03-17 16:14:57 +09:00
Guido Cossu
91886068fe Fixed seg fault for observable modules 2017-03-17 13:59:31 +09:00
Guido Cossu
6d1e9e5f92 Small cleanup of the observables 2017-03-17 11:42:55 +09:00
Guido Cossu
b640230b1e Moving hmc observables in a different directory 2017-03-17 11:40:17 +09:00
Guido Cossu
b3dede4dd3 Merge branch 'develop' into feature/hmc_generalise 2017-03-10 23:57:37 +09:00
Guido Cossu
4e34132f4d Correcting modules use in test files 2017-03-10 23:54:53 +09:00
Guido Cossu
c07cb10247 Merge branch 'feature/hmc_generalise' of https://github.com/paboyle/Grid into feature/hmc_generalise 2017-03-10 22:37:25 +09:00
Guido Cossu
d7767a2a62 Few more tests 2017-03-10 22:33:48 +09:00
Guido Cossu
ec035983fd Fixing the implicit integration 2017-03-01 11:56:35 +00:00
Guido Cossu
596dcd85b2 Auxiliary fields 2017-02-27 13:16:38 +00:00
Guido Cossu
7270c6a150 Integrator works now 2017-02-24 17:03:42 +00:00
Peter Boyle
f8b9ad7d50 Merge pull request #91 from sunpho84/public_modules_memebers 
making public same serializable parameters in HMC Module
 2017-02-22 00:53:20 +00:00
Peter Boyle
04a1959895 Merge pull request #90 from sunpho84/liming 
adding --with switch to pass lime path
 2017-02-22 00:52:53 +00:00
Francesco Sanfilippo
93cc270016 making public same serializable parameters in HMC Module 
RNGModuleParameters
GridModuleParameters
 2017-02-21 23:11:56 +01:00
Francesco Sanfilippo
29b60f7e1a adding --with switch to pass lime path 2017-02-21 23:09:39 +01:00
Guido Cossu
902afcfbaf Adding metric and the implicit steps 2017-02-21 11:30:57 +00:00
Guido Cossu
97a6b61551 Covariant laplacian and implicit integration 2017-02-20 11:17:27 +00:00
Lanny91
f011bdb869 Fixed overwrite of pminus projection in construction of 4d propagator from 5d. 2017-02-14 14:07:17 +00:00
Guido Cossu
bafb101e4f Testing different versions of the Laplacian 2017-02-13 15:38:11 +00:00
Guido Cossu
08fdf05528 Added and tested the covariant laplacian + CG solver 2017-02-13 15:05:01 +00:00
Guido Cossu
9e72a6b22e Reverting to Xcode 7.3 2017-02-10 12:57:03 +00:00
Guido Cossu
1c12c5612c Xcode 8.2 for travis 2017-02-10 12:12:01 +00:00
Guido Cossu
a8193c4bcb Correcting travis compilation on gcc 2017-02-10 10:59:30 +00:00
Guido Cossu
c3d7ec65fa All tests compile. 2017-02-10 10:27:51 +00:00
Guido Cossu
8b6a6c8236 Resolving small merge conflict 2017-02-09 16:20:24 +00:00
Guido Cossu
e0571c872b Merge branch 'develop' into feature/hmc_generalise 2017-02-09 16:12:00 +00:00
Guido Cossu
c67f41887b Reverting parameters to original 2017-02-09 15:59:56 +00:00
Guido Cossu
84687ccf1f Handling an Intel compiler warning for Json class 2017-02-09 15:33:33 +00:00
Guido Cossu
3274561cf8 Cleanup 2017-02-09 15:18:38 +00:00
Antonin Portelli
e08fbb3771 Merge pull request #84 from Lanny91/feature/rare_kaon 
Rare Kaon decay contraction code
 2017-02-08 08:23:34 -08:00
Lanny91
d7464aa0fe Switched from XmlWriter to CorrWriter in contraction code 2017-02-08 16:13:44 +00:00
Lanny91
00d29153f0 Merge branch 'feature/hadrons' of https://github.com/paboyle/Grid into feature/rare_kaon 2017-02-08 16:11:15 +00:00
Antonin Portelli
2ce989f220 Hadrons: default I/O to HDF5 2017-02-08 07:50:05 -08:00
Lanny91
d7a1dc85be Revert "Hadrons: test for rare kaon contraction code." 
This reverts commit 1e257a1251.
 2017-02-08 13:23:05 +00:00
Lanny91
fc19503673 Removed MSink namespace. 2017-02-08 13:17:39 +00:00
Lanny91
beba824136 Make use of GammaL class in Weak Hamiltonian contractions 2017-02-08 12:45:39 +00:00
Lanny91
6ebf8b12b6 Removed unnecessary repeat of write in Weak Hamiltonian contractions 2017-02-08 12:43:13 +00:00
Lanny91
e5a7ed4362 Moved write outside of loop, some physics corrections 2017-02-08 12:29:33 +00:00
Lanny91
b9f7ea47c3 Access hasModule function directly from Environment instance. 2017-02-08 10:10:06 +00:00
Lanny91
06f7ee202e Revert "Add function to say whether or not a module exists in application class" 
This reverts commit 522f6bf91a.
 2017-02-08 10:08:18 +00:00
Lanny91
2b2fc6453f Fixed single precision compatibility issues 2017-02-07 13:59:29 +00:00
Lanny91
bdd2765461 Added missing allocation of Weak Hamiltonian result vector 2017-02-07 13:06:42 +00:00
Lanny91
4a45c06dd7 Code cleaning and addition of Weak Hamiltonian contraction log message 2017-02-06 20:12:30 +00:00
Lanny91
d6a7d7d1e0 Hadrons: added missing momentum parameter in rare kaon contraction test 2017-02-06 18:15:49 +00:00
Lanny91
1a122a0dd8 Hadrons: corrected gamma matrix inputs in rare kaon test 2017-02-06 17:35:41 +00:00
Lanny91
20e20733e8 Merge branch 'feature/hadrons' into feature/rare_kaon 2017-02-06 14:12:21 +00:00
Lanny91
b7cd1a19e3 Utilities for reading and writing "pair" objects. 2017-02-06 14:08:59 +00:00
Lanny91
f510002a62 Merge remote-tracking branch 'paboyle/feature/hadrons' into feature/hadrons 2017-02-03 14:37:34 +00:00
Lanny91
1e257a1251 Hadrons: test for rare kaon contraction code. 2017-02-01 16:36:40 +00:00
Lanny91
522f6bf91a Add function to say whether or not a module exists in application class 2017-02-01 16:36:08 +00:00
Lanny91
d35d87d2c2 Weak Hamiltonian Eye-type contraction execution 2017-02-01 16:33:24 +00:00
Lanny91
74a5cda84b Removed unnecessary "3pt" labels 2017-02-01 15:03:49 +00:00
Lanny91
5be05d85b8 Fixed collision of Wall source and sink header ifdefs 2017-02-01 13:56:22 +00:00
Lanny91
35ac85aea8 Updated Weak Hamiltonian contractions to use zero-flop gamma matrices 2017-02-01 12:57:34 +00:00
Lanny91
fa237401ff Consistent variable name in macro 2017-02-01 12:56:55 +00:00
Lanny91
97053adcb5 Merge branch 'feature/hadrons' into feature/rare_kaon 2017-02-01 10:13:29 +00:00
Lanny91
f8fbe4d7a3 Merge remote-tracking branch 'paboyle/feature/hadrons' into feature/hadrons 
# Conflicts:
#	extras/Hadrons/Modules/MContraction/Meson.hpp
#	tests/hadrons/Test_hadrons_meson_3pt.cc

Updated Meson.hpp to utilise zero-flop gamma matrices.
 2017-02-01 09:27:00 +00:00
Lanny91
ef31c012bf Merge remote-tracking branch 'paboyle/develop' into feature/hadrons 2017-01-31 17:36:10 +00:00
Lanny91
9e9f621d5d Hadrons: added Weak Hamiltonian module dependencies, some reformatting. 2017-01-30 17:54:21 +00:00
Lanny91
651e1a7cbc Hadrons: Momentum inserted as multiples of 2*pi/L 2017-01-30 17:14:33 +00:00
Lanny91
c4d3672720 Hadrons: Momentum projection in meson module. 2017-01-30 17:09:04 +00:00
Guido Cossu
16be6d378c Now action factory support different Fields (templated) 2017-01-30 14:22:41 +00:00
Guido Cossu
f05d0565aa Adding ScalarField theory 2017-01-30 10:59:28 +00:00
Lanny91
9bf4108d1f Weak Hamiltonian contraction modules, for Eye and NonEye contraction topologies. Execution for NonEye type diagrams has been implemented, but not yet for Eye type. 2017-01-27 16:58:11 +00:00
Guido Cossu
6929a84c70 Reformatting files 2017-01-27 11:54:44 +00:00
Guido Cossu
5c779a789b Moving registrations in an independent file 2017-01-27 11:23:51 +00:00
Guido Cossu
e863a948e3 Cleaning up files and directories 2017-01-26 15:24:49 +00:00
Lanny91
977f34dca6 Added missing typename 2017-01-26 13:18:33 +00:00
Lanny91
90ad956340 Merge branch 'develop' of https://github.com/paboyle/Grid into feature/rare_kaon 2017-01-26 12:08:41 +00:00
Guido Cossu
7996f06335 Commented out registrations. 
Move to an independent file that is linked only for the factory managed HMC
 2017-01-25 18:27:45 +00:00
Guido Cossu
7b40a3e3e5 Reorganizing files 2017-01-25 18:09:46 +00:00
Guido Cossu
f7fbbaaca3 Compiles after merging 2017-01-25 12:11:58 +00:00
Guido Cossu
17629b8d9e Merge branch 'develop' into feature/hmc_generalise 2017-01-25 11:33:53 +00:00
Guido Cossu
0baa20d292 Againg fixing compilation on Travis, no LIME lib present 2017-01-25 11:18:44 +00:00
Guido Cossu
4571c918a4 Fixing compilation error when compiling without LIME 2017-01-25 11:14:43 +00:00
Guido Cossu
5251ea4d30 Adding more fermion action modules, generalised DWF 2017-01-25 11:10:44 +00:00
Guido Cossu
7f456b4173 👷 Added all pseudofermion actions to the serialiser 2017-01-24 13:57:32 +00:00
Lanny91
c291ef77b5 Merge branch 'feature/hadrons' of https://github.com/paboyle/Grid into feature/hadrons 2017-01-23 15:24:47 +00:00
Lanny91
7dd2764bb2 Wall sink smearing 2017-01-23 15:17:54 +00:00
Guido Cossu
244f8fb6dc Added JSON parser (without NextElement) 2017-01-23 14:57:38 +00:00
Guido Cossu
27dfe816fa Added TwoFlavorsEO 
Had to remove a conformability check in the Derivative of SchurDiff,
see the comments in the file
 2017-01-20 16:59:31 +00:00
Lanny91
af29be2c90 Simplified operation of meson module. Result has been modified to output one contraction at a time for each pair of gamma insertions at source and sink. 2017-01-20 16:38:50 +00:00
Guido Cossu
f96fac0aee All functionalities ready. 
Todo: add all the fermion action modules
 2017-01-20 12:56:20 +00:00
Lanny91
07f2ebea1b Meson module now takes list of gamma matrices to insert at source and sink. 2017-01-19 22:18:42 +00:00
Guido Cossu
851f2ad8ef Adding fermions actions support in the factories 2017-01-19 10:00:02 +00:00
Guido Cossu
23e0561dd6 Added all required functionalities, time for cleaning 
All actions to be added
 2017-01-18 16:31:51 +00:00
Lanny91
8ae1a95ec6 Legal banners and module descriptions 2017-01-17 18:14:20 +00:00
Lanny91
82b7d4eaf0 Added noise loop dependencies 2017-01-17 15:58:32 +00:00
Lanny91
78774fbdc0 Construct loop propagator 2017-01-17 15:29:45 +00:00
Guido Cossu
924130833e Moved more parameters to serialization 2017-01-17 13:22:18 +00:00
Guido Cossu
0157274762 HMC factories 2017-01-17 10:46:49 +00:00
Guido Cossu
87e8aad5a0 Added support for input file HMC modules (missing the actions yet) 2017-01-16 16:07:12 +00:00
Guido Cossu
c6f59c2933 Adding factories 2017-01-16 10:18:09 +00:00
Lanny91
b7f90aa011 Added momentum choice for wall source 2017-01-13 15:54:19 +00:00
Lanny91
f22b79da8f Added missing type aliases 2017-01-12 12:52:12 +00:00
Lanny91
3855673ebf Added header for wall source 2017-01-12 11:42:37 +00:00
Lanny91
4db82da0db Wall sources 2017-01-12 11:41:10 +00:00
Lanny91
0cdc3d2fa5 Merge remote-tracking branch 'refs/remotes/paboyle/feature/hadrons' into feature/hadrons 2017-01-12 11:26:55 +00:00
Guido Cossu
0dfda4bb90 Working on the RNGModule 2017-01-09 11:06:18 +00:00
Guido Cossu
1189ebc8b5 Cleaning up the checkpointers interface 2017-01-05 15:52:52 +00:00
Guido Cossu
1bb8578173 Added module for checkpointers 2017-01-05 13:09:32 +00:00
Guido Cossu
5214846341 Adding a resource manager 2016-12-22 12:41:56 +00:00
Guido Cossu
ce1a115e0b Removing redundant arguments for integrator functions, step 1 2016-12-20 17:51:30 +00:00
Guido Cossu
0bd296dda4 Adding check of the Dag part in the benchmark 2016-12-14 03:15:09 +00:00
Guido Cossu
af0ccdd8e9 Moving output order 2016-12-14 02:02:42 +00:00
Guido Cossu
2fb92dbc6e Cleaning up previous debug lines 2016-12-13 07:53:43 +00:00
Guido Cossu
5c74b6028b Commit for debugging, lot of IO 2016-12-13 06:35:30 +00:00
Guido Cossu
e0be2b6e6c Adding a new tests for the Ls vec CG 2016-12-13 04:59:18 +00:00
Guido Cossu
ef72f322d2 consistency of tests 2016-12-13 02:24:20 +00:00
Guido Cossu
7bc2065113 Adding report at the end of the DWF HMC tests 2016-12-12 04:21:34 +00:00
Guido Cossu
2bd4233919 Completed testing of the HMC for Ls vectorised version (on AVX2) 2016-12-07 04:56:37 +00:00
Guido Cossu
143c70e29f Debugged the threaded version. Cleaning up 2016-12-07 04:40:25 +00:00
Guido Cossu
b812d5e39c Added single threaded version of the derivative for the Ls vectorised DWF 2016-12-06 16:31:13 +00:00
Guido Cossu
01480da0a8 Merge branch 'develop' into feature/hmc_generalise 2016-12-05 05:10:27 +00:00
Guido Cossu
62749d05a6 Naming the scalar action 2016-11-17 12:26:20 +00:00
Guido Cossu
3834feb4b7 Adding action names 2016-11-16 16:46:49 +00:00
Guido Cossu
454302414d Small modif at the test hmc 2016-11-15 12:31:13 +00:00
Guido Cossu
6f8b771a37 Adding date of the last commit 2016-11-10 18:52:00 +00:00
Guido Cossu
4e1ffdd17c Adding git info to the configure output 2016-11-10 18:44:36 +00:00
Guido Cossu
a783282b8b Merge branch 'develop' into feature/hmc_generalise 2016-11-10 18:13:07 +00:00
Guido Cossu
19b85d8486 Some comments in the hmc files 2016-11-10 17:55:58 +00:00
Guido Cossu
1d666771f9 Debugging the RNG, eliminate the barrier after broadcast 2016-10-26 16:08:23 +01:00
Guido Cossu
d50055cd96 Making the ILDG support optional 2016-10-26 09:48:01 +01:00
Guido Cossu
47c7159177 ILDG reader/writer works 
Fill the xml header with the required information, todo.
 2016-10-24 21:57:54 +01:00
Guido Cossu
f415db583a Adding ILDG format 2016-10-24 15:48:22 +01:00
Guido Cossu
f55c16f984 Adding a barrier in the RNG save 2016-10-24 11:02:14 +01:00
Guido Cossu
df67e013ca More debug output for the RNG 2016-10-22 13:34:17 +01:00
Guido Cossu
3e990c9d0a Reverting the broadcast change 2016-10-22 13:26:43 +01:00
Guido Cossu
4b740fc8fd Debugging the RNG state save 2016-10-22 13:06:00 +01:00
Guido Cossu
cccd14b09e Small cleanup 2016-10-21 17:20:54 +01:00
Guido Cossu
e6acffdfc2 Fixing the plaquette computation 2016-10-21 16:06:34 +01:00
Guido Cossu
392130a537 Working on the 5d 2016-10-21 14:22:25 +01:00
Guido Cossu
deef2673b2 Separating the Lattice theories stub from the QCD.h file 2016-10-20 17:24:08 +01:00
Guido Cossu
977b0a6dd9 Merge branch 'develop' into feature/hmc_generalise 2016-10-20 17:04:41 +01:00
Guido Cossu
977d844394 Few modifications on stdout messages 2016-10-20 17:01:59 +01:00
Guido Cossu
590675e2ca Csum in hex format 2016-10-19 17:26:25 +01:00
Guido Cossu
8c65bdf6d3 Printing checksum for the RNG file 2016-10-19 16:56:11 +01:00
Guido Cossu
74f1ed3bc5 Adding some documentation for HMC 2016-10-19 10:51:13 +01:00
Guido Cossu
79270ef510 Added a test for EODWF Scaled Shamir with general HMC 2016-10-14 17:34:26 +01:00
Guido Cossu
e250e6b7bb Moving parameters outside of the HMCrunner 2016-10-14 17:22:32 +01:00
Guido Cossu
261342c15f Adding gh-pages 2016-10-13 11:51:25 +01:00
Guido Cossu
eda4dd622e Some more edit 2016-10-11 15:45:20 +01:00
Guido Cossu
c68a2b9637 Minor fix 2016-10-10 11:54:58 +01:00
Guido Cossu
293df6cd20 Generalising the HMCRunner and moving parameters to the user level 2016-10-10 11:49:55 +01:00
Guido Cossu
65f61bb3bf Reset QCD colours to 3 2016-10-10 09:46:17 +01:00
Guido Cossu
26b9740d53 Some fix for the GenericHMCrunner 2016-10-10 09:43:05 +01:00
Guido Cossu
6eb873dd96 Added scalar action phi^4 
Check Norm2 output (Complex type assumption)
 2016-10-07 17:28:46 +01:00
Guido Cossu
11b4c80b27 Added support for hmc and binary IO for a general field 2016-10-07 13:37:29 +01:00
Guido Cossu
c065e454c3 Adding Binrary IO, untested 2016-10-06 10:12:11 +01:00
Guido Cossu
d9b5fbd374 In the middle of adding a general binary writer 2016-10-04 11:24:08 +01:00
Guido Cossu
cfbc1a26b8 Now the gauge implementation has to take care of the Nexp 2016-10-03 16:20:06 +01:00
Guido Cossu
257f69f931 One more function to generalise the HMC integrator 2016-10-03 15:50:04 +01:00
Guido Cossu
e415260961 First cut on generalised HMC 
Backward compatibility OK
 2016-10-03 15:28:00 +01:00
223 changed files with 28602 additions and 4458 deletions
Expand all files Collapse all files

8
.gitignore vendored
View File

@ -92,6 +92,7 @@ build*/*
#####################
*.xcodeproj/*
build.sh
.vscode
# Eigen source #
################
@ -106,6 +107,10 @@ lib/fftw/*
m4/lt*
m4/libtool.m4
# github pages #
################
gh-pages/
# Buck files #
##############
.buck*
@ -116,4 +121,5 @@ make-bin-BUCK.sh
# generated sources #
#####################
lib/qcd/spin/gamma-gen/*.h
lib/qcd/spin/gamma-gen/*.cc
lib/qcd/spin/gamma-gen/*.cc

17
.travis.yml
View File

@ -10,6 +10,8 @@ matrix:
osx_image: xcode8.3
compiler: clang
- compiler: gcc
dist: trusty
sudo: required
addons:
apt:
sources:
@ -24,6 +26,8 @@ matrix:
- binutils-dev
env: VERSION=-4.9
- compiler: gcc
dist: trusty
sudo: required
addons:
apt:
sources:
@ -38,6 +42,7 @@ matrix:
- binutils-dev
env: VERSION=-5
- compiler: clang
dist: trusty
addons:
apt:
sources:
@ -52,6 +57,7 @@ matrix:
- binutils-dev
env: CLANG_LINK=http://llvm.org/releases/3.8.0/clang+llvm-3.8.0-x86_64-linux-gnu-ubuntu-14.04.tar.xz
- compiler: clang
dist: trusty
addons:
apt:
sources:
@ -78,6 +84,10 @@ install:
- export CC=$CC$VERSION
- export CXX=$CXX$VERSION
- echo $PATH
- which autoconf
- autoconf --version
- which automake
- automake --version
- which $CC
- $CC --version
- which $CXX
@ -95,9 +105,10 @@ script:
- ../configure --enable-precision=double --enable-simd=SSE4 --enable-comms=none
- make -j4
- ./benchmarks/Benchmark_dwf --threads 1 --debug-signals
- make check
- echo make clean
- if [[ "$TRAVIS_OS_NAME" == "linux" ]]; then ../configure --enable-precision=single --enable-simd=SSE4 --enable-comms=mpi-auto CXXFLAGS='-DMPI_UINT32_T=MPI_UNSIGNED -DMPI_UINT64_T=MPI_UNSIGNED_LONG'; fi
- if [[ "$TRAVIS_OS_NAME" == "linux" ]]; then make -j4; fi
- if [[ "$TRAVIS_OS_NAME" == "linux" ]]; then mpirun.openmpi -n 2 ./benchmarks/Benchmark_dwf --threads 1 --mpi 2.1.1.1; fi
- if [[ "$TRAVIS_OS_NAME" == "linux" ]] && [[ "$CC" == "clang" ]]; then ../configure --enable-precision=single --enable-simd=SSE4 --enable-comms=mpi-auto ; fi
- if [[ "$TRAVIS_OS_NAME" == "linux" ]] && [[ "$CC" == "clang" ]]; then make -j4; fi
- if [[ "$TRAVIS_OS_NAME" == "linux" ]] && [[ "$CC" == "clang" ]]; then mpirun.openmpi -n 2 ./benchmarks/Benchmark_dwf --threads 1 --mpi 2.1.1.1; fi

11
Makefile.am
View File

@ -3,10 +3,15 @@ SUBDIRS = lib benchmarks tests extras
include $(top_srcdir)/doxygen.inc
tests: all
$(MAKE) -C tests tests
bin_SCRIPTS=grid-config
.PHONY: tests doxygen-run doxygen-doc $(DX_PS_GOAL) $(DX_PDF_GOAL)
.PHONY: bench check tests doxygen-run doxygen-doc $(DX_PS_GOAL) $(DX_PDF_GOAL)
tests-local: all
bench-local: all
check-local: all
AM_CXXFLAGS += -I$(top_builddir)/include
ACLOCAL_AMFLAGS = -I m4

29
README.md
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@ -22,6 +22,26 @@ Last update Nov 2016.
_Please do not send pull requests to the `master` branch which is reserved for releases._
### Compilers
Intel ICPC v16.0.3 and later
Clang v3.5 and later (need 3.8 and later for OpenMP)
GCC v4.9.x (recommended)
GCC v6.3 and later
### Important:
Some versions of GCC appear to have a bug under high optimisation (-O2, -O3).
The safety of these compiler versions cannot be guaranteed at this time. Follow Issue 100 for details and updates.
GCC v5.x
GCC v6.1, v6.2
### Bug report
_To help us tracking and solving more efficiently issues with Grid, please report problems using the issue system of GitHub rather than sending emails to Grid developers._
@ -32,7 +52,7 @@ When you file an issue, please go though the following checklist:
2. Give a description of the target platform (CPU, network, compiler). Please give the full CPU part description, using for example `cat /proc/cpuinfo | grep 'model name' | uniq` (Linux) or `sysctl machdep.cpu.brand_string` (macOS) and the full output the `--version` option of your compiler.
3. Give the exact `configure` command used.
4. Attach `config.log`.
5. Attach `config.summary`.
5. Attach `grid.config.summary`.
6. Attach the output of `make V=1`.
7. Describe the issue and any previous attempt to solve it. If relevant, show how to reproduce the issue using a minimal working example.
@ -95,10 +115,10 @@ install Grid. Other options are detailed in the next section, you can also use `
`CXX`, `CXXFLAGS`, `LDFLAGS`, ... environment variables can be modified to
customise the build.
Finally, you can build and install Grid:
Finally, you can build, check, and install Grid:
``` bash
make; make install
make; make check; make install
```
To minimise the build time, only the tests at the root of the `tests` directory are built by default. If you want to build tests in the sub-directory `<subdir>` you can execute:
@ -121,7 +141,7 @@ If you want to build all the tests at once just use `make tests`.
- `--enable-gen-simd-width=<size>`: select the size (in bytes) of the generic SIMD vector type (default: 32 bytes).
- `--enable-precision={single|double}`: set the default precision (default: `double`).
- `--enable-precision=<comm>`: Use `<comm>` for message passing (default: `none`). A list of possible SIMD targets is detailed in a section below.
- `--enable-rng={ranlux48|mt19937}`: choose the RNG (default: `ranlux48 `).
- `--enable-rng={sitmo|ranlux48|mt19937}`: choose the RNG (default: `sitmo `).
- `--disable-timers`: disable system dependent high-resolution timers.
- `--enable-chroma`: enable Chroma regression tests.
- `--enable-doxygen-doc`: enable the Doxygen documentation generation (build with `make doxygen-doc`)
@ -159,7 +179,6 @@ Alternatively, some CPU codenames can be directly used:
| `<code>` | Description |
| ----------- | -------------------------------------- |
| `KNC` | [Intel Xeon Phi codename Knights Corner](http://ark.intel.com/products/codename/57721/Knights-Corner) |
| `KNL` | [Intel Xeon Phi codename Knights Landing](http://ark.intel.com/products/codename/48999/Knights-Landing) |
| `BGQ` | Blue Gene/Q |

7
TODO
View File

@ -2,9 +2,9 @@ TODO:
---------------
Peter's work list:
2)- Precision conversion and sort out localConvert <--
3)- Remove DenseVector, DenseMatrix; Use Eigen instead. <-- started
4)- Binary I/O speed up & x-strips
1)- Precision conversion and sort out localConvert <--
2)- Remove DenseVector, DenseMatrix; Use Eigen instead. <--
-- Profile CG, BlockCG, etc... Flop count/rate -- PARTIAL, time but no flop/s yet
-- Physical propagator interface
-- Conserved currents
@ -13,6 +13,7 @@ Peter's work list:
-- HDCR resume
Recent DONE
-- Binary I/O speed up & x-strips <-- DONE
-- Cut down the exterior overhead <-- DONE
-- Interior legs from SHM comms <-- DONE
-- Half-precision comms <-- DONE

9
VERSION
View File

@ -1,6 +1,5 @@
Version : 0.6.0
Version : 0.7.0
- AVX512, AVX2, AVX, SSE good
- Clang 3.5 and above, ICPC v16 and above, GCC 4.9 and above
- MPI and MPI3
- HiRep, Smearing, Generic gauge group
- Clang 3.5 and above, ICPC v16 and above, GCC 6.3 and above recommended
- MPI and MPI3 comms optimisations for KNL and OPA finished
- Half precision comms

217
benchmarks/Benchmark_comms.cc
View File

@ -31,6 +31,32 @@ using namespace std;
using namespace Grid;
using namespace Grid::QCD;
struct time_statistics{
double mean;
double err;
double min;
double max;
void statistics(std::vector<double> v){
double sum = std::accumulate(v.begin(), v.end(), 0.0);
mean = sum / v.size();
std::vector<double> diff(v.size());
std::transform(v.begin(), v.end(), diff.begin(), [=](double x) { return x - mean; });
double sq_sum = std::inner_product(diff.begin(), diff.end(), diff.begin(), 0.0);
err = std::sqrt(sq_sum / (v.size()*(v.size() - 1)));
auto result = std::minmax_element(v.begin(), v.end());
min = *result.first;
max = *result.second;
}
};
void header(){
std::cout <<GridLogMessage << " L "<<"\t"<<" Ls "<<"\t"
<<std::setw(11)<<"bytes"<<"MB/s uni (err/min/max)"<<"\t\t"<<"MB/s bidi (err/min/max)"<<std::endl;
};
int main (int argc, char ** argv)
{
Grid_init(&argc,&argv);
@ -40,15 +66,19 @@ int main (int argc, char ** argv)
int threads = GridThread::GetThreads();
std::cout<<GridLogMessage << "Grid is setup to use "<<threads<<" threads"<<std::endl;
int Nloop=10;
int Nloop=100;
int nmu=0;
int maxlat=24;
for(int mu=0;mu<Nd;mu++) if (mpi_layout[mu]>1) nmu++;
std::cout << GridLogMessage << "Number of iterations to average: "<< Nloop << std::endl;
std::vector<double> t_time(Nloop);
time_statistics timestat;
std::cout<<GridLogMessage << "===================================================================================================="<<std::endl;
std::cout<<GridLogMessage << "= Benchmarking concurrent halo exchange in "<<nmu<<" dimensions"<<std::endl;
std::cout<<GridLogMessage << "===================================================================================================="<<std::endl;
std::cout<<GridLogMessage << " L "<<"\t\t"<<" Ls "<<"\t\t"<<"bytes"<<"\t\t"<<"MB/s uni"<<"\t\t"<<"MB/s bidi"<<std::endl;
int maxlat=24;
header();
for(int lat=4;lat<=maxlat;lat+=4){
for(int Ls=8;Ls<=32;Ls*=2){
@ -58,6 +88,9 @@ int main (int argc, char ** argv)
lat*mpi_layout[3]});
GridCartesian Grid(latt_size,simd_layout,mpi_layout);
RealD Nrank = Grid._Nprocessors;
RealD Nnode = Grid.NodeCount();
RealD ppn = Nrank/Nnode;
std::vector<std::vector<HalfSpinColourVectorD> > xbuf(8,std::vector<HalfSpinColourVectorD>(lat*lat*lat*Ls));
std::vector<std::vector<HalfSpinColourVectorD> > rbuf(8,std::vector<HalfSpinColourVectorD>(lat*lat*lat*Ls));
@ -65,8 +98,8 @@ int main (int argc, char ** argv)
int ncomm;
int bytes=lat*lat*lat*Ls*sizeof(HalfSpinColourVectorD);
double start=usecond();
for(int i=0;i<Nloop;i++){
double start=usecond();
std::vector<CartesianCommunicator::CommsRequest_t> requests;
@ -102,18 +135,24 @@ int main (int argc, char ** argv)
}
Grid.SendToRecvFromComplete(requests);
Grid.Barrier();
double stop=usecond();
t_time[i] = stop-start; // microseconds
}
double stop=usecond();
double dbytes = bytes;
double xbytes = Nloop*dbytes*2.0*ncomm;
timestat.statistics(t_time);
double dbytes = bytes*ppn;
double xbytes = dbytes*2.0*ncomm;
double rbytes = xbytes;
double bidibytes = xbytes+rbytes;
double time = stop-start; // microseconds
std::cout<<GridLogMessage << std::setw(4) << lat<<"\t"<<Ls<<"\t"
<<std::setw(11) << bytes<< std::fixed << std::setprecision(1) << std::setw(7)
<<std::right<< xbytes/timestat.mean<<" "<< xbytes*timestat.err/(timestat.mean*timestat.mean)<< " "
<<xbytes/timestat.max <<" "<< xbytes/timestat.min
<< "\t\t"<<std::setw(7)<< bidibytes/timestat.mean<< " " << bidibytes*timestat.err/(timestat.mean*timestat.mean) << " "
<< bidibytes/timestat.max << " " << bidibytes/timestat.min << std::endl;
std::cout<<GridLogMessage << lat<<"\t\t"<<Ls<<"\t\t"<<bytes<<"\t\t"<<xbytes/time<<"\t\t"<<bidibytes/time<<std::endl;
}
}
@ -121,8 +160,7 @@ int main (int argc, char ** argv)
std::cout<<GridLogMessage << "===================================================================================================="<<std::endl;
std::cout<<GridLogMessage << "= Benchmarking sequential halo exchange in "<<nmu<<" dimensions"<<std::endl;
std::cout<<GridLogMessage << "===================================================================================================="<<std::endl;
std::cout<<GridLogMessage << " L "<<"\t\t"<<" Ls "<<"\t\t"<<"bytes"<<"\t\t"<<"MB/s uni"<<"\t\t"<<"MB/s bidi"<<std::endl;
header();
for(int lat=4;lat<=maxlat;lat+=4){
for(int Ls=8;Ls<=32;Ls*=2){
@ -130,6 +168,9 @@ int main (int argc, char ** argv)
std::vector<int> latt_size ({lat,lat,lat,lat});
GridCartesian Grid(latt_size,simd_layout,mpi_layout);
RealD Nrank = Grid._Nprocessors;
RealD Nnode = Grid.NodeCount();
RealD ppn = Nrank/Nnode;
std::vector<std::vector<HalfSpinColourVectorD> > xbuf(8,std::vector<HalfSpinColourVectorD>(lat*lat*lat*Ls));
std::vector<std::vector<HalfSpinColourVectorD> > rbuf(8,std::vector<HalfSpinColourVectorD>(lat*lat*lat*Ls));
@ -138,8 +179,8 @@ int main (int argc, char ** argv)
int ncomm;
int bytes=lat*lat*lat*Ls*sizeof(HalfSpinColourVectorD);
double start=usecond();
for(int i=0;i<Nloop;i++){
double start=usecond();
ncomm=0;
for(int mu=0;mu<4;mu++){
@ -178,27 +219,34 @@ int main (int argc, char ** argv)
}
}
Grid.Barrier();
double stop=usecond();
t_time[i] = stop-start; // microseconds
}
double stop=usecond();
timestat.statistics(t_time);
double dbytes = bytes;
double xbytes = Nloop*dbytes*2.0*ncomm;
double dbytes = bytes*ppn;
double xbytes = dbytes*2.0*ncomm;
double rbytes = xbytes;
double bidibytes = xbytes+rbytes;
double time = stop-start;
std::cout<<GridLogMessage << std::setw(4) << lat<<"\t"<<Ls<<"\t"
<<std::setw(11) << bytes<< std::fixed << std::setprecision(1) << std::setw(7)
<<std::right<< xbytes/timestat.mean<<" "<< xbytes*timestat.err/(timestat.mean*timestat.mean)<< " "
<<xbytes/timestat.max <<" "<< xbytes/timestat.min
<< "\t\t"<<std::setw(7)<< bidibytes/timestat.mean<< " " << bidibytes*timestat.err/(timestat.mean*timestat.mean) << " "
<< bidibytes/timestat.max << " " << bidibytes/timestat.min << std::endl;
std::cout<<GridLogMessage << lat<<"\t\t"<<Ls<<"\t\t"<<bytes<<"\t\t"<<xbytes/time<<"\t\t"<<bidibytes/time<<std::endl;
}
}
Nloop=10;
std::cout<<GridLogMessage << "===================================================================================================="<<std::endl;
std::cout<<GridLogMessage << "= Benchmarking concurrent STENCIL halo exchange in "<<nmu<<" dimensions"<<std::endl;
std::cout<<GridLogMessage << "===================================================================================================="<<std::endl;
std::cout<<GridLogMessage << " L "<<"\t\t"<<" Ls "<<"\t\t"<<"bytes"<<"\t\t"<<"MB/s uni"<<"\t\t"<<"MB/s bidi"<<std::endl;
header();
for(int lat=4;lat<=maxlat;lat+=4){
for(int Ls=8;Ls<=32;Ls*=2){
@ -209,6 +257,9 @@ int main (int argc, char ** argv)
lat*mpi_layout[3]});
GridCartesian Grid(latt_size,simd_layout,mpi_layout);
RealD Nrank = Grid._Nprocessors;
RealD Nnode = Grid.NodeCount();
RealD ppn = Nrank/Nnode;
std::vector<HalfSpinColourVectorD *> xbuf(8);
std::vector<HalfSpinColourVectorD *> rbuf(8);
@ -216,70 +267,83 @@ int main (int argc, char ** argv)
for(int d=0;d<8;d++){
xbuf[d] = (HalfSpinColourVectorD *)Grid.ShmBufferMalloc(lat*lat*lat*Ls*sizeof(HalfSpinColourVectorD));
rbuf[d] = (HalfSpinColourVectorD *)Grid.ShmBufferMalloc(lat*lat*lat*Ls*sizeof(HalfSpinColourVectorD));
bzero((void *)xbuf[d],lat*lat*lat*Ls*sizeof(HalfSpinColourVectorD));
bzero((void *)rbuf[d],lat*lat*lat*Ls*sizeof(HalfSpinColourVectorD));
}
int ncomm;
int bytes=lat*lat*lat*Ls*sizeof(HalfSpinColourVectorD);
double start=usecond();
double dbytes;
for(int i=0;i<Nloop;i++){
double start=usecond();
dbytes=0;
ncomm=0;
std::vector<CartesianCommunicator::CommsRequest_t> requests;
ncomm=0;
for(int mu=0;mu<4;mu++){
if (mpi_layout[mu]>1 ) {
ncomm++;
int comm_proc=1;
int xmit_to_rank;
int recv_from_rank;
Grid.ShiftedRanks(mu,comm_proc,xmit_to_rank,recv_from_rank);
Grid.StencilSendToRecvFromBegin(requests,
(void *)&xbuf[mu][0],
xmit_to_rank,
(void *)&rbuf[mu][0],
recv_from_rank,
bytes);
dbytes+=
Grid.StencilSendToRecvFromBegin(requests,
(void *)&xbuf[mu][0],
xmit_to_rank,
(void *)&rbuf[mu][0],
recv_from_rank,
bytes);
comm_proc = mpi_layout[mu]-1;
Grid.ShiftedRanks(mu,comm_proc,xmit_to_rank,recv_from_rank);
Grid.StencilSendToRecvFromBegin(requests,
(void *)&xbuf[mu+4][0],
xmit_to_rank,
(void *)&rbuf[mu+4][0],
recv_from_rank,
bytes);
dbytes+=
Grid.StencilSendToRecvFromBegin(requests,
(void *)&xbuf[mu+4][0],
xmit_to_rank,
(void *)&rbuf[mu+4][0],
recv_from_rank,
bytes);
}
}
Grid.StencilSendToRecvFromComplete(requests);
Grid.Barrier();
double stop=usecond();
t_time[i] = stop-start; // microseconds
}
double stop=usecond();
double dbytes = bytes;
double xbytes = Nloop*dbytes*2.0*ncomm;
double rbytes = xbytes;
double bidibytes = xbytes+rbytes;
timestat.statistics(t_time);
dbytes=dbytes*ppn;
double xbytes = dbytes*0.5;
double rbytes = dbytes*0.5;
double bidibytes = dbytes;
std::cout<<GridLogMessage << std::setw(4) << lat<<"\t"<<Ls<<"\t"
<<std::setw(11) << bytes<< std::fixed << std::setprecision(1) << std::setw(7)
<<std::right<< xbytes/timestat.mean<<" "<< xbytes*timestat.err/(timestat.mean*timestat.mean)<< " "
<<xbytes/timestat.max <<" "<< xbytes/timestat.min
<< "\t\t"<<std::setw(7)<< bidibytes/timestat.mean<< " " << bidibytes*timestat.err/(timestat.mean*timestat.mean) << " "
<< bidibytes/timestat.max << " " << bidibytes/timestat.min << std::endl;
double time = stop-start; // microseconds
std::cout<<GridLogMessage << lat<<"\t\t"<<Ls<<"\t\t"<<bytes<<"\t\t"<<xbytes/time<<"\t\t"<<bidibytes/time<<std::endl;
}
}
Nloop=100;
std::cout<<GridLogMessage << "===================================================================================================="<<std::endl;
std::cout<<GridLogMessage << "= Benchmarking sequential STENCIL halo exchange in "<<nmu<<" dimensions"<<std::endl;
std::cout<<GridLogMessage << "===================================================================================================="<<std::endl;
std::cout<<GridLogMessage << " L "<<"\t\t"<<" Ls "<<"\t\t"<<"bytes"<<"\t\t"<<"MB/s uni"<<"\t\t"<<"MB/s bidi"<<std::endl;
header();
for(int lat=4;lat<=maxlat;lat+=4){
for(int Ls=8;Ls<=32;Ls*=2){
@ -290,6 +354,9 @@ int main (int argc, char ** argv)
lat*mpi_layout[3]});
GridCartesian Grid(latt_size,simd_layout,mpi_layout);
RealD Nrank = Grid._Nprocessors;
RealD Nnode = Grid.NodeCount();
RealD ppn = Nrank/Nnode;
std::vector<HalfSpinColourVectorD *> xbuf(8);
std::vector<HalfSpinColourVectorD *> rbuf(8);
@ -297,16 +364,18 @@ int main (int argc, char ** argv)
for(int d=0;d<8;d++){
xbuf[d] = (HalfSpinColourVectorD *)Grid.ShmBufferMalloc(lat*lat*lat*Ls*sizeof(HalfSpinColourVectorD));
rbuf[d] = (HalfSpinColourVectorD *)Grid.ShmBufferMalloc(lat*lat*lat*Ls*sizeof(HalfSpinColourVectorD));
bzero((void *)xbuf[d],lat*lat*lat*Ls*sizeof(HalfSpinColourVectorD));
bzero((void *)rbuf[d],lat*lat*lat*Ls*sizeof(HalfSpinColourVectorD));
}
int ncomm;
int bytes=lat*lat*lat*Ls*sizeof(HalfSpinColourVectorD);
double start=usecond();
double dbytes;
for(int i=0;i<Nloop;i++){
double start=usecond();
std::vector<CartesianCommunicator::CommsRequest_t> requests;
dbytes=0;
ncomm=0;
for(int mu=0;mu<4;mu++){
@ -318,42 +387,52 @@ int main (int argc, char ** argv)
int recv_from_rank;
Grid.ShiftedRanks(mu,comm_proc,xmit_to_rank,recv_from_rank);
Grid.StencilSendToRecvFromBegin(requests,
(void *)&xbuf[mu][0],
xmit_to_rank,
(void *)&rbuf[mu][0],
recv_from_rank,
bytes);
dbytes+=
Grid.StencilSendToRecvFromBegin(requests,
(void *)&xbuf[mu][0],
xmit_to_rank,
(void *)&rbuf[mu][0],
recv_from_rank,
bytes);
Grid.StencilSendToRecvFromComplete(requests);
requests.resize(0);
comm_proc = mpi_layout[mu]-1;
Grid.ShiftedRanks(mu,comm_proc,xmit_to_rank,recv_from_rank);
Grid.StencilSendToRecvFromBegin(requests,
(void *)&xbuf[mu+4][0],
xmit_to_rank,
(void *)&rbuf[mu+4][0],
recv_from_rank,
bytes);
dbytes+=
Grid.StencilSendToRecvFromBegin(requests,
(void *)&xbuf[mu+4][0],
xmit_to_rank,
(void *)&rbuf[mu+4][0],
recv_from_rank,
bytes);
Grid.StencilSendToRecvFromComplete(requests);
requests.resize(0);
}
}
Grid.Barrier();
double stop=usecond();
t_time[i] = stop-start; // microseconds
}
double stop=usecond();
double dbytes = bytes;
double xbytes = Nloop*dbytes*2.0*ncomm;
double rbytes = xbytes;
double bidibytes = xbytes+rbytes;
timestat.statistics(t_time);
double time = stop-start; // microseconds
dbytes=dbytes*ppn;
double xbytes = dbytes*0.5;
double rbytes = dbytes*0.5;
double bidibytes = dbytes;
std::cout<<GridLogMessage << lat<<"\t\t"<<Ls<<"\t\t"<<bytes<<"\t\t"<<xbytes/time<<"\t\t"<<bidibytes/time<<std::endl;
std::cout<<GridLogMessage << std::setw(4) << lat<<"\t"<<Ls<<"\t"
<<std::setw(11) << bytes<< std::fixed << std::setprecision(1) << std::setw(7)
<<std::right<< xbytes/timestat.mean<<" "<< xbytes*timestat.err/(timestat.mean*timestat.mean)<< " "
<<xbytes/timestat.max <<" "<< xbytes/timestat.min
<< "\t\t"<<std::setw(7)<< bidibytes/timestat.mean<< " " << bidibytes*timestat.err/(timestat.mean*timestat.mean) << " "
<< bidibytes/timestat.max << " " << bidibytes/timestat.min << std::endl;
}
}

38
benchmarks/Benchmark_dwf.cc
View File

@ -1,28 +1,22 @@
/*************************************************************************************
/*************************************************************************************
Grid physics library, www.github.com/paboyle/Grid
Source file: ./benchmarks/Benchmark_dwf.cc
Copyright (C) 2015
Author: Peter Boyle <paboyle@ph.ed.ac.uk>
Author: paboyle <paboyle@ph.ed.ac.uk>
Author: Peter Boyle <paboyle@ph.ed.ac.uk>
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 */
@ -151,6 +145,7 @@ int main (int argc, char ** argv)
RealD M5 =1.8;
RealD NP = UGrid->_Nprocessors;
RealD NN = UGrid->NodeCount();
std::cout << GridLogMessage<< "*****************************************************************" <<std::endl;
std::cout << GridLogMessage<< "* Kernel options --dslash-generic, --dslash-unroll, --dslash-asm" <<std::endl;
@ -160,6 +155,10 @@ int main (int argc, char ** argv)
std::cout << GridLogMessage<< "* Vectorising space-time by "<<vComplex::Nsimd()<<std::endl;
if ( sizeof(Real)==4 ) std::cout << GridLogMessage<< "* SINGLE precision "<<std::endl;
if ( sizeof(Real)==8 ) std::cout << GridLogMessage<< "* DOUBLE precision "<<std::endl;
#ifdef GRID_OMP
if ( WilsonKernelsStatic::Comms == WilsonKernelsStatic::CommsAndCompute ) std::cout << GridLogMessage<< "* Using Overlapped Comms/Compute" <<std::endl;
if ( WilsonKernelsStatic::Comms == WilsonKernelsStatic::CommsThenCompute) std::cout << GridLogMessage<< "* Using sequential comms compute" <<std::endl;
#endif
if ( WilsonKernelsStatic::Opt == WilsonKernelsStatic::OptGeneric ) std::cout << GridLogMessage<< "* Using GENERIC Nc WilsonKernels" <<std::endl;
if ( WilsonKernelsStatic::Opt == WilsonKernelsStatic::OptHandUnroll) std::cout << GridLogMessage<< "* Using Nc=3 WilsonKernels" <<std::endl;
if ( WilsonKernelsStatic::Opt == WilsonKernelsStatic::OptInlineAsm ) std::cout << GridLogMessage<< "* Using Asm Nc=3 WilsonKernels" <<std::endl;
@ -189,6 +188,7 @@ int main (int argc, char ** argv)
// std::cout<<GridLogMessage << "norm ref "<< norm2(ref)<<std::endl;
std::cout<<GridLogMessage << "mflop/s = "<< flops/(t1-t0)<<std::endl;
std::cout<<GridLogMessage << "mflop/s per rank = "<< flops/(t1-t0)/NP<<std::endl;
std::cout<<GridLogMessage << "mflop/s per node = "<< flops/(t1-t0)/NN<<std::endl;
err = ref-result;
std::cout<<GridLogMessage << "norm diff "<< norm2(err)<<std::endl;
@ -225,6 +225,7 @@ int main (int argc, char ** argv)
std::cout<<GridLogMessage << "Called half prec comms Dw "<<ncall<<" times in "<<t1-t0<<" us"<<std::endl;
std::cout<<GridLogMessage << "mflop/s = "<< flops/(t1-t0)<<std::endl;
std::cout<<GridLogMessage << "mflop/s per rank = "<< flops/(t1-t0)/NP<<std::endl;
std::cout<<GridLogMessage << "mflop/s per node = "<< flops/(t1-t0)/NN<<std::endl;
err = ref-result;
std::cout<<GridLogMessage << "norm diff "<< norm2(err)<<std::endl;
@ -240,6 +241,10 @@ int main (int argc, char ** argv)
std::cout << GridLogMessage<< "* Vectorising fifth dimension by "<<vComplex::Nsimd()<<std::endl;
if ( sizeof(Real)==4 ) std::cout << GridLogMessage<< "* SINGLE precision "<<std::endl;
if ( sizeof(Real)==8 ) std::cout << GridLogMessage<< "* DOUBLE precision "<<std::endl;
#ifdef GRID_OMP
if ( WilsonKernelsStatic::Comms == WilsonKernelsStatic::CommsAndCompute ) std::cout << GridLogMessage<< "* Using Overlapped Comms/Compute" <<std::endl;
if ( WilsonKernelsStatic::Comms == WilsonKernelsStatic::CommsThenCompute) std::cout << GridLogMessage<< "* Using sequential comms compute" <<std::endl;
#endif
if ( WilsonKernelsStatic::Opt == WilsonKernelsStatic::OptGeneric ) std::cout << GridLogMessage<< "* Using GENERIC Nc WilsonKernels" <<std::endl;
if ( WilsonKernelsStatic::Opt == WilsonKernelsStatic::OptHandUnroll) std::cout << GridLogMessage<< "* Using Nc=3 WilsonKernels" <<std::endl;
if ( WilsonKernelsStatic::Opt == WilsonKernelsStatic::OptInlineAsm ) std::cout << GridLogMessage<< "* Using Asm Nc=3 WilsonKernels" <<std::endl;
@ -271,6 +276,7 @@ int main (int argc, char ** argv)
std::cout<<GridLogMessage << "Called Dw s_inner "<<ncall<<" times in "<<t1-t0<<" us"<<std::endl;
std::cout<<GridLogMessage << "mflop/s = "<< flops/(t1-t0)<<std::endl;
std::cout<<GridLogMessage << "mflop/s per rank = "<< flops/(t1-t0)/NP<<std::endl;
std::cout<<GridLogMessage << "mflop/s per node = "<< flops/(t1-t0)/NN<<std::endl;
// std::cout<<GridLogMessage<< "res norms "<< norm2(result)<<" " <<norm2(sresult)<<std::endl;
sDw.Report();
RealD sum=0;
@ -303,6 +309,10 @@ int main (int argc, char ** argv)
std::cout << GridLogMessage<< "* Vectorising fifth dimension by "<<vComplex::Nsimd()<<std::endl;
if ( sizeof(Real)==4 ) std::cout << GridLogMessage<< "* SINGLE precision "<<std::endl;
if ( sizeof(Real)==8 ) std::cout << GridLogMessage<< "* DOUBLE precision "<<std::endl;
#ifdef GRID_OMP
if ( WilsonKernelsStatic::Comms == WilsonKernelsStatic::CommsAndCompute ) std::cout << GridLogMessage<< "* Using Overlapped Comms/Compute" <<std::endl;
if ( WilsonKernelsStatic::Comms == WilsonKernelsStatic::CommsThenCompute) std::cout << GridLogMessage<< "* Using sequential comms compute" <<std::endl;
#endif
if ( WilsonKernelsStatic::Opt == WilsonKernelsStatic::OptGeneric )
std::cout << GridLogMessage<< "* Using GENERIC Nc WilsonKernels" <<std::endl;
if ( WilsonKernelsStatic::Opt == WilsonKernelsStatic::OptHandUnroll)
@ -342,6 +352,7 @@ int main (int argc, char ** argv)
std::cout<<GridLogMessage << "sDeo mflop/s = "<< flops/(t1-t0)<<std::endl;
std::cout<<GridLogMessage << "sDeo mflop/s per rank "<< flops/(t1-t0)/NP<<std::endl;
std::cout<<GridLogMessage << "sDeo mflop/s per node "<< flops/(t1-t0)/NN<<std::endl;
sDw.Report();
sDw.DhopEO(ssrc_o,sr_e,DaggerNo);
@ -420,14 +431,15 @@ int main (int argc, char ** argv)
// S-direction is INNERMOST and takes no part in the parity.
static int Opt; // these are a temporary hack
static int Comms; // these are a temporary hack
std::cout << GridLogMessage<< "*********************************************************" <<std::endl;
std::cout << GridLogMessage<< "* Benchmarking DomainWallFermionR::DhopEO "<<std::endl;
std::cout << GridLogMessage<< "* Vectorising space-time by "<<vComplex::Nsimd()<<std::endl;
if ( sizeof(Real)==4 ) std::cout << GridLogMessage<< "* SINGLE precision "<<std::endl;
if ( sizeof(Real)==8 ) std::cout << GridLogMessage<< "* DOUBLE precision "<<std::endl;
#ifdef GRID_OMP
if ( WilsonKernelsStatic::Comms == WilsonKernelsStatic::CommsAndCompute ) std::cout << GridLogMessage<< "* Using Overlapped Comms/Compute" <<std::endl;
if ( WilsonKernelsStatic::Comms == WilsonKernelsStatic::CommsThenCompute) std::cout << GridLogMessage<< "* Using sequential comms compute" <<std::endl;
#endif
if ( WilsonKernelsStatic::Opt == WilsonKernelsStatic::OptGeneric ) std::cout << GridLogMessage<< "* Using GENERIC Nc WilsonKernels" <<std::endl;
if ( WilsonKernelsStatic::Opt == WilsonKernelsStatic::OptHandUnroll) std::cout << GridLogMessage<< "* Using Nc=3 WilsonKernels" <<std::endl;
if ( WilsonKernelsStatic::Opt == WilsonKernelsStatic::OptInlineAsm ) std::cout << GridLogMessage<< "* Using Asm Nc=3 WilsonKernels" <<std::endl;
@ -448,6 +460,7 @@ int main (int argc, char ** argv)
std::cout<<GridLogMessage << "Deo mflop/s = "<< flops/(t1-t0)<<std::endl;
std::cout<<GridLogMessage << "Deo mflop/s per rank "<< flops/(t1-t0)/NP<<std::endl;
std::cout<<GridLogMessage << "Deo mflop/s per node "<< flops/(t1-t0)/NN<<std::endl;
Dw.Report();
}
Dw.DhopEO(src_o,r_e,DaggerNo);
@ -479,3 +492,4 @@ int main (int argc, char ** argv)
Grid_finalize();
}

4
benchmarks/Benchmark_memory_bandwidth.cc
View File

@ -55,8 +55,8 @@ int main (int argc, char ** argv)
std::cout<<GridLogMessage << "===================================================================================================="<<std::endl;
std::cout<<GridLogMessage << " L "<<"\t\t"<<"bytes"<<"\t\t\t"<<"GB/s"<<"\t\t"<<"Gflop/s"<<"\t\t seconds"<<std::endl;
std::cout<<GridLogMessage << "----------------------------------------------------------"<<std::endl;
uint64_t lmax=44;
#define NLOOP (1*lmax*lmax*lmax*lmax/vol)
uint64_t lmax=64;
#define NLOOP (100*lmax*lmax*lmax*lmax/vol)
for(int lat=4;lat<=lmax;lat+=4){
std::vector<int> latt_size ({lat*mpi_layout[0],lat*mpi_layout[1],lat*mpi_layout[2],lat*mpi_layout[3]});

11
benchmarks/Benchmark_su3.cc
View File

@ -35,8 +35,9 @@ using namespace Grid::QCD;
int main (int argc, char ** argv)
{
Grid_init(&argc,&argv);
#define LMAX (64)
int Nloop=1000;
int Nloop=20;
std::vector<int> simd_layout = GridDefaultSimd(Nd,vComplex::Nsimd());
std::vector<int> mpi_layout = GridDefaultMpi();
@ -50,7 +51,7 @@ int main (int argc, char ** argv)
std::cout<<GridLogMessage << " L "<<"\t\t"<<"bytes"<<"\t\t\t"<<"GB/s\t\t GFlop/s"<<std::endl;
std::cout<<GridLogMessage << "----------------------------------------------------------"<<std::endl;
for(int lat=2;lat<=32;lat+=2){
for(int lat=2;lat<=LMAX;lat+=2){
std::vector<int> latt_size ({lat*mpi_layout[0],lat*mpi_layout[1],lat*mpi_layout[2],lat*mpi_layout[3]});
int vol = latt_size[0]*latt_size[1]*latt_size[2]*latt_size[3];
@ -82,7 +83,7 @@ int main (int argc, char ** argv)
std::cout<<GridLogMessage << " L "<<"\t\t"<<"bytes"<<"\t\t\t"<<"GB/s\t\t GFlop/s"<<std::endl;
std::cout<<GridLogMessage << "----------------------------------------------------------"<<std::endl;
for(int lat=2;lat<=32;lat+=2){
for(int lat=2;lat<=LMAX;lat+=2){
std::vector<int> latt_size ({lat*mpi_layout[0],lat*mpi_layout[1],lat*mpi_layout[2],lat*mpi_layout[3]});
int vol = latt_size[0]*latt_size[1]*latt_size[2]*latt_size[3];
@ -113,7 +114,7 @@ int main (int argc, char ** argv)
std::cout<<GridLogMessage << " L "<<"\t\t"<<"bytes"<<"\t\t\t"<<"GB/s\t\t GFlop/s"<<std::endl;
std::cout<<GridLogMessage << "----------------------------------------------------------"<<std::endl;
for(int lat=2;lat<=32;lat+=2){
for(int lat=2;lat<=LMAX;lat+=2){
std::vector<int> latt_size ({lat*mpi_layout[0],lat*mpi_layout[1],lat*mpi_layout[2],lat*mpi_layout[3]});
int vol = latt_size[0]*latt_size[1]*latt_size[2]*latt_size[3];
@ -144,7 +145,7 @@ int main (int argc, char ** argv)
std::cout<<GridLogMessage << " L "<<"\t\t"<<"bytes"<<"\t\t\t"<<"GB/s\t\t GFlop/s"<<std::endl;
std::cout<<GridLogMessage << "----------------------------------------------------------"<<std::endl;
for(int lat=2;lat<=32;lat+=2){
for(int lat=2;lat<=LMAX;lat+=2){
std::vector<int> latt_size ({lat*mpi_layout[0],lat*mpi_layout[1],lat*mpi_layout[2],lat*mpi_layout[3]});
int vol = latt_size[0]*latt_size[1]*latt_size[2]*latt_size[3];

14
benchmarks/Makefile.am
View File

@ -1,11 +1,7 @@
include Make.inc
simple: simple_su3_test.o simple_su3_expr.o simple_simd_test.o
EXTRA_LIBRARIES = libsimple_su3_test.a libsimple_su3_expr.a libsimple_simd_test.a
libsimple_su3_test_a_SOURCES = simple_su3_test.cc
libsimple_su3_expr_a_SOURCES = simple_su3_expr.cc
libsimple_simd_test_a_SOURCES = simple_simd_test.cc
bench-local: all
./Benchmark_su3
./Benchmark_memory_bandwidth
./Benchmark_wilson
./Benchmark_dwf --dslash-unroll

4
bootstrap.sh
View File

@ -1,6 +1,6 @@
#!/usr/bin/env bash
]#!/usr/bin/env bash
EIGEN_URL='http://bitbucket.org/eigen/eigen/get/3.2.9.tar.bz2'
EIGEN_URL='http://bitbucket.org/eigen/eigen/get/3.3.3.tar.bz2'
echo "-- deploying Eigen source..."
wget ${EIGEN_URL} --no-check-certificate

146
configure.ac
View File

@ -1,16 +1,19 @@
AC_PREREQ([2.63])
AC_INIT([Grid], [0.6.0], [https://github.com/paboyle/Grid], [Grid])
AC_INIT([Grid], [0.7.0], [https://github.com/paboyle/Grid], [Grid])
AC_CANONICAL_BUILD
AC_CANONICAL_HOST
AC_CANONICAL_TARGET
AM_INIT_AUTOMAKE(subdir-objects)
AM_INIT_AUTOMAKE([subdir-objects 1.13])
AM_EXTRA_RECURSIVE_TARGETS([tests bench])
AC_CONFIG_MACRO_DIR([m4])
AC_CONFIG_SRCDIR([lib/Grid.h])
AC_CONFIG_HEADERS([lib/Config.h],[sed -i 's|PACKAGE_|GRID_|' lib/Config.h])
m4_ifdef([AM_SILENT_RULES], [AM_SILENT_RULES([yes])])
################ Get git info
#AC_REVISION([m4_esyscmd_s([./scripts/configure.commit])])
############### Checks for programs
CXXFLAGS="-O3 $CXXFLAGS"
AC_PROG_CXX
AC_PROG_RANLIB
@ -24,12 +27,15 @@ AX_GXX_VERSION
AC_DEFINE_UNQUOTED([GXX_VERSION],["$GXX_VERSION"],
[version of g++ that will compile the code])
CXXFLAGS="-g $CXXFLAGS"
############### Checks for typedefs, structures, and compiler characteristics
AC_TYPE_SIZE_T
AC_TYPE_UINT32_T
AC_TYPE_UINT64_T
############### OpenMP
############### OpenMP
AC_OPENMP
ac_openmp=no
if test "${OPENMP_CXXFLAGS}X" != "X"; then
@ -60,16 +66,23 @@ AC_ARG_WITH([mpfr],
[AM_CXXFLAGS="-I$with_mpfr/include $AM_CXXFLAGS"]
[AM_LDFLAGS="-L$with_mpfr/lib $AM_LDFLAGS"])
############### FFTW3
AC_ARG_WITH([fftw],
############### FFTW3
AC_ARG_WITH([fftw],
[AS_HELP_STRING([--with-fftw=prefix],
[try this for a non-standard install prefix of the FFTW3 library])],
[AM_CXXFLAGS="-I$with_fftw/include $AM_CXXFLAGS"]
[AM_LDFLAGS="-L$with_fftw/lib $AM_LDFLAGS"])
############### lapack
############### LIME
AC_ARG_WITH([lime],
[AS_HELP_STRING([--with-lime=prefix],
[try this for a non-standard install prefix of the LIME library])],
[AM_CXXFLAGS="-I$with_lime/include $AM_CXXFLAGS"]
[AM_LDFLAGS="-L$with_lime/lib $AM_LDFLAGS"])
############### lapack
AC_ARG_ENABLE([lapack],
[AC_HELP_STRING([--enable-lapack=yes|no|prefix], [enable LAPACK])],
[AC_HELP_STRING([--enable-lapack=yes|no|prefix], [enable LAPACK])],
[ac_LAPACK=${enable_lapack}], [ac_LAPACK=no])
case ${ac_LAPACK} in
@ -85,7 +98,7 @@ esac
############### FP16 conversions
AC_ARG_ENABLE([sfw-fp16],
[AC_HELP_STRING([--enable-sfw-fp16=yes|no], [enable software fp16 comms])],
[AC_HELP_STRING([--enable-sfw-fp16=yes|no], [enable software fp16 comms])],
[ac_SFW_FP16=${enable_sfw_fp16}], [ac_SFW_FP16=yes])
case ${ac_SFW_FP16} in
yes)
@ -120,7 +133,7 @@ AC_ARG_WITH([hdf5],
############### first-touch
AC_ARG_ENABLE([numa],
[AC_HELP_STRING([--enable-numa=yes|no|prefix], [enable first touch numa opt])],
[AC_HELP_STRING([--enable-numa=yes|no|prefix], [enable first touch numa opt])],
[ac_NUMA=${enable_NUMA}],[ac_NUMA=no])
case ${ac_NUMA} in
@ -146,8 +159,8 @@ if test "${ac_MKL}x" != "nox"; then
fi
AC_SEARCH_LIBS([__gmpf_init], [gmp],
[AC_SEARCH_LIBS([mpfr_init], [mpfr],
[AC_DEFINE([HAVE_LIBMPFR], [1],
[AC_SEARCH_LIBS([mpfr_init], [mpfr],
[AC_DEFINE([HAVE_LIBMPFR], [1],
[Define to 1 if you have the `MPFR' library])]
[have_mpfr=true], [AC_MSG_ERROR([MPFR library not found])])]
[AC_DEFINE([HAVE_LIBGMP], [1], [Define to 1 if you have the `GMP' library])]
@ -156,7 +169,7 @@ AC_SEARCH_LIBS([__gmpf_init], [gmp],
if test "${ac_LAPACK}x" != "nox"; then
AC_SEARCH_LIBS([LAPACKE_sbdsdc], [lapack], [],
[AC_MSG_ERROR("LAPACK enabled but library not found")])
fi
fi
AC_SEARCH_LIBS([fftw_execute], [fftw3],
[AC_SEARCH_LIBS([fftwf_execute], [fftw3f], [],
@ -164,6 +177,18 @@ AC_SEARCH_LIBS([fftw_execute], [fftw3],
[AC_DEFINE([HAVE_FFTW], [1], [Define to 1 if you have the `FFTW' library])]
[have_fftw=true])
AC_SEARCH_LIBS([limeCreateReader], [lime],
[AC_DEFINE([HAVE_LIME], [1], [Define to 1 if you have the `LIME' library])]
[have_lime=true],
[AC_MSG_WARN(C-LIME library was not found in your system.
In order to use ILGG file format please install or provide the correct path to your installation
Info at: http://usqcd.jlab.org/usqcd-docs/c-lime/)])
AC_SEARCH_LIBS([crc32], [z],
[AC_DEFINE([HAVE_ZLIB], [1], [Define to 1 if you have the `LIBZ' library])]
[have_zlib=true],
[AC_MSG_ERROR(zlib library was not found in your system.)])
AC_SEARCH_LIBS([H5Fopen], [hdf5_cpp],
[AC_DEFINE([HAVE_HDF5], [1], [Define to 1 if you have the `HDF5' library])]
[have_hdf5=true]
@ -316,7 +341,7 @@ case ${ac_COMMS} in
comms_type='shmem'
;;
*)
AC_MSG_ERROR([${ac_COMMS} unsupported --enable-comms option]);
AC_MSG_ERROR([${ac_COMMS} unsupported --enable-comms option]);
;;
esac
case ${ac_COMMS} in
@ -353,7 +378,7 @@ case ${ac_RNG} in
AC_DEFINE([RNG_SITMO],[1],[RNG_SITMO] )
;;
*)
AC_MSG_ERROR([${ac_RNG} unsupported --enable-rng option]);
AC_MSG_ERROR([${ac_RNG} unsupported --enable-rng option]);
;;
esac
@ -370,7 +395,7 @@ case ${ac_TIMERS} in
AC_DEFINE([TIMERS_OFF],[1],[TIMERS_OFF] )
;;
*)
AC_MSG_ERROR([${ac_TIMERS} unsupported --enable-timers option]);
AC_MSG_ERROR([${ac_TIMERS} unsupported --enable-timers option]);
;;
esac
@ -382,7 +407,7 @@ case ${ac_CHROMA} in
yes|no)
;;
*)
AC_MSG_ERROR([${ac_CHROMA} unsupported --enable-chroma option]);
AC_MSG_ERROR([${ac_CHROMA} unsupported --enable-chroma option]);
;;
esac
@ -403,12 +428,65 @@ DX_INIT_DOXYGEN([$PACKAGE_NAME], [doxygen.cfg])
############### Ouput
cwd=`pwd -P`; cd ${srcdir}; abs_srcdir=`pwd -P`; cd ${cwd}
GRID_CXXFLAGS="$AM_CXXFLAGS $CXXFLAGS"
GRID_LDFLAGS="$AM_LDFLAGS $LDFLAGS"
GRID_LIBS=$LIBS
GRID_SHORT_SHA=`git rev-parse --short HEAD`
GRID_SHA=`git rev-parse HEAD`
GRID_BRANCH=`git rev-parse --abbrev-ref HEAD`
AM_CXXFLAGS="-I${abs_srcdir}/include $AM_CXXFLAGS"
AM_CFLAGS="-I${abs_srcdir}/include $AM_CFLAGS"
AM_LDFLAGS="-L${cwd}/lib $AM_LDFLAGS"
AC_SUBST([AM_CFLAGS])
AC_SUBST([AM_CXXFLAGS])
AC_SUBST([AM_LDFLAGS])
AC_SUBST([GRID_CXXFLAGS])
AC_SUBST([GRID_LDFLAGS])
AC_SUBST([GRID_LIBS])
AC_SUBST([GRID_SHA])
AC_SUBST([GRID_BRANCH])
git_commit=`cd $srcdir && ./scripts/configure.commit`
echo "~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
Summary of configuration for $PACKAGE v$VERSION
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
----- GIT VERSION -------------------------------------
$git_commit
----- PLATFORM ----------------------------------------
architecture (build) : $build_cpu
os (build) : $build_os
architecture (target) : $target_cpu
os (target) : $target_os
compiler vendor : ${ax_cv_cxx_compiler_vendor}
compiler version : ${ax_cv_gxx_version}
----- BUILD OPTIONS -----------------------------------
SIMD : ${ac_SIMD}${SIMD_GEN_WIDTH_MSG}
Threading : ${ac_openmp}
Communications type : ${comms_type}
Default precision : ${ac_PRECISION}
Software FP16 conversion : ${ac_SFW_FP16}
RNG choice : ${ac_RNG}
GMP : `if test "x$have_gmp" = xtrue; then echo yes; else echo no; fi`
LAPACK : ${ac_LAPACK}
FFTW : `if test "x$have_fftw" = xtrue; then echo yes; else echo no; fi`
LIME (ILDG support) : `if test "x$have_lime" = xtrue; then echo yes; else echo no; fi`
HDF5 : `if test "x$have_hdf5" = xtrue; then echo yes; else echo no; fi`
build DOXYGEN documentation : `if test "$DX_FLAG_doc" = '1'; then echo yes; else echo no; fi`
----- BUILD FLAGS -------------------------------------
CXXFLAGS:
`echo ${AM_CXXFLAGS} ${CXXFLAGS} | tr ' ' '\n' | sed 's/^-/ -/g'`
LDFLAGS:
`echo ${AM_LDFLAGS} ${LDFLAGS} | tr ' ' '\n' | sed 's/^-/ -/g'`
LIBS:
`echo ${LIBS} | tr ' ' '\n' | sed 's/^-/ -/g'`
-------------------------------------------------------" > grid.configure.summary
GRID_SUMMARY="`cat grid.configure.summary`"
AM_SUBST_NOTMAKE([GRID_SUMMARY])
AC_SUBST([GRID_SUMMARY])
AC_CONFIG_FILES([grid-config], [chmod +x grid-config])
AC_CONFIG_FILES(Makefile)
AC_CONFIG_FILES(lib/Makefile)
AC_CONFIG_FILES(tests/Makefile)
@ -419,6 +497,7 @@ AC_CONFIG_FILES(tests/forces/Makefile)
AC_CONFIG_FILES(tests/hadrons/Makefile)
AC_CONFIG_FILES(tests/hmc/Makefile)
AC_CONFIG_FILES(tests/solver/Makefile)
AC_CONFIG_FILES(tests/smearing/Makefile)
AC_CONFIG_FILES(tests/qdpxx/Makefile)
AC_CONFIG_FILES(tests/testu01/Makefile)
AC_CONFIG_FILES(benchmarks/Makefile)
@ -426,36 +505,7 @@ AC_CONFIG_FILES(extras/Makefile)
AC_CONFIG_FILES(extras/Hadrons/Makefile)
AC_OUTPUT
echo "~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
Summary of configuration for $PACKAGE v$VERSION
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
----- PLATFORM ----------------------------------------
architecture (build) : $build_cpu
os (build) : $build_os
architecture (target) : $target_cpu
os (target) : $target_os
compiler vendor : ${ax_cv_cxx_compiler_vendor}
compiler version : ${ax_cv_gxx_version}
----- BUILD OPTIONS -----------------------------------
SIMD : ${ac_SIMD}${SIMD_GEN_WIDTH_MSG}
Threading : ${ac_openmp}
Communications type : ${comms_type}
Default precision : ${ac_PRECISION}
Software FP16 conversion : ${ac_SFW_FP16}
RNG choice : ${ac_RNG}
GMP : `if test "x$have_gmp" = xtrue; then echo yes; else echo no; fi`
LAPACK : ${ac_LAPACK}
FFTW : `if test "x$have_fftw" = xtrue; then echo yes; else echo no; fi`
HDF5 : `if test "x$have_hdf5" = xtrue; then echo yes; else echo no; fi`
build DOXYGEN documentation : `if test "$DX_FLAG_doc" = '1'; then echo yes; else echo no; fi`
----- BUILD FLAGS -------------------------------------
CXXFLAGS:
`echo ${AM_CXXFLAGS} ${CXXFLAGS} | tr ' ' '\n' | sed 's/^-/ -/g'`
LDFLAGS:
`echo ${AM_LDFLAGS} ${LDFLAGS} | tr ' ' '\n' | sed 's/^-/ -/g'`
LIBS:
`echo ${LIBS} | tr ' ' '\n' | sed 's/^-/ -/g'`
-------------------------------------------------------" > config.summary
echo ""
cat config.summary
cat grid.configure.summary
echo ""

3
extras/Hadrons/Application.cc
View File

@ -162,7 +162,8 @@ void Application::saveParameterFile(const std::string parameterFileName)
sizeString((size)*locVol_) << " (" << sizeString(size) << "/site)"
#define DEFINE_MEMPEAK \
auto memPeak = [this](const std::vector<unsigned int> &program)\
GeneticScheduler<unsigned int>::ObjFunc memPeak = \
[this](const std::vector<unsigned int> &program)\
{\
unsigned int memPeak;\
bool msg;\

9
extras/Hadrons/Global.hpp
View File

@ -145,6 +145,15 @@ std::string typeName(void)
return typeName(typeIdPt<T>());
}
// default writers/readers
#ifdef HAVE_HDF5
typedef Hdf5Reader CorrReader;
typedef Hdf5Writer CorrWriter;
#else
typedef XmlReader CorrReader;
typedef XmlWriter CorrWriter;
#endif
END_HADRONS_NAMESPACE
#endif // Hadrons_Global_hpp_

8
extras/Hadrons/Modules.hpp
View File

@ -29,12 +29,20 @@ See the full license in the file "LICENSE" in the top level distribution directo
#include <Grid/Hadrons/Modules/MAction/DWF.hpp>
#include <Grid/Hadrons/Modules/MAction/Wilson.hpp>
#include <Grid/Hadrons/Modules/MContraction/Baryon.hpp>
#include <Grid/Hadrons/Modules/MContraction/DiscLoop.hpp>
#include <Grid/Hadrons/Modules/MContraction/Gamma3pt.hpp>
#include <Grid/Hadrons/Modules/MContraction/Meson.hpp>
#include <Grid/Hadrons/Modules/MContraction/WeakHamiltonian.hpp>
#include <Grid/Hadrons/Modules/MContraction/WeakHamiltonianEye.hpp>
#include <Grid/Hadrons/Modules/MContraction/WeakHamiltonianNonEye.hpp>
#include <Grid/Hadrons/Modules/MContraction/WeakNeutral4ptDisc.hpp>
#include <Grid/Hadrons/Modules/MGauge/Load.hpp>
#include <Grid/Hadrons/Modules/MGauge/Random.hpp>
#include <Grid/Hadrons/Modules/MGauge/Unit.hpp>
#include <Grid/Hadrons/Modules/MLoop/NoiseLoop.hpp>
#include <Grid/Hadrons/Modules/MSolver/RBPrecCG.hpp>
#include <Grid/Hadrons/Modules/MSource/Point.hpp>
#include <Grid/Hadrons/Modules/MSource/SeqGamma.hpp>
#include <Grid/Hadrons/Modules/MSource/Wall.hpp>
#include <Grid/Hadrons/Modules/MSource/Z2.hpp>
#include <Grid/Hadrons/Modules/Quark.hpp>

2
extras/Hadrons/Modules/MContraction/Baryon.hpp
View File

@ -112,7 +112,7 @@ void TBaryon<FImpl1, FImpl2, FImpl3>::execute(void)
<< " quarks '" << par().q1 << "', '" << par().q2 << "', and '"
<< par().q3 << "'" << std::endl;
XmlWriter writer(par().output);
CorrWriter writer(par().output);
PropagatorField1 &q1 = *env().template getObject<PropagatorField1>(par().q1);
PropagatorField2 &q2 = *env().template getObject<PropagatorField2>(par().q2);
PropagatorField3 &q3 = *env().template getObject<PropagatorField3>(par().q2);

144
extras/Hadrons/Modules/MContraction/DiscLoop.hpp Normal file
View File

@ -0,0 +1,144 @@
/*************************************************************************************
Grid physics library, www.github.com/paboyle/Grid
Source file: extras/Hadrons/Modules/MContraction/DiscLoop.hpp
Copyright (C) 2017
Author: Andrew Lawson <andrew.lawson1991@gmail.com>
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 Hadrons_DiscLoop_hpp_
#define Hadrons_DiscLoop_hpp_
#include <Grid/Hadrons/Global.hpp>
#include <Grid/Hadrons/Module.hpp>
#include <Grid/Hadrons/ModuleFactory.hpp>
BEGIN_HADRONS_NAMESPACE
/******************************************************************************
* DiscLoop *
******************************************************************************/
BEGIN_MODULE_NAMESPACE(MContraction)
class DiscLoopPar: Serializable
{
public:
GRID_SERIALIZABLE_CLASS_MEMBERS(DiscLoopPar,
std::string, q_loop,
Gamma::Algebra, gamma,
std::string, output);
};
template <typename FImpl>
class TDiscLoop: public Module<DiscLoopPar>
{
TYPE_ALIASES(FImpl,);
class Result: Serializable
{
public:
GRID_SERIALIZABLE_CLASS_MEMBERS(Result,
Gamma::Algebra, gamma,
std::vector<Complex>, corr);
};
public:
// constructor
TDiscLoop(const std::string name);
// destructor
virtual ~TDiscLoop(void) = default;
// dependency relation
virtual std::vector<std::string> getInput(void);
virtual std::vector<std::string> getOutput(void);
// setup
virtual void setup(void);
// execution
virtual void execute(void);
};
MODULE_REGISTER_NS(DiscLoop, TDiscLoop<FIMPL>, MContraction);
/******************************************************************************
* TDiscLoop implementation *
******************************************************************************/
// constructor /////////////////////////////////////////////////////////////////
template <typename FImpl>
TDiscLoop<FImpl>::TDiscLoop(const std::string name)
: Module<DiscLoopPar>(name)
{}
// dependencies/products ///////////////////////////////////////////////////////
template <typename FImpl>
std::vector<std::string> TDiscLoop<FImpl>::getInput(void)
{
std::vector<std::string> in = {par().q_loop};
return in;
}
template <typename FImpl>
std::vector<std::string> TDiscLoop<FImpl>::getOutput(void)
{
std::vector<std::string> out = {getName()};
return out;
}
// setup ///////////////////////////////////////////////////////////////////////
template <typename FImpl>
void TDiscLoop<FImpl>::setup(void)
{
}
// execution ///////////////////////////////////////////////////////////////////
template <typename FImpl>
void TDiscLoop<FImpl>::execute(void)
{
LOG(Message) << "Computing disconnected loop contraction '" << getName()
<< "' using '" << par().q_loop << "' with " << par().gamma
<< " insertion." << std::endl;
CorrWriter writer(par().output);
PropagatorField &q_loop = *env().template getObject<PropagatorField>(par().q_loop);
LatticeComplex c(env().getGrid());
Gamma gamma(par().gamma);
std::vector<TComplex> buf;
Result result;
c = trace(gamma*q_loop);
sliceSum(c, buf, Tp);
result.gamma = par().gamma;
result.corr.resize(buf.size());
for (unsigned int t = 0; t < buf.size(); ++t)
{
result.corr[t] = TensorRemove(buf[t]);
}
write(writer, "disc", result);
}
END_MODULE_NAMESPACE
END_HADRONS_NAMESPACE
#endif // Hadrons_DiscLoop_hpp_

170
extras/Hadrons/Modules/MContraction/Gamma3pt.hpp Normal file
View File

@ -0,0 +1,170 @@
/*************************************************************************************
Grid physics library, www.github.com/paboyle/Grid
Source file: extras/Hadrons/Modules/MContraction/Gamma3pt.hpp
Copyright (C) 2017
Author: Andrew Lawson <andrew.lawson1991@gmail.com>
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 Hadrons_Gamma3pt_hpp_
#define Hadrons_Gamma3pt_hpp_
#include <Grid/Hadrons/Global.hpp>
#include <Grid/Hadrons/Module.hpp>
#include <Grid/Hadrons/ModuleFactory.hpp>
BEGIN_HADRONS_NAMESPACE
/*
* 3pt contraction with gamma matrix insertion.
*
* Schematic:
*
* q2 q3
* /----<------*------<----¬
* / gamma \
* / \
* i * * f
* \ /
* \ /
* \----------->----------/
* q1
*
* trace(g5*q1*adj(q2)*g5*gamma*q3)
*/
/******************************************************************************
* Gamma3pt *
******************************************************************************/
BEGIN_MODULE_NAMESPACE(MContraction)
class Gamma3ptPar: Serializable
{
public:
GRID_SERIALIZABLE_CLASS_MEMBERS(Gamma3ptPar,
std::string, q1,
std::string, q2,
std::string, q3,
Gamma::Algebra, gamma,
std::string, output);
};
template <typename FImpl1, typename FImpl2, typename FImpl3>
class TGamma3pt: public Module<Gamma3ptPar>
{
TYPE_ALIASES(FImpl1, 1);
TYPE_ALIASES(FImpl2, 2);
TYPE_ALIASES(FImpl3, 3);
class Result: Serializable
{
public:
GRID_SERIALIZABLE_CLASS_MEMBERS(Result,
Gamma::Algebra, gamma,
std::vector<Complex>, corr);
};
public:
// constructor
TGamma3pt(const std::string name);
// destructor
virtual ~TGamma3pt(void) = default;
// dependency relation
virtual std::vector<std::string> getInput(void);
virtual std::vector<std::string> getOutput(void);
// setup
virtual void setup(void);
// execution
virtual void execute(void);
};
MODULE_REGISTER_NS(Gamma3pt, ARG(TGamma3pt<FIMPL, FIMPL, FIMPL>), MContraction);
/******************************************************************************
* TGamma3pt implementation *
******************************************************************************/
// constructor /////////////////////////////////////////////////////////////////
template <typename FImpl1, typename FImpl2, typename FImpl3>
TGamma3pt<FImpl1, FImpl2, FImpl3>::TGamma3pt(const std::string name)
: Module<Gamma3ptPar>(name)
{}
// dependencies/products ///////////////////////////////////////////////////////
template <typename FImpl1, typename FImpl2, typename FImpl3>
std::vector<std::string> TGamma3pt<FImpl1, FImpl2, FImpl3>::getInput(void)
{
std::vector<std::string> in = {par().q1, par().q2, par().q3};
return in;
}
template <typename FImpl1, typename FImpl2, typename FImpl3>
std::vector<std::string> TGamma3pt<FImpl1, FImpl2, FImpl3>::getOutput(void)
{
std::vector<std::string> out = {getName()};
return out;
}
// setup ///////////////////////////////////////////////////////////////////////
template <typename FImpl1, typename FImpl2, typename FImpl3>
void TGamma3pt<FImpl1, FImpl2, FImpl3>::setup(void)
{
}
// execution ///////////////////////////////////////////////////////////////////
template <typename FImpl1, typename FImpl2, typename FImpl3>
void TGamma3pt<FImpl1, FImpl2, FImpl3>::execute(void)
{
LOG(Message) << "Computing 3pt contractions '" << getName() << "' using"
<< " quarks '" << par().q1 << "', '" << par().q2 << "' and '"
<< par().q3 << "', with " << par().gamma << " insertion."
<< std::endl;
CorrWriter writer(par().output);
PropagatorField1 &q1 = *env().template getObject<PropagatorField1>(par().q1);
PropagatorField2 &q2 = *env().template getObject<PropagatorField2>(par().q2);
PropagatorField3 &q3 = *env().template getObject<PropagatorField3>(par().q3);
LatticeComplex c(env().getGrid());
Gamma g5(Gamma::Algebra::Gamma5);
Gamma gamma(par().gamma);
std::vector<TComplex> buf;
Result result;
c = trace(g5*q1*adj(q2)*(g5*gamma)*q3);
sliceSum(c, buf, Tp);
result.gamma = par().gamma;
result.corr.resize(buf.size());
for (unsigned int t = 0; t < buf.size(); ++t)
{
result.corr[t] = TensorRemove(buf[t]);
}
write(writer, "gamma3pt", result);
}
END_MODULE_NAMESPACE
END_HADRONS_NAMESPACE
#endif // Hadrons_Gamma3pt_hpp_

114
extras/Hadrons/Modules/MContraction/Meson.hpp
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@ -6,8 +6,10 @@ Source file: extras/Hadrons/Modules/MContraction/Meson.hpp
Copyright (C) 2015
Copyright (C) 2016
Copyright (C) 2017
Author: Antonin Portelli <antonin.portelli@me.com>
Andrew Lawson <andrew.lawson1991@gmail.com>
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
@ -36,20 +38,39 @@ See the full license in the file "LICENSE" in the top level distribution directo
BEGIN_HADRONS_NAMESPACE
/*
Meson contractions
-----------------------------
* options:
- q1: input propagator 1 (string)
- q2: input propagator 2 (string)
- gammas: gamma products to insert at sink & source, pairs of gamma matrices
(space-separated strings) in angled brackets (i.e. <g_sink g_src>),
in a sequence (e.g. "<Gamma5 Gamma5><Gamma5 GammaT>").
Special values: "all" - perform all possible contractions.
- mom: momentum insertion, space-separated float sequence (e.g ".1 .2 1. 0."),
given as multiples of (2*pi) / L.
*/
/******************************************************************************
* TMeson *
******************************************************************************/
BEGIN_MODULE_NAMESPACE(MContraction)
typedef std::pair<Gamma::Algebra, Gamma::Algebra> GammaPair;
class MesonPar: Serializable
{
public:
GRID_SERIALIZABLE_CLASS_MEMBERS(MesonPar,
std::string, q1,
std::string, q2,
std::string, output,
Gamma::Algebra, gammaSource,
Gamma::Algebra, gammaSink);
std::string, q1,
std::string, q2,
std::string, gammas,
std::string, mom,
std::string, output);
};
template <typename FImpl1, typename FImpl2>
@ -61,7 +82,10 @@ public:
class Result: Serializable
{
public:
GRID_SERIALIZABLE_CLASS_MEMBERS(Result, std::vector<Complex>, corr);
GRID_SERIALIZABLE_CLASS_MEMBERS(Result,
Gamma::Algebra, gamma_snk,
Gamma::Algebra, gamma_src,
std::vector<Complex>, corr);
};
public:
// constructor
@ -71,6 +95,7 @@ public:
// dependencies/products
virtual std::vector<std::string> getInput(void);
virtual std::vector<std::string> getOutput(void);
virtual void parseGammaString(std::vector<GammaPair> &gammaList);
// execution
virtual void execute(void);
};
@ -103,6 +128,32 @@ std::vector<std::string> TMeson<FImpl1, FImpl2>::getOutput(void)
return output;
}
template <typename FImpl1, typename FImpl2>
void TMeson<FImpl1, FImpl2>::parseGammaString(std::vector<GammaPair> &gammaList)
{
// Determine gamma matrices to insert at source/sink.
if (par().gammas.compare("all") == 0)
{
// Do all contractions.
unsigned int n_gam = Ns * Ns;
gammaList.resize(n_gam*n_gam);
for (unsigned int i = 1; i < Gamma::nGamma; i += 2)
{
for (unsigned int j = 1; j < Gamma::nGamma; j += 2)
{
gammaList.push_back(std::make_pair((Gamma::Algebra)i,
(Gamma::Algebra)j));
}
}
}
else
{
// Parse individual contractions from input string.
gammaList = strToVec<GammaPair>(par().gammas);
}
}
// execution ///////////////////////////////////////////////////////////////////
template <typename FImpl1, typename FImpl2>
void TMeson<FImpl1, FImpl2>::execute(void)
@ -111,21 +162,44 @@ void TMeson<FImpl1, FImpl2>::execute(void)
<< " quarks '" << par().q1 << "' and '" << par().q2 << "'"
<< std::endl;
XmlWriter writer(par().output);
PropagatorField1 &q1 = *env().template getObject<PropagatorField1>(par().q1);
PropagatorField2 &q2 = *env().template getObject<PropagatorField2>(par().q2);
LatticeComplex c(env().getGrid());
Gamma gSrc(par().gammaSource), gSnk(par().gammaSink);
Gamma g5(Gamma::Algebra::Gamma5);
std::vector<TComplex> buf;
Result result;
c = trace(gSnk*q1*adj(gSrc)*g5*adj(q2)*g5);
sliceSum(c, buf, Tp);
result.corr.resize(buf.size());
for (unsigned int t = 0; t < buf.size(); ++t)
CorrWriter writer(par().output);
PropagatorField1 &q1 = *env().template getObject<PropagatorField1>(par().q1);
PropagatorField2 &q2 = *env().template getObject<PropagatorField2>(par().q2);
LatticeComplex c(env().getGrid());
Gamma g5(Gamma::Algebra::Gamma5);
std::vector<GammaPair> gammaList;
std::vector<TComplex> buf;
std::vector<Result> result;
std::vector<Real> p;
p = strToVec<Real>(par().mom);
LatticeComplex ph(env().getGrid()), coor(env().getGrid());
Complex i(0.0,1.0);
ph = zero;
for(unsigned int mu = 0; mu < env().getNd(); mu++)
{
result.corr[t] = TensorRemove(buf[t]);
LatticeCoordinate(coor, mu);
ph = ph + p[mu]*coor*((1./(env().getGrid()->_fdimensions[mu])));
}
ph = exp((Real)(2*M_PI)*i*ph);
parseGammaString(gammaList);
result.resize(gammaList.size());
for (unsigned int i = 0; i < result.size(); ++i)
{
Gamma gSnk(gammaList[i].first);
Gamma gSrc(gammaList[i].second);
c = trace((g5*gSnk)*q1*(adj(gSrc)*g5)*adj(q2))*ph;
sliceSum(c, buf, Tp);
result[i].gamma_snk = gammaList[i].first;
result[i].gamma_src = gammaList[i].second;
result[i].corr.resize(buf.size());
for (unsigned int t = 0; t < buf.size(); ++t)
{
result[i].corr[t] = TensorRemove(buf[t]);
}
}
write(writer, "meson", result);
}

114
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@ -0,0 +1,114 @@
/*************************************************************************************
Grid physics library, www.github.com/paboyle/Grid
Source file: extras/Hadrons/Modules/MContraction/WeakHamiltonian.hpp
Copyright (C) 2017
Author: Andrew Lawson <andrew.lawson1991@gmail.com>
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 Hadrons_WeakHamiltonian_hpp_
#define Hadrons_WeakHamiltonian_hpp_
#include <Grid/Hadrons/Global.hpp>
#include <Grid/Hadrons/Module.hpp>
#include <Grid/Hadrons/ModuleFactory.hpp>
BEGIN_HADRONS_NAMESPACE
/******************************************************************************
* WeakHamiltonian *
******************************************************************************/
BEGIN_MODULE_NAMESPACE(MContraction)
/*******************************************************************************
* Utilities for contractions involving the Weak Hamiltonian.
******************************************************************************/
//// Sum and store correlator.
#define MAKE_DIAG(exp, buf, res, n)\
sliceSum(exp, buf, Tp);\
res.name = (n);\
res.corr.resize(buf.size());\
for (unsigned int t = 0; t < buf.size(); ++t)\
{\
res.corr[t] = TensorRemove(buf[t]);\
}
//// Contraction of mu index: use 'mu' variable in exp.
#define SUM_MU(buf,exp)\
buf = zero;\
for (unsigned int mu = 0; mu < ndim; ++mu)\
{\
buf += exp;\
}
enum
{
i_V = 0,
i_A = 1,
n_i = 2
};
class WeakHamiltonianPar: Serializable
{
public:
GRID_SERIALIZABLE_CLASS_MEMBERS(WeakHamiltonianPar,
std::string, q1,
std::string, q2,
std::string, q3,
std::string, q4,
std::string, output);
};
#define MAKE_WEAK_MODULE(modname)\
class T##modname: public Module<WeakHamiltonianPar>\
{\
public:\
TYPE_ALIASES(FIMPL,)\
class Result: Serializable\
{\
public:\
GRID_SERIALIZABLE_CLASS_MEMBERS(Result,\
std::string, name,\
std::vector<Complex>, corr);\
};\
public:\
/* constructor */ \
T##modname(const std::string name);\
/* destructor */ \
virtual ~T##modname(void) = default;\
/* dependency relation */ \
virtual std::vector<std::string> getInput(void);\
virtual std::vector<std::string> getOutput(void);\
/* setup */ \
virtual void setup(void);\
/* execution */ \
virtual void execute(void);\
std::vector<std::string> VA_label = {"V", "A"};\
};\
MODULE_REGISTER_NS(modname, T##modname, MContraction);
END_MODULE_NAMESPACE
END_HADRONS_NAMESPACE
#endif // Hadrons_WeakHamiltonian_hpp_

137
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@ -0,0 +1,137 @@
/*************************************************************************************
Grid physics library, www.github.com/paboyle/Grid
Source file: extras/Hadrons/Modules/MContraction/WeakHamiltonianEye.cc
Copyright (C) 2017
Author: Andrew Lawson <andrew.lawson1991@gmail.com>
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/Hadrons/Modules/MContraction/WeakHamiltonianEye.hpp>
using namespace Grid;
using namespace Hadrons;
using namespace MContraction;
/*
* Weak Hamiltonian current-current contractions, Eye-type.
*
* These contractions are generated by the Q1 and Q2 operators in the physical
* basis (see e.g. Fig 3 of arXiv:1507.03094).
*
* Schematics: q4 |
* /-<-¬ |
* / \ | q2 q3
* \ / | /----<------*------<----¬
* q2 \ / q3 | / /-*-¬ \
* /-----<-----* *-----<----¬ | / / \ \
* i * H_W * f | i * \ / q4 * f
* \ / | \ \->-/ /
* \ / | \ /
* \---------->---------/ | \----------->----------/
* q1 | q1
* |
* Saucer (S) | Eye (E)
*
* S: trace(q3*g5*q1*adj(q2)*g5*gL[mu][p_1]*q4*gL[mu][p_2])
* E: trace(q3*g5*q1*adj(q2)*g5*gL[mu][p_1])*trace(q4*gL[mu][p_2])
*/
/******************************************************************************
* TWeakHamiltonianEye implementation *
******************************************************************************/
// constructor /////////////////////////////////////////////////////////////////
TWeakHamiltonianEye::TWeakHamiltonianEye(const std::string name)
: Module<WeakHamiltonianPar>(name)
{}
// dependencies/products ///////////////////////////////////////////////////////
std::vector<std::string> TWeakHamiltonianEye::getInput(void)
{
std::vector<std::string> in = {par().q1, par().q2, par().q3, par().q4};
return in;
}
std::vector<std::string> TWeakHamiltonianEye::getOutput(void)
{
std::vector<std::string> out = {getName()};
return out;
}
// setup ///////////////////////////////////////////////////////////////////////
void TWeakHamiltonianEye::setup(void)
{
}
// execution ///////////////////////////////////////////////////////////////////
void TWeakHamiltonianEye::execute(void)
{
LOG(Message) << "Computing Weak Hamiltonian (Eye type) contractions '"
<< getName() << "' using quarks '" << par().q1 << "', '"
<< par().q2 << ", '" << par().q3 << "' and '" << par().q4
<< "'." << std::endl;
CorrWriter writer(par().output);
PropagatorField &q1 = *env().template getObject<PropagatorField>(par().q1);
PropagatorField &q2 = *env().template getObject<PropagatorField>(par().q2);
PropagatorField &q3 = *env().template getObject<PropagatorField>(par().q3);
PropagatorField &q4 = *env().template getObject<PropagatorField>(par().q4);
Gamma g5 = Gamma(Gamma::Algebra::Gamma5);
LatticeComplex expbuf(env().getGrid());
std::vector<TComplex> corrbuf;
std::vector<Result> result(n_eye_diag);
unsigned int ndim = env().getNd();
PropagatorField tmp1(env().getGrid());
LatticeComplex tmp2(env().getGrid());
std::vector<PropagatorField> S_body(ndim, tmp1);
std::vector<PropagatorField> S_loop(ndim, tmp1);
std::vector<LatticeComplex> E_body(ndim, tmp2);
std::vector<LatticeComplex> E_loop(ndim, tmp2);
// Setup for S-type contractions.
for (int mu = 0; mu < ndim; ++mu)
{
S_body[mu] = MAKE_SE_BODY(q1, q2, q3, GammaL(Gamma::gmu[mu]));
S_loop[mu] = MAKE_SE_LOOP(q4, GammaL(Gamma::gmu[mu]));
}
// Perform S-type contractions.
SUM_MU(expbuf, trace(S_body[mu]*S_loop[mu]))
MAKE_DIAG(expbuf, corrbuf, result[S_diag], "HW_S")
// Recycle sub-expressions for E-type contractions.
for (unsigned int mu = 0; mu < ndim; ++mu)
{
E_body[mu] = trace(S_body[mu]);
E_loop[mu] = trace(S_loop[mu]);
}
// Perform E-type contractions.
SUM_MU(expbuf, E_body[mu]*E_loop[mu])
MAKE_DIAG(expbuf, corrbuf, result[E_diag], "HW_E")
write(writer, "HW_Eye", result);
}

58
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@ -0,0 +1,58 @@
/*************************************************************************************
Grid physics library, www.github.com/paboyle/Grid
Source file: extras/Hadrons/Modules/MContraction/WeakHamiltonianEye.hpp
Copyright (C) 2017
Author: Andrew Lawson <andrew.lawson1991@gmail.com>
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 Hadrons_WeakHamiltonianEye_hpp_
#define Hadrons_WeakHamiltonianEye_hpp_
#include <Grid/Hadrons/Modules/MContraction/WeakHamiltonian.hpp>
BEGIN_HADRONS_NAMESPACE
/******************************************************************************
* WeakHamiltonianEye *
******************************************************************************/
BEGIN_MODULE_NAMESPACE(MContraction)
enum
{
S_diag = 0,
E_diag = 1,
n_eye_diag = 2
};
// Saucer and Eye subdiagram contractions.
#define MAKE_SE_BODY(Q_1, Q_2, Q_3, gamma) (Q_3*g5*Q_1*adj(Q_2)*g5*gamma)
#define MAKE_SE_LOOP(Q_loop, gamma) (Q_loop*gamma)
MAKE_WEAK_MODULE(WeakHamiltonianEye)
END_MODULE_NAMESPACE
END_HADRONS_NAMESPACE
#endif // Hadrons_WeakHamiltonianEye_hpp_

139
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@ -0,0 +1,139 @@
/*************************************************************************************
Grid physics library, www.github.com/paboyle/Grid
Source file: extras/Hadrons/Modules/MContraction/WeakHamiltonianNonEye.cc
Copyright (C) 2017
Author: Andrew Lawson <andrew.lawson1991@gmail.com>
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/Hadrons/Modules/MContraction/WeakHamiltonianNonEye.hpp>
using namespace Grid;
using namespace Hadrons;
using namespace MContraction;
/*
* Weak Hamiltonian current-current contractions, Non-Eye-type.
*
* These contractions are generated by the Q1 and Q2 operators in the physical
* basis (see e.g. Fig 3 of arXiv:1507.03094).
*
* Schematic:
* q2 q3 | q2 q3
* /--<--¬ /--<--¬ | /--<--¬ /--<--¬
* / \ / \ | / \ / \
* / \ / \ | / \ / \
* / \ / \ | / \ / \
* i * * H_W * f | i * * * H_W * f
* \ * | | \ / \ /
* \ / \ / | \ / \ /
* \ / \ / | \ / \ /
* \ / \ / | \-->--/ \-->--/
* \-->--/ \-->--/ | q1 q4
* q1 q4 |
* Connected (C) | Wing (W)
*
* C: trace(q1*adj(q2)*g5*gL[mu]*q3*adj(q4)*g5*gL[mu])
* W: trace(q1*adj(q2)*g5*gL[mu])*trace(q3*adj(q4)*g5*gL[mu])
*
*/
/******************************************************************************
* TWeakHamiltonianNonEye implementation *
******************************************************************************/
// constructor /////////////////////////////////////////////////////////////////
TWeakHamiltonianNonEye::TWeakHamiltonianNonEye(const std::string name)
: Module<WeakHamiltonianPar>(name)
{}
// dependencies/products ///////////////////////////////////////////////////////
std::vector<std::string> TWeakHamiltonianNonEye::getInput(void)
{
std::vector<std::string> in = {par().q1, par().q2, par().q3, par().q4};
return in;
}
std::vector<std::string> TWeakHamiltonianNonEye::getOutput(void)
{
std::vector<std::string> out = {getName()};
return out;
}
// setup ///////////////////////////////////////////////////////////////////////
void TWeakHamiltonianNonEye::setup(void)
{
}
// execution ///////////////////////////////////////////////////////////////////
void TWeakHamiltonianNonEye::execute(void)
{
LOG(Message) << "Computing Weak Hamiltonian (Non-Eye type) contractions '"
<< getName() << "' using quarks '" << par().q1 << "', '"
<< par().q2 << ", '" << par().q3 << "' and '" << par().q4
<< "'." << std::endl;
CorrWriter writer(par().output);
PropagatorField &q1 = *env().template getObject<PropagatorField>(par().q1);
PropagatorField &q2 = *env().template getObject<PropagatorField>(par().q2);
PropagatorField &q3 = *env().template getObject<PropagatorField>(par().q3);
PropagatorField &q4 = *env().template getObject<PropagatorField>(par().q4);
Gamma g5 = Gamma(Gamma::Algebra::Gamma5);
LatticeComplex expbuf(env().getGrid());
std::vector<TComplex> corrbuf;
std::vector<Result> result(n_noneye_diag);
unsigned int ndim = env().getNd();
PropagatorField tmp1(env().getGrid());
LatticeComplex tmp2(env().getGrid());
std::vector<PropagatorField> C_i_side_loop(ndim, tmp1);
std::vector<PropagatorField> C_f_side_loop(ndim, tmp1);
std::vector<LatticeComplex> W_i_side_loop(ndim, tmp2);
std::vector<LatticeComplex> W_f_side_loop(ndim, tmp2);
// Setup for C-type contractions.
for (int mu = 0; mu < ndim; ++mu)
{
C_i_side_loop[mu] = MAKE_CW_SUBDIAG(q1, q2, GammaL(Gamma::gmu[mu]));
C_f_side_loop[mu] = MAKE_CW_SUBDIAG(q3, q4, GammaL(Gamma::gmu[mu]));
}
// Perform C-type contractions.
SUM_MU(expbuf, trace(C_i_side_loop[mu]*C_f_side_loop[mu]))
MAKE_DIAG(expbuf, corrbuf, result[C_diag], "HW_C")
// Recycle sub-expressions for W-type contractions.
for (unsigned int mu = 0; mu < ndim; ++mu)
{
W_i_side_loop[mu] = trace(C_i_side_loop[mu]);
W_f_side_loop[mu] = trace(C_f_side_loop[mu]);
}
// Perform W-type contractions.
SUM_MU(expbuf, W_i_side_loop[mu]*W_f_side_loop[mu])
MAKE_DIAG(expbuf, corrbuf, result[W_diag], "HW_W")
write(writer, "HW_NonEye", result);
}

57
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@ -0,0 +1,57 @@
/*************************************************************************************
Grid physics library, www.github.com/paboyle/Grid
Source file: extras/Hadrons/Modules/MContraction/WeakHamiltonianNonEye.hpp
Copyright (C) 2017
Author: Andrew Lawson <andrew.lawson1991@gmail.com>
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 Hadrons_WeakHamiltonianNonEye_hpp_
#define Hadrons_WeakHamiltonianNonEye_hpp_
#include <Grid/Hadrons/Modules/MContraction/WeakHamiltonian.hpp>
BEGIN_HADRONS_NAMESPACE
/******************************************************************************
* WeakHamiltonianNonEye *
******************************************************************************/
BEGIN_MODULE_NAMESPACE(MContraction)
enum
{
W_diag = 0,
C_diag = 1,
n_noneye_diag = 2
};
// Wing and Connected subdiagram contractions
#define MAKE_CW_SUBDIAG(Q_1, Q_2, gamma) (Q_1*adj(Q_2)*g5*gamma)
MAKE_WEAK_MODULE(WeakHamiltonianNonEye)
END_MODULE_NAMESPACE
END_HADRONS_NAMESPACE
#endif // Hadrons_WeakHamiltonianNonEye_hpp_

135
extras/Hadrons/Modules/MContraction/WeakNeutral4ptDisc.cc Normal file
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@ -0,0 +1,135 @@
/*************************************************************************************
Grid physics library, www.github.com/paboyle/Grid
Source file: extras/Hadrons/Modules/MContraction/WeakNeutral4ptDisc.cc
Copyright (C) 2017
Author: Andrew Lawson <andrew.lawson1991@gmail.com>
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/Hadrons/Modules/MContraction/WeakNeutral4ptDisc.hpp>
using namespace Grid;
using namespace Hadrons;
using namespace MContraction;
/*
* Weak Hamiltonian + current contractions, disconnected topology for neutral
* mesons.
*
* These contractions are generated by operators Q_1,...,10 of the dS=1 Weak
* Hamiltonian in the physical basis and an additional current J (see e.g.
* Fig 11 of arXiv:1507.03094).
*
* Schematic:
*
* q2 q4 q3
* /--<--¬ /---<--¬ /---<--¬
* / \ / \ / \
* i * * H_W | J * * f
* \ / \ / \ /
* \--->---/ \-------/ \------/
* q1
*
* options
* - q1: input propagator 1 (string)
* - q2: input propagator 2 (string)
* - q3: input propagator 3 (string), assumed to be sequential propagator
* - q4: input propagator 4 (string), assumed to be a loop
*
* type 1: trace(q1*adj(q2)*g5*gL[mu])*trace(loop*gL[mu])*trace(q3*g5)
* type 2: trace(q1*adj(q2)*g5*gL[mu]*loop*gL[mu])*trace(q3*g5)
*/
/*******************************************************************************
* TWeakNeutral4ptDisc implementation *
******************************************************************************/
// constructor /////////////////////////////////////////////////////////////////
TWeakNeutral4ptDisc::TWeakNeutral4ptDisc(const std::string name)
: Module<WeakHamiltonianPar>(name)
{}
// dependencies/products ///////////////////////////////////////////////////////
std::vector<std::string> TWeakNeutral4ptDisc::getInput(void)
{
std::vector<std::string> in = {par().q1, par().q2, par().q3, par().q4};
return in;
}
std::vector<std::string> TWeakNeutral4ptDisc::getOutput(void)
{
std::vector<std::string> out = {getName()};
return out;
}
// setup ///////////////////////////////////////////////////////////////////////
void TWeakNeutral4ptDisc::setup(void)
{
}
// execution ///////////////////////////////////////////////////////////////////
void TWeakNeutral4ptDisc::execute(void)
{
LOG(Message) << "Computing Weak Hamiltonian neutral disconnected contractions '"
<< getName() << "' using quarks '" << par().q1 << "', '"
<< par().q2 << ", '" << par().q3 << "' and '" << par().q4
<< "'." << std::endl;
CorrWriter writer(par().output);
PropagatorField &q1 = *env().template getObject<PropagatorField>(par().q1);
PropagatorField &q2 = *env().template getObject<PropagatorField>(par().q2);
PropagatorField &q3 = *env().template getObject<PropagatorField>(par().q3);
PropagatorField &q4 = *env().template getObject<PropagatorField>(par().q4);
Gamma g5 = Gamma(Gamma::Algebra::Gamma5);
LatticeComplex expbuf(env().getGrid());
std::vector<TComplex> corrbuf;
std::vector<Result> result(n_neut_disc_diag);
unsigned int ndim = env().getNd();
PropagatorField tmp(env().getGrid());
std::vector<PropagatorField> meson(ndim, tmp);
std::vector<PropagatorField> loop(ndim, tmp);
LatticeComplex curr(env().getGrid());
// Setup for type 1 contractions.
for (int mu = 0; mu < ndim; ++mu)
{
meson[mu] = MAKE_DISC_MESON(q1, q2, GammaL(Gamma::gmu[mu]));
loop[mu] = MAKE_DISC_LOOP(q4, GammaL(Gamma::gmu[mu]));
}
curr = MAKE_DISC_CURR(q3, GammaL(Gamma::Algebra::Gamma5));
// Perform type 1 contractions.
SUM_MU(expbuf, trace(meson[mu]*loop[mu]))
expbuf *= curr;
MAKE_DIAG(expbuf, corrbuf, result[neut_disc_1_diag], "HW_disc0_1")
// Perform type 2 contractions.
SUM_MU(expbuf, trace(meson[mu])*trace(loop[mu]))
expbuf *= curr;
MAKE_DIAG(expbuf, corrbuf, result[neut_disc_2_diag], "HW_disc0_2")
write(writer, "HW_disc0", result);
}

59
extras/Hadrons/Modules/MContraction/WeakNeutral4ptDisc.hpp Normal file
View File

@ -0,0 +1,59 @@
/*************************************************************************************
Grid physics library, www.github.com/paboyle/Grid
Source file: extras/Hadrons/Modules/MContraction/WeakNeutral4ptDisc.hpp
Copyright (C) 2017
Author: Andrew Lawson <andrew.lawson1991@gmail.com>
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 Hadrons_WeakNeutral4ptDisc_hpp_
#define Hadrons_WeakNeutral4ptDisc_hpp_
#include <Grid/Hadrons/Modules/MContraction/WeakHamiltonian.hpp>
BEGIN_HADRONS_NAMESPACE
/******************************************************************************
* WeakNeutral4ptDisc *
******************************************************************************/
BEGIN_MODULE_NAMESPACE(MContraction)
enum
{
neut_disc_1_diag = 0,
neut_disc_2_diag = 1,
n_neut_disc_diag = 2
};
// Neutral 4pt disconnected subdiagram contractions.
#define MAKE_DISC_MESON(Q_1, Q_2, gamma) (Q_1*adj(Q_2)*g5*gamma)
#define MAKE_DISC_LOOP(Q_LOOP, gamma) (Q_LOOP*gamma)
#define MAKE_DISC_CURR(Q_c, gamma) (trace(Q_c*gamma))
MAKE_WEAK_MODULE(WeakNeutral4ptDisc)
END_MODULE_NAMESPACE
END_HADRONS_NAMESPACE
#endif // Hadrons_WeakNeutral4ptDisc_hpp_

4
extras/Hadrons/Modules/MGauge/Load.cc
View File

@ -65,7 +65,7 @@ void TLoad::setup(void)
// execution ///////////////////////////////////////////////////////////////////
void TLoad::execute(void)
{
NerscField header;
FieldMetaData header;
std::string fileName = par().file + "."
+ std::to_string(env().getTrajectory());
@ -74,5 +74,5 @@ void TLoad::execute(void)
LatticeGaugeField &U = *env().createLattice<LatticeGaugeField>(getName());
NerscIO::readConfiguration(U, header, fileName);
LOG(Message) << "NERSC header:" << std::endl;
dump_nersc_header(header, LOG(Message));
dump_meta_data(header, LOG(Message));
}

132
extras/Hadrons/Modules/MLoop/NoiseLoop.hpp Normal file
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@ -0,0 +1,132 @@
/*************************************************************************************
Grid physics library, www.github.com/paboyle/Grid
Source file: extras/Hadrons/Modules/MLoop/NoiseLoop.hpp
Copyright (C) 2016
Author: Andrew Lawson <andrew.lawson1991@gmail.com>
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 Hadrons_NoiseLoop_hpp_
#define Hadrons_NoiseLoop_hpp_
#include <Grid/Hadrons/Global.hpp>
#include <Grid/Hadrons/Module.hpp>
#include <Grid/Hadrons/ModuleFactory.hpp>
BEGIN_HADRONS_NAMESPACE
/*
Noise loop propagator
-----------------------------
* loop_x = q_x * adj(eta_x)
* options:
- q = Result of inversion on noise source.
- eta = noise source.
*/
/******************************************************************************
* NoiseLoop *
******************************************************************************/
BEGIN_MODULE_NAMESPACE(MLoop)
class NoiseLoopPar: Serializable
{
public:
GRID_SERIALIZABLE_CLASS_MEMBERS(NoiseLoopPar,
std::string, q,
std::string, eta);
};
template <typename FImpl>
class TNoiseLoop: public Module<NoiseLoopPar>
{
public:
TYPE_ALIASES(FImpl,);
public:
// constructor
TNoiseLoop(const std::string name);
// destructor
virtual ~TNoiseLoop(void) = default;
// dependency relation
virtual std::vector<std::string> getInput(void);
virtual std::vector<std::string> getOutput(void);
// setup
virtual void setup(void);
// execution
virtual void execute(void);
};
MODULE_REGISTER_NS(NoiseLoop, TNoiseLoop<FIMPL>, MLoop);
/******************************************************************************
* TNoiseLoop implementation *
******************************************************************************/
// constructor /////////////////////////////////////////////////////////////////
template <typename FImpl>
TNoiseLoop<FImpl>::TNoiseLoop(const std::string name)
: Module<NoiseLoopPar>(name)
{}
// dependencies/products ///////////////////////////////////////////////////////
template <typename FImpl>
std::vector<std::string> TNoiseLoop<FImpl>::getInput(void)
{
std::vector<std::string> in = {par().q, par().eta};
return in;
}
template <typename FImpl>
std::vector<std::string> TNoiseLoop<FImpl>::getOutput(void)
{
std::vector<std::string> out = {getName()};
return out;
}
// setup ///////////////////////////////////////////////////////////////////////
template <typename FImpl>
void TNoiseLoop<FImpl>::setup(void)
{
env().template registerLattice<PropagatorField>(getName());
}
// execution ///////////////////////////////////////////////////////////////////
template <typename FImpl>
void TNoiseLoop<FImpl>::execute(void)
{
PropagatorField &loop = *env().template createLattice<PropagatorField>(getName());
PropagatorField &q = *env().template getObject<PropagatorField>(par().q);
PropagatorField &eta = *env().template getObject<PropagatorField>(par().eta);
loop = q*adj(eta);
}
END_MODULE_NAMESPACE
END_HADRONS_NAMESPACE
#endif // Hadrons_NoiseLoop_hpp_

5
extras/Hadrons/Modules/MSource/SeqGamma.hpp
View File

@ -6,6 +6,7 @@ Source file: extras/Hadrons/Modules/MSource/SeqGamma.hpp
Copyright (C) 2015
Copyright (C) 2016
Copyright (C) 2017
Author: Antonin Portelli <antonin.portelli@me.com>
@ -149,9 +150,9 @@ void TSeqGamma<FImpl>::execute(void)
for(unsigned int mu = 0; mu < env().getNd(); mu++)
{
LatticeCoordinate(coor, mu);
ph = ph + p[mu]*coor;
ph = ph + p[mu]*coor*((1./(env().getGrid()->_fdimensions[mu])));
}
ph = exp(i*ph);
ph = exp((Real)(2*M_PI)*i*ph);
LatticeCoordinate(t, Tp);
src = where((t >= par().tA) and (t <= par().tB), ph*(g*q), 0.*q);
}

147
extras/Hadrons/Modules/MSource/Wall.hpp Normal file
View File

@ -0,0 +1,147 @@
/*************************************************************************************
Grid physics library, www.github.com/paboyle/Grid
Source file: extras/Hadrons/Modules/MSource/Wall.hpp
Copyright (C) 2017
Author: Andrew Lawson <andrew.lawson1991@gmail.com>
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 Hadrons_WallSource_hpp_
#define Hadrons_WallSource_hpp_
#include <Grid/Hadrons/Global.hpp>
#include <Grid/Hadrons/Module.hpp>
#include <Grid/Hadrons/ModuleFactory.hpp>
BEGIN_HADRONS_NAMESPACE
/*
Wall source
-----------------------------
* src_x = delta(x_3 - tW) * exp(i x.mom)
* options:
- tW: source timeslice (integer)
- mom: momentum insertion, space-separated float sequence (e.g ".1 .2 1. 0.")
*/
/******************************************************************************
* Wall *
******************************************************************************/
BEGIN_MODULE_NAMESPACE(MSource)
class WallPar: Serializable
{
public:
GRID_SERIALIZABLE_CLASS_MEMBERS(WallPar,
unsigned int, tW,
std::string, mom);
};
template <typename FImpl>
class TWall: public Module<WallPar>
{
public:
TYPE_ALIASES(FImpl,);
public:
// constructor
TWall(const std::string name);
// destructor
virtual ~TWall(void) = default;
// dependency relation
virtual std::vector<std::string> getInput(void);
virtual std::vector<std::string> getOutput(void);
// setup
virtual void setup(void);
// execution
virtual void execute(void);
};
MODULE_REGISTER_NS(Wall, TWall<FIMPL>, MSource);
/******************************************************************************
* TWall implementation *
******************************************************************************/
// constructor /////////////////////////////////////////////////////////////////
template <typename FImpl>
TWall<FImpl>::TWall(const std::string name)
: Module<WallPar>(name)
{}
// dependencies/products ///////////////////////////////////////////////////////
template <typename FImpl>
std::vector<std::string> TWall<FImpl>::getInput(void)
{
std::vector<std::string> in;
return in;
}
template <typename FImpl>
std::vector<std::string> TWall<FImpl>::getOutput(void)
{
std::vector<std::string> out = {getName()};
return out;
}
// setup ///////////////////////////////////////////////////////////////////////
template <typename FImpl>
void TWall<FImpl>::setup(void)
{
env().template registerLattice<PropagatorField>(getName());
}
// execution ///////////////////////////////////////////////////////////////////
template <typename FImpl>
void TWall<FImpl>::execute(void)
{
LOG(Message) << "Generating wall source at t = " << par().tW
<< " with momentum " << par().mom << std::endl;
PropagatorField &src = *env().template createLattice<PropagatorField>(getName());
Lattice<iScalar<vInteger>> t(env().getGrid());
LatticeComplex ph(env().getGrid()), coor(env().getGrid());
std::vector<Real> p;
Complex i(0.0,1.0);
p = strToVec<Real>(par().mom);
ph = zero;
for(unsigned int mu = 0; mu < Nd; mu++)
{
LatticeCoordinate(coor, mu);
ph = ph + p[mu]*coor*((1./(env().getGrid()->_fdimensions[mu])));
}
ph = exp((Real)(2*M_PI)*i*ph);
LatticeCoordinate(t, Tp);
src = 1.;
src = where((t == par().tW), src*ph, 0.*src);
}
END_MODULE_NAMESPACE
END_HADRONS_NAMESPACE
#endif // Hadrons_WallSource_hpp_

2
extras/Hadrons/Modules/Quark.hpp
View File

@ -173,7 +173,7 @@ void TQuark<FImpl>::execute(void)
*env().template getObject<PropagatorField>(getName());
axpby_ssp_pminus(sol, 0., sol, 1., sol, 0, 0);
axpby_ssp_pplus(sol, 0., sol, 1., sol, 0, Ls_-1);
axpby_ssp_pplus(sol, 1., sol, 1., sol, 0, Ls_-1);
ExtractSlice(tmp, sol, 0, 0);
FermToProp(p4d, tmp, s, c);
}

11
extras/Hadrons/modules.inc
View File

@ -1,4 +1,7 @@
modules_cc =\
Modules/MContraction/WeakHamiltonianEye.cc \
Modules/MContraction/WeakHamiltonianNonEye.cc \
Modules/MContraction/WeakNeutral4ptDisc.cc \
Modules/MGauge/Load.cc \
Modules/MGauge/Random.cc \
Modules/MGauge/Unit.cc
@ -7,13 +10,21 @@ modules_hpp =\
Modules/MAction/DWF.hpp \
Modules/MAction/Wilson.hpp \
Modules/MContraction/Baryon.hpp \
Modules/MContraction/DiscLoop.hpp \
Modules/MContraction/Gamma3pt.hpp \
Modules/MContraction/Meson.hpp \
Modules/MContraction/WeakHamiltonian.hpp \
Modules/MContraction/WeakHamiltonianEye.hpp \
Modules/MContraction/WeakHamiltonianNonEye.hpp \
Modules/MContraction/WeakNeutral4ptDisc.hpp \
Modules/MGauge/Load.hpp \
Modules/MGauge/Random.hpp \
Modules/MGauge/Unit.hpp \
Modules/MLoop/NoiseLoop.hpp \
Modules/MSolver/RBPrecCG.hpp \
Modules/MSource/Point.hpp \
Modules/MSource/SeqGamma.hpp \
Modules/MSource/Wall.hpp \
Modules/MSource/Z2.hpp \
Modules/Quark.hpp

15
gcc-bug-report/README
View File

@ -20,4 +20,17 @@ The simple testcase in this directory is the submitted bug report that encapsula
problem. The test case works with icpc and with clang++, but fails consistently on g++
current variants.
Peter
Peter
************
Second GCC bug reported, see Issue 100.
https://wandbox.org/permlink/tzssJza6R9XnqANw
https://gcc.gnu.org/bugzilla/show_bug.cgi?id=80652
Getting Travis fails under gcc-5 for Test_simd, now that I added more comprehensive testing to the
CI test suite. The limitations of Travis runtime limits & weak cores are being shown.
Travis uses 5.4.1 for g++-5.

86
grid-config.in Executable file
View File

@ -0,0 +1,86 @@
#! /bin/sh
prefix=@prefix@
exec_prefix=@exec_prefix@
includedir=@includedir@
usage()
{
cat <<EOF
Usage: grid-config [OPTION]
Known values for OPTION are:
--prefix show Grid installation prefix
--cxxflags print pre-processor and compiler flags
--ldflags print library linking flags
--libs print library linking information
--summary print full build summary
--help display this help and exit
--version output version information
--git print git revision
EOF
exit $1
}
if test $# -eq 0; then
usage 1
fi
cflags=false
libs=false
while test $# -gt 0; do
case "$1" in
-*=*) optarg=`echo "$1" | sed 's/[-_a-zA-Z0-9]*=//'` ;;
*) optarg= ;;
esac
case "$1" in
--prefix)
echo $prefix
;;
--version)
echo @VERSION@
exit 0
;;
--git)
echo "@GRID_BRANCH@ @GRID_SHA@"
exit 0
;;
--help)
usage 0
;;
--cxxflags)
echo @GRID_CXXFLAGS@
;;
--ldflags)
echo @GRID_LDFLAGS@
;;
--libs)
echo @GRID_LIBS@
;;
--summary)
echo ""
echo "@GRID_SUMMARY@"
echo ""
;;
*)
usage
exit 1
;;
esac
shift
done
exit 0

37
lib/DisableWarnings.h Normal file
View File

@ -0,0 +1,37 @@
/*************************************************************************************
Grid physics library, www.github.com/paboyle/Grid
Source file: ./lib/DisableWarnings.h
Copyright (C) 2016
Author: Guido Cossu <guido.cossu@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 DISABLE_WARNINGS_H
#define DISABLE_WARNINGS_H
//disables and intel compiler specific warning (in json.hpp)
#pragma warning disable 488
#endif

1
lib/Grid.h
View File

@ -42,6 +42,7 @@ Author: paboyle <paboyle@ph.ed.ac.uk>
#include <Grid/GridQCDcore.h>
#include <Grid/qcd/action/Action.h>
#include <Grid/qcd/smearing/Smearing.h>
#include <Grid/parallelIO/MetaData.h>
#include <Grid/qcd/hmc/HMC_aggregate.h>
#endif

23
lib/GridCore.h
View File

@ -38,28 +38,7 @@ Author: paboyle <paboyle@ph.ed.ac.uk>
#ifndef GRID_BASE_H
#define GRID_BASE_H
///////////////////
// Std C++ dependencies
///////////////////
#include <cassert>
#include <complex>
#include <vector>
#include <iostream>
#include <iomanip>
#include <random>
#include <functional>
#include <stdio.h>
#include <stdlib.h>
#include <stdio.h>
#include <signal.h>
#include <ctime>
#include <sys/time.h>
#include <chrono>
///////////////////
// Grid headers
///////////////////
#include "Config.h"
#include <Grid/GridStd.h>
#include <Grid/perfmon/Timer.h>
#include <Grid/perfmon/PerfCount.h>

29
lib/GridStd.h Normal file
View File

@ -0,0 +1,29 @@
#ifndef GRID_STD_H
#define GRID_STD_H
///////////////////
// Std C++ dependencies
///////////////////
#include <cassert>
#include <complex>
#include <vector>
#include <string>
#include <iostream>
#include <iomanip>
#include <random>
#include <functional>
#include <stdio.h>
#include <stdlib.h>
#include <stdio.h>
#include <signal.h>
#include <ctime>
#include <sys/time.h>
#include <chrono>
#include <zlib.h>
///////////////////
// Grid config
///////////////////
#include "Config.h"
#endif /* GRID_STD_H */

9
lib/Grid_Eigen_Dense.h Normal file
View File

@ -0,0 +1,9 @@
#pragma once
#if defined __GNUC__
#pragma GCC diagnostic push
#pragma GCC diagnostic ignored "-Wdeprecated-declarations"
#endif
#include <Grid/Eigen/Dense>
#if defined __GNUC__
#pragma GCC diagnostic pop
#endif

2
lib/algorithms/LinearOperator.h
View File

@ -235,7 +235,7 @@ namespace Grid {
Field tmp(in._grid);
_Mat.MeooeDag(in,tmp);
_Mat.MooeeInvDag(tmp,out);
_Mat.MooeeInvDag(tmp,out);
_Mat.MeooeDag(out,tmp);
_Mat.MooeeDag(in,out);

5
lib/algorithms/approx/Chebyshev.h
View File

@ -197,8 +197,9 @@ namespace Grid {
void operator() (LinearOperatorBase<Field> &Linop, const Field &in, Field &out) {
GridBase *grid=in._grid;
//std::cout << "Chevyshef(): in._grid="<<in._grid<<std::endl;
//<<" Linop.Grid()="<<Linop.Grid()<<"Linop.RedBlackGrid()="<<Linop.RedBlackGrid()<<std::endl;
// std::cout << "Chevyshef(): in._grid="<<in._grid<<std::endl;
//std::cout <<" Linop.Grid()="<<Linop.Grid()<<"Linop.RedBlackGrid()="<<Linop.RedBlackGrid()<<std::endl;
int vol=grid->gSites();

2
lib/algorithms/approx/Remez.h
View File

@ -16,7 +16,7 @@
#define INCLUDED_ALG_REMEZ_H
#include <stddef.h>
#include <Config.h>
#include <Grid/GridStd.h>
#ifdef HAVE_LIBGMP
#include "bigfloat.h"

7
lib/algorithms/iterative/ConjugateGradient.h
View File

@ -123,8 +123,11 @@ class ConjugateGradient : public OperatorFunction<Field> {
p = p * b + r;
LinalgTimer.Stop();
std::cout << GridLogIterative << "ConjugateGradient: Iteration " << k
<< " residual " << cp << " target " << rsq << std::endl;
std::cout << GridLogDebug << "a = "<< a << " b_pred = "<< b_pred << " b = "<< b << std::endl;
std::cout << GridLogDebug << "qq = "<< qq << " d = "<< d << " c = "<< c << std::endl;
// Stopping condition
if (cp <= rsq) {
@ -132,8 +135,6 @@ class ConjugateGradient : public OperatorFunction<Field> {
Linop.HermOpAndNorm(psi, mmp, d, qq);
p = mmp - src;
RealD mmpnorm = sqrt(norm2(mmp));
RealD psinorm = sqrt(norm2(psi));
RealD srcnorm = sqrt(norm2(src));
RealD resnorm = sqrt(norm2(p));
RealD true_residual = resnorm / srcnorm;
@ -157,8 +158,10 @@ class ConjugateGradient : public OperatorFunction<Field> {
}
std::cout << GridLogMessage << "ConjugateGradient did NOT converge"
<< std::endl;
if (ErrorOnNoConverge) assert(0);
IterationsToComplete = k;
}
};
}

74
lib/cartesian/Cartesian_base.h
View File

@ -6,8 +6,9 @@
Copyright (C) 2015
Author: Peter Boyle <paboyle@ph.ed.ac.uk>
Author: paboyle <paboyle@ph.ed.ac.uk>
Author: Peter Boyle <paboyle@ph.ed.ac.uk>
Author: paboyle <paboyle@ph.ed.ac.uk>
Author: Guido Cossu <guido.cossu@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
@ -49,7 +50,6 @@ public:
GridBase(const std::vector<int> & processor_grid) : CartesianCommunicator(processor_grid) {};
// Physics Grid information.
std::vector<int> _simd_layout;// Which dimensions get relayed out over simd lanes.
std::vector<int> _fdimensions;// (full) Global dimensions of array prior to cb removal
@ -62,13 +62,12 @@ public:
int _isites;
int _fsites; // _isites*_osites = product(dimensions).
int _gsites;
std::vector<int> _slice_block; // subslice information
std::vector<int> _slice_block;// subslice information
std::vector<int> _slice_stride;
std::vector<int> _slice_nblock;
// Might need these at some point
// std::vector<int> _lstart; // local start of array in gcoors. _processor_coor[d]*_ldimensions[d]
// std::vector<int> _lend; // local end of array in gcoors _processor_coor[d]*_ldimensions[d]+_ldimensions_[d]-1
std::vector<int> _lstart; // local start of array in gcoors _processor_coor[d]*_ldimensions[d]
std::vector<int> _lend ; // local end of array in gcoors _processor_coor[d]*_ldimensions[d]+_ldimensions_[d]-1
public:
@ -99,7 +98,7 @@ public:
virtual int oIndex(std::vector<int> &coor)
{
int idx=0;
// Works with either global or local coordinates
// Works with either global or local coordinates
for(int d=0;d<_ndimension;d++) idx+=_ostride[d]*(coor[d]%_rdimensions[d]);
return idx;
}
@ -121,6 +120,12 @@ public:
Lexicographic::CoorFromIndex(coor,Oindex,_rdimensions);
}
inline void InOutCoorToLocalCoor (std::vector<int> &ocoor, std::vector<int> &icoor, std::vector<int> &lcoor) {
lcoor.resize(_ndimension);
for (int d = 0; d < _ndimension; d++)
lcoor[d] = ocoor[d] + _rdimensions[d] * icoor[d];
}
//////////////////////////////////////////////////////////
// SIMD lane addressing
//////////////////////////////////////////////////////////
@ -128,6 +133,7 @@ public:
{
Lexicographic::CoorFromIndex(coor,lane,_simd_layout);
}
inline int PermuteDim(int dimension){
return _simd_layout[dimension]>1;
}
@ -145,15 +151,15 @@ public:
// Distance should be either 0,1,2..
//
if ( _simd_layout[dimension] > 2 ) {
for(int d=0;d<_ndimension;d++){
if ( d != dimension ) assert ( (_simd_layout[d]==1) );
}
permute_type = RotateBit; // How to specify distance; this is not just direction.
return permute_type;
for(int d=0;d<_ndimension;d++){
if ( d != dimension ) assert ( (_simd_layout[d]==1) );
}
permute_type = RotateBit; // How to specify distance; this is not just direction.
return permute_type;
}
for(int d=_ndimension-1;d>dimension;d--){
if (_simd_layout[d]>1 ) permute_type++;
if (_simd_layout[d]>1 ) permute_type++;
}
return permute_type;
}
@ -168,11 +174,30 @@ public:
inline int gSites(void) const { return _isites*_osites*_Nprocessors; };
inline int Nd (void) const { return _ndimension;};
inline const std::vector<int> LocalStarts(void) { return _lstart; };
inline const std::vector<int> &FullDimensions(void) { return _fdimensions;};
inline const std::vector<int> &GlobalDimensions(void) { return _gdimensions;};
inline const std::vector<int> &LocalDimensions(void) { return _ldimensions;};
inline const std::vector<int> &VirtualLocalDimensions(void) { return _ldimensions;};
////////////////////////////////////////////////////////////////
// Utility to print the full decomposition details
////////////////////////////////////////////////////////////////
void show_decomposition(){
std::cout << GridLogMessage << "Full Dimensions : " << _fdimensions << std::endl;
std::cout << GridLogMessage << "Global Dimensions : " << _gdimensions << std::endl;
std::cout << GridLogMessage << "Local Dimensions : " << _ldimensions << std::endl;
std::cout << GridLogMessage << "Reduced Dimensions : " << _rdimensions << std::endl;
std::cout << GridLogMessage << "Outer strides : " << _ostride << std::endl;
std::cout << GridLogMessage << "Inner strides : " << _istride << std::endl;
std::cout << GridLogMessage << "iSites : " << _isites << std::endl;
std::cout << GridLogMessage << "oSites : " << _osites << std::endl;
std::cout << GridLogMessage << "lSites : " << lSites() << std::endl;
std::cout << GridLogMessage << "gSites : " << gSites() << std::endl;
std::cout << GridLogMessage << "Nd : " << _ndimension << std::endl;
}
////////////////////////////////////////////////////////////////
// Global addressing
////////////////////////////////////////////////////////////////
@ -184,12 +209,15 @@ public:
assert(lidx<lSites());
Lexicographic::CoorFromIndex(lcoor,lidx,_ldimensions);
}
void GlobalCoorToGlobalIndex(const std::vector<int> & gcoor,int & gidx){
gidx=0;
int mult=1;
for(int mu=0;mu<_ndimension;mu++) {
gidx+=mult*gcoor[mu];
mult*=_gdimensions[mu];
gidx+=mult*gcoor[mu];
mult*=_gdimensions[mu];
}
}
void GlobalCoorToProcessorCoorLocalCoor(std::vector<int> &pcoor,std::vector<int> &lcoor,const std::vector<int> &gcoor)
@ -197,9 +225,9 @@ public:
pcoor.resize(_ndimension);
lcoor.resize(_ndimension);
for(int mu=0;mu<_ndimension;mu++){
int _fld = _fdimensions[mu]/_processors[mu];
pcoor[mu] = gcoor[mu]/_fld;
lcoor[mu] = gcoor[mu]%_fld;
int _fld = _fdimensions[mu]/_processors[mu];
pcoor[mu] = gcoor[mu]/_fld;
lcoor[mu] = gcoor[mu]%_fld;
}
}
void GlobalCoorToRankIndex(int &rank, int &o_idx, int &i_idx ,const std::vector<int> &gcoor)
@ -211,9 +239,9 @@ public:
/*
std::vector<int> cblcoor(lcoor);
for(int d=0;d<cblcoor.size();d++){
if( this->CheckerBoarded(d) ) {
cblcoor[d] = lcoor[d]/2;
}
if( this->CheckerBoarded(d) ) {
cblcoor[d] = lcoor[d]/2;
}
}
*/
i_idx= iIndex(lcoor);
@ -239,7 +267,7 @@ public:
{
RankIndexToGlobalCoor(rank,o_idx,i_idx ,fcoor);
if(CheckerBoarded(0)){
fcoor[0] = fcoor[0]*2+cb;
fcoor[0] = fcoor[0]*2+cb;
}
}
void ProcessorCoorLocalCoorToGlobalCoor(std::vector<int> &Pcoor,std::vector<int> &Lcoor,std::vector<int> &gcoor)

8
lib/cartesian/Cartesian_full.h
View File

@ -76,6 +76,8 @@ public:
_ldimensions.resize(_ndimension);
_rdimensions.resize(_ndimension);
_simd_layout.resize(_ndimension);
_lstart.resize(_ndimension);
_lend.resize(_ndimension);
_ostride.resize(_ndimension);
_istride.resize(_ndimension);
@ -94,8 +96,10 @@ public:
// Use a reduced simd grid
_ldimensions[d]= _gdimensions[d]/_processors[d]; //local dimensions
_rdimensions[d]= _ldimensions[d]/_simd_layout[d]; //overdecomposition
_osites *= _rdimensions[d];
_isites *= _simd_layout[d];
_lstart[d] = _processor_coor[d]*_ldimensions[d];
_lend[d] = _processor_coor[d]*_ldimensions[d]+_ldimensions[d]-1;
_osites *= _rdimensions[d];
_isites *= _simd_layout[d];
// Addressing support
if ( d==0 ) {

4
lib/cartesian/Cartesian_red_black.h
View File

@ -151,6 +151,8 @@ public:
_ldimensions.resize(_ndimension);
_rdimensions.resize(_ndimension);
_simd_layout.resize(_ndimension);
_lstart.resize(_ndimension);
_lend.resize(_ndimension);
_ostride.resize(_ndimension);
_istride.resize(_ndimension);
@ -169,6 +171,8 @@ public:
_gdimensions[d] = _gdimensions[d]/2; // Remove a checkerboard
}
_ldimensions[d] = _gdimensions[d]/_processors[d];
_lstart[d] = _processor_coor[d]*_ldimensions[d];
_lend[d] = _processor_coor[d]*_ldimensions[d]+_ldimensions[d]-1;
// Use a reduced simd grid
_simd_layout[d] = simd_layout[d];

2
lib/communicator/Communicator_base.cc
View File

@ -60,6 +60,7 @@ void CartesianCommunicator::ShmBufferFreeAll(void) {
/////////////////////////////////
// Grid information queries
/////////////////////////////////
int CartesianCommunicator::Dimensions(void) { return _ndimension; };
int CartesianCommunicator::IsBoss(void) { return _processor==0; };
int CartesianCommunicator::BossRank(void) { return 0; };
int CartesianCommunicator::ThisRank(void) { return _processor; };
@ -91,6 +92,7 @@ void CartesianCommunicator::GlobalSumVector(ComplexD *c,int N)
#if !defined( GRID_COMMS_MPI3) && !defined (GRID_COMMS_MPI3L)
int CartesianCommunicator::NodeCount(void) { return ProcessorCount();};
int CartesianCommunicator::RankCount(void) { return ProcessorCount();};
double CartesianCommunicator::StencilSendToRecvFromBegin(std::vector<CommsRequest_t> &list,
void *xmit,

4
lib/communicator/Communicator_base.h
View File

@ -148,6 +148,7 @@ class CartesianCommunicator {
int RankFromProcessorCoor(std::vector<int> &coor);
void ProcessorCoorFromRank(int rank,std::vector<int> &coor);
int Dimensions(void) ;
int IsBoss(void) ;
int BossRank(void) ;
int ThisRank(void) ;
@ -155,6 +156,7 @@ class CartesianCommunicator {
const std::vector<int> & ProcessorGrid(void) ;
int ProcessorCount(void) ;
int NodeCount(void) ;
int RankCount(void) ;
////////////////////////////////////////////////////////////////////////////////
// very VERY rarely (Log, serial RNG) we need world without a grid
@ -175,6 +177,8 @@ class CartesianCommunicator {
void GlobalSumVector(ComplexF *c,int N);
void GlobalSum(ComplexD &c);
void GlobalSumVector(ComplexD *c,int N);
void GlobalXOR(uint32_t &);
void GlobalXOR(uint64_t &);
template<class obj> void GlobalSum(obj &o){
typedef typename obj::scalar_type scalar_type;

8
lib/communicator/Communicator_mpi.cc
View File

@ -83,6 +83,14 @@ void CartesianCommunicator::GlobalSum(uint64_t &u){
int ierr=MPI_Allreduce(MPI_IN_PLACE,&u,1,MPI_UINT64_T,MPI_SUM,communicator);
assert(ierr==0);
}
void CartesianCommunicator::GlobalXOR(uint32_t &u){
int ierr=MPI_Allreduce(MPI_IN_PLACE,&u,1,MPI_UINT32_T,MPI_BXOR,communicator);
assert(ierr==0);
}
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::GlobalSum(float &f){
int ierr=MPI_Allreduce(MPI_IN_PLACE,&f,1,MPI_FLOAT,MPI_SUM,communicator);
assert(ierr==0);

9
lib/communicator/Communicator_mpi3.cc
View File

@ -65,6 +65,7 @@ std::vector<int> CartesianCommunicator::MyGroup;
std::vector<void *> CartesianCommunicator::ShmCommBufs;
int CartesianCommunicator::NodeCount(void) { return GroupSize;};
int CartesianCommunicator::RankCount(void) { return WorldSize;};
#undef FORCE_COMMS
@ -509,6 +510,14 @@ void CartesianCommunicator::GlobalSum(uint64_t &u){
int ierr=MPI_Allreduce(MPI_IN_PLACE,&u,1,MPI_UINT64_T,MPI_SUM,communicator);
assert(ierr==0);
}
void CartesianCommunicator::GlobalXOR(uint32_t &u){
int ierr=MPI_Allreduce(MPI_IN_PLACE,&u,1,MPI_UINT32_T,MPI_BXOR,communicator);
assert(ierr==0);
}
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::GlobalSum(float &f){
int ierr=MPI_Allreduce(MPI_IN_PLACE,&f,1,MPI_FLOAT,MPI_SUM,communicator);
assert(ierr==0);

2
lib/communicator/Communicator_none.cc
View File

@ -59,6 +59,8 @@ void CartesianCommunicator::GlobalSum(double &){}
void CartesianCommunicator::GlobalSum(uint32_t &){}
void CartesianCommunicator::GlobalSum(uint64_t &){}
void CartesianCommunicator::GlobalSumVector(double *,int N){}
void CartesianCommunicator::GlobalXOR(uint32_t &){}
void CartesianCommunicator::GlobalXOR(uint64_t &){}
void CartesianCommunicator::SendRecvPacket(void *xmit,
void *recv,

12276
lib/json/json.hpp Normal file
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File diff suppressed because it is too large Load Diff

112
lib/lattice/Lattice_base.h
View File

@ -235,64 +235,74 @@ public:
}
};
//////////////////////////////////////////////////////////////////
// Constructor requires "grid" passed.
// what about a default grid?
//////////////////////////////////////////////////////////////////
Lattice(GridBase *grid) : _odata(grid->oSites()) {
_grid = grid;
//////////////////////////////////////////////////////////////////
// Constructor requires "grid" passed.
// what about a default grid?
//////////////////////////////////////////////////////////////////
Lattice(GridBase *grid) : _odata(grid->oSites()) {
_grid = grid;
// _odata.reserve(_grid->oSites());
// _odata.resize(_grid->oSites());
// std::cout << "Constructing lattice object with Grid pointer "<<_grid<<std::endl;
assert((((uint64_t)&_odata[0])&0xF) ==0);
checkerboard=0;
}
Lattice(const Lattice& r){ // copy constructor
_grid = r._grid;
checkerboard = r.checkerboard;
_odata.resize(_grid->oSites());// essential
parallel_for(int ss=0;ss<_grid->oSites();ss++){
_odata[ss]=r._odata[ss];
}
}
virtual ~Lattice(void) = default;
assert((((uint64_t)&_odata[0])&0xF) ==0);
checkerboard=0;
}
Lattice(const Lattice& r){ // copy constructor
_grid = r._grid;
checkerboard = r.checkerboard;
_odata.resize(_grid->oSites());// essential
parallel_for(int ss=0;ss<_grid->oSites();ss++){
_odata[ss]=r._odata[ss];
}
}
virtual ~Lattice(void) = default;
template<class sobj> strong_inline Lattice<vobj> & operator = (const sobj & r){
parallel_for(int ss=0;ss<_grid->oSites();ss++){
this->_odata[ss]=r;
}
return *this;
}
template<class robj> strong_inline Lattice<vobj> & operator = (const Lattice<robj> & r){
this->checkerboard = r.checkerboard;
conformable(*this,r);
parallel_for(int ss=0;ss<_grid->oSites();ss++){
this->_odata[ss]=r._odata[ss];
}
return *this;
void reset(GridBase* grid) {
if (_grid != grid) {
_grid = grid;
_odata.resize(grid->oSites());
checkerboard = 0;
}
}
// *=,+=,-= operators inherit behvour from correspond */+/- operation
template<class T> strong_inline Lattice<vobj> &operator *=(const T &r) {
*this = (*this)*r;
return *this;
template<class sobj> strong_inline Lattice<vobj> & operator = (const sobj & r){
parallel_for(int ss=0;ss<_grid->oSites();ss++){
this->_odata[ss]=r;
}
template<class T> strong_inline Lattice<vobj> &operator -=(const T &r) {
*this = (*this)-r;
return *this;
return *this;
}
template<class robj> strong_inline Lattice<vobj> & operator = (const Lattice<robj> & r){
this->checkerboard = r.checkerboard;
conformable(*this,r);
parallel_for(int ss=0;ss<_grid->oSites();ss++){
this->_odata[ss]=r._odata[ss];
}
template<class T> strong_inline Lattice<vobj> &operator +=(const T &r) {
*this = (*this)+r;
return *this;
}
}; // class Lattice
return *this;
}
// *=,+=,-= operators inherit behvour from correspond */+/- operation
template<class T> strong_inline Lattice<vobj> &operator *=(const T &r) {
*this = (*this)*r;
return *this;
}
template<class T> strong_inline Lattice<vobj> &operator -=(const T &r) {
*this = (*this)-r;
return *this;
}
template<class T> strong_inline Lattice<vobj> &operator +=(const T &r) {
*this = (*this)+r;
return *this;
}
}; // class Lattice
template<class vobj> std::ostream& operator<< (std::ostream& stream, const Lattice<vobj> &o){
std::vector<int> gcoor;
typedef typename vobj::scalar_object sobj;
@ -310,7 +320,7 @@ public:
}
return stream;
}
}

27
lib/lattice/Lattice_reduction.h
View File

@ -1,45 +1,37 @@
/*************************************************************************************
/*************************************************************************************
Grid physics library, www.github.com/paboyle/Grid
Source file: ./lib/lattice/Lattice_reduction.h
Copyright (C) 2015
Author: Azusa Yamaguchi <ayamaguc@staffmail.ed.ac.uk>
Author: Peter Boyle <paboyle@ph.ed.ac.uk>
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 */
#ifndef GRID_LATTICE_REDUCTION_H
#define GRID_LATTICE_REDUCTION_H
#include <Grid/Eigen/Dense>
#include <Grid/Grid_Eigen_Dense.h>
namespace Grid {
#ifdef GRID_WARN_SUBOPTIMAL
#warning "Optimisation alert all these reduction loops are NOT threaded "
#endif
////////////////////////////////////////////////////////////////////////////////////////////////////
// Deterministic Reduction operations
////////////////////////////////////////////////////////////////////////////////////////////////////
////////////////////////////////////////////////////////////////////////////////////////////////////
// Deterministic Reduction operations
////////////////////////////////////////////////////////////////////////////////////////////////////
template<class vobj> inline RealD norm2(const Lattice<vobj> &arg){
ComplexD nrm = innerProduct(arg,arg);
return std::real(nrm);
@ -336,6 +328,8 @@ static void sliceMaddVector(Lattice<vobj> &R,std::vector<RealD> &a,const Lattice
typedef typename vobj::vector_type vector_type;
typedef typename vobj::tensor_reduced tensor_reduced;
scalar_type zscale(scale);
GridBase *grid = X._grid;
int Nsimd =grid->Nsimd();
@ -361,7 +355,7 @@ static void sliceMaddVector(Lattice<vobj> &R,std::vector<RealD> &a,const Lattice
grid->iCoorFromIindex(icoor,l);
int ldx =r+icoor[orthogdim]*rd;
scalar_type *as =(scalar_type *)&av;
as[l] = scalar_type(a[ldx])*scale;
as[l] = scalar_type(a[ldx])*zscale;
}
tensor_reduced at; at=av;
@ -404,7 +398,6 @@ static void sliceMaddVectorSlow (Lattice<vobj> &R,std::vector<RealD> &a,const La
InsertSlice(Rslice,R,i,Orthog);
}
};
template<class vobj>
static void sliceInnerProductVectorSlow( std::vector<ComplexD> & vec, const Lattice<vobj> &lhs,const Lattice<vobj> &rhs,int Orthog)
{
@ -418,11 +411,9 @@ static void sliceInnerProductVectorSlow( std::vector<ComplexD> & vec, const Latt
typedef typename scalar::scalar_object scomplex;
int Nblock = lhs._grid->GlobalDimensions()[Orthog];
vec.resize(Nblock);
std::vector<scomplex> sip(Nblock);
Lattice<scalar> IP(lhs._grid);
IP=localInnerProduct(lhs,rhs);
sliceSum(IP,sip,Orthog);
@ -528,3 +519,5 @@ static void sliceInnerProductMatrix( Eigen::MatrixXcd &mat, const Lattice<vobj>
} /*END NAMESPACE GRID*/
#endif

131
lib/lattice/Lattice_rng.h
View File

@ -6,8 +6,8 @@
Copyright (C) 2015
Author: Peter Boyle <paboyle@ph.ed.ac.uk>
Author: paboyle <paboyle@ph.ed.ac.uk>
Author: Peter Boyle <paboyle@ph.ed.ac.uk>
Author: Guido Cossu <guido.cossu@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
@ -75,6 +75,55 @@ namespace Grid {
return multiplicity;
}
// merge of April 11 2017
//<<<<<<< HEAD
// this function is necessary for the LS vectorised field
inline int RNGfillable_general(GridBase *coarse,GridBase *fine)
{
int rngdims = coarse->_ndimension;
// trivially extended in higher dims, with locality guaranteeing RNG state is local to node
int lowerdims = fine->_ndimension - coarse->_ndimension; assert(lowerdims >= 0);
// assumes that the higher dimensions are not using more processors
// all further divisions are local
for(int d=0;d<lowerdims;d++) assert(fine->_processors[d]==1);
for(int d=0;d<rngdims;d++) assert(coarse->_processors[d] == fine->_processors[d+lowerdims]);
// then divide the number of local sites
// check that the total number of sims agree, meanse the iSites are the same
assert(fine->Nsimd() == coarse->Nsimd());
// check that the two grids divide cleanly
assert( (fine->lSites() / coarse->lSites() ) * coarse->lSites() == fine->lSites() );
return fine->lSites() / coarse->lSites();
}
/*
// Wrap seed_seq to give common interface with random_device
class fixedSeed {
public:
typedef std::seed_seq::result_type result_type;
std::seed_seq src;
fixedSeed(const std::vector<int> &seeds) : src(seeds.begin(),seeds.end()) {};
result_type operator () (void){
std::vector<result_type> list(1);
src.generate(list.begin(),list.end());
return list[0];
}
};
=======
>>>>>>> develop
*/
// real scalars are one component
template<class scalar,class distribution,class generator>
void fillScalar(scalar &s,distribution &dist,generator & gen)
@ -109,7 +158,7 @@ namespace Grid {
#ifdef RNG_SITMO
typedef sitmo::prng_engine RngEngine;
typedef uint64_t RngStateType;
static const int RngStateCount = 4;
static const int RngStateCount = 13;
#endif
std::vector<RngEngine> _generators;
@ -164,7 +213,7 @@ namespace Grid {
ss<<eng;
ss.seekg(0,ss.beg);
for(int i=0;i<RngStateCount;i++){
ss>>saved[i];
ss>>saved[i];
}
}
void GetState(std::vector<RngStateType> & saved,int gen) {
@ -174,7 +223,7 @@ namespace Grid {
assert(saved.size()==RngStateCount);
std::stringstream ss;
for(int i=0;i<RngStateCount;i++){
ss<< saved[i]<<" ";
ss<< saved[i]<<" ";
}
ss.seekg(0,ss.beg);
ss>>eng;
@ -215,7 +264,7 @@ namespace Grid {
dist[0].reset();
for(int idx=0;idx<words;idx++){
fillScalar(buf[idx],dist[0],_generators[0]);
fillScalar(buf[idx],dist[0],_generators[0]);
}
CartesianCommunicator::BroadcastWorld(0,(void *)&l,sizeof(l));
@ -247,7 +296,7 @@ namespace Grid {
RealF *pointer=(RealF *)&l;
dist[0].reset();
for(int i=0;i<2*vComplexF::Nsimd();i++){
fillScalar(pointer[i],dist[0],_generators[0]);
fillScalar(pointer[i],dist[0],_generators[0]);
}
CartesianCommunicator::BroadcastWorld(0,(void *)&l,sizeof(l));
}
@ -255,7 +304,7 @@ namespace Grid {
RealD *pointer=(RealD *)&l;
dist[0].reset();
for(int i=0;i<2*vComplexD::Nsimd();i++){
fillScalar(pointer[i],dist[0],_generators[0]);
fillScalar(pointer[i],dist[0],_generators[0]);
}
CartesianCommunicator::BroadcastWorld(0,(void *)&l,sizeof(l));
}
@ -263,7 +312,7 @@ namespace Grid {
RealF *pointer=(RealF *)&l;
dist[0].reset();
for(int i=0;i<vRealF::Nsimd();i++){
fillScalar(pointer[i],dist[0],_generators[0]);
fillScalar(pointer[i],dist[0],_generators[0]);
}
CartesianCommunicator::BroadcastWorld(0,(void *)&l,sizeof(l));
}
@ -275,7 +324,7 @@ namespace Grid {
}
CartesianCommunicator::BroadcastWorld(0,(void *)&l,sizeof(l));
}
void SeedFixedIntegers(const std::vector<int> &seeds){
CartesianCommunicator::BroadcastWorld(0,(void *)&seeds[0],sizeof(int)*seeds.size());
std::seed_seq src(seeds.begin(),seeds.end());
@ -284,18 +333,20 @@ namespace Grid {
};
class GridParallelRNG : public GridRNGbase {
double _time_counter;
public:
GridBase *_grid;
int _vol;
public:
unsigned int _vol;
int generator_idx(int os,int is){
int generator_idx(int os,int is) {
return is*_grid->oSites()+os;
}
GridParallelRNG(GridBase *grid) : GridRNGbase() {
_grid=grid;
_vol =_grid->iSites()*_grid->oSites();
_grid = grid;
_vol =_grid->iSites()*_grid->oSites();
_generators.resize(_vol);
_uniform.resize(_vol,std::uniform_real_distribution<RealD>{0,1});
@ -309,33 +360,34 @@ namespace Grid {
typedef typename vobj::scalar_object scalar_object;
typedef typename vobj::scalar_type scalar_type;
typedef typename vobj::vector_type vector_type;
int multiplicity = RNGfillable(_grid,l._grid);
int Nsimd =_grid->Nsimd();
int osites=_grid->oSites();
int words=sizeof(scalar_object)/sizeof(scalar_type);
double inner_time_counter = usecond();
int multiplicity = RNGfillable_general(_grid, l._grid); // l has finer or same grid
int Nsimd = _grid->Nsimd(); // guaranteed to be the same for l._grid too
int osites = _grid->oSites(); // guaranteed to be <= l._grid->oSites() by a factor multiplicity
int words = sizeof(scalar_object) / sizeof(scalar_type);
parallel_for(int ss=0;ss<osites;ss++){
std::vector<scalar_object> buf(Nsimd);
for (int m = 0; m < multiplicity; m++) { // Draw from same generator multiplicity times
std::vector<scalar_object> buf(Nsimd);
for(int m=0;m<multiplicity;m++) {// Draw from same generator multiplicity times
int sm = multiplicity * ss + m; // Maps the generator site to the fine site
int sm=multiplicity*ss+m; // Maps the generator site to the fine site
for(int si=0;si<Nsimd;si++){
int gdx = generator_idx(ss,si); // index of generator state
scalar_type *pointer = (scalar_type *)&buf[si];
dist[gdx].reset();
for(int idx=0;idx<words;idx++){
fillScalar(pointer[idx],dist[gdx],_generators[gdx]);
}
}
// merge into SIMD lanes
merge(l._odata[sm],buf);
}
for (int si = 0; si < Nsimd; si++) {
int gdx = generator_idx(ss, si); // index of generator state
scalar_type *pointer = (scalar_type *)&buf[si];
dist[gdx].reset();
for (int idx = 0; idx < words; idx++)
fillScalar(pointer[idx], dist[gdx], _generators[gdx]);
}
// merge into SIMD lanes, FIXME suboptimal implementation
merge(l._odata[sm], buf);
}
}
_time_counter += usecond()- inner_time_counter;
};
void SeedFixedIntegers(const std::vector<int> &seeds){
@ -412,6 +464,12 @@ namespace Grid {
}
#endif
}
void Report(){
std::cout << GridLogMessage << "Time spent in the fill() routine by GridParallelRNG: "<< _time_counter/1e3 << " ms" << std::endl;
}
////////////////////////////////////////////////////////////////////////
// Support for rigorous test of RNG's
// Return uniform random uint32_t from requested site generator
@ -419,7 +477,6 @@ namespace Grid {
uint32_t GlobalU01(int gsite){
uint32_t the_number;
// who
std::vector<int> gcoor;
int rank,o_idx,i_idx;

55
lib/lattice/Lattice_transfer.h
View File

@ -551,7 +551,10 @@ void Replicate(Lattice<vobj> &coarse,Lattice<vobj> & fine)
//Copy SIMD-vectorized lattice to array of scalar objects in lexicographic order
template<typename vobj, typename sobj>
typename std::enable_if<isSIMDvectorized<vobj>::value && !isSIMDvectorized<sobj>::value, void>::type unvectorizeToLexOrdArray(std::vector<sobj> &out, const Lattice<vobj> &in){
typename std::enable_if<isSIMDvectorized<vobj>::value && !isSIMDvectorized<sobj>::value, void>::type
unvectorizeToLexOrdArray(std::vector<sobj> &out, const Lattice<vobj> &in)
{
typedef typename vobj::vector_type vtype;
GridBase* in_grid = in._grid;
@ -590,6 +593,54 @@ typename std::enable_if<isSIMDvectorized<vobj>::value && !isSIMDvectorized<sobj>
extract1(in_vobj, out_ptrs, 0);
}
}
//Copy SIMD-vectorized lattice to array of scalar objects in lexicographic order
template<typename vobj, typename sobj>
typename std::enable_if<isSIMDvectorized<vobj>::value
&& !isSIMDvectorized<sobj>::value, void>::type
vectorizeFromLexOrdArray( std::vector<sobj> &in, Lattice<vobj> &out)
{
typedef typename vobj::vector_type vtype;
GridBase* grid = out._grid;
assert(in.size()==grid->lSites());
int ndim = grid->Nd();
int nsimd = vtype::Nsimd();
std::vector<std::vector<int> > icoor(nsimd);
for(int lane=0; lane < nsimd; lane++){
icoor[lane].resize(ndim);
grid->iCoorFromIindex(icoor[lane],lane);
}
parallel_for(uint64_t oidx = 0; oidx < grid->oSites(); oidx++){ //loop over outer index
//Assemble vector of pointers to output elements
std::vector<sobj*> ptrs(nsimd);
std::vector<int> ocoor(ndim);
grid->oCoorFromOindex(ocoor, oidx);
std::vector<int> lcoor(grid->Nd());
for(int lane=0; lane < nsimd; lane++){
for(int mu=0;mu<ndim;mu++){
lcoor[mu] = ocoor[mu] + grid->_rdimensions[mu]*icoor[lane][mu];
}
int lex;
Lexicographic::IndexFromCoor(lcoor, lex, grid->_ldimensions);
ptrs[lane] = &in[lex];
}
//pack from those ptrs
vobj vecobj;
merge1(vecobj, ptrs, 0);
out._odata[oidx] = vecobj;
}
}
//Convert a Lattice from one precision to another
template<class VobjOut, class VobjIn>
@ -615,7 +666,7 @@ void precisionChange(Lattice<VobjOut> &out, const Lattice<VobjIn> &in){
std::vector<SobjOut> in_slex_conv(in_grid->lSites());
unvectorizeToLexOrdArray(in_slex_conv, in);
parallel_for(int out_oidx=0;out_oidx<out_grid->oSites();out_oidx++){
parallel_for(uint64_t out_oidx=0;out_oidx<out_grid->oSites();out_oidx++){
std::vector<int> out_ocoor(ndim);
out_grid->oCoorFromOindex(out_ocoor, out_oidx);

13
lib/lattice/Lattice_unary.h
View File

@ -66,10 +66,21 @@ namespace Grid {
Lattice<obj> ret(rhs._grid);
ret.checkerboard = rhs.checkerboard;
conformable(ret,rhs);
obj unit(1.0);
parallel_for(int ss=0;ss<rhs._grid->oSites();ss++){
ret._odata[ss]=Exponentiate(rhs._odata[ss],alpha, Nexp);
//ret._odata[ss]=Exponentiate(rhs._odata[ss],alpha, Nexp);
ret._odata[ss] = unit;
for(int i=Nexp; i>=1;--i)
ret._odata[ss] = unit + ret._odata[ss]*rhs._odata[ss]*(alpha/RealD(i));
}
return ret;
}

1
lib/log/Log.cc
View File

@ -30,6 +30,7 @@ directory
*************************************************************************************/
/* END LEGAL */
#include <Grid/GridCore.h>
#include <Grid/util/CompilerCompatible.h>
#include <cxxabi.h>
#include <memory>

1031
lib/parallelIO/BinaryIO.h
View File

File diff suppressed because it is too large Load Diff

711
lib/parallelIO/IldgIO.h Normal file
View File

@ -0,0 +1,711 @@
/*************************************************************************************
Grid physics library, www.github.com/paboyle/Grid
Source file: ./lib/parallelIO/IldgIO.h
Copyright (C) 2015
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_ILDG_IO_H
#define GRID_ILDG_IO_H
#ifdef HAVE_LIME
#include <algorithm>
#include <fstream>
#include <iomanip>
#include <iostream>
#include <map>
#include <pwd.h>
#include <sys/utsname.h>
#include <unistd.h>
//C-Lime is a must have for this functionality
extern "C" {
#include "lime.h"
}
namespace Grid {
namespace QCD {
/////////////////////////////////
// Encode word types as strings
/////////////////////////////////
template<class word> inline std::string ScidacWordMnemonic(void){ return std::string("unknown"); }
template<> inline std::string ScidacWordMnemonic<double> (void){ return std::string("D"); }
template<> inline std::string ScidacWordMnemonic<float> (void){ return std::string("F"); }
template<> inline std::string ScidacWordMnemonic< int32_t>(void){ return std::string("I32_t"); }
template<> inline std::string ScidacWordMnemonic<uint32_t>(void){ return std::string("U32_t"); }
template<> inline std::string ScidacWordMnemonic< int64_t>(void){ return std::string("I64_t"); }
template<> inline std::string ScidacWordMnemonic<uint64_t>(void){ return std::string("U64_t"); }
/////////////////////////////////////////
// Encode a generic tensor as a string
/////////////////////////////////////////
template<class vobj> std::string ScidacRecordTypeString(int &colors, int &spins, int & typesize,int &datacount) {
typedef typename getPrecision<vobj>::real_scalar_type stype;
int _ColourN = indexRank<ColourIndex,vobj>();
int _ColourScalar = isScalar<ColourIndex,vobj>();
int _ColourVector = isVector<ColourIndex,vobj>();
int _ColourMatrix = isMatrix<ColourIndex,vobj>();
int _SpinN = indexRank<SpinIndex,vobj>();
int _SpinScalar = isScalar<SpinIndex,vobj>();
int _SpinVector = isVector<SpinIndex,vobj>();
int _SpinMatrix = isMatrix<SpinIndex,vobj>();
int _LorentzN = indexRank<LorentzIndex,vobj>();
int _LorentzScalar = isScalar<LorentzIndex,vobj>();
int _LorentzVector = isVector<LorentzIndex,vobj>();
int _LorentzMatrix = isMatrix<LorentzIndex,vobj>();
std::stringstream stream;
stream << "GRID_";
stream << ScidacWordMnemonic<stype>();
// std::cout << " Lorentz N/S/V/M : " << _LorentzN<<" "<<_LorentzScalar<<"/"<<_LorentzVector<<"/"<<_LorentzMatrix<<std::endl;
// std::cout << " Spin N/S/V/M : " << _SpinN <<" "<<_SpinScalar <<"/"<<_SpinVector <<"/"<<_SpinMatrix<<std::endl;
// std::cout << " Colour N/S/V/M : " << _ColourN <<" "<<_ColourScalar <<"/"<<_ColourVector <<"/"<<_ColourMatrix<<std::endl;
if ( _LorentzVector ) stream << "_LorentzVector"<<_LorentzN;
if ( _LorentzMatrix ) stream << "_LorentzMatrix"<<_LorentzN;
if ( _SpinVector ) stream << "_SpinVector"<<_SpinN;
if ( _SpinMatrix ) stream << "_SpinMatrix"<<_SpinN;
if ( _ColourVector ) stream << "_ColourVector"<<_ColourN;
if ( _ColourMatrix ) stream << "_ColourMatrix"<<_ColourN;
if ( _ColourScalar && _LorentzScalar && _SpinScalar ) stream << "_Complex";
typesize = sizeof(typename vobj::scalar_type);
if ( _ColourMatrix ) typesize*= _ColourN*_ColourN;
else typesize*= _ColourN;
if ( _SpinMatrix ) typesize*= _SpinN*_SpinN;
else typesize*= _SpinN;
colors = _ColourN;
spins = _SpinN;
datacount = _LorentzN;
return stream.str();
}
template<class vobj> std::string ScidacRecordTypeString(Lattice<vobj> & lat,int &colors, int &spins, int & typesize,int &datacount) {
return ScidacRecordTypeString<vobj>(colors,spins,typesize,datacount);
};
////////////////////////////////////////////////////////////
// Helper to fill out metadata
////////////////////////////////////////////////////////////
template<class vobj> void ScidacMetaData(Lattice<vobj> & field,
FieldMetaData &header,
scidacRecord & _scidacRecord,
scidacFile & _scidacFile)
{
typedef typename getPrecision<vobj>::real_scalar_type stype;
/////////////////////////////////////
// Pull Grid's metadata
/////////////////////////////////////
PrepareMetaData(field,header);
/////////////////////////////////////
// Scidac Private File structure
/////////////////////////////////////
_scidacFile = scidacFile(field._grid);
/////////////////////////////////////
// Scidac Private Record structure
/////////////////////////////////////
scidacRecord sr;
sr.datatype = ScidacRecordTypeString(field,sr.colors,sr.spins,sr.typesize,sr.datacount);
sr.date = header.creation_date;
sr.precision = ScidacWordMnemonic<stype>();
sr.recordtype = GRID_IO_FIELD;
_scidacRecord = sr;
std::cout << GridLogMessage << "Build SciDAC datatype " <<sr.datatype<<std::endl;
}
///////////////////////////////////////////////////////
// Scidac checksum
///////////////////////////////////////////////////////
static int scidacChecksumVerify(scidacChecksum &scidacChecksum_,uint32_t scidac_csuma,uint32_t scidac_csumb)
{
uint32_t scidac_checksuma = stoull(scidacChecksum_.suma,0,16);
uint32_t scidac_checksumb = stoull(scidacChecksum_.sumb,0,16);
if ( scidac_csuma !=scidac_checksuma) return 0;
if ( scidac_csumb !=scidac_checksumb) return 0;
return 1;
}
////////////////////////////////////////////////////////////////////////////////////
// Lime, ILDG and Scidac I/O classes
////////////////////////////////////////////////////////////////////////////////////
class GridLimeReader : public BinaryIO {
public:
///////////////////////////////////////////////////
// FIXME: format for RNG? Now just binary out instead
///////////////////////////////////////////////////
FILE *File;
LimeReader *LimeR;
std::string filename;
/////////////////////////////////////////////
// Open the file
/////////////////////////////////////////////
void open(std::string &_filename)
{
filename= _filename;
File = fopen(filename.c_str(), "r");
LimeR = limeCreateReader(File);
}
/////////////////////////////////////////////
// Close the file
/////////////////////////////////////////////
void close(void){
fclose(File);
// limeDestroyReader(LimeR);
}
////////////////////////////////////////////
// Read a generic lattice field and verify checksum
////////////////////////////////////////////
template<class vobj>
void readLimeLatticeBinaryObject(Lattice<vobj> &field,std::string record_name)
{
typedef typename vobj::scalar_object sobj;
scidacChecksum scidacChecksum_;
uint32_t nersc_csum,scidac_csuma,scidac_csumb;
std::string format = getFormatString<vobj>();
while ( limeReaderNextRecord(LimeR) == LIME_SUCCESS ) {
std::cout << GridLogMessage << limeReaderType(LimeR) <<std::endl;
if ( strncmp(limeReaderType(LimeR), record_name.c_str(),strlen(record_name.c_str()) ) ) {
off_t offset= ftell(File);
BinarySimpleMunger<sobj,sobj> munge;
BinaryIO::readLatticeObject< sobj, sobj >(field, filename, munge, offset, format,nersc_csum,scidac_csuma,scidac_csumb);
/////////////////////////////////////////////
// Insist checksum is next record
/////////////////////////////////////////////
readLimeObject(scidacChecksum_,std::string("scidacChecksum"),record_name);
/////////////////////////////////////////////
// Verify checksums
/////////////////////////////////////////////
scidacChecksumVerify(scidacChecksum_,scidac_csuma,scidac_csumb);
return;
}
}
}
////////////////////////////////////////////
// Read a generic serialisable object
////////////////////////////////////////////
template<class serialisable_object>
void readLimeObject(serialisable_object &object,std::string object_name,std::string record_name)
{
std::string xmlstring;
// should this be a do while; can we miss a first record??
while ( limeReaderNextRecord(LimeR) == LIME_SUCCESS ) {
uint64_t nbytes = limeReaderBytes(LimeR);//size of this record (configuration)
if ( strncmp(limeReaderType(LimeR), record_name.c_str(),strlen(record_name.c_str()) ) ) {
std::vector<char> xmlc(nbytes+1,'\0');
limeReaderReadData((void *)&xmlc[0], &nbytes, LimeR);
XmlReader RD(&xmlc[0],"");
read(RD,object_name,object);
return;
}
}
assert(0);
}
};
class GridLimeWriter : public BinaryIO {
public:
///////////////////////////////////////////////////
// FIXME: format for RNG? Now just binary out instead
///////////////////////////////////////////////////
FILE *File;
LimeWriter *LimeW;
std::string filename;
void open(std::string &_filename) {
filename= _filename;
File = fopen(filename.c_str(), "w");
LimeW = limeCreateWriter(File); assert(LimeW != NULL );
}
/////////////////////////////////////////////
// Close the file
/////////////////////////////////////////////
void close(void) {
fclose(File);
// limeDestroyWriter(LimeW);
}
///////////////////////////////////////////////////////
// Lime utility functions
///////////////////////////////////////////////////////
int createLimeRecordHeader(std::string message, int MB, int ME, size_t PayloadSize)
{
LimeRecordHeader *h;
h = limeCreateHeader(MB, ME, const_cast<char *>(message.c_str()), PayloadSize);
assert(limeWriteRecordHeader(h, LimeW) >= 0);
limeDestroyHeader(h);
return LIME_SUCCESS;
}
////////////////////////////////////////////
// Write a generic serialisable object
////////////////////////////////////////////
template<class serialisable_object>
void writeLimeObject(int MB,int ME,serialisable_object &object,std::string object_name,std::string record_name)
{
std::string xmlstring;
{
XmlWriter WR("","");
write(WR,object_name,object);
xmlstring = WR.XmlString();
}
uint64_t nbytes = xmlstring.size();
int err;
LimeRecordHeader *h = limeCreateHeader(MB, ME,(char *)record_name.c_str(), nbytes); assert(h!= NULL);
err=limeWriteRecordHeader(h, LimeW); assert(err>=0);
err=limeWriteRecordData(&xmlstring[0], &nbytes, LimeW); assert(err>=0);
err=limeWriterCloseRecord(LimeW); assert(err>=0);
limeDestroyHeader(h);
}
////////////////////////////////////////////
// Write a generic lattice field and csum
////////////////////////////////////////////
template<class vobj>
void writeLimeLatticeBinaryObject(Lattice<vobj> &field,std::string record_name)
{
////////////////////////////////////////////
// Create record header
////////////////////////////////////////////
typedef typename vobj::scalar_object sobj;
int err;
uint32_t nersc_csum,scidac_csuma,scidac_csumb;
uint64_t PayloadSize = sizeof(sobj) * field._grid->_gsites;
createLimeRecordHeader(record_name, 0, 0, PayloadSize);
////////////////////////////////////////////////////////////////////
// NB: FILE and iostream are jointly writing disjoint sequences in the
// the same file through different file handles (integer units).
//
// These are both buffered, so why I think this code is right is as follows.
//
// i) write record header to FILE *File, telegraphing the size.
// ii) ftell reads the offset from FILE *File .
// iii) iostream / MPI Open independently seek this offset. Write sequence direct to disk.
// Closes iostream and flushes.
// iv) fseek on FILE * to end of this disjoint section.
// v) Continue writing scidac record.
////////////////////////////////////////////////////////////////////
off_t offset = ftell(File);
std::string format = getFormatString<vobj>();
BinarySimpleMunger<sobj,sobj> munge;
BinaryIO::writeLatticeObject<vobj,sobj>(field, filename, munge, offset, format,nersc_csum,scidac_csuma,scidac_csumb);
err=limeWriterCloseRecord(LimeW); assert(err>=0);
////////////////////////////////////////
// Write checksum element, propagaing forward from the BinaryIO
// Always pair a checksum with a binary object, and close message
////////////////////////////////////////
scidacChecksum checksum;
std::stringstream streama; streama << std::hex << scidac_csuma;
std::stringstream streamb; streamb << std::hex << scidac_csumb;
checksum.suma= streama.str();
checksum.sumb= streamb.str();
std::cout << GridLogMessage<<" writing scidac checksums "<<std::hex<<scidac_csuma<<"/"<<scidac_csumb<<std::dec<<std::endl;
writeLimeObject(0,1,checksum,std::string("scidacChecksum" ),std::string(SCIDAC_CHECKSUM));
}
};
class ScidacWriter : public GridLimeWriter {
public:
template<class SerialisableUserFile>
void writeScidacFileRecord(GridBase *grid,SerialisableUserFile &_userFile)
{
scidacFile _scidacFile(grid);
writeLimeObject(1,0,_scidacFile,_scidacFile.SerialisableClassName(),std::string(SCIDAC_PRIVATE_FILE_XML));
writeLimeObject(0,1,_userFile,_userFile.SerialisableClassName(),std::string(SCIDAC_FILE_XML));
}
////////////////////////////////////////////////
// Write generic lattice field in scidac format
////////////////////////////////////////////////
template <class vobj, class userRecord>
void writeScidacFieldRecord(Lattice<vobj> &field,userRecord _userRecord)
{
typedef typename vobj::scalar_object sobj;
uint64_t nbytes;
GridBase * grid = field._grid;
////////////////////////////////////////
// fill the Grid header
////////////////////////////////////////
FieldMetaData header;
scidacRecord _scidacRecord;
scidacFile _scidacFile;
ScidacMetaData(field,header,_scidacRecord,_scidacFile);
//////////////////////////////////////////////
// Fill the Lime file record by record
//////////////////////////////////////////////
writeLimeObject(1,0,header ,std::string("FieldMetaData"),std::string(GRID_FORMAT)); // Open message
writeLimeObject(0,0,_userRecord,_userRecord.SerialisableClassName(),std::string(SCIDAC_RECORD_XML));
writeLimeObject(0,0,_scidacRecord,_scidacRecord.SerialisableClassName(),std::string(SCIDAC_PRIVATE_RECORD_XML));
writeLimeLatticeBinaryObject(field,std::string(ILDG_BINARY_DATA)); // Closes message with checksum
}
};
class IldgWriter : public ScidacWriter {
public:
///////////////////////////////////
// A little helper
///////////////////////////////////
void writeLimeIldgLFN(std::string &LFN)
{
uint64_t PayloadSize = LFN.size();
int err;
createLimeRecordHeader(ILDG_DATA_LFN, 0 , 0, PayloadSize);
err=limeWriteRecordData(const_cast<char*>(LFN.c_str()), &PayloadSize,LimeW); assert(err>=0);
err=limeWriterCloseRecord(LimeW); assert(err>=0);
}
////////////////////////////////////////////////////////////////
// Special ILDG operations ; gauge configs only.
// 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)
{
GridBase * grid = Umu._grid;
typedef Lattice<iLorentzColourMatrix<vsimd> > GaugeField;
typedef iLorentzColourMatrix<vsimd> vobj;
typedef typename vobj::scalar_object sobj;
uint64_t nbytes;
////////////////////////////////////////
// fill the Grid header
////////////////////////////////////////
FieldMetaData header;
scidacRecord _scidacRecord;
scidacFile _scidacFile;
ScidacMetaData(Umu,header,_scidacRecord,_scidacFile);
std::string format = header.floating_point;
header.ensemble_id = description;
header.ensemble_label = description;
header.sequence_number = sequence;
header.ildg_lfn = LFN;
assert ( (format == std::string("IEEE32BIG"))
||(format == std::string("IEEE64BIG")) );
//////////////////////////////////////////////////////
// Fill ILDG header data struct
//////////////////////////////////////////////////////
ildgFormat ildgfmt ;
ildgfmt.field = std::string("su3gauge");
if ( format == std::string("IEEE32BIG") ) {
ildgfmt.precision = 32;
} else {
ildgfmt.precision = 64;
}
ildgfmt.version = 1.0;
ildgfmt.lx = header.dimension[0];
ildgfmt.ly = header.dimension[1];
ildgfmt.lz = header.dimension[2];
ildgfmt.lt = header.dimension[3];
assert(header.nd==4);
assert(header.nd==header.dimension.size());
//////////////////////////////////////////////////////////////////////////////
// Fill the USQCD info field
//////////////////////////////////////////////////////////////////////////////
usqcdInfo info;
info.version=1.0;
info.plaq = header.plaquette;
info.linktr = header.link_trace;
std::cout << GridLogMessage << " Writing config; IldgIO "<<std::endl;
//////////////////////////////////////////////
// Fill the Lime file record by record
//////////////////////////////////////////////
writeLimeObject(1,0,header ,std::string("FieldMetaData"),std::string(GRID_FORMAT)); // Open message
writeLimeObject(0,0,_scidacFile,_scidacFile.SerialisableClassName(),std::string(SCIDAC_PRIVATE_FILE_XML));
writeLimeObject(0,1,info,info.SerialisableClassName(),std::string(SCIDAC_FILE_XML));
writeLimeObject(1,0,_scidacRecord,_scidacRecord.SerialisableClassName(),std::string(SCIDAC_PRIVATE_RECORD_XML));
writeLimeObject(0,0,info,info.SerialisableClassName(),std::string(SCIDAC_RECORD_XML));
writeLimeObject(0,0,ildgfmt,std::string("ildgFormat") ,std::string(ILDG_FORMAT)); // rec
writeLimeIldgLFN(header.ildg_lfn); // rec
writeLimeLatticeBinaryObject(Umu,std::string(ILDG_BINARY_DATA)); // Closes message with checksum
// limeDestroyWriter(LimeW);
fclose(File);
}
};
class IldgReader : public GridLimeReader {
public:
////////////////////////////////////////////////////////////////
// Read either Grid/SciDAC/ILDG configuration
// Don't require scidac records EXCEPT checksum
// Use Grid MetaData object if present.
// 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_) {
typedef Lattice<iLorentzColourMatrix<vsimd> > GaugeField;
typedef typename GaugeField::vector_object vobj;
typedef typename vobj::scalar_object sobj;
typedef LorentzColourMatrixF fobj;
typedef LorentzColourMatrixD dobj;
GridBase *grid = Umu._grid;
std::vector<int> dims = Umu._grid->FullDimensions();
assert(dims.size()==4);
// Metadata holders
ildgFormat ildgFormat_ ;
std::string ildgLFN_ ;
scidacChecksum scidacChecksum_;
usqcdInfo usqcdInfo_ ;
// track what we read from file
int found_ildgFormat =0;
int found_ildgLFN =0;
int found_scidacChecksum=0;
int found_usqcdInfo =0;
int found_ildgBinary =0;
int found_FieldMetaData =0;
uint32_t nersc_csum;
uint32_t scidac_csuma;
uint32_t scidac_csumb;
// Binary format
std::string format;
//////////////////////////////////////////////////////////////////////////
// Loop over all records
// -- Order is poorly guaranteed except ILDG header preceeds binary section.
// -- Run like an event loop.
// -- Impose trust hierarchy. Grid takes precedence & look for ILDG, and failing
// that Scidac.
// -- Insist on Scidac checksum record.
//////////////////////////////////////////////////////////////////////////
while ( limeReaderNextRecord(LimeR) == LIME_SUCCESS ) {
uint64_t nbytes = limeReaderBytes(LimeR);//size of this record (configuration)
//////////////////////////////////////////////////////////////////
// If not BINARY_DATA read a string and parse
//////////////////////////////////////////////////////////////////
if ( strncmp(limeReaderType(LimeR), ILDG_BINARY_DATA,strlen(ILDG_BINARY_DATA) ) ) {
// Copy out the string
std::vector<char> xmlc(nbytes+1,'\0');
limeReaderReadData((void *)&xmlc[0], &nbytes, LimeR);
std::cout << GridLogMessage<< "Non binary record :" <<limeReaderType(LimeR) <<std::endl; //<<"\n"<<(&xmlc[0])<<std::endl;
//////////////////////////////////
// ILDG format record
if ( !strncmp(limeReaderType(LimeR), ILDG_FORMAT,strlen(ILDG_FORMAT)) ) {
XmlReader RD(&xmlc[0],"");
read(RD,"ildgFormat",ildgFormat_);
if ( ildgFormat_.precision == 64 ) format = std::string("IEEE64BIG");
if ( ildgFormat_.precision == 32 ) format = std::string("IEEE32BIG");
assert( ildgFormat_.lx == dims[0]);
assert( ildgFormat_.ly == dims[1]);
assert( ildgFormat_.lz == dims[2]);
assert( ildgFormat_.lt == dims[3]);
found_ildgFormat = 1;
}
if ( !strncmp(limeReaderType(LimeR), ILDG_DATA_LFN,strlen(ILDG_DATA_LFN)) ) {
FieldMetaData_.ildg_lfn = std::string(&xmlc[0]);
found_ildgLFN = 1;
}
if ( !strncmp(limeReaderType(LimeR), GRID_FORMAT,strlen(ILDG_FORMAT)) ) {
XmlReader RD(&xmlc[0],"");
read(RD,"FieldMetaData",FieldMetaData_);
format = FieldMetaData_.floating_point;
assert(FieldMetaData_.dimension[0] == dims[0]);
assert(FieldMetaData_.dimension[1] == dims[1]);
assert(FieldMetaData_.dimension[2] == dims[2]);
assert(FieldMetaData_.dimension[3] == dims[3]);
found_FieldMetaData = 1;
}
if ( !strncmp(limeReaderType(LimeR), SCIDAC_RECORD_XML,strlen(SCIDAC_RECORD_XML)) ) {
XmlReader RD(&xmlc[0],"");
read(RD,"usqcdInfo",usqcdInfo_);
found_usqcdInfo = 1;
}
if ( !strncmp(limeReaderType(LimeR), SCIDAC_CHECKSUM,strlen(SCIDAC_CHECKSUM)) ) {
XmlReader RD(&xmlc[0],"");
read(RD,"scidacChecksum",scidacChecksum_);
found_scidacChecksum = 1;
}
} else {
/////////////////////////////////
// Binary data
/////////////////////////////////
std::cout << GridLogMessage << "ILDG Binary record found : " ILDG_BINARY_DATA << std::endl;
off_t offset= ftell(File);
if ( format == std::string("IEEE64BIG") ) {
GaugeSimpleMunger<dobj, sobj> munge;
BinaryIO::readLatticeObject< vobj, dobj >(Umu, filename, munge, offset, format,nersc_csum,scidac_csuma,scidac_csumb);
} else {
GaugeSimpleMunger<fobj, sobj> munge;
BinaryIO::readLatticeObject< vobj, fobj >(Umu, filename, munge, offset, format,nersc_csum,scidac_csuma,scidac_csumb);
}
found_ildgBinary = 1;
}
}
//////////////////////////////////////////////////////
// Minimally must find binary segment and checksum
// Since this is an ILDG reader require ILDG format
//////////////////////////////////////////////////////
assert(found_ildgBinary);
assert(found_ildgFormat);
assert(found_scidacChecksum);
// Must find something with the lattice dimensions
assert(found_FieldMetaData||found_ildgFormat);
if ( found_FieldMetaData ) {
std::cout << GridLogMessage<<"Grid MetaData was record found: configuration was probably written by Grid ! Yay ! "<<std::endl;
} else {
assert(found_ildgFormat);
assert ( ildgFormat_.field == std::string("su3gauge") );
///////////////////////////////////////////////////////////////////////////////////////
// Populate our Grid metadata as best we can
///////////////////////////////////////////////////////////////////////////////////////
std::ostringstream vers; vers << ildgFormat_.version;
FieldMetaData_.hdr_version = vers.str();
FieldMetaData_.data_type = std::string("4D_SU3_GAUGE_3X3");
FieldMetaData_.nd=4;
FieldMetaData_.dimension.resize(4);
FieldMetaData_.dimension[0] = ildgFormat_.lx ;
FieldMetaData_.dimension[1] = ildgFormat_.ly ;
FieldMetaData_.dimension[2] = ildgFormat_.lz ;
FieldMetaData_.dimension[3] = ildgFormat_.lt ;
if ( found_usqcdInfo ) {
FieldMetaData_.plaquette = usqcdInfo_.plaq;
FieldMetaData_.link_trace= usqcdInfo_.linktr;
std::cout << GridLogMessage <<"This configuration was probably written by USQCD "<<std::endl;
std::cout << GridLogMessage <<"USQCD xml record Plaquette : "<<FieldMetaData_.plaquette<<std::endl;
std::cout << GridLogMessage <<"USQCD xml record LinkTrace : "<<FieldMetaData_.link_trace<<std::endl;
} else {
FieldMetaData_.plaquette = 0.0;
FieldMetaData_.link_trace= 0.0;
std::cout << GridLogWarning << "This configuration is unsafe with no plaquette records that can verify it !!! "<<std::endl;
}
}
////////////////////////////////////////////////////////////
// Really really want to mandate a scidac checksum
////////////////////////////////////////////////////////////
if ( found_scidacChecksum ) {
FieldMetaData_.scidac_checksuma = stoull(scidacChecksum_.suma,0,16);
FieldMetaData_.scidac_checksumb = stoull(scidacChecksum_.sumb,0,16);
scidacChecksumVerify(scidacChecksum_,scidac_csuma,scidac_csumb);
assert( scidac_csuma ==FieldMetaData_.scidac_checksuma);
assert( scidac_csumb ==FieldMetaData_.scidac_checksumb);
std::cout << GridLogMessage<<"SciDAC checksums match " << std::endl;
} else {
std::cout << GridLogWarning<<"SciDAC checksums not found. This is unsafe. " << std::endl;
assert(0); // Can I insist always checksum ?
}
if ( found_FieldMetaData || found_usqcdInfo ) {
FieldMetaData checker;
GaugeStatistics(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;
}
}
};
}}
//HAVE_LIME
#endif
#endif

231
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/*************************************************************************************
Grid physics library, www.github.com/paboyle/Grid
Source file: ./lib/parallelIO/IldgIO.h
Copyright (C) 2015
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_ILDGTYPES_IO_H
#define GRID_ILDGTYPES_IO_H
#ifdef HAVE_LIME
extern "C" { // for linkage
#include "lime.h"
}
namespace Grid {
/////////////////////////////////////////////////////////////////////////////////
// Data representation of records that enter ILDG and SciDac formats
/////////////////////////////////////////////////////////////////////////////////
#define GRID_FORMAT "grid-format"
#define ILDG_FORMAT "ildg-format"
#define ILDG_BINARY_DATA "ildg-binary-data"
#define ILDG_DATA_LFN "ildg-data-lfn"
#define SCIDAC_CHECKSUM "scidac-checksum"
#define SCIDAC_PRIVATE_FILE_XML "scidac-private-file-xml"
#define SCIDAC_FILE_XML "scidac-file-xml"
#define SCIDAC_PRIVATE_RECORD_XML "scidac-private-record-xml"
#define SCIDAC_RECORD_XML "scidac-record-xml"
#define SCIDAC_BINARY_DATA "scidac-binary-data"
// Unused SCIDAC records names; could move to support this functionality
#define SCIDAC_SITELIST "scidac-sitelist"
////////////////////////////////////////////////////////////
const int GRID_IO_SINGLEFILE = 0; // hardcode lift from QIO compat
const int GRID_IO_MULTIFILE = 1; // hardcode lift from QIO compat
const int GRID_IO_FIELD = 0; // hardcode lift from QIO compat
const int GRID_IO_GLOBAL = 1; // hardcode lift from QIO compat
////////////////////////////////////////////////////////////
/////////////////////////////////////////////////////////////////////////////////
// QIO uses mandatory "private" records fixed format
// Private is in principle "opaque" however it can't be changed now because that would break existing
// file compatability, so should be correct to assume the undocumented but defacto file structure.
/////////////////////////////////////////////////////////////////////////////////
////////////////////////
// Scidac private file xml
// <?xml version="1.0" encoding="UTF-8"?><scidacFile><version>1.1</version><spacetime>4</spacetime><dims>16 16 16 32 </dims><volfmt>0</volfmt></scidacFile>
////////////////////////
struct scidacFile : Serializable {
public:
GRID_SERIALIZABLE_CLASS_MEMBERS(scidacFile,
double, version,
int, spacetime,
std::string, dims, // must convert to int
int, volfmt);
std::vector<int> getDimensions(void) {
std::stringstream stream(dims);
std::vector<int> dimensions;
int n;
while(stream >> n){
dimensions.push_back(n);
}
return dimensions;
}
void setDimensions(std::vector<int> dimensions) {
char delimiter = ' ';
std::stringstream stream;
for(int i=0;i<dimensions.size();i++){
stream << dimensions[i];
if ( i != dimensions.size()-1) {
stream << delimiter <<std::endl;
}
}
dims = stream.str();
}
// Constructor provides Grid
scidacFile() =default; // default constructor
scidacFile(GridBase * grid){
version = 1.0;
spacetime = grid->_ndimension;
setDimensions(grid->FullDimensions());
volfmt = GRID_IO_SINGLEFILE;
}
};
///////////////////////////////////////////////////////////////////////
// scidac-private-record-xml : example
// <scidacRecord>
// <version>1.1</version><date>Tue Jul 26 21:14:44 2011 UTC</date><recordtype>0</recordtype>
// <datatype>QDP_D3_ColorMatrix</datatype><precision>D</precision><colors>3</colors><spins>4</spins>
// <typesize>144</typesize><datacount>4</datacount>
// </scidacRecord>
///////////////////////////////////////////////////////////////////////
struct scidacRecord : Serializable {
public:
GRID_SERIALIZABLE_CLASS_MEMBERS(scidacRecord,
double, version,
std::string, date,
int, recordtype,
std::string, datatype,
std::string, precision,
int, colors,
int, spins,
int, typesize,
int, datacount);
scidacRecord() { version =1.0; }
};
////////////////////////
// ILDG format
////////////////////////
struct ildgFormat : Serializable {
public:
GRID_SERIALIZABLE_CLASS_MEMBERS(ildgFormat,
double, version,
std::string, field,
int, precision,
int, lx,
int, ly,
int, lz,
int, lt);
ildgFormat() { version=1.0; };
};
////////////////////////
// USQCD info
////////////////////////
struct usqcdInfo : Serializable {
public:
GRID_SERIALIZABLE_CLASS_MEMBERS(usqcdInfo,
double, version,
double, plaq,
double, linktr,
std::string, info);
usqcdInfo() {
version=1.0;
};
};
////////////////////////
// Scidac Checksum
////////////////////////
struct scidacChecksum : Serializable {
public:
GRID_SERIALIZABLE_CLASS_MEMBERS(scidacChecksum,
double, version,
std::string, suma,
std::string, sumb);
scidacChecksum() {
version=1.0;
};
};
////////////////////////////////////////////////////////////////////////////////////////////////////////////////
// Type: scidac-file-xml <title>MILC ILDG archival gauge configuration</title>
////////////////////////////////////////////////////////////////////////////////////////////////////////////////
////////////////////////////////////////////////////////////////////////////////////////////////////////////////
// Type:
////////////////////////////////////////////////////////////////////////////////////////////////////////////////
////////////////////////
// Scidac private file xml
// <?xml version="1.0" encoding="UTF-8"?><scidacFile><version>1.1</version><spacetime>4</spacetime><dims>16 16 16 32 </dims><volfmt>0</volfmt></scidacFile>
////////////////////////
#if 0
////////////////////////////////////////////////////////////////////////////////////////
// From http://www.physics.utah.edu/~detar/scidac/qio_2p3.pdf
////////////////////////////////////////////////////////////////////////////////////////
struct usqcdPropFile : Serializable {
public:
GRID_SERIALIZABLE_CLASS_MEMBERS(usqcdPropFile,
double, version,
std::string, type,
std::string, info);
usqcdPropFile() {
version=1.0;
};
};
struct usqcdSourceInfo : Serializable {
public:
GRID_SERIALIZABLE_CLASS_MEMBERS(usqcdSourceInfo,
double, version,
std::string, info);
usqcdSourceInfo() {
version=1.0;
};
};
struct usqcdPropInfo : Serializable {
public:
GRID_SERIALIZABLE_CLASS_MEMBERS(usqcdPropInfo,
double, version,
int, spin,
int, color,
std::string, info);
usqcdPropInfo() {
version=1.0;
};
};
#endif
}
#endif
#endif

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/*************************************************************************************
Grid physics library, www.github.com/paboyle/Grid
Source file: ./lib/parallelIO/NerscIO.h
Copyright (C) 2015
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 */
#include <algorithm>
#include <iostream>
#include <iomanip>
#include <fstream>
#include <map>
#include <unistd.h>
#include <sys/utsname.h>
#include <pwd.h>
namespace Grid {
///////////////////////////////////////////////////////
// Precision mapping
///////////////////////////////////////////////////////
template<class vobj> static std::string getFormatString (void)
{
std::string format;
typedef typename getPrecision<vobj>::real_scalar_type stype;
if ( sizeof(stype) == sizeof(float) ) {
format = std::string("IEEE32BIG");
}
if ( sizeof(stype) == sizeof(double) ) {
format = std::string("IEEE64BIG");
}
return format;
}
////////////////////////////////////////////////////////////////////////////////
// header specification/interpretation
////////////////////////////////////////////////////////////////////////////////
class FieldMetaData : Serializable {
public:
GRID_SERIALIZABLE_CLASS_MEMBERS(FieldMetaData,
int, nd,
std::vector<int>, dimension,
std::vector<std::string>, boundary,
int, data_start,
std::string, hdr_version,
std::string, storage_format,
double, link_trace,
double, plaquette,
uint32_t, checksum,
uint32_t, scidac_checksuma,
uint32_t, scidac_checksumb,
unsigned int, sequence_number,
std::string, data_type,
std::string, ensemble_id,
std::string, ensemble_label,
std::string, ildg_lfn,
std::string, creator,
std::string, creator_hardware,
std::string, creation_date,
std::string, archive_date,
std::string, floating_point);
FieldMetaData(void) {
nd=4;
dimension.resize(4);
boundary.resize(4);
}
};
namespace QCD {
using namespace Grid;
//////////////////////////////////////////////////////////////////////
// Bit and Physical Checksumming and QA of data
//////////////////////////////////////////////////////////////////////
inline void GridMetaData(GridBase *grid,FieldMetaData &header)
{
int nd = grid->_ndimension;
header.nd = nd;
header.dimension.resize(nd);
header.boundary.resize(nd);
for(int d=0;d<nd;d++) {
header.dimension[d] = grid->_fdimensions[d];
}
for(int d=0;d<nd;d++) {
header.boundary[d] = std::string("PERIODIC");
}
}
inline void MachineCharacteristics(FieldMetaData &header)
{
// Who
struct passwd *pw = getpwuid (getuid());
if (pw) header.creator = std::string(pw->pw_name);
// When
std::time_t t = std::time(nullptr);
std::tm tm_ = *std::localtime(&t);
std::ostringstream oss;
// oss << std::put_time(&tm_, "%c %Z");
header.creation_date = oss.str();
header.archive_date = header.creation_date;
// What
struct utsname name; uname(&name);
header.creator_hardware = std::string(name.nodename)+"-";
header.creator_hardware+= std::string(name.machine)+"-";
header.creator_hardware+= std::string(name.sysname)+"-";
header.creator_hardware+= std::string(name.release);
}
#define dump_meta_data(field, s) \
s << "BEGIN_HEADER" << std::endl; \
s << "HDR_VERSION = " << field.hdr_version << std::endl; \
s << "DATATYPE = " << field.data_type << std::endl; \
s << "STORAGE_FORMAT = " << field.storage_format << std::endl; \
for(int i=0;i<4;i++){ \
s << "DIMENSION_" << i+1 << " = " << field.dimension[i] << std::endl ; \
} \
s << "LINK_TRACE = " << std::setprecision(10) << field.link_trace << std::endl; \
s << "PLAQUETTE = " << std::setprecision(10) << field.plaquette << std::endl; \
for(int i=0;i<4;i++){ \
s << "BOUNDARY_"<<i+1<<" = " << field.boundary[i] << std::endl; \
} \
\
s << "CHECKSUM = "<< std::hex << std::setw(10) << field.checksum << std::dec<<std::endl; \
s << "SCIDAC_CHECKSUMA = "<< std::hex << std::setw(10) << field.scidac_checksuma << std::dec<<std::endl; \
s << "SCIDAC_CHECKSUMB = "<< std::hex << std::setw(10) << field.scidac_checksumb << std::dec<<std::endl; \
s << "ENSEMBLE_ID = " << field.ensemble_id << std::endl; \
s << "ENSEMBLE_LABEL = " << field.ensemble_label << std::endl; \
s << "SEQUENCE_NUMBER = " << field.sequence_number << std::endl; \
s << "CREATOR = " << field.creator << std::endl; \
s << "CREATOR_HARDWARE = "<< field.creator_hardware << std::endl; \
s << "CREATION_DATE = " << field.creation_date << std::endl; \
s << "ARCHIVE_DATE = " << field.archive_date << std::endl; \
s << "FLOATING_POINT = " << field.floating_point << std::endl; \
s << "END_HEADER" << std::endl;
template<class vobj> inline void PrepareMetaData(Lattice<vobj> & field, FieldMetaData &header)
{
GridBase *grid = field._grid;
std::string format = getFormatString<vobj>();
header.floating_point = format;
header.checksum = 0x0; // Nersc checksum unused in ILDG, Scidac
GridMetaData(grid,header);
MachineCharacteristics(header);
}
inline void GaugeStatistics(Lattice<vLorentzColourMatrixF> & data,FieldMetaData &header)
{
// How to convert data precision etc...
header.link_trace=Grid::QCD::WilsonLoops<PeriodicGimplF>::linkTrace(data);
header.plaquette =Grid::QCD::WilsonLoops<PeriodicGimplF>::avgPlaquette(data);
}
inline void GaugeStatistics(Lattice<vLorentzColourMatrixD> & data,FieldMetaData &header)
{
// How to convert data precision etc...
header.link_trace=Grid::QCD::WilsonLoops<PeriodicGimplD>::linkTrace(data);
header.plaquette =Grid::QCD::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);
}
template<> inline void PrepareMetaData<vLorentzColourMatrixD>(Lattice<vLorentzColourMatrixD> & field, FieldMetaData &header)
{
GridBase *grid = field._grid;
std::string format = getFormatString<vLorentzColourMatrixD>();
header.floating_point = format;
header.checksum = 0x0; // Nersc checksum unused in ILDG, Scidac
GridMetaData(grid,header);
GaugeStatistics(field,header);
MachineCharacteristics(header);
}
//////////////////////////////////////////////////////////////////////
// Utilities ; these are QCD aware
//////////////////////////////////////////////////////////////////////
inline void reconstruct3(LorentzColourMatrix & cm)
{
const int x=0;
const int y=1;
const int z=2;
for(int mu=0;mu<Nd;mu++){
cm(mu)()(2,x) = adj(cm(mu)()(0,y)*cm(mu)()(1,z)-cm(mu)()(0,z)*cm(mu)()(1,y)); //x= yz-zy
cm(mu)()(2,y) = adj(cm(mu)()(0,z)*cm(mu)()(1,x)-cm(mu)()(0,x)*cm(mu)()(1,z)); //y= zx-xz
cm(mu)()(2,z) = adj(cm(mu)()(0,x)*cm(mu)()(1,y)-cm(mu)()(0,y)*cm(mu)()(1,x)); //z= xy-yx
}
}
////////////////////////////////////////////////////////////////////////////////
// Some data types for intermediate storage
////////////////////////////////////////////////////////////////////////////////
template<typename vtype> using iLorentzColour2x3 = iVector<iVector<iVector<vtype, Nc>, 2>, Nd >;
typedef iLorentzColour2x3<Complex> LorentzColour2x3;
typedef iLorentzColour2x3<ComplexF> LorentzColour2x3F;
typedef iLorentzColour2x3<ComplexD> LorentzColour2x3D;
/////////////////////////////////////////////////////////////////////////////////
// Simple classes for precision conversion
/////////////////////////////////////////////////////////////////////////////////
template <class fobj, class sobj>
struct BinarySimpleUnmunger {
typedef typename getPrecision<fobj>::real_scalar_type fobj_stype;
typedef typename getPrecision<sobj>::real_scalar_type sobj_stype;
void operator()(sobj &in, fobj &out) {
// take word by word and transform accoding to the status
fobj_stype *out_buffer = (fobj_stype *)&out;
sobj_stype *in_buffer = (sobj_stype *)&in;
size_t fobj_words = sizeof(out) / sizeof(fobj_stype);
size_t sobj_words = sizeof(in) / sizeof(sobj_stype);
assert(fobj_words == sobj_words);
for (unsigned int word = 0; word < sobj_words; word++)
out_buffer[word] = in_buffer[word]; // type conversion on the fly
}
};
template <class fobj, class sobj>
struct BinarySimpleMunger {
typedef typename getPrecision<fobj>::real_scalar_type fobj_stype;
typedef typename getPrecision<sobj>::real_scalar_type sobj_stype;
void operator()(fobj &in, sobj &out) {
// take word by word and transform accoding to the status
fobj_stype *in_buffer = (fobj_stype *)&in;
sobj_stype *out_buffer = (sobj_stype *)&out;
size_t fobj_words = sizeof(in) / sizeof(fobj_stype);
size_t sobj_words = sizeof(out) / sizeof(sobj_stype);
assert(fobj_words == sobj_words);
for (unsigned int word = 0; word < sobj_words; word++)
out_buffer[word] = in_buffer[word]; // type conversion on the fly
}
};
template<class fobj,class sobj>
struct GaugeSimpleMunger{
void operator()(fobj &in, sobj &out) {
for (int mu = 0; mu < Nd; mu++) {
for (int i = 0; i < Nc; i++) {
for (int j = 0; j < Nc; j++) {
out(mu)()(i, j) = in(mu)()(i, j);
}}
}
};
};
template <class fobj, class sobj>
struct GaugeSimpleUnmunger {
void operator()(sobj &in, fobj &out) {
for (int mu = 0; mu < Nd; mu++) {
for (int i = 0; i < Nc; i++) {
for (int j = 0; j < Nc; j++) {
out(mu)()(i, j) = in(mu)()(i, j);
}}
}
};
};
template<class fobj,class sobj>
struct Gauge3x2munger{
void operator() (fobj &in,sobj &out){
for(int mu=0;mu<Nd;mu++){
for(int i=0;i<2;i++){
for(int j=0;j<3;j++){
out(mu)()(i,j) = in(mu)(i)(j);
}}
}
reconstruct3(out);
}
};
template<class fobj,class sobj>
struct Gauge3x2unmunger{
void operator() (sobj &in,fobj &out){
for(int mu=0;mu<Nd;mu++){
for(int i=0;i<2;i++){
for(int j=0;j<3;j++){
out(mu)(i)(j) = in(mu)()(i,j);
}}
}
}
};
}
}

716
lib/parallelIO/NerscIO.h
View File

@ -1,4 +1,4 @@
/*************************************************************************************
/*************************************************************************************
Grid physics library, www.github.com/paboyle/Grid
@ -6,9 +6,9 @@
Copyright (C) 2015
Author: Matt Spraggs <matthew.spraggs@gmail.com>
Author: Peter Boyle <paboyle@ph.ed.ac.uk>
Author: paboyle <paboyle@ph.ed.ac.uk>
Author: Matt Spraggs <matthew.spraggs@gmail.com>
Author: Peter Boyle <paboyle@ph.ed.ac.uk>
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
@ -25,253 +25,59 @@ Author: paboyle <paboyle@ph.ed.ac.uk>
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 */
*************************************************************************************/
/* END LEGAL */
#ifndef GRID_NERSC_IO_H
#define GRID_NERSC_IO_H
#include <algorithm>
#include <iostream>
#include <iomanip>
#include <fstream>
#include <map>
#include <unistd.h>
#include <sys/utsname.h>
#include <pwd.h>
namespace Grid {
namespace QCD {
namespace QCD {
using namespace Grid;
using namespace Grid;
////////////////////////////////////////////////////////////////////////////////
// Some data types for intermediate storage
////////////////////////////////////////////////////////////////////////////////
template<typename vtype> using iLorentzColour2x3 = iVector<iVector<iVector<vtype, Nc>, 2>, 4 >;
////////////////////////////////////////////////////////////////////////////////
// Write and read from fstream; comput header offset for payload
////////////////////////////////////////////////////////////////////////////////
class NerscIO : public BinaryIO {
public:
typedef iLorentzColour2x3<Complex> LorentzColour2x3;
typedef iLorentzColour2x3<ComplexF> LorentzColour2x3F;
typedef iLorentzColour2x3<ComplexD> LorentzColour2x3D;
////////////////////////////////////////////////////////////////////////////////
// header specification/interpretation
////////////////////////////////////////////////////////////////////////////////
class NerscField {
public:
// header strings (not in order)
int dimension[4];
std::string boundary[4];
int data_start;
std::string hdr_version;
std::string storage_format;
// Checks on data
double link_trace;
double plaquette;
uint32_t checksum;
unsigned int sequence_number;
std::string data_type;
std::string ensemble_id ;
std::string ensemble_label ;
std::string creator ;
std::string creator_hardware ;
std::string creation_date ;
std::string archive_date ;
std::string floating_point;
};
//////////////////////////////////////////////////////////////////////
// Bit and Physical Checksumming and QA of data
//////////////////////////////////////////////////////////////////////
inline void NerscGrid(GridBase *grid,NerscField &header)
{
assert(grid->_ndimension==4);
for(int d=0;d<4;d++) {
header.dimension[d] = grid->_fdimensions[d];
}
for(int d=0;d<4;d++) {
header.boundary[d] = std::string("PERIODIC");
}
}
template<class GaugeField>
inline void NerscStatistics(GaugeField & data,NerscField &header)
{
// How to convert data precision etc...
header.link_trace=Grid::QCD::WilsonLoops<PeriodicGimplR>::linkTrace(data);
header.plaquette =Grid::QCD::WilsonLoops<PeriodicGimplR>::avgPlaquette(data);
}
inline void NerscMachineCharacteristics(NerscField &header)
{
// Who
struct passwd *pw = getpwuid (getuid());
if (pw) header.creator = std::string(pw->pw_name);
// When
std::time_t t = std::time(nullptr);
std::tm tm = *std::localtime(&t);
std::ostringstream oss;
// oss << std::put_time(&tm, "%c %Z");
header.creation_date = oss.str();
header.archive_date = header.creation_date;
// What
struct utsname name; uname(&name);
header.creator_hardware = std::string(name.nodename)+"-";
header.creator_hardware+= std::string(name.machine)+"-";
header.creator_hardware+= std::string(name.sysname)+"-";
header.creator_hardware+= std::string(name.release);
}
//////////////////////////////////////////////////////////////////////
// Utilities ; these are QCD aware
//////////////////////////////////////////////////////////////////////
inline void NerscChecksum(uint32_t *buf,uint32_t buf_size_bytes,uint32_t &csum)
{
BinaryIO::Uint32Checksum(buf,buf_size_bytes,csum);
}
inline void reconstruct3(LorentzColourMatrix & cm)
{
const int x=0;
const int y=1;
const int z=2;
for(int mu=0;mu<4;mu++){
cm(mu)()(2,x) = adj(cm(mu)()(0,y)*cm(mu)()(1,z)-cm(mu)()(0,z)*cm(mu)()(1,y)); //x= yz-zy
cm(mu)()(2,y) = adj(cm(mu)()(0,z)*cm(mu)()(1,x)-cm(mu)()(0,x)*cm(mu)()(1,z)); //y= zx-xz
cm(mu)()(2,z) = adj(cm(mu)()(0,x)*cm(mu)()(1,y)-cm(mu)()(0,y)*cm(mu)()(1,x)); //z= xy-yx
static inline void truncate(std::string file){
std::ofstream fout(file,std::ios::out);
}
static inline unsigned int writeHeader(FieldMetaData &field,std::string file)
{
std::ofstream fout(file,std::ios::out|std::ios::in);
fout.seekp(0,std::ios::beg);
dump_meta_data(field, fout);
field.data_start = fout.tellp();
return field.data_start;
}
template<class fobj,class sobj>
struct NerscSimpleMunger{
// for the header-reader
static inline int readHeader(std::string file,GridBase *grid, FieldMetaData &field)
{
int offset=0;
std::map<std::string,std::string> header;
std::string line;
void operator() (fobj &in,sobj &out,uint32_t &csum){
//////////////////////////////////////////////////
// read the header
//////////////////////////////////////////////////
std::ifstream fin(file);
for(int mu=0;mu<4;mu++){
for(int i=0;i<3;i++){
for(int j=0;j<3;j++){
out(mu)()(i,j) = in(mu)()(i,j);
}}}
NerscChecksum((uint32_t *)&in,sizeof(in),csum);
};
};
getline(fin,line); // read one line and insist is
template<class fobj,class sobj>
struct NerscSimpleUnmunger{
void operator() (sobj &in,fobj &out,uint32_t &csum){
for(int mu=0;mu<Nd;mu++){
for(int i=0;i<Nc;i++){
for(int j=0;j<Nc;j++){
out(mu)()(i,j) = in(mu)()(i,j);
}}}
NerscChecksum((uint32_t *)&out,sizeof(out),csum);
};
};
template<class fobj,class sobj>
struct Nersc3x2munger{
void operator() (fobj &in,sobj &out,uint32_t &csum){
NerscChecksum((uint32_t *)&in,sizeof(in),csum);
removeWhitespace(line);
std::cout << GridLogMessage << "* " << line << std::endl;
for(int mu=0;mu<4;mu++){
for(int i=0;i<2;i++){
for(int j=0;j<3;j++){
out(mu)()(i,j) = in(mu)(i)(j);
}}
}
reconstruct3(out);
}
};
assert(line==std::string("BEGIN_HEADER"));
template<class fobj,class sobj>
struct Nersc3x2unmunger{
void operator() (sobj &in,fobj &out,uint32_t &csum){
for(int mu=0;mu<4;mu++){
for(int i=0;i<2;i++){
for(int j=0;j<3;j++){
out(mu)(i)(j) = in(mu)()(i,j);
}}
}
NerscChecksum((uint32_t *)&out,sizeof(out),csum);
}
};
////////////////////////////////////////////////////////////////////////////////
// Write and read from fstream; comput header offset for payload
////////////////////////////////////////////////////////////////////////////////
class NerscIO : public BinaryIO {
public:
static inline void truncate(std::string file){
std::ofstream fout(file,std::ios::out);
}
#define dump_nersc_header(field, s)\
s << "BEGIN_HEADER" << std::endl;\
s << "HDR_VERSION = " << field.hdr_version << std::endl;\
s << "DATATYPE = " << field.data_type << std::endl;\
s << "STORAGE_FORMAT = " << field.storage_format << std::endl;\
for(int i=0;i<4;i++){\
s << "DIMENSION_" << i+1 << " = " << field.dimension[i] << std::endl ;\
}\
s << "LINK_TRACE = " << std::setprecision(10) << field.link_trace << std::endl;\
s << "PLAQUETTE = " << std::setprecision(10) << field.plaquette << std::endl;\
for(int i=0;i<4;i++){\
s << "BOUNDARY_"<<i+1<<" = " << field.boundary[i] << std::endl;\
}\
\
s << "CHECKSUM = "<< std::hex << std::setw(10) << field.checksum << std::dec<<std::endl;\
s << "ENSEMBLE_ID = " << field.ensemble_id << std::endl;\
s << "ENSEMBLE_LABEL = " << field.ensemble_label << std::endl;\
s << "SEQUENCE_NUMBER = " << field.sequence_number << std::endl;\
s << "CREATOR = " << field.creator << std::endl;\
s << "CREATOR_HARDWARE = "<< field.creator_hardware << std::endl;\
s << "CREATION_DATE = " << field.creation_date << std::endl;\
s << "ARCHIVE_DATE = " << field.archive_date << std::endl;\
s << "FLOATING_POINT = " << field.floating_point << std::endl;\
s << "END_HEADER" << std::endl;
static inline unsigned int writeHeader(NerscField &field,std::string file)
{
std::ofstream fout(file,std::ios::out|std::ios::in);
fout.seekp(0,std::ios::beg);
dump_nersc_header(field, fout);
field.data_start = fout.tellp();
return field.data_start;
}
// for the header-reader
static inline int readHeader(std::string file,GridBase *grid, NerscField &field)
{
int offset=0;
std::map<std::string,std::string> header;
std::string line;
//////////////////////////////////////////////////
// read the header
//////////////////////////////////////////////////
std::ifstream fin(file);
getline(fin,line); // read one line and insist is
removeWhitespace(line);
std::cout << GridLogMessage << "* " << line << std::endl;
assert(line==std::string("BEGIN_HEADER"));
do {
getline(fin,line); // read one line
std::cout << GridLogMessage << "* "<<line<< std::endl;
int eq = line.find("=");
if(eq >0) {
do {
getline(fin,line); // read one line
std::cout << GridLogMessage << "* "<<line<< std::endl;
int eq = line.find("=");
if(eq >0) {
std::string key=line.substr(0,eq);
std::string val=line.substr(eq+1);
removeWhitespace(key);
@ -279,275 +85,269 @@ static inline int readHeader(std::string file,GridBase *grid, NerscField &field
header[key] = val;
}
} while( line.find("END_HEADER") == std::string::npos );
} while( line.find("END_HEADER") == std::string::npos );
field.data_start = fin.tellg();
field.data_start = fin.tellg();
//////////////////////////////////////////////////
// chomp the values
//////////////////////////////////////////////////
field.hdr_version = header["HDR_VERSION"];
field.data_type = header["DATATYPE"];
field.storage_format = header["STORAGE_FORMAT"];
//////////////////////////////////////////////////
// chomp the values
//////////////////////////////////////////////////
field.hdr_version = header["HDR_VERSION"];
field.data_type = header["DATATYPE"];
field.storage_format = header["STORAGE_FORMAT"];
field.dimension[0] = std::stol(header["DIMENSION_1"]);
field.dimension[1] = std::stol(header["DIMENSION_2"]);
field.dimension[2] = std::stol(header["DIMENSION_3"]);
field.dimension[3] = std::stol(header["DIMENSION_4"]);
field.dimension[0] = std::stol(header["DIMENSION_1"]);
field.dimension[1] = std::stol(header["DIMENSION_2"]);
field.dimension[2] = std::stol(header["DIMENSION_3"]);
field.dimension[3] = std::stol(header["DIMENSION_4"]);
assert(grid->_ndimension == 4);
for(int d=0;d<4;d++){
assert(grid->_fdimensions[d]==field.dimension[d]);
}
field.link_trace = std::stod(header["LINK_TRACE"]);
field.plaquette = std::stod(header["PLAQUETTE"]);
field.boundary[0] = header["BOUNDARY_1"];
field.boundary[1] = header["BOUNDARY_2"];
field.boundary[2] = header["BOUNDARY_3"];
field.boundary[3] = header["BOUNDARY_4"];
field.checksum = std::stoul(header["CHECKSUM"],0,16);
field.ensemble_id = header["ENSEMBLE_ID"];
field.ensemble_label = header["ENSEMBLE_LABEL"];
field.sequence_number = std::stol(header["SEQUENCE_NUMBER"]);
field.creator = header["CREATOR"];
field.creator_hardware = header["CREATOR_HARDWARE"];
field.creation_date = header["CREATION_DATE"];
field.archive_date = header["ARCHIVE_DATE"];
field.floating_point = header["FLOATING_POINT"];
return field.data_start;
}
/////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
// Now the meat: the object readers
/////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
#define PARALLEL_READ
#define PARALLEL_WRITE
template<class vsimd>
static inline void readConfiguration(Lattice<iLorentzColourMatrix<vsimd> > &Umu,NerscField& header,std::string file)
{
typedef Lattice<iLorentzColourMatrix<vsimd> > GaugeField;
GridBase *grid = Umu._grid;
int offset = readHeader(file,Umu._grid,header);
NerscField clone(header);
std::string format(header.floating_point);
int ieee32big = (format == std::string("IEEE32BIG"));
int ieee32 = (format == std::string("IEEE32"));
int ieee64big = (format == std::string("IEEE64BIG"));
int ieee64 = (format == std::string("IEEE64"));
uint32_t csum;
// depending on datatype, set up munger;
// munger is a function of <floating point, Real, data_type>
if ( header.data_type == std::string("4D_SU3_GAUGE") ) {
if ( ieee32 || ieee32big ) {
#ifdef PARALLEL_READ
csum=BinaryIO::readObjectParallel<iLorentzColourMatrix<vsimd>, LorentzColour2x3F>
(Umu,file,Nersc3x2munger<LorentzColour2x3F,LorentzColourMatrix>(), offset,format);
#else
csum=BinaryIO::readObjectSerial<iLorentzColourMatrix<vsimd>, LorentzColour2x3F>
(Umu,file,Nersc3x2munger<LorentzColour2x3F,LorentzColourMatrix>(), offset,format);
#endif
assert(grid->_ndimension == 4);
for(int d=0;d<4;d++){
assert(grid->_fdimensions[d]==field.dimension[d]);
}
if ( ieee64 || ieee64big ) {
#ifdef PARALLEL_READ
csum=BinaryIO::readObjectParallel<iLorentzColourMatrix<vsimd>, LorentzColour2x3D>
(Umu,file,Nersc3x2munger<LorentzColour2x3D,LorentzColourMatrix>(),offset,format);
#else
csum=BinaryIO::readObjectSerial<iLorentzColourMatrix<vsimd>, LorentzColour2x3D>
(Umu,file,Nersc3x2munger<LorentzColour2x3D,LorentzColourMatrix>(),offset,format);
#endif
field.link_trace = std::stod(header["LINK_TRACE"]);
field.plaquette = std::stod(header["PLAQUETTE"]);
field.boundary[0] = header["BOUNDARY_1"];
field.boundary[1] = header["BOUNDARY_2"];
field.boundary[2] = header["BOUNDARY_3"];
field.boundary[3] = header["BOUNDARY_4"];
field.checksum = std::stoul(header["CHECKSUM"],0,16);
field.ensemble_id = header["ENSEMBLE_ID"];
field.ensemble_label = header["ENSEMBLE_LABEL"];
field.sequence_number = std::stol(header["SEQUENCE_NUMBER"]);
field.creator = header["CREATOR"];
field.creator_hardware = header["CREATOR_HARDWARE"];
field.creation_date = header["CREATION_DATE"];
field.archive_date = header["ARCHIVE_DATE"];
field.floating_point = header["FLOATING_POINT"];
return field.data_start;
}
} else if ( header.data_type == std::string("4D_SU3_GAUGE_3x3") ) {
if ( ieee32 || ieee32big ) {
#ifdef PARALLEL_READ
csum=BinaryIO::readObjectParallel<iLorentzColourMatrix<vsimd>,LorentzColourMatrixF>
(Umu,file,NerscSimpleMunger<LorentzColourMatrixF,LorentzColourMatrix>(),offset,format);
#else
csum=BinaryIO::readObjectSerial<iLorentzColourMatrix<vsimd>,LorentzColourMatrixF>
(Umu,file,NerscSimpleMunger<LorentzColourMatrixF,LorentzColourMatrix>(),offset,format);
#endif
/////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
// Now the meat: the object readers
/////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
template<class vsimd>
static inline void readConfiguration(Lattice<iLorentzColourMatrix<vsimd> > &Umu,
FieldMetaData& header,
std::string file)
{
typedef Lattice<iLorentzColourMatrix<vsimd> > GaugeField;
GridBase *grid = Umu._grid;
int offset = readHeader(file,Umu._grid,header);
FieldMetaData clone(header);
std::string format(header.floating_point);
int ieee32big = (format == std::string("IEEE32BIG"));
int ieee32 = (format == std::string("IEEE32"));
int ieee64big = (format == std::string("IEEE64BIG"));
int ieee64 = (format == std::string("IEEE64"));
uint32_t nersc_csum,scidac_csuma,scidac_csumb;
// depending on datatype, set up munger;
// 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>
(Umu,file,Gauge3x2munger<LorentzColour2x3F,LorentzColourMatrix>(), offset,format,
nersc_csum,scidac_csuma,scidac_csumb);
}
if ( ieee64 || ieee64big ) {
BinaryIO::readLatticeObject<iLorentzColourMatrix<vsimd>, 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>
(Umu,file,GaugeSimpleMunger<LorentzColourMatrixF,LorentzColourMatrix>(),offset,format,
nersc_csum,scidac_csuma,scidac_csumb);
}
if ( ieee64 || ieee64big ) {
BinaryIO::readLatticeObject<iLorentzColourMatrix<vsimd>,LorentzColourMatrixD>
(Umu,file,GaugeSimpleMunger<LorentzColourMatrixD,LorentzColourMatrix>(),offset,format,
nersc_csum,scidac_csuma,scidac_csumb);
}
} else {
assert(0);
}
GaugeStatistics(Umu,clone);
std::cout<<GridLogMessage <<"NERSC Configuration "<<file<<" checksum "<<std::hex<<nersc_csum<< std::dec
<<" header "<<std::hex<<header.checksum<<std::dec <<std::endl;
std::cout<<GridLogMessage <<"NERSC Configuration "<<file<<" plaquette "<<clone.plaquette
<<" header "<<header.plaquette<<std::endl;
std::cout<<GridLogMessage <<"NERSC Configuration "<<file<<" link_trace "<<clone.link_trace
<<" header "<<header.link_trace<<std::endl;
if ( fabs(clone.plaquette -header.plaquette ) >= 1.0e-5 ) {
std::cout << " Plaquette mismatch "<<std::endl;
std::cout << Umu[0]<<std::endl;
std::cout << Umu[1]<<std::endl;
}
if ( nersc_csum != header.checksum ) {
std::cerr << " checksum mismatch " << std::endl;
std::cerr << " plaqs " << clone.plaquette << " " << header.plaquette << std::endl;
std::cerr << " trace " << clone.link_trace<< " " << header.link_trace<< std::endl;
std::cerr << " nersc_csum " <<std::hex<< nersc_csum << " " << header.checksum<< std::dec<< std::endl;
exit(0);
}
assert(fabs(clone.plaquette -header.plaquette ) < 1.0e-5 );
assert(fabs(clone.link_trace-header.link_trace) < 1.0e-6 );
assert(nersc_csum == header.checksum );
std::cout<<GridLogMessage <<"NERSC Configuration "<<file<< " and plaquette, link trace, and checksum agree"<<std::endl;
}
if ( ieee64 || ieee64big ) {
#ifdef PARALLEL_READ
csum=BinaryIO::readObjectParallel<iLorentzColourMatrix<vsimd>,LorentzColourMatrixD>
(Umu,file,NerscSimpleMunger<LorentzColourMatrixD,LorentzColourMatrix>(),offset,format);
#else
csum=BinaryIO::readObjectSerial<iLorentzColourMatrix<vsimd>,LorentzColourMatrixD>
(Umu,file,NerscSimpleMunger<LorentzColourMatrixD,LorentzColourMatrix>(),offset,format);
#endif
}
} else {
assert(0);
}
NerscStatistics<GaugeField>(Umu,clone);
template<class vsimd>
static inline void writeConfiguration(Lattice<iLorentzColourMatrix<vsimd> > &Umu,
std::string file,
int two_row,
int bits32)
{
typedef Lattice<iLorentzColourMatrix<vsimd> > GaugeField;
std::cout<<GridLogMessage <<"NERSC Configuration "<<file<<" checksum "<<std::hex<< csum<< std::dec
<<" header "<<std::hex<<header.checksum<<std::dec <<std::endl;
std::cout<<GridLogMessage <<"NERSC Configuration "<<file<<" plaquette "<<clone.plaquette
<<" header "<<header.plaquette<<std::endl;
std::cout<<GridLogMessage <<"NERSC Configuration "<<file<<" link_trace "<<clone.link_trace
<<" header "<<header.link_trace<<std::endl;
assert(fabs(clone.plaquette -header.plaquette ) < 1.0e-5 );
assert(fabs(clone.link_trace-header.link_trace) < 1.0e-6 );
assert(csum == header.checksum );
typedef iLorentzColourMatrix<vsimd> vobj;
typedef typename vobj::scalar_object sobj;
std::cout<<GridLogMessage <<"NERSC Configuration "<<file<< " and plaquette, link trace, and checksum agree"<<std::endl;
}
FieldMetaData header;
///////////////////////////////////////////
// Following should become arguments
///////////////////////////////////////////
header.sequence_number = 1;
header.ensemble_id = "UKQCD";
header.ensemble_label = "DWF";
template<class vsimd>
static inline void writeConfiguration(Lattice<iLorentzColourMatrix<vsimd> > &Umu,std::string file, int two_row,int bits32)
{
typedef Lattice<iLorentzColourMatrix<vsimd> > GaugeField;
typedef iLorentzColourMatrix<vsimd> vobj;
typedef typename vobj::scalar_object sobj;
// Following should become arguments
NerscField header;
header.sequence_number = 1;
header.ensemble_id = "UKQCD";
header.ensemble_label = "DWF";
typedef LorentzColourMatrixD fobj3D;
typedef LorentzColour2x3D fobj2D;
typedef LorentzColourMatrixF fobj3f;
typedef LorentzColour2x3F fobj2f;
GridBase *grid = Umu._grid;
NerscGrid(grid,header);
NerscStatistics<GaugeField>(Umu,header);
NerscMachineCharacteristics(header);
uint32_t csum;
int offset;
typedef LorentzColourMatrixD fobj3D;
typedef LorentzColour2x3D fobj2D;
truncate(file);
GridBase *grid = Umu._grid;
if ( two_row ) {
GridMetaData(grid,header);
assert(header.nd==4);
GaugeStatistics(Umu,header);
MachineCharacteristics(header);
header.floating_point = std::string("IEEE64BIG");
header.data_type = std::string("4D_SU3_GAUGE");
Nersc3x2unmunger<fobj2D,sobj> munge;
BinaryIO::Uint32Checksum<vobj,fobj2D>(Umu, munge,header.checksum);
offset = writeHeader(header,file);
#ifdef PARALLEL_WRITE
csum=BinaryIO::writeObjectParallel<vobj,fobj2D>(Umu,file,munge,offset,header.floating_point);
#else
csum=BinaryIO::writeObjectSerial<vobj,fobj2D>(Umu,file,munge,offset,header.floating_point);
#endif
int offset;
truncate(file);
} else {
header.floating_point = std::string("IEEE64BIG");
header.data_type = std::string("4D_SU3_GAUGE_3x3");
NerscSimpleUnmunger<fobj3D,sobj> munge;
BinaryIO::Uint32Checksum<vobj,fobj3D>(Umu, munge,header.checksum);
offset = writeHeader(header,file);
#ifdef PARALLEL_WRITE
csum=BinaryIO::writeObjectParallel<vobj,fobj3D>(Umu,file,munge,offset,header.floating_point);
#else
csum=BinaryIO::writeObjectSerial<vobj,fobj3D>(Umu,file,munge,offset,header.floating_point);
#endif
}
// 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;
offset = writeHeader(header,file);
std::cout<<GridLogMessage <<"Written NERSC Configuration "<<file<< " checksum "<<std::hex<<csum<< std::dec<<" plaq "<< header.plaquette <<std::endl;
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;
writeHeader(header,file);
}
std::cout<<GridLogMessage <<"Written NERSC Configuration on "<< file << " checksum "
<<std::hex<<header.checksum
<<std::dec<<" plaq "<< header.plaquette <<std::endl;
}
///////////////////////////////
// RNG state
///////////////////////////////
static inline void writeRNGState(GridSerialRNG &serial,GridParallelRNG &parallel,std::string file)
{
typedef typename GridParallelRNG::RngStateType RngStateType;
///////////////////////////////
// RNG state
///////////////////////////////
static inline void writeRNGState(GridSerialRNG &serial,GridParallelRNG &parallel,std::string file)
{
typedef typename GridParallelRNG::RngStateType RngStateType;
// Following should become arguments
FieldMetaData header;
header.sequence_number = 1;
header.ensemble_id = "UKQCD";
header.ensemble_label = "DWF";
// Following should become arguments
NerscField header;
header.sequence_number = 1;
header.ensemble_id = "UKQCD";
header.ensemble_label = "DWF";
GridBase *grid = parallel._grid;
GridBase *grid = parallel._grid;
GridMetaData(grid,header);
assert(header.nd==4);
header.link_trace=0.0;
header.plaquette=0.0;
MachineCharacteristics(header);
NerscGrid(grid,header);
header.link_trace=0.0;
header.plaquette=0.0;
NerscMachineCharacteristics(header);
uint32_t csum;
int offset;
int offset;
#ifdef RNG_RANLUX
header.floating_point = std::string("UINT64");
header.data_type = std::string("RANLUX48");
header.floating_point = std::string("UINT64");
header.data_type = std::string("RANLUX48");
#endif
#ifdef RNG_MT19937
header.floating_point = std::string("UINT32");
header.data_type = std::string("MT19937");
header.floating_point = std::string("UINT32");
header.data_type = std::string("MT19937");
#endif
#ifdef RNG_SITMO
header.floating_point = std::string("UINT64");
header.data_type = std::string("SITMO");
header.floating_point = std::string("UINT64");
header.data_type = std::string("SITMO");
#endif
truncate(file);
offset = writeHeader(header,file);
csum=BinaryIO::writeRNGSerial(serial,parallel,file,offset);
header.checksum = csum;
offset = writeHeader(header,file);
truncate(file);
offset = writeHeader(header,file);
uint32_t nersc_csum,scidac_csuma,scidac_csumb;
BinaryIO::writeRNG(serial,parallel,file,offset,nersc_csum,scidac_csuma,scidac_csumb);
header.checksum = nersc_csum;
offset = writeHeader(header,file);
std::cout<<GridLogMessage <<"Written NERSC RNG STATE "<<file<< " checksum "<<std::hex<<csum<<std::dec<<std::endl;
std::cout<<GridLogMessage
<<"Written NERSC RNG STATE "<<file<< " checksum "
<<std::hex<<header.checksum
<<std::dec<<std::endl;
}
}
static inline void readRNGState(GridSerialRNG &serial,GridParallelRNG & parallel,NerscField& header,std::string file)
{
typedef typename GridParallelRNG::RngStateType RngStateType;
static inline void readRNGState(GridSerialRNG &serial,GridParallelRNG & parallel,FieldMetaData& header,std::string file)
{
typedef typename GridParallelRNG::RngStateType RngStateType;
GridBase *grid = parallel._grid;
GridBase *grid = parallel._grid;
int offset = readHeader(file,grid,header);
int offset = readHeader(file,grid,header);
NerscField clone(header);
FieldMetaData clone(header);
std::string format(header.floating_point);
std::string data_type(header.data_type);
std::string format(header.floating_point);
std::string data_type(header.data_type);
#ifdef RNG_RANLUX
assert(format == std::string("UINT64"));
assert(data_type == std::string("RANLUX48"));
assert(format == std::string("UINT64"));
assert(data_type == std::string("RANLUX48"));
#endif
#ifdef RNG_MT19937
assert(format == std::string("UINT32"));
assert(data_type == std::string("MT19937"));
assert(format == std::string("UINT32"));
assert(data_type == std::string("MT19937"));
#endif
#ifdef RNG_SITMO
assert(format == std::string("UINT64"));
assert(data_type == std::string("SITMO"));
assert(format == std::string("UINT64"));
assert(data_type == std::string("SITMO"));
#endif
// depending on datatype, set up munger;
// munger is a function of <floating point, Real, data_type>
uint32_t csum=BinaryIO::readRNGSerial(serial,parallel,file,offset);
// depending on datatype, set up munger;
// munger is a function of <floating point, Real, data_type>
uint32_t nersc_csum,scidac_csuma,scidac_csumb;
BinaryIO::readRNG(serial,parallel,file,offset,nersc_csum,scidac_csuma,scidac_csumb);
assert(csum == header.checksum );
if ( nersc_csum != header.checksum ) {
std::cerr << "checksum mismatch "<<std::hex<< nersc_csum <<" "<<header.checksum<<std::dec<<std::endl;
exit(0);
}
assert(nersc_csum == header.checksum );
std::cout<<GridLogMessage <<"Read NERSC RNG file "<<file<< " format "<< data_type <<std::endl;
}
std::cout<<GridLogMessage <<"Read NERSC RNG file "<<file<< " format "<< data_type <<std::endl;
}
};
};
}}
}}
#endif

5
lib/perfmon/PerfCount.h
View File

@ -205,13 +205,14 @@ public:
void Stop(void) {
count=0;
cycles=0;
size_t ign;
#ifdef __linux__
ssize_t ign;
if ( fd!= -1) {
::ioctl(fd, PERF_EVENT_IOC_DISABLE, 0);
::ioctl(cyclefd, PERF_EVENT_IOC_DISABLE, 0);
ign=::read(fd, &count, sizeof(long long));
ign=::read(cyclefd, &cycles, sizeof(long long));
ign+=::read(cyclefd, &cycles, sizeof(long long));
assert(ign=2*sizeof(long long));
}
elapsed = cyclecount() - begin;
#else

124
lib/qcd/LatticeTheories.h Normal file
View File

@ -0,0 +1,124 @@
/*************************************************************************************
Grid physics library, www.github.com/paboyle/Grid
Source file: ./lib/qcd/QCD.h
Copyright (C) 2015
Author: Azusa Yamaguchi <ayamaguc@staffmail.ed.ac.uk>
Author: Peter Boyle <paboyle@ph.ed.ac.uk>
Author: Peter Boyle <peterboyle@Peters-MacBook-Pro-2.local>
Author: neo <cossu@post.kek.jp>
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 */
#ifndef GRID_LT_H
#define GRID_LT_H
namespace Grid{
// First steps in the complete generalization of the Physics part
// Design not final
namespace LatticeTheories {
template <int Dimensions>
struct LatticeTheory {
static const int Nd = Dimensions;
static const int Nds = Dimensions * 2; // double stored field
template <typename vtype>
using iSinglet = iScalar<iScalar<iScalar<vtype> > >;
};
template <int Dimensions, int Colours>
struct LatticeGaugeTheory : public LatticeTheory<Dimensions> {
static const int Nds = Dimensions * 2;
static const int Nd = Dimensions;
static const int Nc = Colours;
template <typename vtype>
using iColourMatrix = iScalar<iScalar<iMatrix<vtype, Nc> > >;
template <typename vtype>
using iLorentzColourMatrix = iVector<iScalar<iMatrix<vtype, Nc> >, Nd>;
template <typename vtype>
using iDoubleStoredColourMatrix = iVector<iScalar<iMatrix<vtype, Nc> >, Nds>;
template <typename vtype>
using iColourVector = iScalar<iScalar<iVector<vtype, Nc> > >;
};
template <int Dimensions, int Colours, int Spin>
struct FermionicLatticeGaugeTheory
: public LatticeGaugeTheory<Dimensions, Colours> {
static const int Nd = Dimensions;
static const int Nds = Dimensions * 2;
static const int Nc = Colours;
static const int Ns = Spin;
template <typename vtype>
using iSpinMatrix = iScalar<iMatrix<iScalar<vtype>, Ns> >;
template <typename vtype>
using iSpinColourMatrix = iScalar<iMatrix<iMatrix<vtype, Nc>, Ns> >;
template <typename vtype>
using iSpinVector = iScalar<iVector<iScalar<vtype>, Ns> >;
template <typename vtype>
using iSpinColourVector = iScalar<iVector<iVector<vtype, Nc>, Ns> >;
// These 2 only if Spin is a multiple of 2
static const int Nhs = Spin / 2;
template <typename vtype>
using iHalfSpinVector = iScalar<iVector<iScalar<vtype>, Nhs> >;
template <typename vtype>
using iHalfSpinColourVector = iScalar<iVector<iVector<vtype, Nc>, Nhs> >;
//tests
typedef iColourMatrix<Complex> ColourMatrix;
typedef iColourMatrix<ComplexF> ColourMatrixF;
typedef iColourMatrix<ComplexD> ColourMatrixD;
};
// Examples, not complete now.
struct QCD : public FermionicLatticeGaugeTheory<4, 3, 4> {
static const int Xp = 0;
static const int Yp = 1;
static const int Zp = 2;
static const int Tp = 3;
static const int Xm = 4;
static const int Ym = 5;
static const int Zm = 6;
static const int Tm = 7;
typedef FermionicLatticeGaugeTheory FLGT;
typedef FLGT::iSpinMatrix<Complex > SpinMatrix;
typedef FLGT::iSpinMatrix<ComplexF > SpinMatrixF;
typedef FLGT::iSpinMatrix<ComplexD > SpinMatrixD;
};
struct QED : public FermionicLatticeGaugeTheory<4, 1, 4> {//fill
};
template <int Dimensions>
struct Scalar : public LatticeTheory<Dimensions> {};
}; // LatticeTheories
} // Grid
#endif

57
lib/qcd/QCD.h
View File

@ -32,9 +32,12 @@ Author: paboyle <paboyle@ph.ed.ac.uk>
#ifndef GRID_QCD_BASE_H
#define GRID_QCD_BASE_H
namespace Grid{
namespace QCD {
static const int Xdir = 0;
static const int Ydir = 1;
static const int Zdir = 2;
static const int Tdir = 3;
static const int Xp = 0;
static const int Yp = 1;
@ -354,36 +357,36 @@ namespace QCD {
//////////////////////////////////////////////
template<class vobj>
void pokeColour(Lattice<vobj> &lhs,
const Lattice<decltype(peekIndex<ColourIndex>(lhs._odata[0],0))> & rhs,
int i)
const Lattice<decltype(peekIndex<ColourIndex>(lhs._odata[0],0))> & rhs,
int i)
{
PokeIndex<ColourIndex>(lhs,rhs,i);
}
template<class vobj>
void pokeColour(Lattice<vobj> &lhs,
const Lattice<decltype(peekIndex<ColourIndex>(lhs._odata[0],0,0))> & rhs,
int i,int j)
const Lattice<decltype(peekIndex<ColourIndex>(lhs._odata[0],0,0))> & rhs,
int i,int j)
{
PokeIndex<ColourIndex>(lhs,rhs,i,j);
}
template<class vobj>
void pokeSpin(Lattice<vobj> &lhs,
const Lattice<decltype(peekIndex<SpinIndex>(lhs._odata[0],0))> & rhs,
int i)
const Lattice<decltype(peekIndex<SpinIndex>(lhs._odata[0],0))> & rhs,
int i)
{
PokeIndex<SpinIndex>(lhs,rhs,i);
}
template<class vobj>
void pokeSpin(Lattice<vobj> &lhs,
const Lattice<decltype(peekIndex<SpinIndex>(lhs._odata[0],0,0))> & rhs,
int i,int j)
const Lattice<decltype(peekIndex<SpinIndex>(lhs._odata[0],0,0))> & rhs,
int i,int j)
{
PokeIndex<SpinIndex>(lhs,rhs,i,j);
}
template<class vobj>
void pokeLorentz(Lattice<vobj> &lhs,
const Lattice<decltype(peekIndex<LorentzIndex>(lhs._odata[0],0))> & rhs,
int i)
const Lattice<decltype(peekIndex<LorentzIndex>(lhs._odata[0],0))> & rhs,
int i)
{
PokeIndex<LorentzIndex>(lhs,rhs,i);
}
@ -492,6 +495,38 @@ namespace QCD {
} //namespace QCD
} // Grid
/*
<<<<<<< HEAD
#include <Grid/qcd/utils/SpaceTimeGrid.h>
#include <Grid/qcd/spin/Dirac.h>
#include <Grid/qcd/spin/TwoSpinor.h>
#include <Grid/qcd/utils/LinalgUtils.h>
#include <Grid/qcd/utils/CovariantCshift.h>
// Include representations
#include <Grid/qcd/utils/SUn.h>
#include <Grid/qcd/utils/SUnAdjoint.h>
#include <Grid/qcd/utils/SUnTwoIndex.h>
#include <Grid/qcd/representations/hmc_types.h>
// Scalar field
#include <Grid/qcd/utils/ScalarObjs.h>
#include <Grid/qcd/action/Actions.h>
#include <Grid/qcd/smearing/Smearing.h>
#include <Grid/qcd/hmc/integrators/Integrator.h>
#include <Grid/qcd/hmc/integrators/Integrator_algorithm.h>
#include <Grid/qcd/observables/hmc_observable.h>
#include <Grid/qcd/hmc/HMC.h>
//#include <Grid/qcd/modules/mods.h>
=======
>>>>>>> develop
*/
#endif

134
lib/qcd/action/ActionBase.h
View File

@ -4,10 +4,11 @@ Grid physics library, www.github.com/paboyle/Grid
Source file: ./lib/qcd/action/ActionBase.h
Copyright (C) 2015
Copyright (C) 2015-2016
Author: Peter Boyle <paboyle@ph.ed.ac.uk>
Author: neo <cossu@post.kek.jp>
Author: Guido Cossu <guido.cossu@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
@ -27,128 +28,29 @@ See the full license in the file "LICENSE" in the top level distribution
directory
*************************************************************************************/
/* END LEGAL */
#ifndef QCD_ACTION_BASE
#define QCD_ACTION_BASE
#ifndef ACTION_BASE_H
#define ACTION_BASE_H
namespace Grid {
namespace QCD {
template <class GaugeField>
class Action {
template <class GaugeField >
class Action
{
public:
bool is_smeared = false;
// Boundary conditions? // Heatbath?
virtual void refresh(const GaugeField& U,
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 ~Action(){};
// Heatbath?
virtual void refresh(const GaugeField& U, 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
virtual std::string LogParameters() = 0; // prints action parameters
virtual ~Action(){}
};
// Indexing of tuple types
template <class T, class Tuple>
struct Index;
template <class T, class... Types>
struct Index<T, std::tuple<T, Types...>> {
static const std::size_t value = 0;
};
template <class T, class U, class... Types>
struct Index<T, std::tuple<U, Types...>> {
static const std::size_t value = 1 + Index<T, std::tuple<Types...>>::value;
};
/*
template <class GaugeField>
struct ActionLevel {
public:
typedef Action<GaugeField>*
ActPtr; // now force the same colours as the rest of the code
//Add supported representations here
unsigned int multiplier;
std::vector<ActPtr> actions;
ActionLevel(unsigned int mul = 1) : actions(0), multiplier(mul) {
assert(mul >= 1);
};
void push_back(ActPtr ptr) { actions.push_back(ptr); }
};
*/
template <class GaugeField, class Repr = NoHirep >
struct ActionLevel {
public:
unsigned int multiplier;
// Fundamental repr actions separated because of the smearing
typedef Action<GaugeField>* ActPtr;
// construct a tuple of vectors of the actions for the corresponding higher
// representation fields
typedef typename AccessTypes<Action, Repr>::VectorCollection action_collection;
action_collection actions_hirep;
typedef typename AccessTypes<Action, Repr>::FieldTypeCollection action_hirep_types;
std::vector<ActPtr>& actions;
// Temporary conversion between ActionLevel and ActionLevelHirep
//ActionLevelHirep(ActionLevel<GaugeField>& AL ):actions(AL.actions), multiplier(AL.multiplier){}
ActionLevel(unsigned int mul = 1) : actions(std::get<0>(actions_hirep)), multiplier(mul) {
// initialize the hirep vectors to zero.
//apply(this->resize, actions_hirep, 0); //need a working resize
assert(mul >= 1);
};
//void push_back(ActPtr ptr) { actions.push_back(ptr); }
template < class Field >
void push_back(Action<Field>* ptr) {
// insert only in the correct vector
std::get< Index < Field, action_hirep_types>::value >(actions_hirep).push_back(ptr);
};
template < class ActPtr>
static void resize(ActPtr ap, unsigned int n){
ap->resize(n);
}
//template <std::size_t I>
//auto getRepresentation(Repr& R)->decltype(std::get<I>(R).U) {return std::get<I>(R).U;}
// Loop on tuple for a callable function
template <std::size_t I = 1, typename Callable, typename ...Args>
inline typename std::enable_if<I == std::tuple_size<action_collection>::value, void>::type apply(
Callable, Repr& R,Args&...) const {}
template <std::size_t I = 1, typename Callable, typename ...Args>
inline typename std::enable_if<I < std::tuple_size<action_collection>::value, void>::type apply(
Callable fn, Repr& R, Args&... arguments) const {
fn(std::get<I>(actions_hirep), std::get<I>(R.rep), arguments...);
apply<I + 1>(fn, R, arguments...);
}
};
//template <class GaugeField>
//using ActionSet = std::vector<ActionLevel<GaugeField> >;
template <class GaugeField, class R>
using ActionSet = std::vector<ActionLevel<GaugeField, R> >;
}
}
#endif
#endif // ACTION_BASE_H

16
lib/qcd/action/ActionCore.h
View File

@ -31,15 +31,31 @@ directory
#define QCD_ACTION_CORE
#include <Grid/qcd/action/ActionBase.h>
#include <Grid/qcd/action/ActionSet.h>
#include <Grid/qcd/action/ActionParams.h>
////////////////////////////////////////////
// Gauge Actions
////////////////////////////////////////////
#include <Grid/qcd/action/gauge/Gauge.h>
////////////////////////////////////////////
// Fermion prereqs
////////////////////////////////////////////
#include <Grid/qcd/action/fermion/FermionCore.h>
////////////////////////////////////////////
// Scalar Actions
////////////////////////////////////////////
#include <Grid/qcd/action/scalar/Scalar.h>
////////////////////////////////////////////
// Utility functions
////////////////////////////////////////////
#include <Grid/qcd/utils/Metric.h>
#include <Grid/qcd/utils/CovariantLaplacian.h>
#endif

113
lib/qcd/action/ActionParams.h
View File

@ -1,67 +1,92 @@
/*************************************************************************************
/*************************************************************************************
Grid physics library, www.github.com/paboyle/Grid
Grid physics library, www.github.com/paboyle/Grid
Source file: ./lib/qcd/action/ActionParams.h
Source file: ./lib/qcd/action/ActionParams.h
Copyright (C) 2015
Copyright (C) 2015
Author: Peter Boyle <paboyle@ph.ed.ac.uk>
Author: paboyle <paboyle@ph.ed.ac.uk>
Author: Guido Cossu <guido.cossu@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 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.
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.
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 */
See the full license in the file "LICENSE" in the top level distribution directory
*************************************************************************************/
/* END LEGAL */
#ifndef GRID_QCD_ACTION_PARAMS_H
#define GRID_QCD_ACTION_PARAMS_H
namespace Grid {
namespace QCD {
// These can move into a params header and be given MacroMagic serialisation
struct GparityWilsonImplParams {
bool overlapCommsCompute;
std::vector<int> twists;
GparityWilsonImplParams () : twists(Nd,0), overlapCommsCompute(false) {};
// These can move into a params header and be given MacroMagic serialisation
struct GparityWilsonImplParams {
bool overlapCommsCompute;
std::vector<int> twists;
GparityWilsonImplParams() : twists(Nd, 0), overlapCommsCompute(false){};
};
struct WilsonImplParams {
bool overlapCommsCompute;
std::vector<Complex> boundary_phases;
WilsonImplParams() : overlapCommsCompute(false) {
boundary_phases.resize(Nd, 1.0);
};
WilsonImplParams(const std::vector<Complex> phi)
: boundary_phases(phi), overlapCommsCompute(false) {}
};
struct WilsonImplParams {
bool overlapCommsCompute;
WilsonImplParams() : overlapCommsCompute(false) {};
};
struct StaggeredImplParams {
StaggeredImplParams() {};
};
struct OneFlavourRationalParams : Serializable {
GRID_SERIALIZABLE_CLASS_MEMBERS(OneFlavourRationalParams,
RealD, lo,
RealD, hi,
int, MaxIter,
RealD, tolerance,
int, degree,
int, precision);
// MaxIter and tolerance, vectors??
// constructor
OneFlavourRationalParams( RealD _lo = 0.0,
RealD _hi = 1.0,
int _maxit = 1000,
RealD tol = 1.0e-8,
int _degree = 10,
int _precision = 64)
: lo(_lo),
hi(_hi),
MaxIter(_maxit),
tolerance(tol),
degree(_degree),
precision(_precision){};
};
}
}
struct StaggeredImplParams {
StaggeredImplParams() {};
};
struct OneFlavourRationalParams {
RealD lo;
RealD hi;
int MaxIter; // Vector?
RealD tolerance; // Vector?
int degree=10;
int precision=64;
OneFlavourRationalParams (RealD _lo,RealD _hi,int _maxit,RealD tol=1.0e-8,int _degree = 10,int _precision=64) :
lo(_lo), hi(_hi), MaxIter(_maxit), tolerance(tol), degree(_degree), precision(_precision)
{};
};
}}
#endif

116
lib/qcd/action/ActionSet.h Normal file
View File

@ -0,0 +1,116 @@
/*************************************************************************************
Grid physics library, www.github.com/paboyle/Grid
Source file: ./lib/qcd/action/ActionSet.h
Copyright (C) 2015
Author: Peter Boyle <paboyle@ph.ed.ac.uk>
Author: neo <cossu@post.kek.jp>
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 ACTION_SET_H
#define ACTION_SET_H
namespace Grid {
// Should drop this namespace here
namespace QCD {
//////////////////////////////////
// Indexing of tuple types
//////////////////////////////////
template <class T, class Tuple>
struct Index;
template <class T, class... Types>
struct Index<T, std::tuple<T, Types...>> {
static const std::size_t value = 0;
};
template <class T, class U, class... Types>
struct Index<T, std::tuple<U, Types...>> {
static const std::size_t value = 1 + Index<T, std::tuple<Types...>>::value;
};
////////////////////////////////////////////
// Action Level
// Action collection
// in a integration level
// (for multilevel integration schemes)
////////////////////////////////////////////
template <class Field, class Repr = NoHirep >
struct ActionLevel {
public:
unsigned int multiplier;
// Fundamental repr actions separated because of the smearing
typedef Action<Field>* ActPtr;
// construct a tuple of vectors of the actions for the corresponding higher
// representation fields
typedef typename AccessTypes<Action, Repr>::VectorCollection action_collection;
typedef typename AccessTypes<Action, Repr>::FieldTypeCollection action_hirep_types;
action_collection actions_hirep;
std::vector<ActPtr>& actions;
explicit ActionLevel(unsigned int mul = 1) :
actions(std::get<0>(actions_hirep)), multiplier(mul) {
// initialize the hirep vectors to zero.
// apply(this->resize, actions_hirep, 0); //need a working resize
assert(mul >= 1);
}
template < class GenField >
void push_back(Action<GenField>* ptr) {
// insert only in the correct vector
std::get< Index < GenField, action_hirep_types>::value >(actions_hirep).push_back(ptr);
};
template <class ActPtr>
static void resize(ActPtr ap, unsigned int n) {
ap->resize(n);
}
// Loop on tuple for a callable function
template <std::size_t I = 1, typename Callable, typename ...Args>
inline typename std::enable_if<I == std::tuple_size<action_collection>::value, void>::type apply(Callable, Repr& R,Args&...) const {}
template <std::size_t I = 1, typename Callable, typename ...Args>
inline typename std::enable_if<I < std::tuple_size<action_collection>::value, void>::type apply(Callable fn, Repr& R, Args&... arguments) const {
fn(std::get<I>(actions_hirep), std::get<I>(R.rep), arguments...);
apply<I + 1>(fn, R, arguments...);
}
};
// Define the ActionSet
template <class GaugeField, class R>
using ActionSet = std::vector<ActionLevel<GaugeField, R> >;
} // QCD
} // Grid
#endif // ACTION_SET_H

29
lib/qcd/action/fermion/CayleyFermion5D.cc
View File

@ -29,7 +29,7 @@ Author: paboyle <paboyle@ph.ed.ac.uk>
*************************************************************************************/
/* END LEGAL */
#include <Grid/Eigen/Dense>
#include <Grid/Grid_Eigen_Dense.h>
#include <Grid/qcd/action/fermion/FermionCore.h>
#include <Grid/qcd/action/fermion/CayleyFermion5D.h>
@ -320,7 +320,7 @@ void CayleyFermion5D<Impl>::MDeriv (GaugeField &mat,const FermionField &U,const
this->DhopDeriv(mat,U,Din,dag);
} else {
// U d/du [D_w D5]^dag V = U D5^dag d/du DW^dag Y // implicit adj on U in call
MeooeDag5D(U,Din);
Meooe5D(U,Din);
this->DhopDeriv(mat,Din,V,dag);
}
};
@ -335,8 +335,8 @@ void CayleyFermion5D<Impl>::MoeDeriv(GaugeField &mat,const FermionField &U,const
this->DhopDerivOE(mat,U,Din,dag);
} else {
// U d/du [D_w D5]^dag V = U D5^dag d/du DW^dag Y // implicit adj on U in call
MeooeDag5D(U,Din);
this->DhopDerivOE(mat,Din,V,dag);
Meooe5D(U,Din);
this->DhopDerivOE(mat,Din,V,dag);
}
};
template<class Impl>
@ -350,7 +350,7 @@ void CayleyFermion5D<Impl>::MeoDeriv(GaugeField &mat,const FermionField &U,const
this->DhopDerivEO(mat,U,Din,dag);
} else {
// U d/du [D_w D5]^dag V = U D5^dag d/du DW^dag Y // implicit adj on U in call
MeooeDag5D(U,Din);
Meooe5D(U,Din);
this->DhopDerivEO(mat,Din,V,dag);
}
};
@ -380,6 +380,8 @@ void CayleyFermion5D<Impl>::SetCoefficientsInternal(RealD zolo_hi,std::vector<Co
///////////////////////////////////////////////////////////
// The Cayley coeffs (unprec)
///////////////////////////////////////////////////////////
assert(gamma.size()==Ls);
omega.resize(Ls);
bs.resize(Ls);
cs.resize(Ls);
@ -412,10 +414,11 @@ void CayleyFermion5D<Impl>::SetCoefficientsInternal(RealD zolo_hi,std::vector<Co
for(int i=0; i < Ls; i++){
as[i] = 1.0;
omega[i] = gamma[i]*zolo_hi; //NB reciprocal relative to Chroma NEF code
// assert(fabs(omega[i])>0.0);
bs[i] = 0.5*(bpc/omega[i] + bmc);
cs[i] = 0.5*(bpc/omega[i] - bmc);
}
////////////////////////////////////////////////////////
// Constants for the preconditioned matrix Cayley form
////////////////////////////////////////////////////////
@ -425,12 +428,12 @@ void CayleyFermion5D<Impl>::SetCoefficientsInternal(RealD zolo_hi,std::vector<Co
ceo.resize(Ls);
for(int i=0;i<Ls;i++){
bee[i]=as[i]*(bs[i]*(4.0-this->M5) +1.0);
bee[i]=as[i]*(bs[i]*(4.0-this->M5) +1.0);
// assert(fabs(bee[i])>0.0);
cee[i]=as[i]*(1.0-cs[i]*(4.0-this->M5));
beo[i]=as[i]*bs[i];
ceo[i]=-as[i]*cs[i];
}
aee.resize(Ls);
aeo.resize(Ls);
for(int i=0;i<Ls;i++){
@ -474,14 +477,16 @@ void CayleyFermion5D<Impl>::SetCoefficientsInternal(RealD zolo_hi,std::vector<Co
{
Coeff_t delta_d=mass*cee[Ls-1];
for(int j=0;j<Ls-1;j++) delta_d *= cee[j]/bee[j];
for(int j=0;j<Ls-1;j++) {
// assert(fabs(bee[j])>0.0);
delta_d *= cee[j]/bee[j];
}
dee[Ls-1] += delta_d;
}
int inv=1;
this->MooeeInternalCompute(0,inv,MatpInv,MatmInv);
this->MooeeInternalCompute(1,inv,MatpInvDag,MatmInvDag);
}
@ -495,7 +500,9 @@ void CayleyFermion5D<Impl>::MooeeInternalCompute(int dag, int inv,
GridBase *grid = this->FermionRedBlackGrid();
int LLs = grid->_rdimensions[0];
if ( LLs == Ls ) return; // Not vectorised in 5th direction
if ( LLs == Ls ) {
return; // Not vectorised in 5th direction
}
Eigen::MatrixXcd Pplus = Eigen::MatrixXcd::Zero(Ls,Ls);
Eigen::MatrixXcd Pminus = Eigen::MatrixXcd::Zero(Ls,Ls);

2
lib/qcd/action/fermion/CayleyFermion5Ddense.cc
View File

@ -29,7 +29,7 @@ Author: paboyle <paboyle@ph.ed.ac.uk>
*************************************************************************************/
/* END LEGAL */
#include <Grid/Eigen/Dense>
#include <Grid/Grid_Eigen_Dense.h>
#include <Grid/qcd/action/fermion/FermionCore.h>
#include <Grid/qcd/action/fermion/CayleyFermion5D.h>

2
lib/qcd/action/fermion/DomainWallFermion.h
View File

@ -68,7 +68,7 @@ namespace Grid {
Approx::zolotarev_data *zdata = Approx::higham(eps,this->Ls);// eps is ignored for higham
assert(zdata->n==this->Ls);
// std::cout<<GridLogMessage << "DomainWallFermion with Ls="<<this->Ls<<std::endl;
std::cout<<GridLogMessage << "DomainWallFermion with Ls="<<this->Ls<<std::endl;
// Call base setter
this->SetCoefficientsTanh(zdata,1.0,0.0);

2
lib/qcd/action/fermion/Fermion.h
View File

@ -1,4 +1,4 @@
/*************************************************************************************
/*************************************************************************************
Grid physics library, www.github.com/paboyle/Grid

186
lib/qcd/action/fermion/FermionOperatorImpl.h
View File

@ -43,7 +43,7 @@ namespace QCD {
// Ultimately need Impl to always define types where XXX is opaque
//
// typedef typename XXX Simd;
// typedef typename XXX GaugeLinkField;
// typedef typename XXX GaugeLinkField;
// typedef typename XXX GaugeField;
// typedef typename XXX GaugeActField;
// typedef typename XXX FermionField;
@ -153,7 +153,7 @@ namespace QCD {
typedef typename Impl::Coeff_t Coeff_t; \
#define INHERIT_IMPL_TYPES(Base) \
INHERIT_GIMPL_TYPES(Base) \
INHERIT_GIMPL_TYPES(Base) \
INHERIT_FIMPL_TYPES(Base)
/////////////////////////////////////////////////////////////////////////////
@ -198,16 +198,18 @@ namespace QCD {
ImplParams Params;
WilsonImpl(const ImplParams &p = ImplParams()) : Params(p){};
WilsonImpl(const ImplParams &p = ImplParams()) : Params(p){
assert(Params.boundary_phases.size() == Nd);
};
bool overlapCommsCompute(void) { return Params.overlapCommsCompute; };
inline void multLink(SiteHalfSpinor &phi,
const SiteDoubledGaugeField &U,
const SiteHalfSpinor &chi,
int mu,
StencilEntry *SE,
StencilImpl &St) {
const SiteDoubledGaugeField &U,
const SiteHalfSpinor &chi,
int mu,
StencilEntry *SE,
StencilImpl &St) {
mult(&phi(), &U(mu), &chi());
}
@ -217,16 +219,34 @@ namespace QCD {
}
inline void DoubleStore(GridBase *GaugeGrid,
DoubledGaugeField &Uds,
const GaugeField &Umu) {
DoubledGaugeField &Uds,
const GaugeField &Umu)
{
typedef typename Simd::scalar_type scalar_type;
conformable(Uds._grid, GaugeGrid);
conformable(Umu._grid, GaugeGrid);
GaugeLinkField U(GaugeGrid);
GaugeLinkField tmp(GaugeGrid);
Lattice<iScalar<vInteger> > coor(GaugeGrid);
for (int mu = 0; mu < Nd; mu++) {
U = PeekIndex<LorentzIndex>(Umu, mu);
PokeIndex<LorentzIndex>(Uds, U, mu);
U = adj(Cshift(U, mu, -1));
PokeIndex<LorentzIndex>(Uds, U, mu + 4);
auto pha = Params.boundary_phases[mu];
scalar_type phase( real(pha),imag(pha) );
int Lmu = GaugeGrid->GlobalDimensions()[mu] - 1;
LatticeCoordinate(coor, mu);
U = PeekIndex<LorentzIndex>(Umu, mu);
tmp = where(coor == Lmu, phase * U, U);
PokeIndex<LorentzIndex>(Uds, tmp, mu);
U = adj(Cshift(U, mu, -1));
U = where(coor == 0, conjugate(phase) * U, U);
PokeIndex<LorentzIndex>(Uds, U, mu + 4);
}
}
@ -243,11 +263,11 @@ namespace QCD {
tmp = zero;
parallel_for(int sss=0;sss<tmp._grid->oSites();sss++){
int sU=sss;
for(int s=0;s<Ls;s++){
int sF = s+Ls*sU;
tmp[sU] = tmp[sU]+ traceIndex<SpinIndex>(outerProduct(Btilde[sF],Atilde[sF])); // ordering here
}
int sU=sss;
for(int s=0;s<Ls;s++){
int sF = s+Ls*sU;
tmp[sU] = tmp[sU]+ traceIndex<SpinIndex>(outerProduct(Btilde[sF],Atilde[sF])); // ordering here
}
}
PokeIndex<LorentzIndex>(mat,tmp,mu);
@ -310,12 +330,12 @@ class DomainWallVec5dImpl : public PeriodicGaugeImpl< GaugeImplTypes< S,Nrepres
}
inline void multLink(SiteHalfSpinor &phi, const SiteDoubledGaugeField &U,
const SiteHalfSpinor &chi, int mu, StencilEntry *SE,
StencilImpl &St) {
const SiteHalfSpinor &chi, int mu, StencilEntry *SE,
StencilImpl &St) {
SiteGaugeLink UU;
for (int i = 0; i < Nrepresentation; i++) {
for (int j = 0; j < Nrepresentation; j++) {
vsplat(UU()()(i, j), U(mu)()(i, j));
vsplat(UU()()(i, j), U(mu)()(i, j));
}
}
mult(&phi(), &UU(), &chi());
@ -352,10 +372,53 @@ class DomainWallVec5dImpl : public PeriodicGaugeImpl< GaugeImplTypes< S,Nrepres
{
assert(0);
}
inline void InsertForce5D(GaugeField &mat, FermionField &Btilde,FermionField &Atilde, int mu)
{
assert(0);
inline void InsertForce5D(GaugeField &mat, FermionField &Btilde, FermionField &Atilde, int mu) {
assert(0);
// Following lines to be revised after Peter's addition of half prec
// missing put lane...
/*
typedef decltype(traceIndex<SpinIndex>(outerProduct(Btilde[0], Atilde[0]))) result_type;
unsigned int LLs = Btilde._grid->_rdimensions[0];
conformable(Atilde._grid,Btilde._grid);
GridBase* grid = mat._grid;
GridBase* Bgrid = Btilde._grid;
unsigned int dimU = grid->Nd();
unsigned int dimF = Bgrid->Nd();
GaugeLinkField tmp(grid);
tmp = zero;
// FIXME
// Current implementation works, thread safe, probably suboptimal
// Passing through the local coordinate for grid transformation
// the force grid is in general very different from the Ls vectorized grid
PARALLEL_FOR_LOOP
for (int so = 0; so < grid->oSites(); so++) {
std::vector<typename result_type::scalar_object> vres(Bgrid->Nsimd());
std::vector<int> ocoor; grid->oCoorFromOindex(ocoor,so);
for (int si = 0; si < tmp._grid->iSites(); si++){
typename result_type::scalar_object scalar_object; scalar_object = zero;
std::vector<int> local_coor;
std::vector<int> icoor; grid->iCoorFromIindex(icoor,si);
grid->InOutCoorToLocalCoor(ocoor, icoor, local_coor);
for (int s = 0; s < LLs; s++) {
std::vector<int> slocal_coor(dimF);
slocal_coor[0] = s;
for (int s4d = 1; s4d< dimF; s4d++) slocal_coor[s4d] = local_coor[s4d-1];
int sF = Bgrid->oIndexReduced(slocal_coor);
assert(sF < Bgrid->oSites());
extract(traceIndex<SpinIndex>(outerProduct(Btilde[sF], Atilde[sF])), vres);
// sum across the 5d dimension
for (auto v : vres) scalar_object += v;
}
tmp._odata[so].putlane(scalar_object, si);
}
}
PokeIndex<LorentzIndex>(mat, tmp, mu);
*/
}
};
@ -406,19 +469,19 @@ class GparityWilsonImpl : public ConjugateGaugeImpl<GaugeImplTypes<S, Nrepresent
// provide the multiply by link that is differentiated between Gparity (with
// flavour index) and non-Gparity
inline void multLink(SiteHalfSpinor &phi, const SiteDoubledGaugeField &U,
const SiteHalfSpinor &chi, int mu, StencilEntry *SE,
StencilImpl &St) {
const SiteHalfSpinor &chi, int mu, StencilEntry *SE,
StencilImpl &St) {
typedef SiteHalfSpinor vobj;
typedef typename SiteHalfSpinor::scalar_object sobj;
vobj vtmp;
sobj stmp;
GridBase *grid = St._grid;
const int Nsimd = grid->Nsimd();
int direction = St._directions[mu];
int distance = St._distances[mu];
int ptype = St._permute_type[mu];
@ -426,13 +489,13 @@ class GparityWilsonImpl : public ConjugateGaugeImpl<GaugeImplTypes<S, Nrepresent
// Fixme X.Y.Z.T hardcode in stencil
int mmu = mu % Nd;
// assert our assumptions
assert((distance == 1) || (distance == -1)); // nearest neighbour stencil hard code
assert((sl == 1) || (sl == 2));
std::vector<int> icoor;
if ( SE->_around_the_world && Params.twists[mmu] ) {
if ( sl == 2 ) {
@ -442,25 +505,25 @@ class GparityWilsonImpl : public ConjugateGaugeImpl<GaugeImplTypes<S, Nrepresent
extract(chi,vals);
for(int s=0;s<Nsimd;s++){
grid->iCoorFromIindex(icoor,s);
assert((icoor[direction]==0)||(icoor[direction]==1));
int permute_lane;
if ( distance == 1) {
permute_lane = icoor[direction]?1:0;
} else {
permute_lane = icoor[direction]?0:1;
}
if ( permute_lane ) {
stmp(0) = vals[s](1);
stmp(1) = vals[s](0);
vals[s] = stmp;
}
grid->iCoorFromIindex(icoor,s);
assert((icoor[direction]==0)||(icoor[direction]==1));
int permute_lane;
if ( distance == 1) {
permute_lane = icoor[direction]?1:0;
} else {
permute_lane = icoor[direction]?0:1;
}
if ( permute_lane ) {
stmp(0) = vals[s](1);
stmp(1) = vals[s](0);
vals[s] = stmp;
}
}
merge(vtmp,vals);
} else {
vtmp(0) = chi(1);
vtmp(1) = chi(0);
@ -485,11 +548,11 @@ class GparityWilsonImpl : public ConjugateGaugeImpl<GaugeImplTypes<S, Nrepresent
GaugeLinkField Uconj(GaugeGrid);
Lattice<iScalar<vInteger> > coor(GaugeGrid);
for(int mu=0;mu<Nd;mu++){
LatticeCoordinate(coor,mu);
U = PeekIndex<LorentzIndex>(Umu,mu);
Uconj = conjugate(U);
@ -503,7 +566,7 @@ class GparityWilsonImpl : public ConjugateGaugeImpl<GaugeImplTypes<S, Nrepresent
Uds[ss](0)(mu) = U[ss]();
Uds[ss](1)(mu) = Uconj[ss]();
}
U = adj(Cshift(U ,mu,-1)); // correct except for spanning the boundary
Uconj = adj(Cshift(Uconj,mu,-1));
@ -511,11 +574,12 @@ class GparityWilsonImpl : public ConjugateGaugeImpl<GaugeImplTypes<S, Nrepresent
if ( Params.twists[mu] ) {
Utmp = where(coor==0,Uconj,Utmp);
}
parallel_for(auto ss=U.begin();ss<U.end();ss++){
Uds[ss](0)(mu+4) = Utmp[ss]();
}
Utmp = Uconj;
if ( Params.twists[mu] ) {
Utmp = where(coor==0,U,Utmp);
@ -524,7 +588,7 @@ class GparityWilsonImpl : public ConjugateGaugeImpl<GaugeImplTypes<S, Nrepresent
parallel_for(auto ss=U.begin();ss<U.end();ss++){
Uds[ss](1)(mu+4) = Utmp[ss]();
}
}
}
@ -535,7 +599,7 @@ class GparityWilsonImpl : public ConjugateGaugeImpl<GaugeImplTypes<S, Nrepresent
// use lorentz for flavour as hack.
auto tmp = TraceIndex<SpinIndex>(outerProduct(Btilde, A));
parallel_for(auto ss = tmp.begin(); ss < tmp.end(); ss++) {
link[ss]() = tmp[ss](0, 0) - conjugate(tmp[ss](1, 1));
link[ss]() = tmp[ss](0, 0) + conjugate(tmp[ss](1, 1));
}
PokeIndex<LorentzIndex>(mat, link, mu);
return;
@ -544,7 +608,7 @@ class GparityWilsonImpl : public ConjugateGaugeImpl<GaugeImplTypes<S, Nrepresent
inline void InsertForce5D(GaugeField &mat, FermionField &Btilde, FermionField &Atilde, int mu) {
int Ls = Btilde._grid->_fdimensions[0];
GaugeLinkField tmp(mat._grid);
tmp = zero;
parallel_for(int ss = 0; ss < tmp._grid->oSites(); ss++) {
@ -580,19 +644,16 @@ class StaggeredImpl : public PeriodicGaugeImpl<GaugeImplTypes<S, Representation:
INHERIT_GIMPL_TYPES(Gimpl);
template <typename vtype> using iImplScalar = iScalar<iScalar<iScalar<vtype> > >;
template <typename vtype> using iImplSpinor = iScalar<iScalar<iVector<vtype, Dimension> > >;
template <typename vtype> using iImplHalfSpinor = iScalar<iScalar<iVector<vtype, Dimension> > >;
template <typename vtype> using iImplDoubledGaugeField = iVector<iScalar<iMatrix<vtype, Dimension> >, Nds>;
template <typename vtype> using iImplPropagator = iScalar<iScalar<iMatrix<vtype, Dimension> > >;
typedef iImplScalar<Simd> SiteComplex;
typedef iImplSpinor<Simd> SiteSpinor;
typedef iImplHalfSpinor<Simd> SiteHalfSpinor;
typedef iImplDoubledGaugeField<Simd> SiteDoubledGaugeField;
typedef iImplPropagator<Simd> SitePropagator;
typedef Lattice<SiteComplex> ComplexField;
typedef Lattice<SiteSpinor> FermionField;
typedef Lattice<SiteDoubledGaugeField> DoubledGaugeField;
typedef Lattice<SitePropagator> PropagatorField;
@ -711,7 +772,6 @@ class StaggeredImpl : public PeriodicGaugeImpl<GaugeImplTypes<S, Representation:
INHERIT_GIMPL_TYPES(Gimpl);
template <typename vtype> using iImplScalar = iScalar<iScalar<iScalar<vtype> > >;
template <typename vtype> using iImplSpinor = iScalar<iScalar<iVector<vtype, Dimension> > >;
template <typename vtype> using iImplHalfSpinor = iScalar<iScalar<iVector<vtype, Dimension> > >;
template <typename vtype> using iImplDoubledGaugeField = iVector<iScalar<iMatrix<vtype, Dimension> >, Nds>;
@ -728,12 +788,10 @@ class StaggeredImpl : public PeriodicGaugeImpl<GaugeImplTypes<S, Representation:
typedef Lattice<SiteDoubledGaugeField> DoubledGaugeField;
typedef Lattice<SitePropagator> PropagatorField;
typedef iImplScalar<Simd> SiteComplex;
typedef iImplSpinor<Simd> SiteSpinor;
typedef iImplHalfSpinor<Simd> SiteHalfSpinor;
typedef Lattice<SiteComplex> ComplexField;
typedef Lattice<SiteSpinor> FermionField;
typedef SimpleCompressor<SiteSpinor> Compressor;

16
lib/qcd/action/fermion/WilsonFermion.cc
View File

@ -230,8 +230,7 @@ void WilsonFermion<Impl>::DerivInternal(StencilImpl &st, DoubledGaugeField &U,
}
template <class Impl>
void WilsonFermion<Impl>::DhopDeriv(GaugeField &mat, const FermionField &U,
const FermionField &V, int dag) {
void WilsonFermion<Impl>::DhopDeriv(GaugeField &mat, const FermionField &U, const FermionField &V, int dag) {
conformable(U._grid, _grid);
conformable(U._grid, V._grid);
conformable(U._grid, mat._grid);
@ -242,12 +241,12 @@ void WilsonFermion<Impl>::DhopDeriv(GaugeField &mat, const FermionField &U,
}
template <class Impl>
void WilsonFermion<Impl>::DhopDerivOE(GaugeField &mat, const FermionField &U,
const FermionField &V, int dag) {
void WilsonFermion<Impl>::DhopDerivOE(GaugeField &mat, const FermionField &U, const FermionField &V, int dag) {
conformable(U._grid, _cbgrid);
conformable(U._grid, V._grid);
conformable(U._grid, mat._grid);
//conformable(U._grid, mat._grid); not general, leaving as a comment (Guido)
// Motivation: look at the SchurDiff operator
assert(V.checkerboard == Even);
assert(U.checkerboard == Odd);
mat.checkerboard = Odd;
@ -256,11 +255,10 @@ void WilsonFermion<Impl>::DhopDerivOE(GaugeField &mat, const FermionField &U,
}
template <class Impl>
void WilsonFermion<Impl>::DhopDerivEO(GaugeField &mat, const FermionField &U,
const FermionField &V, int dag) {
void WilsonFermion<Impl>::DhopDerivEO(GaugeField &mat, const FermionField &U, const FermionField &V, int dag) {
conformable(U._grid, _cbgrid);
conformable(U._grid, V._grid);
conformable(U._grid, mat._grid);
//conformable(U._grid, mat._grid);
assert(V.checkerboard == Odd);
assert(U.checkerboard == Even);

39
lib/qcd/action/fermion/WilsonFermion5D.cc
View File

@ -11,6 +11,7 @@ Author: Peter Boyle <pabobyle@ph.ed.ac.uk>
Author: Peter Boyle <paboyle@ph.ed.ac.uk>
Author: Peter Boyle <peterboyle@Peters-MacBook-Pro-2.local>
Author: paboyle <paboyle@ph.ed.ac.uk>
Author: Guido Cossu <guido.cossu@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
@ -117,7 +118,6 @@ WilsonFermion5D<Impl>::WilsonFermion5D(GaugeField &_Umu,
// Allocate the required comms buffer
ImportGauge(_Umu);
// Build lists of exterior only nodes
int LLs = FiveDimGrid._rdimensions[0];
int vol4;
@ -267,6 +267,8 @@ void WilsonFermion5D<Impl>::DerivInternal(StencilImpl & st,
DerivCommTime+=usecond();
Atilde=A;
int LLs = B._grid->_rdimensions[0];
DerivComputeTime-=usecond();
for (int mu = 0; mu < Nd; mu++) {
@ -296,6 +298,9 @@ void WilsonFermion5D<Impl>::DerivInternal(StencilImpl & st,
////////////////////////////
}
}
////////////////////////////
// spin trace outer product
////////////////////////////
DerivDhopComputeTime += usecond();
Impl::InsertForce5D(mat, Btilde, Atilde, mu);
}
@ -304,13 +309,14 @@ void WilsonFermion5D<Impl>::DerivInternal(StencilImpl & st,
template<class Impl>
void WilsonFermion5D<Impl>::DhopDeriv(GaugeField &mat,
const FermionField &A,
const FermionField &B,
int dag)
const FermionField &A,
const FermionField &B,
int dag)
{
conformable(A._grid,FermionGrid());
conformable(A._grid,B._grid);
conformable(GaugeGrid(),mat._grid);
//conformable(GaugeGrid(),mat._grid);// this is not general! leaving as a comment
mat.checkerboard = A.checkerboard;
@ -319,12 +325,11 @@ void WilsonFermion5D<Impl>::DhopDeriv(GaugeField &mat,
template<class Impl>
void WilsonFermion5D<Impl>::DhopDerivEO(GaugeField &mat,
const FermionField &A,
const FermionField &B,
int dag)
const FermionField &A,
const FermionField &B,
int dag)
{
conformable(A._grid,FermionRedBlackGrid());
conformable(GaugeRedBlackGrid(),mat._grid);
conformable(A._grid,B._grid);
assert(B.checkerboard==Odd);
@ -337,12 +342,11 @@ void WilsonFermion5D<Impl>::DhopDerivEO(GaugeField &mat,
template<class Impl>
void WilsonFermion5D<Impl>::DhopDerivOE(GaugeField &mat,
const FermionField &A,
const FermionField &B,
int dag)
const FermionField &A,
const FermionField &B,
int dag)
{
conformable(A._grid,FermionRedBlackGrid());
conformable(GaugeRedBlackGrid(),mat._grid);
conformable(A._grid,B._grid);
assert(B.checkerboard==Even);
@ -354,8 +358,8 @@ void WilsonFermion5D<Impl>::DhopDerivOE(GaugeField &mat,
template<class Impl>
void WilsonFermion5D<Impl>::DhopInternal(StencilImpl & st, LebesgueOrder &lo,
DoubledGaugeField & U,
const FermionField &in, FermionField &out,int dag)
DoubledGaugeField & U,
const FermionField &in, FermionField &out,int dag)
{
DhopTotalTime-=usecond();
#ifdef GRID_OMP
@ -388,8 +392,12 @@ void WilsonFermion5D<Impl>::DhopInternalOverlappedComms(StencilImpl & st, Lebesg
std::vector<std::vector<CommsRequest_t> > reqs;
// Rely on async comms; start comms before merge of local data
DhopCommTime-=usecond();
st.CommunicateBegin(reqs);
DhopFaceTime-=usecond();
st.CommsMergeSHM(compressor);
DhopFaceTime+=usecond();
// Perhaps use omp task and region
#pragma omp parallel
@ -402,7 +410,6 @@ void WilsonFermion5D<Impl>::DhopInternalOverlappedComms(StencilImpl & st, Lebesg
int sF = LLs * myoff;
if ( me == 0 ) {
DhopCommTime-=usecond();
st.CommunicateComplete(reqs);
DhopCommTime+=usecond();
} else {

2
lib/qcd/action/gauge/Gauge.h
View File

@ -29,7 +29,7 @@ directory
#ifndef GRID_QCD_GAUGE_H
#define GRID_QCD_GAUGE_H
#include <Grid/qcd/action/gauge/GaugeImpl.h>
#include <Grid/qcd/action/gauge/GaugeImplementations.h>
#include <Grid/qcd/utils/WilsonLoops.h>
#include <Grid/qcd/action/gauge/WilsonGaugeAction.h>
#include <Grid/qcd/action/gauge/PlaqPlusRectangleAction.h>

148
lib/qcd/action/gauge/GaugeImplTypes.h Normal file
View File

@ -0,0 +1,148 @@
/*************************************************************************************
Grid physics library, www.github.com/paboyle/Grid
Source file: ./lib/qcd/action/gauge/GaugeImpl.h
Copyright (C) 2015
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 */
#ifndef GRID_GAUGE_IMPL_TYPES_H
#define GRID_GAUGE_IMPL_TYPES_H
namespace Grid {
namespace QCD {
////////////////////////////////////////////////////////////////////////
// Implementation dependent gauge types
////////////////////////////////////////////////////////////////////////
#define INHERIT_GIMPL_TYPES(GImpl) \
typedef typename GImpl::Simd Simd; \
typedef typename GImpl::LinkField GaugeLinkField; \
typedef typename GImpl::Field GaugeField; \
typedef typename GImpl::ComplexField ComplexField;\
typedef typename GImpl::SiteField SiteGaugeField; \
typedef typename GImpl::SiteComplex SiteComplex; \
typedef typename GImpl::SiteLink SiteGaugeLink;
#define INHERIT_FIELD_TYPES(Impl) \
typedef typename Impl::Simd Simd; \
typedef typename Impl::ComplexField ComplexField; \
typedef typename Impl::SiteField SiteField; \
typedef typename Impl::Field Field;
// hardcodes the exponential approximation in the template
template <class S, int Nrepresentation = Nc, int Nexp = 12 > class GaugeImplTypes {
public:
typedef S Simd;
template <typename vtype> using iImplScalar = iScalar<iScalar<iScalar<vtype> > >;
template <typename vtype> using iImplGaugeLink = iScalar<iScalar<iMatrix<vtype, Nrepresentation> > >;
template <typename vtype> using iImplGaugeField = iVector<iScalar<iMatrix<vtype, Nrepresentation> >, Nd>;
typedef iImplScalar<Simd> SiteComplex;
typedef iImplGaugeLink<Simd> SiteLink;
typedef iImplGaugeField<Simd> SiteField;
typedef Lattice<SiteComplex> ComplexField;
typedef Lattice<SiteLink> LinkField;
typedef Lattice<SiteField> Field;
// Guido: we can probably separate the types from the HMC functions
// this will create 2 kind of implementations
// probably confusing the users
// Now keeping only one class
// Move this elsewhere? FIXME
static inline void AddLink(Field &U, LinkField &W,
int mu) { // U[mu] += W
PARALLEL_FOR_LOOP
for (auto ss = 0; ss < U._grid->oSites(); ss++) {
U._odata[ss]._internal[mu] =
U._odata[ss]._internal[mu] + W._odata[ss]._internal;
}
}
///////////////////////////////////////////////////////////
// Move these to another class
// HMC auxiliary functions
static inline void generate_momenta(Field &P, GridParallelRNG &pRNG) {
// specific for SU gauge fields
LinkField Pmu(P._grid);
Pmu = zero;
for (int mu = 0; mu < Nd; mu++) {
SU<Nrepresentation>::GaussianFundamentalLieAlgebraMatrix(pRNG, Pmu);
PokeIndex<LorentzIndex>(P, Pmu, mu);
}
}
static inline Field projectForce(Field &P) { return Ta(P); }
static inline void update_field(Field& P, Field& U, double ep){
for (int mu = 0; mu < Nd; mu++) {
auto Umu = PeekIndex<LorentzIndex>(U, mu);
auto Pmu = PeekIndex<LorentzIndex>(P, mu);
Umu = expMat(Pmu, ep, Nexp) * Umu;
PokeIndex<LorentzIndex>(U, ProjectOnGroup(Umu), mu);
}
}
static inline RealD FieldSquareNorm(Field& U){
LatticeComplex Hloc(U._grid);
Hloc = zero;
for (int mu = 0; mu < Nd; mu++) {
auto Umu = PeekIndex<LorentzIndex>(U, mu);
Hloc += trace(Umu * Umu);
}
Complex Hsum = sum(Hloc);
return Hsum.real();
}
static inline void HotConfiguration(GridParallelRNG &pRNG, Field &U) {
SU<Nc>::HotConfiguration(pRNG, U);
}
static inline void TepidConfiguration(GridParallelRNG &pRNG, Field &U) {
SU<Nc>::TepidConfiguration(pRNG, U);
}
static inline void ColdConfiguration(GridParallelRNG &pRNG, Field &U) {
SU<Nc>::ColdConfiguration(pRNG, U);
}
};
typedef GaugeImplTypes<vComplex, Nc> GimplTypesR;
typedef GaugeImplTypes<vComplexF, Nc> GimplTypesF;
typedef GaugeImplTypes<vComplexD, Nc> GimplTypesD;
typedef GaugeImplTypes<vComplex, SU<Nc>::AdjointDimension> GimplAdjointTypesR;
typedef GaugeImplTypes<vComplexF, SU<Nc>::AdjointDimension> GimplAdjointTypesF;
typedef GaugeImplTypes<vComplexD, SU<Nc>::AdjointDimension> GimplAdjointTypesD;
} // QCD
} // Grid
#endif // GRID_GAUGE_IMPL_TYPES_H

59
lib/qcd/action/gauge/GaugeImpl.h → lib/qcd/action/gauge/GaugeImplementations.h
View File

@ -2,7 +2,7 @@
Grid physics library, www.github.com/paboyle/Grid
Source file: ./lib/qcd/action/gauge/GaugeImpl.h
Source file: ./lib/qcd/action/gauge/GaugeImplementations.h
Copyright (C) 2015
@ -26,53 +26,14 @@ See the full license in the file "LICENSE" in the top level distribution
directory
*************************************************************************************/
/* END LEGAL */
#ifndef GRID_QCD_GAUGE_IMPL_H
#define GRID_QCD_GAUGE_IMPL_H
#ifndef GRID_QCD_GAUGE_IMPLEMENTATIONS_H
#define GRID_QCD_GAUGE_IMPLEMENTATIONS_H
#include "GaugeImplTypes.h"
namespace Grid {
namespace QCD {
////////////////////////////////////////////////////////////////////////
// Implementation dependent gauge types
////////////////////////////////////////////////////////////////////////
template <class Gimpl> class WilsonLoops;
#define INHERIT_GIMPL_TYPES(GImpl) \
typedef typename GImpl::Simd Simd; \
typedef typename GImpl::GaugeLinkField GaugeLinkField; \
typedef typename GImpl::GaugeField GaugeField; \
typedef typename GImpl::SiteGaugeField SiteGaugeField; \
typedef typename GImpl::SiteGaugeLink SiteGaugeLink;
//
template <class S, int Nrepresentation = Nc> class GaugeImplTypes {
public:
typedef S Simd;
template <typename vtype>
using iImplGaugeLink = iScalar<iScalar<iMatrix<vtype, Nrepresentation>>>;
template <typename vtype>
using iImplGaugeField = iVector<iScalar<iMatrix<vtype, Nrepresentation>>, Nd>;
typedef iImplGaugeLink<Simd> SiteGaugeLink;
typedef iImplGaugeField<Simd> SiteGaugeField;
typedef Lattice<SiteGaugeLink> GaugeLinkField; // bit ugly naming; polarised
// gauge field, lorentz... all
// ugly
typedef Lattice<SiteGaugeField> GaugeField;
// Move this elsewhere? FIXME
static inline void AddGaugeLink(GaugeField &U, GaugeLinkField &W,
int mu) { // U[mu] += W
parallel_for (auto ss = 0; ss < U._grid->oSites(); ss++) {
U._odata[ss]._internal[mu] =
U._odata[ss]._internal[mu] + W._odata[ss]._internal;
}
}
};
// Composition with smeared link, bc's etc.. probably need multiple inheritance
// Variable precision "S" and variable Nc
template <class GimplTypes> class PeriodicGaugeImpl : public GimplTypes {
@ -168,14 +129,6 @@ public:
static inline bool isPeriodicGaugeField(void) { return false; }
};
typedef GaugeImplTypes<vComplex, Nc> GimplTypesR;
typedef GaugeImplTypes<vComplexF, Nc> GimplTypesF;
typedef GaugeImplTypes<vComplexD, Nc> GimplTypesD;
typedef GaugeImplTypes<vComplex, SU<Nc>::AdjointDimension> GimplAdjointTypesR;
typedef GaugeImplTypes<vComplexF, SU<Nc>::AdjointDimension> GimplAdjointTypesF;
typedef GaugeImplTypes<vComplexD, SU<Nc>::AdjointDimension> GimplAdjointTypesD;
typedef PeriodicGaugeImpl<GimplTypesR> PeriodicGimplR; // Real.. whichever prec
typedef PeriodicGaugeImpl<GimplTypesF> PeriodicGimplF; // Float
typedef PeriodicGaugeImpl<GimplTypesD> PeriodicGimplD; // Double
@ -187,6 +140,8 @@ typedef PeriodicGaugeImpl<GimplAdjointTypesD> PeriodicGimplAdjD; // Double
typedef ConjugateGaugeImpl<GimplTypesR> ConjugateGimplR; // Real.. whichever prec
typedef ConjugateGaugeImpl<GimplTypesF> ConjugateGimplF; // Float
typedef ConjugateGaugeImpl<GimplTypesD> ConjugateGimplD; // Double
}
}

26
lib/qcd/action/gauge/PlaqPlusRectangleAction.h
View File

@ -47,9 +47,19 @@ namespace Grid{
public:
PlaqPlusRectangleAction(RealD b,RealD c): c_plaq(b),c_rect(c){};
virtual std::string action_name(){return "PlaqPlusRectangleAction";}
virtual void refresh(const GaugeField &U, GridParallelRNG& pRNG) {}; // noop as no pseudoferms
virtual std::string LogParameters(){
std::stringstream sstream;
sstream << GridLogMessage << "["<<action_name() <<"] c_plaq: " << c_plaq << std::endl;
sstream << GridLogMessage << "["<<action_name() <<"] c_rect: " << c_rect << std::endl;
return sstream.str();
}
virtual RealD S(const GaugeField &U) {
RealD vol = U._grid->gSites();
@ -108,32 +118,32 @@ namespace Grid{
class RBCGaugeAction : public PlaqPlusRectangleAction<Gimpl> {
public:
INHERIT_GIMPL_TYPES(Gimpl);
RBCGaugeAction(RealD beta,RealD c1) : PlaqPlusRectangleAction<Gimpl>(beta*(1.0-8.0*c1), beta*c1) {
};
RBCGaugeAction(RealD beta,RealD c1) : PlaqPlusRectangleAction<Gimpl>(beta*(1.0-8.0*c1), beta*c1) {};
virtual std::string action_name(){return "RBCGaugeAction";}
};
template<class Gimpl>
class IwasakiGaugeAction : public RBCGaugeAction<Gimpl> {
public:
INHERIT_GIMPL_TYPES(Gimpl);
IwasakiGaugeAction(RealD beta) : RBCGaugeAction<Gimpl>(beta,-0.331) {
};
IwasakiGaugeAction(RealD beta) : RBCGaugeAction<Gimpl>(beta,-0.331) {};
virtual std::string action_name(){return "IwasakiGaugeAction";}
};
template<class Gimpl>
class SymanzikGaugeAction : public RBCGaugeAction<Gimpl> {
public:
INHERIT_GIMPL_TYPES(Gimpl);
SymanzikGaugeAction(RealD beta) : RBCGaugeAction<Gimpl>(beta,-1.0/12.0) {
};
SymanzikGaugeAction(RealD beta) : RBCGaugeAction<Gimpl>(beta,-1.0/12.0) {};
virtual std::string action_name(){return "SymanzikGaugeAction";}
};
template<class Gimpl>
class DBW2GaugeAction : public RBCGaugeAction<Gimpl> {
public:
INHERIT_GIMPL_TYPES(Gimpl);
DBW2GaugeAction(RealD beta) : RBCGaugeAction<Gimpl>(beta,-1.4067) {
};
DBW2GaugeAction(RealD beta) : RBCGaugeAction<Gimpl>(beta,-1.4067) {};
virtual std::string action_name(){return "DBW2GaugeAction";}
};
}

135
lib/qcd/action/gauge/WilsonGaugeAction.h
View File

@ -1,86 +1,95 @@
/*************************************************************************************
/*************************************************************************************
Grid physics library, www.github.com/paboyle/Grid
Grid physics library, www.github.com/paboyle/Grid
Source file: ./lib/qcd/action/gauge/WilsonGaugeAction.h
Source file: ./lib/qcd/action/gauge/WilsonGaugeAction.h
Copyright (C) 2015
Copyright (C) 2015
Author: Azusa Yamaguchi <ayamaguc@staffmail.ed.ac.uk>
Author: Peter Boyle <paboyle@ph.ed.ac.uk>
Author: neo <cossu@post.kek.jp>
Author: paboyle <paboyle@ph.ed.ac.uk>
Author: Guido Cossu <guido.cossu@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 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.
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.
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 */
See the full license in the file "LICENSE" in the top level distribution
directory
*************************************************************************************/
/* END LEGAL */
#ifndef QCD_WILSON_GAUGE_ACTION_H
#define QCD_WILSON_GAUGE_ACTION_H
namespace Grid{
namespace QCD{
////////////////////////////////////////////////////////////////////////
// Wilson Gauge Action .. should I template the Nc etc..
////////////////////////////////////////////////////////////////////////
template<class Gimpl>
class WilsonGaugeAction : public Action<typename Gimpl::GaugeField> {
public:
namespace Grid {
namespace QCD {
INHERIT_GIMPL_TYPES(Gimpl);
////////////////////////////////////////////////////////////////////////
// Wilson Gauge Action .. should I template the Nc etc..
////////////////////////////////////////////////////////////////////////
template <class Gimpl>
class WilsonGaugeAction : public Action<typename Gimpl::GaugeField> {
public:
INHERIT_GIMPL_TYPES(Gimpl);
// typedef LorentzScalar<GaugeField> GaugeLinkField;
/////////////////////////// constructors
explicit WilsonGaugeAction(RealD beta_):beta(beta_){};
private:
RealD beta;
public:
WilsonGaugeAction(RealD b):beta(b){};
virtual void refresh(const GaugeField &U, GridParallelRNG& pRNG) {}; // noop as no pseudoferms
virtual RealD S(const GaugeField &U) {
RealD plaq = WilsonLoops<Gimpl>::avgPlaquette(U);
RealD vol = U._grid->gSites();
RealD action=beta*(1.0 -plaq)*(Nd*(Nd-1.0))*vol*0.5;
return action;
};
virtual std::string action_name() {return "WilsonGaugeAction";}
virtual void deriv(const GaugeField &U,GaugeField & dSdU) {
//not optimal implementation FIXME
//extend Ta to include Lorentz indexes
//RealD factor = 0.5*beta/RealD(Nc);
RealD factor = 0.5*beta/RealD(Nc);
GaugeLinkField Umu(U._grid);
GaugeLinkField dSdU_mu(U._grid);
for (int mu=0; mu < Nd; mu++){
Umu = PeekIndex<LorentzIndex>(U,mu);
// Staple in direction mu
WilsonLoops<Gimpl>::Staple(dSdU_mu,U,mu);
dSdU_mu = Ta(Umu*dSdU_mu)*factor;
PokeIndex<LorentzIndex>(dSdU, dSdU_mu, mu);
}
};
};
virtual std::string LogParameters(){
std::stringstream sstream;
sstream << GridLogMessage << "[WilsonGaugeAction] Beta: " << beta << std::endl;
return sstream.str();
}
virtual void refresh(const GaugeField &U,
GridParallelRNG &pRNG){}; // noop as no pseudoferms
virtual RealD S(const GaugeField &U) {
RealD plaq = WilsonLoops<Gimpl>::avgPlaquette(U);
RealD vol = U._grid->gSites();
RealD action = beta * (1.0 - plaq) * (Nd * (Nd - 1.0)) * vol * 0.5;
return action;
};
virtual void deriv(const GaugeField &U, GaugeField &dSdU) {
// not optimal implementation FIXME
// extend Ta to include Lorentz indexes
RealD factor = 0.5 * beta / RealD(Nc);
GaugeLinkField Umu(U._grid);
GaugeLinkField dSdU_mu(U._grid);
for (int mu = 0; mu < Nd; mu++) {
Umu = PeekIndex<LorentzIndex>(U, mu);
// Staple in direction mu
WilsonLoops<Gimpl>::Staple(dSdU_mu, U, mu);
dSdU_mu = Ta(Umu * dSdU_mu) * factor;
PokeIndex<LorentzIndex>(dSdU, dSdU_mu, mu);
}
}
private:
RealD beta;
};
}
}
#endif

138
lib/qcd/action/pseudofermion/EvenOddSchurDifferentiable.h
View File

@ -7,6 +7,7 @@
Copyright (C) 2015
Author: Peter Boyle <paboyle@ph.ed.ac.uk>
Author: Guido Cossu <guido.cossu@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
@ -45,92 +46,97 @@ namespace Grid{
public:
INHERIT_IMPL_TYPES(Impl);
typedef FermionOperator<Impl> Matrix;
typedef FermionOperator<Impl> Matrix;
SchurDifferentiableOperator (Matrix &Mat) : SchurDiagMooeeOperator<Matrix,FermionField>(Mat) {};
SchurDifferentiableOperator (Matrix &Mat) : SchurDiagMooeeOperator<Matrix,FermionField>(Mat) {};
void MpcDeriv(GaugeField &Force,const FermionField &U,const FermionField &V) {
GridBase *fgrid = this->_Mat.FermionGrid();
GridBase *fcbgrid = this->_Mat.FermionRedBlackGrid();
GridBase *ugrid = this->_Mat.GaugeGrid();
GridBase *ucbgrid = this->_Mat.GaugeRedBlackGrid();
void MpcDeriv(GaugeField &Force,const FermionField &U,const FermionField &V) {
GridBase *fgrid = this->_Mat.FermionGrid();
GridBase *fcbgrid = this->_Mat.FermionRedBlackGrid();
Real coeff = 1.0;
FermionField tmp1(fcbgrid);
FermionField tmp2(fcbgrid);
FermionField tmp1(fcbgrid);
FermionField tmp2(fcbgrid);
conformable(fcbgrid,U._grid);
conformable(fcbgrid,V._grid);
conformable(fcbgrid,U._grid);
conformable(fcbgrid,V._grid);
// Assert the checkerboard?? or code for either
assert(U.checkerboard==Odd);
assert(V.checkerboard==U.checkerboard);
// Assert the checkerboard?? or code for either
assert(U.checkerboard==Odd);
assert(V.checkerboard==U.checkerboard);
// NOTE Guido: WE DO NOT WANT TO USE THE ucbgrid GRID FOR THE FORCE
// it is not conformable with the HMC force field
// Case: Ls vectorised fields
// INHERIT FROM THE Force field instead
GridRedBlackCartesian* forcecb = new GridRedBlackCartesian(Force._grid);
GaugeField ForceO(forcecb);
GaugeField ForceE(forcecb);
GaugeField ForceO(ucbgrid);
GaugeField ForceE(ucbgrid);
// X^dag Der_oe MeeInv Meo Y
// Use Mooee as nontrivial but gauge field indept
this->_Mat.Meooe (V,tmp1); // odd->even -- implicit -0.5 factor to be applied
// X^dag Der_oe MeeInv Meo Y
// Use Mooee as nontrivial but gauge field indept
this->_Mat.Meooe (V,tmp1); // odd->even -- implicit -0.5 factor to be applied
this->_Mat.MooeeInv(tmp1,tmp2); // even->even
this->_Mat.MoeDeriv(ForceO,U,tmp2,DaggerNo);
// Accumulate X^dag M_oe MeeInv Der_eo Y
this->_Mat.MeooeDag (U,tmp1); // even->odd -- implicit -0.5 factor to be applied
this->_Mat.MooeeInvDag(tmp1,tmp2); // even->even
this->_Mat.MeoDeriv(ForceE,tmp2,V,DaggerNo);
assert(ForceE.checkerboard==Even);
assert(ForceO.checkerboard==Odd);
this->_Mat.MoeDeriv(ForceO,U,tmp2,DaggerNo);
// Accumulate X^dag M_oe MeeInv Der_eo Y
this->_Mat.MeooeDag (U,tmp1); // even->odd -- implicit -0.5 factor to be applied
this->_Mat.MooeeInvDag(tmp1,tmp2); // even->even
this->_Mat.MeoDeriv(ForceE,tmp2,V,DaggerNo);
assert(ForceE.checkerboard==Even);
assert(ForceO.checkerboard==Odd);
setCheckerboard(Force,ForceE);
setCheckerboard(Force,ForceO);
Force=-Force;
}
setCheckerboard(Force,ForceE);
setCheckerboard(Force,ForceO);
Force=-Force;
delete forcecb;
}
void MpcDagDeriv(GaugeField &Force,const FermionField &U,const FermionField &V) {
GridBase *fgrid = this->_Mat.FermionGrid();
GridBase *fcbgrid = this->_Mat.FermionRedBlackGrid();
GridBase *ugrid = this->_Mat.GaugeGrid();
GridBase *ucbgrid = this->_Mat.GaugeRedBlackGrid();
void MpcDagDeriv(GaugeField &Force,const FermionField &U,const FermionField &V) {
GridBase *fgrid = this->_Mat.FermionGrid();
GridBase *fcbgrid = this->_Mat.FermionRedBlackGrid();
Real coeff = 1.0;
FermionField tmp1(fcbgrid);
FermionField tmp2(fcbgrid);
FermionField tmp1(fcbgrid);
FermionField tmp2(fcbgrid);
conformable(fcbgrid,U._grid);
conformable(fcbgrid,V._grid);
conformable(fcbgrid,U._grid);
conformable(fcbgrid,V._grid);
// Assert the checkerboard?? or code for either
assert(V.checkerboard==Odd);
assert(V.checkerboard==V.checkerboard);
// Assert the checkerboard?? or code for either
assert(V.checkerboard==Odd);
assert(V.checkerboard==V.checkerboard);
// NOTE Guido: WE DO NOT WANT TO USE THE ucbgrid GRID FOR THE FORCE
// it is not conformable with the HMC force field
// INHERIT FROM THE Force field instead
GridRedBlackCartesian* forcecb = new GridRedBlackCartesian(Force._grid);
GaugeField ForceO(forcecb);
GaugeField ForceE(forcecb);
GaugeField ForceO(ucbgrid);
GaugeField ForceE(ucbgrid);
// X^dag Der_oe MeeInv Meo Y
// Use Mooee as nontrivial but gauge field indept
this->_Mat.MeooeDag (V,tmp1); // odd->even -- implicit -0.5 factor to be applied
this->_Mat.MooeeInvDag(tmp1,tmp2); // even->even
this->_Mat.MoeDeriv(ForceO,U,tmp2,DaggerYes);
// Accumulate X^dag M_oe MeeInv Der_eo Y
this->_Mat.Meooe (U,tmp1); // even->odd -- implicit -0.5 factor to be applied
this->_Mat.MooeeInv(tmp1,tmp2); // even->even
this->_Mat.MeoDeriv(ForceE,tmp2,V,DaggerYes);
// X^dag Der_oe MeeInv Meo Y
// Use Mooee as nontrivial but gauge field indept
this->_Mat.MeooeDag (V,tmp1); // odd->even -- implicit -0.5 factor to be applied
this->_Mat.MooeeInvDag(tmp1,tmp2); // even->even
this->_Mat.MoeDeriv(ForceO,U,tmp2,DaggerYes);
// Accumulate X^dag M_oe MeeInv Der_eo Y
this->_Mat.Meooe (U,tmp1); // even->odd -- implicit -0.5 factor to be applied
this->_Mat.MooeeInv(tmp1,tmp2); // even->even
this->_Mat.MeoDeriv(ForceE,tmp2,V,DaggerYes);
assert(ForceE.checkerboard==Even);
assert(ForceO.checkerboard==Odd);
assert(ForceE.checkerboard==Even);
assert(ForceO.checkerboard==Odd);
setCheckerboard(Force,ForceE);
setCheckerboard(Force,ForceO);
Force=-Force;
setCheckerboard(Force,ForceE);
setCheckerboard(Force,ForceO);
Force=-Force;
}
delete forcecb;
}
};

14
lib/qcd/action/pseudofermion/OneFlavourEvenOddRational.h
View File

@ -1,3 +1,4 @@
/*************************************************************************************
Grid physics library, www.github.com/paboyle/Grid
@ -90,6 +91,19 @@ class OneFlavourEvenOddRationalPseudoFermionAction
PowerNegQuarter.Init(remez, param.tolerance, true);
};
virtual std::string action_name(){return "OneFlavourEvenOddRationalPseudoFermionAction";}
virtual std::string LogParameters(){
std::stringstream sstream;
sstream << GridLogMessage << "["<<action_name()<<"] Low :" << param.lo << std::endl;
sstream << GridLogMessage << "["<<action_name()<<"] High :" << param.hi << std::endl;
sstream << GridLogMessage << "["<<action_name()<<"] Max iterations :" << param.MaxIter << std::endl;
sstream << GridLogMessage << "["<<action_name()<<"] Tolerance :" << param.tolerance << std::endl;
sstream << GridLogMessage << "["<<action_name()<<"] Degree :" << param.degree << std::endl;
sstream << GridLogMessage << "["<<action_name()<<"] Precision :" << param.precision << std::endl;
return sstream.str();
}
virtual void refresh(const GaugeField &U, GridParallelRNG &pRNG) {
// P(phi) = e^{- phi^dag (MpcdagMpc)^-1/2 phi}
// = e^{- phi^dag (MpcdagMpc)^-1/4 (MpcdagMpc)^-1/4 phi}

14
lib/qcd/action/pseudofermion/OneFlavourEvenOddRationalRatio.h
View File

@ -87,6 +87,20 @@ namespace Grid{
PowerQuarter.Init(remez,param.tolerance,false);
PowerNegQuarter.Init(remez,param.tolerance,true);
};
virtual std::string action_name(){return "OneFlavourEvenOddRatioRationalPseudoFermionAction";}
virtual std::string LogParameters(){
std::stringstream sstream;
sstream << GridLogMessage << "["<<action_name()<<"] Low :" << param.lo << std::endl;
sstream << GridLogMessage << "["<<action_name()<<"] High :" << param.hi << std::endl;
sstream << GridLogMessage << "["<<action_name()<<"] Max iterations :" << param.MaxIter << std::endl;
sstream << GridLogMessage << "["<<action_name()<<"] Tolerance :" << param.tolerance << std::endl;
sstream << GridLogMessage << "["<<action_name()<<"] Degree :" << param.degree << std::endl;
sstream << GridLogMessage << "["<<action_name()<<"] Precision :" << param.precision << std::endl;
return sstream.str();
}
virtual void refresh(const GaugeField &U, GridParallelRNG& pRNG) {

16
lib/qcd/action/pseudofermion/OneFlavourRational.h
View File

@ -83,9 +83,25 @@ namespace Grid{
PowerQuarter.Init(remez,param.tolerance,false);
PowerNegQuarter.Init(remez,param.tolerance,true);
};
virtual std::string action_name(){return "OneFlavourRationalPseudoFermionAction";}
virtual std::string LogParameters(){
std::stringstream sstream;
sstream << GridLogMessage << "["<<action_name()<<"] Low :" << param.lo << std::endl;
sstream << GridLogMessage << "["<<action_name()<<"] High :" << param.hi << std::endl;
sstream << GridLogMessage << "["<<action_name()<<"] Max iterations :" << param.MaxIter << std::endl;
sstream << GridLogMessage << "["<<action_name()<<"] Tolerance :" << param.tolerance << std::endl;
sstream << GridLogMessage << "["<<action_name()<<"] Degree :" << param.degree << std::endl;
sstream << GridLogMessage << "["<<action_name()<<"] Precision :" << param.precision << std::endl;
return sstream.str();
}
virtual void refresh(const GaugeField &U, GridParallelRNG& pRNG) {
// P(phi) = e^{- phi^dag (MdagM)^-1/2 phi}
// = e^{- phi^dag (MdagM)^-1/4 (MdagM)^-1/4 phi}
// Phi = Mdag^{1/4} eta

14
lib/qcd/action/pseudofermion/OneFlavourRationalRatio.h
View File

@ -81,7 +81,21 @@ namespace Grid{
PowerQuarter.Init(remez,param.tolerance,false);
PowerNegQuarter.Init(remez,param.tolerance,true);
};
virtual std::string action_name(){return "OneFlavourRatioRationalPseudoFermionAction";}
virtual std::string LogParameters(){
std::stringstream sstream;
sstream << GridLogMessage << "["<<action_name()<<"] Low :" << param.lo << std::endl;
sstream << GridLogMessage << "["<<action_name()<<"] High :" << param.hi << std::endl;
sstream << GridLogMessage << "["<<action_name()<<"] Max iterations :" << param.MaxIter << std::endl;
sstream << GridLogMessage << "["<<action_name()<<"] Tolerance :" << param.tolerance << std::endl;
sstream << GridLogMessage << "["<<action_name()<<"] Degree :" << param.degree << std::endl;
sstream << GridLogMessage << "["<<action_name()<<"] Precision :" << param.precision << std::endl;
return sstream.str();
}
virtual void refresh(const GaugeField &U, 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

11
lib/qcd/action/pseudofermion/TwoFlavour.h
View File

@ -62,6 +62,15 @@ class TwoFlavourPseudoFermionAction : public Action<typename Impl::GaugeField> {
ActionSolver(AS),
Phi(Op.FermionGrid()){};
virtual std::string action_name(){return "TwoFlavourPseudoFermionAction";}
virtual std::string LogParameters(){
std::stringstream sstream;
sstream << GridLogMessage << "["<<action_name()<<"] has no parameters" << std::endl;
return sstream.str();
}
//////////////////////////////////////////////////////////////////////////////////////
// Push the gauge field in to the dops. Assume any BC's and smearing already applied
//////////////////////////////////////////////////////////////////////////////////////
@ -80,7 +89,9 @@ class TwoFlavourPseudoFermionAction : public Action<typename Impl::GaugeField> {
// in the Phi integral, and thus is only an irrelevant prefactor for
// the partition function.
//
RealD scale = std::sqrt(0.5);
FermionField eta(FermOp.FermionGrid());
gaussian(pRNG, eta);

102
lib/qcd/action/pseudofermion/TwoFlavourEvenOdd.h
View File

@ -31,80 +31,89 @@ directory
#define QCD_PSEUDOFERMION_TWO_FLAVOUR_EVEN_ODD_H
namespace Grid {
namespace QCD {
namespace QCD {
////////////////////////////////////////////////////////////////////////
// Two flavour pseudofermion action for any EO prec dop
////////////////////////////////////////////////////////////////////////
template <class Impl>
class TwoFlavourEvenOddPseudoFermionAction
: public Action<typename Impl::GaugeField> {
public:
INHERIT_IMPL_TYPES(Impl);
////////////////////////////////////////////////////////////////////////
// Two flavour pseudofermion action for any EO prec dop
////////////////////////////////////////////////////////////////////////
template <class Impl>
class TwoFlavourEvenOddPseudoFermionAction
: public Action<typename Impl::GaugeField> {
public:
INHERIT_IMPL_TYPES(Impl);
private:
FermionOperator<Impl> &FermOp; // the basic operator
private:
FermionOperator<Impl> &FermOp; // the basic operator
OperatorFunction<FermionField> &DerivativeSolver;
OperatorFunction<FermionField> &ActionSolver;
OperatorFunction<FermionField> &DerivativeSolver;
OperatorFunction<FermionField> &ActionSolver;
FermionField PhiOdd; // the pseudo fermion field for this trajectory
FermionField PhiEven; // the pseudo fermion field for this trajectory
FermionField PhiOdd; // the pseudo fermion field for this trajectory
FermionField PhiEven; // the pseudo fermion field for this trajectory
public:
/////////////////////////////////////////////////
// Pass in required objects.
/////////////////////////////////////////////////
TwoFlavourEvenOddPseudoFermionAction(FermionOperator<Impl> &Op,
OperatorFunction<FermionField> &DS,
OperatorFunction<FermionField> &AS)
: FermOp(Op),
DerivativeSolver(DS),
ActionSolver(AS),
PhiEven(Op.FermionRedBlackGrid()),
PhiOdd(Op.FermionRedBlackGrid())
{};
public:
/////////////////////////////////////////////////
// Pass in required objects.
/////////////////////////////////////////////////
TwoFlavourEvenOddPseudoFermionAction(FermionOperator<Impl> &Op,
OperatorFunction<FermionField> &DS,
OperatorFunction<FermionField> &AS)
: FermOp(Op),
DerivativeSolver(DS),
ActionSolver(AS),
PhiEven(Op.FermionRedBlackGrid()),
PhiOdd(Op.FermionRedBlackGrid())
{};
virtual std::string action_name(){return "TwoFlavourEvenOddPseudoFermionAction";}
virtual std::string LogParameters(){
std::stringstream sstream;
sstream << GridLogMessage << "["<<action_name()<<"] has no parameters" << std::endl;
return sstream.str();
}
//////////////////////////////////////////////////////////////////////////////////////
// Push the gauge field in to the dops. Assume any BC's and smearing already applied
//////////////////////////////////////////////////////////////////////////////////////
virtual void refresh(const GaugeField &U, GridParallelRNG& pRNG) {
// P(phi) = e^{- phi^dag (MpcdagMpc)^-1 phi}
// Phi = McpDag eta
// P(eta) = e^{- eta^dag eta}
//
// e^{x^2/2 sig^2} => sig^2 = 0.5.
RealD scale = std::sqrt(0.5);
FermionField eta (FermOp.FermionGrid());
FermionField etaOdd (FermOp.FermionRedBlackGrid());
FermionField etaEven(FermOp.FermionRedBlackGrid());
gaussian(pRNG,eta);
pickCheckerboard(Even,etaEven,eta);
pickCheckerboard(Odd,etaOdd,eta);
FermOp.ImportGauge(U);
SchurDifferentiableOperator<Impl> PCop(FermOp);
PCop.MpcDag(etaOdd,PhiOdd);
FermOp.MooeeDag(etaEven,PhiEven);
PhiOdd =PhiOdd*scale;
PhiEven=PhiEven*scale;
};
//////////////////////////////////////////////////////
// S = phi^dag (Mdag M)^-1 phi (odd)
// + phi^dag (Mdag M)^-1 phi (even)
//////////////////////////////////////////////////////
virtual RealD S(const GaugeField &U) {
FermOp.ImportGauge(U);
FermionField X(FermOp.FermionRedBlackGrid());
@ -135,7 +144,6 @@ class TwoFlavourEvenOddPseudoFermionAction
//
//////////////////////////////////////////////////////
virtual void deriv(const GaugeField &U,GaugeField & dSdU) {
FermOp.ImportGauge(U);
FermionField X(FermOp.FermionRedBlackGrid());
@ -150,8 +158,8 @@ class TwoFlavourEvenOddPseudoFermionAction
X=zero;
DerivativeSolver(Mpc,PhiOdd,X);
Mpc.Mpc(X,Y);
Mpc.MpcDeriv(tmp , Y, X ); dSdU=tmp;
Mpc.MpcDagDeriv(tmp , X, Y); dSdU=dSdU+tmp;
Mpc.MpcDeriv(tmp , Y, X ); dSdU=tmp;
Mpc.MpcDagDeriv(tmp , X, Y); dSdU=dSdU+tmp;
// Treat the EE case. (MdagM)^-1 = Minv Minvdag
// Deriv defaults to zero.
@ -163,10 +171,10 @@ class TwoFlavourEvenOddPseudoFermionAction
assert(FermOp.ConstEE() == 1);
/*
FermOp.MooeeInvDag(PhiOdd,Y);
FermOp.MooeeInv(Y,X);
FermOp.MeeDeriv(tmp , Y, X,DaggerNo ); dSdU=tmp;
FermOp.MeeDeriv(tmp , X, Y,DaggerYes); dSdU=dSdU+tmp;
FermOp.MooeeInvDag(PhiOdd,Y);
FermOp.MooeeInv(Y,X);
FermOp.MeeDeriv(tmp , Y, X,DaggerNo ); dSdU=tmp;
FermOp.MeeDeriv(tmp , X, Y,DaggerYes); dSdU=dSdU+tmp;
*/
//dSdU = Ta(dSdU);

195
lib/qcd/action/pseudofermion/TwoFlavourEvenOddRatio.h
View File

@ -52,66 +52,75 @@ namespace Grid{
public:
TwoFlavourEvenOddRatioPseudoFermionAction(FermionOperator<Impl> &_NumOp,
FermionOperator<Impl> &_DenOp,
OperatorFunction<FermionField> & DS,
OperatorFunction<FermionField> & AS) :
FermionOperator<Impl> &_DenOp,
OperatorFunction<FermionField> & DS,
OperatorFunction<FermionField> & AS) :
NumOp(_NumOp),
DenOp(_DenOp),
DerivativeSolver(DS),
ActionSolver(AS),
PhiEven(_NumOp.FermionRedBlackGrid()),
PhiOdd(_NumOp.FermionRedBlackGrid())
{
conformable(_NumOp.FermionGrid(), _DenOp.FermionGrid());
conformable(_NumOp.FermionRedBlackGrid(), _DenOp.FermionRedBlackGrid());
conformable(_NumOp.GaugeGrid(), _DenOp.GaugeGrid());
conformable(_NumOp.GaugeRedBlackGrid(), _DenOp.GaugeRedBlackGrid());
};
{
conformable(_NumOp.FermionGrid(), _DenOp.FermionGrid());
conformable(_NumOp.FermionRedBlackGrid(), _DenOp.FermionRedBlackGrid());
conformable(_NumOp.GaugeGrid(), _DenOp.GaugeGrid());
conformable(_NumOp.GaugeRedBlackGrid(), _DenOp.GaugeRedBlackGrid());
};
virtual std::string action_name(){return "TwoFlavourEvenOddRatioPseudoFermionAction";}
virtual std::string LogParameters(){
std::stringstream sstream;
sstream << GridLogMessage << "["<<action_name()<<"] has no parameters" << std::endl;
return sstream.str();
}
virtual void refresh(const GaugeField &U, GridParallelRNG& pRNG) {
// P(phi) = e^{- phi^dag Vpc (MpcdagMpc)^-1 Vpcdag phi}
//
// NumOp == V
// DenOp == M
//
// Take phi_o = Vpcdag^{-1} Mpcdag eta_o ; eta_o = Mpcdag^{-1} Vpcdag Phi
//
// P(eta_o) = e^{- eta_o^dag eta_o}
//
// e^{x^2/2 sig^2} => sig^2 = 0.5.
//
RealD scale = std::sqrt(0.5);
// P(phi) = e^{- phi^dag Vpc (MpcdagMpc)^-1 Vpcdag phi}
//
// NumOp == V
// DenOp == M
//
// Take phi_o = Vpcdag^{-1} Mpcdag eta_o ; eta_o = Mpcdag^{-1} Vpcdag Phi
//
// P(eta_o) = e^{- eta_o^dag eta_o}
//
// e^{x^2/2 sig^2} => sig^2 = 0.5.
//
RealD scale = std::sqrt(0.5);
FermionField eta (NumOp.FermionGrid());
FermionField etaOdd (NumOp.FermionRedBlackGrid());
FermionField etaEven(NumOp.FermionRedBlackGrid());
FermionField tmp (NumOp.FermionRedBlackGrid());
FermionField eta (NumOp.FermionGrid());
FermionField etaOdd (NumOp.FermionRedBlackGrid());
FermionField etaEven(NumOp.FermionRedBlackGrid());
FermionField tmp (NumOp.FermionRedBlackGrid());
gaussian(pRNG,eta);
gaussian(pRNG,eta);
pickCheckerboard(Even,etaEven,eta);
pickCheckerboard(Odd,etaOdd,eta);
pickCheckerboard(Even,etaEven,eta);
pickCheckerboard(Odd,etaOdd,eta);
NumOp.ImportGauge(U);
DenOp.ImportGauge(U);
NumOp.ImportGauge(U);
DenOp.ImportGauge(U);
SchurDifferentiableOperator<Impl> Mpc(DenOp);
SchurDifferentiableOperator<Impl> Vpc(NumOp);
SchurDifferentiableOperator<Impl> Mpc(DenOp);
SchurDifferentiableOperator<Impl> Vpc(NumOp);
// Odd det factors
Mpc.MpcDag(etaOdd,PhiOdd);
tmp=zero;
ActionSolver(Vpc,PhiOdd,tmp);
Vpc.Mpc(tmp,PhiOdd);
// Odd det factors
Mpc.MpcDag(etaOdd,PhiOdd);
tmp=zero;
ActionSolver(Vpc,PhiOdd,tmp);
Vpc.Mpc(tmp,PhiOdd);
// Even det factors
DenOp.MooeeDag(etaEven,tmp);
NumOp.MooeeInvDag(tmp,PhiEven);
// Even det factors
DenOp.MooeeDag(etaEven,tmp);
NumOp.MooeeInvDag(tmp,PhiEven);
PhiOdd =PhiOdd*scale;
PhiEven=PhiEven*scale;
PhiOdd =PhiOdd*scale;
PhiEven=PhiEven*scale;
};
//////////////////////////////////////////////////////
@ -119,33 +128,33 @@ namespace Grid{
//////////////////////////////////////////////////////
virtual RealD S(const GaugeField &U) {
NumOp.ImportGauge(U);
DenOp.ImportGauge(U);
NumOp.ImportGauge(U);
DenOp.ImportGauge(U);
SchurDifferentiableOperator<Impl> Mpc(DenOp);
SchurDifferentiableOperator<Impl> Vpc(NumOp);
SchurDifferentiableOperator<Impl> Mpc(DenOp);
SchurDifferentiableOperator<Impl> Vpc(NumOp);
FermionField X(NumOp.FermionRedBlackGrid());
FermionField Y(NumOp.FermionRedBlackGrid());
FermionField X(NumOp.FermionRedBlackGrid());
FermionField Y(NumOp.FermionRedBlackGrid());
Vpc.MpcDag(PhiOdd,Y); // Y= Vdag phi
X=zero;
ActionSolver(Mpc,Y,X); // X= (MdagM)^-1 Vdag phi
//Mpc.Mpc(X,Y); // Y= Mdag^-1 Vdag phi
// Multiply by Ydag
RealD action = real(innerProduct(Y,X));
Vpc.MpcDag(PhiOdd,Y); // Y= Vdag phi
X=zero;
ActionSolver(Mpc,Y,X); // X= (MdagM)^-1 Vdag phi
//Mpc.Mpc(X,Y); // Y= Mdag^-1 Vdag phi
// Multiply by Ydag
RealD action = real(innerProduct(Y,X));
//RealD action = norm2(Y);
//RealD action = norm2(Y);
// The EE factorised block; normally can replace with zero if det is constant (gauge field indept)
// Only really clover term that creates this. Leave the EE portion as a future to do to make most
// rapid progresss on DWF for now.
//
NumOp.MooeeDag(PhiEven,X);
DenOp.MooeeInvDag(X,Y);
action = action + norm2(Y);
// The EE factorised block; normally can replace with zero if det is constant (gauge field indept)
// Only really clover term that creates this. Leave the EE portion as a future to do to make most
// rapid progresss on DWF for now.
//
NumOp.MooeeDag(PhiEven,X);
DenOp.MooeeInvDag(X,Y);
action = action + norm2(Y);
return action;
return action;
};
//////////////////////////////////////////////////////
@ -155,44 +164,44 @@ namespace Grid{
//////////////////////////////////////////////////////
virtual void deriv(const GaugeField &U,GaugeField & dSdU) {
NumOp.ImportGauge(U);
DenOp.ImportGauge(U);
NumOp.ImportGauge(U);
DenOp.ImportGauge(U);
SchurDifferentiableOperator<Impl> Mpc(DenOp);
SchurDifferentiableOperator<Impl> Vpc(NumOp);
SchurDifferentiableOperator<Impl> Mpc(DenOp);
SchurDifferentiableOperator<Impl> Vpc(NumOp);
FermionField X(NumOp.FermionRedBlackGrid());
FermionField Y(NumOp.FermionRedBlackGrid());
FermionField X(NumOp.FermionRedBlackGrid());
FermionField Y(NumOp.FermionRedBlackGrid());
GaugeField force(NumOp.GaugeGrid());
// This assignment is necessary to be compliant with the HMC grids
GaugeField force(dSdU._grid);
//Y=Vdag phi
//X = (Mdag M)^-1 V^dag phi
//Y = (Mdag)^-1 V^dag phi
Vpc.MpcDag(PhiOdd,Y); // Y= Vdag phi
X=zero;
DerivativeSolver(Mpc,Y,X); // X= (MdagM)^-1 Vdag phi
Mpc.Mpc(X,Y); // Y= Mdag^-1 Vdag phi
//Y=Vdag phi
//X = (Mdag M)^-1 V^dag phi
//Y = (Mdag)^-1 V^dag phi
Vpc.MpcDag(PhiOdd,Y); // Y= Vdag phi
X=zero;
DerivativeSolver(Mpc,Y,X); // X= (MdagM)^-1 Vdag phi
Mpc.Mpc(X,Y); // Y= Mdag^-1 Vdag phi
// phi^dag V (Mdag M)^-1 dV^dag phi
Vpc.MpcDagDeriv(force , X, PhiOdd ); dSdU=force;
// phi^dag V (Mdag M)^-1 dV^dag phi
Vpc.MpcDagDeriv(force , X, PhiOdd ); dSdU = force;
// phi^dag dV (Mdag M)^-1 V^dag phi
Vpc.MpcDeriv(force , PhiOdd, X ); dSdU=dSdU+force;
// phi^dag dV (Mdag M)^-1 V^dag phi
Vpc.MpcDeriv(force , PhiOdd, X ); dSdU = dSdU+force;
// - phi^dag V (Mdag M)^-1 Mdag dM (Mdag M)^-1 V^dag phi
// - phi^dag V (Mdag M)^-1 dMdag M (Mdag M)^-1 V^dag phi
Mpc.MpcDeriv(force,Y,X); dSdU=dSdU-force;
Mpc.MpcDagDeriv(force,X,Y); dSdU=dSdU-force;
// - phi^dag V (Mdag M)^-1 Mdag dM (Mdag M)^-1 V^dag phi
// - phi^dag V (Mdag M)^-1 dMdag M (Mdag M)^-1 V^dag phi
Mpc.MpcDeriv(force,Y,X); dSdU = dSdU-force;
Mpc.MpcDagDeriv(force,X,Y); dSdU = dSdU-force;
// FIXME No force contribution from EvenEven assumed here
// Needs a fix for clover.
assert(NumOp.ConstEE() == 1);
assert(DenOp.ConstEE() == 1);
// FIXME No force contribution from EvenEven assumed here
// Needs a fix for clover.
assert(NumOp.ConstEE() == 1);
assert(DenOp.ConstEE() == 1);
//dSdU = -Ta(dSdU);
dSdU = -dSdU;
dSdU = -dSdU;
};
};
}

8
lib/qcd/action/pseudofermion/TwoFlavourRatio.h
View File

@ -57,6 +57,14 @@ namespace Grid{
OperatorFunction<FermionField> & AS
) : NumOp(_NumOp), DenOp(_DenOp), DerivativeSolver(DS), ActionSolver(AS), Phi(_NumOp.FermionGrid()) {};
virtual std::string action_name(){return "TwoFlavourRatioPseudoFermionAction";}
virtual std::string LogParameters(){
std::stringstream sstream;
sstream << GridLogMessage << "["<<action_name()<<"] has no parameters" << std::endl;
return sstream.str();
}
virtual void refresh(const GaugeField &U, GridParallelRNG& pRNG) {
// P(phi) = e^{- phi^dag V (MdagM)^-1 Vdag phi}

45
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@ -0,0 +1,45 @@
/*************************************************************************************
Grid physics library, www.github.com/paboyle/Grid
Source file: ./lib/qcd/action/gauge/Scalar.h
Copyright (C) 2017
Author: Guido Cossu <guido.cossu@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_QCD_SCALAR_H
#define GRID_QCD_SCALAR_H
#include <Grid/qcd/action/scalar/ScalarImpl.h>
#include <Grid/qcd/action/scalar/ScalarAction.h>
namespace Grid {
namespace QCD {
typedef ScalarAction<ScalarImplR> ScalarActionR;
typedef ScalarAction<ScalarImplF> ScalarActionF;
typedef ScalarAction<ScalarImplD> ScalarActionD;
}
}
#endif // GRID_QCD_SCALAR_H

84
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@ -0,0 +1,84 @@
/*************************************************************************************
Grid physics library, www.github.com/paboyle/Grid
Source file: ./lib/qcd/action/gauge/WilsonGaugeAction.h
Copyright (C) 2015
Author: Azusa Yamaguchi <ayamaguc@staffmail.ed.ac.uk>
Author: Peter Boyle <paboyle@ph.ed.ac.uk>
Author: neo <cossu@post.kek.jp>
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 */
#ifndef SCALAR_ACTION_H
#define SCALAR_ACTION_H
namespace Grid {
// FIXME drop the QCD namespace everywhere here
template <class Impl>
class ScalarAction : public QCD::Action<typename Impl::Field> {
public:
INHERIT_FIELD_TYPES(Impl);
private:
RealD mass_square;
RealD lambda;
public:
ScalarAction(RealD ms, RealD l) : mass_square(ms), lambda(l){};
virtual std::string LogParameters(){
std::stringstream sstream;
sstream << GridLogMessage << "[ScalarAction] lambda : " << lambda << std::endl;
sstream << GridLogMessage << "[ScalarAction] mass_square : " << mass_square << std::endl;
return sstream.str();
}
virtual std::string action_name(){return "ScalarAction";}
virtual void refresh(const Field &U,
GridParallelRNG &pRNG){}; // noop as no pseudoferms
virtual RealD S(const Field &p) {
return (mass_square * 0.5 + QCD::Nd) * ScalarObs<Impl>::sumphisquared(p) +
(lambda / 24.) * ScalarObs<Impl>::sumphifourth(p) +
ScalarObs<Impl>::sumphider(p);
};
virtual void deriv(const Field &p,
Field &force) {
Field tmp(p._grid);
Field p2(p._grid);
ScalarObs<Impl>::phisquared(p2, p);
tmp = -(Cshift(p, 0, -1) + Cshift(p, 0, 1));
for (int mu = 1; mu < QCD::Nd; mu++) tmp -= Cshift(p, mu, -1) + Cshift(p, mu, 1);
force=+(mass_square + 2. * QCD::Nd) * p + (lambda / 6.) * p2 * p + tmp;
};
};
} // Grid
#endif // SCALAR_ACTION_H

100
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@ -0,0 +1,100 @@
#ifndef SCALAR_IMPL
#define SCALAR_IMPL
namespace Grid {
//namespace QCD {
template <class S>
class ScalarImplTypes {
public:
typedef S Simd;
template <typename vtype>
using iImplField = iScalar<iScalar<iScalar<vtype> > >;
typedef iImplField<Simd> SiteField;
typedef Lattice<SiteField> Field;
static inline void generate_momenta(Field& P, GridParallelRNG& pRNG){
gaussian(pRNG, P);
}
static inline Field projectForce(Field& P){return P;}
static inline void update_field(Field& P, Field& U, double ep){
U += P*ep;
}
static inline RealD FieldSquareNorm(Field& U){
return (- sum(trace(U*U))/2.0);
}
static inline void HotConfiguration(GridParallelRNG &pRNG, Field &U) {
gaussian(pRNG, U);
}
static inline void TepidConfiguration(GridParallelRNG &pRNG, Field &U) {
gaussian(pRNG, U);
}
static inline void ColdConfiguration(GridParallelRNG &pRNG, Field &U) {
U = 1.0;
}
};
template <class S, unsigned int N>
class ScalarMatrixImplTypes {
public:
typedef S Simd;
template <typename vtype>
using iImplField = iScalar<iScalar<iMatrix<vtype, N> > >;
typedef iImplField<Simd> SiteField;
typedef Lattice<SiteField> Field;
static inline void generate_momenta(Field& P, GridParallelRNG& pRNG){
gaussian(pRNG, P);
}
static inline Field projectForce(Field& P){return P;}
static inline void update_field(Field& P, Field& U, double ep){
U += P*ep;
}
static inline RealD FieldSquareNorm(Field& U){
return (TensorRemove(- sum(trace(U*U))*0.5).real());
}
static inline void HotConfiguration(GridParallelRNG &pRNG, Field &U) {
gaussian(pRNG, U);
}
static inline void TepidConfiguration(GridParallelRNG &pRNG, Field &U) {
gaussian(pRNG, U);
}
static inline void ColdConfiguration(GridParallelRNG &pRNG, Field &U) {
U = 1.0;
}
};
typedef ScalarImplTypes<vReal> ScalarImplR;
typedef ScalarImplTypes<vRealF> ScalarImplF;
typedef ScalarImplTypes<vRealD> ScalarImplD;
//}
}
#endif

84
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@ -0,0 +1,84 @@
/*************************************************************************************
Grid physics library, www.github.com/paboyle/Grid
Source file: ./lib/qcd/action/gauge/WilsonGaugeAction.h
Copyright (C) 2015
Author: Azusa Yamaguchi <ayamaguc@staffmail.ed.ac.uk>
Author: Peter Boyle <paboyle@ph.ed.ac.uk>
Author: neo <cossu@post.kek.jp>
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 */
#ifndef SCALAR_ACTION_H
#define SCALAR_ACTION_H
namespace Grid {
// FIXME drop the QCD namespace everywhere here
template <class Impl>
class ScalarInteractionAction : public QCD::Action<typename Impl::Field> {
public:
INHERIT_FIELD_TYPES(Impl);
private:
RealD mass_square;
RealD lambda;
public:
ScalarAction(RealD ms, RealD l) : mass_square(ms), lambda(l){};
virtual std::string LogParameters(){
std::stringstream sstream;
sstream << GridLogMessage << "[ScalarAction] lambda : " << lambda << std::endl;
sstream << GridLogMessage << "[ScalarAction] mass_square : " << mass_square << std::endl;
return sstream.str();
}
virtual std::string action_name(){return "ScalarAction";}
virtual void refresh(const Field &U,
GridParallelRNG &pRNG){}; // noop as no pseudoferms
virtual RealD S(const Field &p) {
return (mass_square * 0.5 + QCD::Nd) * ScalarObs<Impl>::sumphisquared(p) +
(lambda / 24.) * ScalarObs<Impl>::sumphifourth(p) +
ScalarObs<Impl>::sumphider(p);
};
virtual void deriv(const Field &p,
Field &force) {
Field tmp(p._grid);
Field p2(p._grid);
ScalarObs<Impl>::phisquared(p2, p);
tmp = -(Cshift(p, 0, -1) + Cshift(p, 0, 1));
for (int mu = 1; mu < QCD::Nd; mu++) tmp -= Cshift(p, mu, -1) + Cshift(p, mu, 1);
force=+(mass_square + 2. * QCD::Nd) * p + (lambda / 6.) * p2 * p + tmp;
};
};
} // Grid
#endif // SCALAR_ACTION_H

213
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@ -0,0 +1,213 @@
/*************************************************************************************
Grid physics library, www.github.com/paboyle/Grid
Source file: ./lib/qcd/hmc/GenericHmcRunner.h
Copyright (C) 2015
Author: paboyle <paboyle@ph.ed.ac.uk>
Author: Guido Cossu <guido.cossu@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_GENERIC_HMC_RUNNER
#define GRID_GENERIC_HMC_RUNNER
#include <unordered_map>
namespace Grid {
namespace QCD {
// very ugly here but possibly resolved if we had a base Reader class
template < class ReaderClass >
class HMCRunnerBase {
public:
virtual void Run() = 0;
virtual void initialize(ReaderClass& ) = 0;
};
template <class Implementation,
template <typename, typename, typename> class Integrator,
class RepresentationsPolicy = NoHirep, class ReaderClass = XmlReader>
class HMCWrapperTemplate: public HMCRunnerBase<ReaderClass> {
public:
INHERIT_FIELD_TYPES(Implementation);
typedef Implementation ImplPolicy; // visible from outside
template <typename S = NoSmearing<Implementation> >
using IntegratorType = Integrator<Implementation, S, RepresentationsPolicy>;
HMCparameters Parameters;
std::string ParameterFile;
HMCResourceManager<Implementation> Resources;
// The set of actions (keep here for lower level users, for now)
ActionSet<Field, RepresentationsPolicy> TheAction;
HMCWrapperTemplate() = default;
HMCWrapperTemplate(HMCparameters Par){
Parameters = Par;
}
void initialize(ReaderClass & TheReader){
std::cout << "Initialization of the HMC" << std::endl;
Resources.initialize(TheReader);
// eventually add smearing
Resources.GetActionSet(TheAction);
}
void ReadCommandLine(int argc, char **argv) {
std::string arg;
if (GridCmdOptionExists(argv, argv + argc, "--StartingType")) {
arg = GridCmdOptionPayload(argv, argv + argc, "--StartingType");
if (arg != "HotStart" && arg != "ColdStart" && arg != "TepidStart" &&
arg != "CheckpointStart") {
std::cout << GridLogError << "Unrecognized option in --StartingType\n";
std::cout
<< GridLogError
<< "Valid [HotStart, ColdStart, TepidStart, CheckpointStart]\n";
exit(1);
}
Parameters.StartingType = arg;
}
if (GridCmdOptionExists(argv, argv + argc, "--StartingTrajectory")) {
arg = GridCmdOptionPayload(argv, argv + argc, "--StartingTrajectory");
std::vector<int> ivec(0);
GridCmdOptionIntVector(arg, ivec);
Parameters.StartTrajectory = ivec[0];
}
if (GridCmdOptionExists(argv, argv + argc, "--Trajectories")) {
arg = GridCmdOptionPayload(argv, argv + argc, "--Trajectories");
std::vector<int> ivec(0);
GridCmdOptionIntVector(arg, ivec);
Parameters.Trajectories = ivec[0];
}
if (GridCmdOptionExists(argv, argv + argc, "--Thermalizations")) {
arg = GridCmdOptionPayload(argv, argv + argc, "--Thermalizations");
std::vector<int> ivec(0);
GridCmdOptionIntVector(arg, ivec);
Parameters.NoMetropolisUntil = ivec[0];
}
if (GridCmdOptionExists(argv, argv + argc, "--ParameterFile")) {
arg = GridCmdOptionPayload(argv, argv + argc, "--ParameterFile");
ParameterFile = arg;
}
}
template <class SmearingPolicy>
void Run(SmearingPolicy &S) {
Runner(S);
}
void Run(){
NoSmearing<Implementation> S;
Runner(S);
}
//////////////////////////////////////////////////////////////////
private:
template <class SmearingPolicy>
void Runner(SmearingPolicy &Smearing) {
auto UGrid = Resources.GetCartesian();
Resources.AddRNGs();
Field U(UGrid);
// Can move this outside?
typedef IntegratorType<SmearingPolicy> TheIntegrator;
TheIntegrator MDynamics(UGrid, Parameters.MD, TheAction, Smearing);
if (Parameters.StartingType == "HotStart") {
// Hot start
Resources.SeedFixedIntegers();
Implementation::HotConfiguration(Resources.GetParallelRNG(), U);
} else if (Parameters.StartingType == "ColdStart") {
// Cold start
Resources.SeedFixedIntegers();
Implementation::ColdConfiguration(Resources.GetParallelRNG(), U);
} else if (Parameters.StartingType == "TepidStart") {
// Tepid start
Resources.SeedFixedIntegers();
Implementation::TepidConfiguration(Resources.GetParallelRNG(), U);
} else if (Parameters.StartingType == "CheckpointStart") {
// CheckpointRestart
Resources.GetCheckPointer()->CheckpointRestore(Parameters.StartTrajectory, U,
Resources.GetSerialRNG(),
Resources.GetParallelRNG());
}
Smearing.set_Field(U);
HybridMonteCarlo<TheIntegrator> HMC(Parameters, MDynamics,
Resources.GetSerialRNG(),
Resources.GetParallelRNG(),
Resources.GetObservables(), U);
// Run it
HMC.evolve();
}
};
// These are for gauge fields, default integrator MinimumNorm2
template <template <typename, typename, typename> class Integrator>
using GenericHMCRunner = HMCWrapperTemplate<PeriodicGimplR, Integrator>;
template <template <typename, typename, typename> class Integrator>
using GenericHMCRunnerF = HMCWrapperTemplate<PeriodicGimplF, Integrator>;
template <template <typename, typename, typename> class Integrator>
using GenericHMCRunnerD = HMCWrapperTemplate<PeriodicGimplD, Integrator>;
// These are for gauge fields, default integrator MinimumNorm2
template <template <typename, typename, typename> class Integrator>
using ConjugateHMCRunner = HMCWrapperTemplate<ConjugateGimplR, Integrator>;
template <template <typename, typename, typename> class Integrator>
using ConjugateHMCRunnerF = HMCWrapperTemplate<ConjugateGimplF, Integrator>;
template <template <typename, typename, typename> class Integrator>
using ConjugateHMCRunnerD = HMCWrapperTemplate<ConjugateGimplD, Integrator>;
template <class RepresentationsPolicy,
template <typename, typename, typename> class Integrator>
using GenericHMCRunnerHirep =
HMCWrapperTemplate<PeriodicGimplR, Integrator, RepresentationsPolicy>;
template <class Implementation, class RepresentationsPolicy,
template <typename, typename, typename> class Integrator>
using GenericHMCRunnerTemplate = HMCWrapperTemplate<Implementation, Integrator, RepresentationsPolicy>;
typedef HMCWrapperTemplate<ScalarImplR, MinimumNorm2, ScalarFields>
ScalarGenericHMCRunner;
} // namespace QCD
} // namespace Grid
#endif // GRID_GENERIC_HMC_RUNNER

199
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@ -34,13 +34,15 @@ directory
* @brief Classes for Hybrid Monte Carlo update
*
* @author Guido Cossu
* Time-stamp: <2015-07-30 16:58:26 neo>
*/
//--------------------------------------------------------------------
#ifndef HMC_INCLUDED
#define HMC_INCLUDED
#include <string>
#include <list>
#include <Grid/qcd/hmc/integrators/Integrator.h>
#include <Grid/qcd/hmc/integrators/Integrator_algorithm.h>
@ -48,91 +50,64 @@ directory
namespace Grid {
namespace QCD {
struct HMCparameters {
Integer StartTrajectory;
Integer Trajectories; /* @brief Number of sweeps in this run */
bool MetropolisTest;
Integer NoMetropolisUntil;
struct HMCparameters: Serializable {
GRID_SERIALIZABLE_CLASS_MEMBERS(HMCparameters,
Integer, StartTrajectory,
Integer, Trajectories, /* @brief Number of sweeps in this run */
bool, MetropolisTest,
Integer, NoMetropolisUntil,
std::string, StartingType,
IntegratorParameters, MD)
HMCparameters() {
////////////////////////////// Default values
MetropolisTest = true;
MetropolisTest = true;
NoMetropolisUntil = 10;
StartTrajectory = 0;
Trajectories = 200;
StartTrajectory = 0;
Trajectories = 10;
StartingType = "HotStart";
/////////////////////////////////
}
void print() const {
std::cout << GridLogMessage << "[HMC parameter] Trajectories : " << Trajectories << "\n";
std::cout << GridLogMessage << "[HMC parameter] Start trajectory : " << StartTrajectory << "\n";
std::cout << GridLogMessage << "[HMC parameter] Metropolis test (on/off): " << MetropolisTest << "\n";
std::cout << GridLogMessage << "[HMC parameter] Thermalization trajs : " << NoMetropolisUntil << "\n";
template <class ReaderClass >
HMCparameters(Reader<ReaderClass> & TheReader){
initialize(TheReader);
}
template < class ReaderClass >
void initialize(Reader<ReaderClass> &TheReader){
std::cout << "Reading HMC\n";
read(TheReader, "HMC", *this);
}
void print_parameters() const {
std::cout << GridLogMessage << "[HMC parameters] Trajectories : " << Trajectories << "\n";
std::cout << GridLogMessage << "[HMC parameters] Start trajectory : " << StartTrajectory << "\n";
std::cout << GridLogMessage << "[HMC parameters] Metropolis test (on/off): " << std::boolalpha << MetropolisTest << "\n";
std::cout << GridLogMessage << "[HMC parameters] Thermalization trajs : " << NoMetropolisUntil << "\n";
std::cout << GridLogMessage << "[HMC parameters] Starting type : " << StartingType << "\n";
MD.print_parameters();
}
};
template <class GaugeField>
class HmcObservable {
public:
virtual void TrajectoryComplete(int traj, GaugeField &U, GridSerialRNG &sRNG,
GridParallelRNG &pRNG) = 0;
};
template <class Gimpl>
class PlaquetteLogger : public HmcObservable<typename Gimpl::GaugeField> {
private:
std::string Stem;
public:
INHERIT_GIMPL_TYPES(Gimpl);
PlaquetteLogger(std::string cf) { Stem = cf; };
void TrajectoryComplete(int traj, GaugeField &U, GridSerialRNG &sRNG,
GridParallelRNG &pRNG) {
std::string file;
{
std::ostringstream os;
os << Stem << "." << traj;
file = os.str();
}
std::ofstream of(file);
RealD peri_plaq = WilsonLoops<PeriodicGimplR>::avgPlaquette(U);
RealD peri_rect = WilsonLoops<PeriodicGimplR>::avgRectangle(U);
RealD impl_plaq = WilsonLoops<Gimpl>::avgPlaquette(U);
RealD impl_rect = WilsonLoops<Gimpl>::avgRectangle(U);
of << traj << " " << impl_plaq << " " << impl_rect << " " << peri_plaq
<< " " << peri_rect << std::endl;
std::cout << GridLogMessage << "traj"
<< " "
<< "plaq "
<< " "
<< " rect "
<< " "
<< "peri_plaq"
<< " "
<< "peri_rect" << std::endl;
std::cout << GridLogMessage << traj << " " << impl_plaq << " " << impl_rect
<< " " << peri_plaq << " " << peri_rect << std::endl;
}
};
// template <class GaugeField, class Integrator, class Smearer, class
// Boundary>
template <class GaugeField, class IntegratorType>
template <class IntegratorType>
class HybridMonteCarlo {
private:
const HMCparameters Params;
GridSerialRNG &sRNG; // Fixme: need a RNG management strategy.
GridParallelRNG &pRNG; // Fixme: need a RNG management strategy.
GaugeField &Ucur;
typedef typename IntegratorType::Field Field;
typedef std::vector< HmcObservable<Field> * > ObsListType;
//pass these from the resource manager
GridSerialRNG &sRNG;
GridParallelRNG &pRNG;
Field &Ucur;
IntegratorType &TheIntegrator;
std::vector<HmcObservable<GaugeField> *> Observables;
ObsListType Observables;
/////////////////////////////////////////////////////////
// Metropolis step
@ -167,13 +142,13 @@ class HybridMonteCarlo {
/////////////////////////////////////////////////////////
// Evolution
/////////////////////////////////////////////////////////
RealD evolve_step(GaugeField &U) {
RealD evolve_hmc_step(Field &U) {
TheIntegrator.refresh(U, pRNG); // set U and initialize P and phi's
RealD H0 = TheIntegrator.S(U); // initial state action
std::streamsize current_precision = std::cout.precision();
std::cout.precision(17);
std::cout.precision(15);
std::cout << GridLogMessage << "Total H before trajectory = " << H0 << "\n";
std::cout.precision(current_precision);
@ -181,64 +156,96 @@ class HybridMonteCarlo {
RealD H1 = TheIntegrator.S(U); // updated state action
std::cout.precision(17);
std::cout << GridLogMessage << "Total H after trajectory = " << H1
<< " dH = " << H1 - H0 << "\n";
std::cout.precision(current_precision);
///////////////////////////////////////////////////////////
if(0){
std::cout << "------------------------- Reversibility test" << std::endl;
TheIntegrator.reverse_momenta();
TheIntegrator.integrate(U);
H1 = TheIntegrator.S(U); // updated state action
std::cout << "--------------------------------------------" << std::endl;
}
///////////////////////////////////////////////////////////
std::cout.precision(15);
std::cout << GridLogMessage << "Total H after trajectory = " << H1
<< " dH = " << H1 - H0 << "\n";
std::cout.precision(current_precision);
return (H1 - H0);
}
public:
/////////////////////////////////////////
// Constructor
/////////////////////////////////////////
HybridMonteCarlo(HMCparameters Pams, IntegratorType &_Int,
GridSerialRNG &_sRNG, GridParallelRNG &_pRNG, GaugeField &_U)
: Params(Pams), TheIntegrator(_Int), sRNG(_sRNG), pRNG(_pRNG), Ucur(_U) {}
HybridMonteCarlo(HMCparameters _Pams, IntegratorType &_Int,
GridSerialRNG &_sRNG, GridParallelRNG &_pRNG,
ObsListType _Obs, Field &_U)
: Params(_Pams), TheIntegrator(_Int), sRNG(_sRNG), pRNG(_pRNG), Observables(_Obs), Ucur(_U) {}
~HybridMonteCarlo(){};
void AddObservable(HmcObservable<GaugeField> *obs) {
Observables.push_back(obs);
}
void evolve(void) {
Real DeltaH;
GaugeField Ucopy(Ucur._grid);
Field Ucopy(Ucur._grid);
Params.print();
Params.print_parameters();
TheIntegrator.print_actions();
// Actual updates (evolve a copy Ucopy then copy back eventually)
for (int traj = Params.StartTrajectory;
traj < Params.Trajectories + Params.StartTrajectory; ++traj) {
unsigned int FinalTrajectory = Params.Trajectories + Params.NoMetropolisUntil + Params.StartTrajectory;
for (int traj = Params.StartTrajectory; traj < FinalTrajectory; ++traj) {
std::cout << GridLogMessage << "-- # Trajectory = " << traj << "\n";
if (traj < Params.StartTrajectory + Params.NoMetropolisUntil) {
std::cout << GridLogMessage << "-- Thermalization" << std::endl;
}
double t0=usecond();
Ucopy = Ucur;
DeltaH = evolve_step(Ucopy);
DeltaH = evolve_hmc_step(Ucopy);
// Metropolis-Hastings test
bool accept = true;
if (traj >= Params.NoMetropolisUntil) {
if (traj >= Params.StartTrajectory + Params.NoMetropolisUntil) {
accept = metropolis_test(DeltaH);
} else {
std::cout << GridLogMessage << "Skipping Metropolis test" << std::endl;
}
if (accept) {
Ucur = Ucopy;
}
if (accept)
Ucur = Ucopy;
double t1=usecond();
std::cout << GridLogMessage << "Total time for trajectory (s): " << (t1-t0)/1e6 << std::endl;
for (int obs = 0; obs < Observables.size(); obs++) {
std::cout << GridLogDebug << "Observables # " << obs << std::endl;
std::cout << GridLogDebug << "Observables total " << Observables.size() << std::endl;
std::cout << GridLogDebug << "Observables pointer " << Observables[obs] << std::endl;
Observables[obs]->TrajectoryComplete(traj + 1, Ucur, sRNG, pRNG);
}
std::cout << GridLogMessage << ":::::::::::::::::::::::::::::::::::::::::::" << std::endl;
}
}
};
} // QCD
} // Grid
#include <Grid/parallelIO/NerscIO.h>
#include <Grid/qcd/hmc/NerscCheckpointer.h>
#include <Grid/qcd/hmc/HmcRunner.h>
// april 11 2017 merge, Guido, commenting out
//#include <Grid/parallelIO/NerscIO.h>
//#include <Grid/qcd/hmc/NerscCheckpointer.h>
//#include <Grid/qcd/hmc/HmcRunner.h>
#endif

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lib/qcd/hmc/HMCModules.h Normal file
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/*************************************************************************************
Grid physics library, www.github.com/paboyle/Grid
Source file: ./lib/qcd/hmc/GenericHmcRunner.h
Copyright (C) 2015
Copyright (C) 2016
Author: Guido Cossu <guido.cossu@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_HMC_MODULES
#define GRID_HMC_MODULES
#include "HMC_GridModules.h"
namespace Grid {
namespace QCD {
////////////////////////////////////////////////////////////////////
struct RNGModuleParameters: Serializable {
GRID_SERIALIZABLE_CLASS_MEMBERS(RNGModuleParameters,
std::string, serial_seeds,
std::string, parallel_seeds,);
std::vector<int> getSerialSeeds(){return strToVec<int>(serial_seeds);}
std::vector<int> getParallelSeeds(){return strToVec<int>(parallel_seeds);}
RNGModuleParameters(): serial_seeds("1"), parallel_seeds("1"){}
template <class ReaderClass >
RNGModuleParameters(Reader<ReaderClass>& Reader){
read(Reader, "RandomNumberGenerator", *this);
}
};
// Random number generators module
class RNGModule{
GridSerialRNG sRNG_;
std::unique_ptr<GridParallelRNG> pRNG_;
RNGModuleParameters Params_;
public:
RNGModule(){};
void set_pRNG(GridParallelRNG* pRNG){
pRNG_.reset(pRNG);
}
void set_RNGSeeds(RNGModuleParameters& Params) {
Params_ = Params;
}
GridSerialRNG& get_sRNG() { return sRNG_; }
GridParallelRNG& get_pRNG() { return *pRNG_.get(); }
void seed() {
auto SerialSeeds = Params_.getSerialSeeds();
auto ParallelSeeds = Params_.getParallelSeeds();
if (SerialSeeds.size() == 0 && ParallelSeeds.size() == 0) {
std::cout << GridLogError << "Seeds not initialized" << std::endl;
exit(1);
}
sRNG_.SeedFixedIntegers(SerialSeeds);
pRNG_->SeedFixedIntegers(ParallelSeeds);
}
};
/*
///////////////////////////////////////////////////////////////////
/// Smearing module
template <class ImplementationPolicy>
class SmearingModule{
virtual void get_smearing();
};
template <class ImplementationPolicy>
class StoutSmearingModule: public SmearingModule<ImplementationPolicy>{
SmearedConfiguration<ImplementationPolicy> SmearingPolicy;
};
*/
} // namespace QCD
} // namespace Grid
#endif // GRID_HMC_MODULES

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/*************************************************************************************
Grid physics library, www.github.com/paboyle/Grid
Source file: ./lib/qcd/hmc/GenericHmcRunner.h
Copyright (C) 2015
Copyright (C) 2016
Author: Guido Cossu <guido.cossu@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 HMC_RESOURCE_MANAGER_H
#define HMC_RESOURCE_MANAGER_H
#include <unordered_map>
// One function per Checkpointer, use a macro to simplify
#define RegisterLoadCheckPointerFunction(NAME) \
void Load##NAME##Checkpointer(const CheckpointerParameters& Params_) { \
if (!have_CheckPointer) { \
std::cout << GridLogDebug << "Loading Checkpointer " << #NAME \
<< std::endl; \
CP = std::unique_ptr<CheckpointerBaseModule>( \
new NAME##CPModule<ImplementationPolicy>(Params_)); \
have_CheckPointer = true; \
} else { \
std::cout << GridLogError << "Checkpointer already loaded " \
<< std::endl; \
exit(1); \
} \
}
namespace Grid {
namespace QCD {
// HMC Resource manager
template <class ImplementationPolicy>
class HMCResourceManager {
typedef HMCModuleBase< QCD::BaseHmcCheckpointer<ImplementationPolicy> > CheckpointerBaseModule;
typedef HMCModuleBase< QCD::HmcObservable<typename ImplementationPolicy::Field> > ObservableBaseModule;
typedef ActionModuleBase< QCD::Action<typename ImplementationPolicy::Field>, GridModule > ActionBaseModule;
// Named storage for grid pairs (std + red-black)
std::unordered_map<std::string, GridModule> Grids;
RNGModule RNGs;
// SmearingModule<ImplementationPolicy> Smearing;
std::unique_ptr<CheckpointerBaseModule> CP;
// A vector of HmcObservable modules
std::vector<std::unique_ptr<ObservableBaseModule> > ObservablesList;
// A vector of HmcObservable modules
std::multimap<int, std::unique_ptr<ActionBaseModule> > ActionsList;
std::vector<int> multipliers;
bool have_RNG;
bool have_CheckPointer;
// NOTE: operator << is not overloaded for std::vector<string>
// so thsi function is necessary
void output_vector_string(const std::vector<std::string> &vs){
for (auto &i: vs)
std::cout << i << " ";
std::cout << std::endl;
}
public:
HMCResourceManager() : have_RNG(false), have_CheckPointer(false) {}
template <class ReaderClass, class vector_type = vComplex >
void initialize(ReaderClass &Read){
// assumes we are starting from the main node
// Geometry
GridModuleParameters GridPar(Read);
GridFourDimModule<vector_type> GridMod( GridPar) ;
AddGrid("gauge", GridMod);
// Checkpointer
auto &CPfactory = HMC_CPModuleFactory<cp_string, ImplementationPolicy, ReaderClass >::getInstance();
Read.push("Checkpointer");
std::string cp_type;
read(Read,"name", cp_type);
std::cout << "Registered types " << std::endl;
output_vector_string(CPfactory.getBuilderList());
CP = CPfactory.create(cp_type, Read);
CP->print_parameters();
Read.pop();
have_CheckPointer = true;
RNGModuleParameters RNGpar(Read);
SetRNGSeeds(RNGpar);
// Observables
auto &ObsFactory = HMC_ObservablesModuleFactory<observable_string, typename ImplementationPolicy::Field, ReaderClass>::getInstance();
Read.push(observable_string);// here must check if existing...
do {
std::string obs_type;
read(Read,"name", obs_type);
std::cout << "Registered types " << std::endl;
output_vector_string(ObsFactory.getBuilderList() );
ObservablesList.emplace_back(ObsFactory.create(obs_type, Read));
ObservablesList[ObservablesList.size() - 1]->print_parameters();
} while (Read.nextElement(observable_string));
Read.pop();
// Loop on levels
if(!Read.push("Actions")){
std::cout << "Actions not found" << std::endl;
exit(1);
}
if(!Read.push("Level")){// push must check if the node exist
std::cout << "Level not found" << std::endl;
exit(1);
}
do
{
fill_ActionsLevel(Read);
}
while(Read.push("Level"));
Read.pop();
}
template <class RepresentationPolicy>
void GetActionSet(ActionSet<typename ImplementationPolicy::Field, RepresentationPolicy>& Aset){
Aset.resize(multipliers.size());
for(auto it = ActionsList.begin(); it != ActionsList.end(); it++){
(*it).second->acquireResource(Grids["gauge"]);
Aset[(*it).first-1].push_back((*it).second->getPtr());
}
}
//////////////////////////////////////////////////////////////
// Grids
//////////////////////////////////////////////////////////////
void AddGrid(std::string s, GridModule& M) {
// Check for name clashes
auto search = Grids.find(s);
if (search != Grids.end()) {
std::cout << GridLogError << "Grid with name \"" << search->first
<< "\" already present. Terminating\n";
exit(1);
}
Grids[s] = std::move(M);
}
// Add a named grid set, 4d shortcut
void AddFourDimGrid(std::string s) {
GridFourDimModule<vComplex> Mod;
AddGrid(s, Mod);
}
GridCartesian* GetCartesian(std::string s = "") {
if (s.empty()) s = Grids.begin()->first;
std::cout << GridLogDebug << "Getting cartesian grid from: " << s
<< std::endl;
return Grids[s].get_full();
}
GridRedBlackCartesian* GetRBCartesian(std::string s = "") {
if (s.empty()) s = Grids.begin()->first;
std::cout << GridLogDebug << "Getting rb-cartesian grid from: " << s
<< std::endl;
return Grids[s].get_rb();
}
//////////////////////////////////////////////////////
// Random number generators
//////////////////////////////////////////////////////
void AddRNGs(std::string s = "") {
// Couple the RNGs to the GridModule tagged by s
// the default is the first grid registered
assert(Grids.size() > 0 && !have_RNG);
if (s.empty()) s = Grids.begin()->first;
std::cout << GridLogDebug << "Adding RNG to grid: " << s << std::endl;
RNGs.set_pRNG(new GridParallelRNG(GetCartesian(s)));
have_RNG = true;
}
void SetRNGSeeds(RNGModuleParameters& Params) { RNGs.set_RNGSeeds(Params); }
GridSerialRNG& GetSerialRNG() { return RNGs.get_sRNG(); }
GridParallelRNG& GetParallelRNG() {
assert(have_RNG);
return RNGs.get_pRNG();
}
void SeedFixedIntegers() {
assert(have_RNG);
RNGs.seed();
}
//////////////////////////////////////////////////////
// Checkpointers
//////////////////////////////////////////////////////
BaseHmcCheckpointer<ImplementationPolicy>* GetCheckPointer() {
if (have_CheckPointer)
return CP->getPtr();
else {
std::cout << GridLogError << "Error: no checkpointer defined"
<< std::endl;
exit(1);
}
}
RegisterLoadCheckPointerFunction(Binary);
RegisterLoadCheckPointerFunction(Nersc);
#ifdef HAVE_LIME
RegisterLoadCheckPointerFunction(ILDG);
#endif
////////////////////////////////////////////////////////
// Observables
////////////////////////////////////////////////////////
template<class T, class... Types>
void AddObservable(Types&&... Args){
ObservablesList.push_back(std::unique_ptr<T>(new T(std::forward<Types>(Args)...)));
}
std::vector<HmcObservable<typename ImplementationPolicy::Field>* > GetObservables(){
std::vector<HmcObservable<typename ImplementationPolicy::Field>* > out;
for (auto &i : ObservablesList){
out.push_back(i->getPtr());
}
// Add the checkpointer to the observables
out.push_back(GetCheckPointer());
return out;
}
private:
// this private
template <class ReaderClass >
void fill_ActionsLevel(ReaderClass &Read){
// Actions set
int m;
Read.readDefault("multiplier",m);
multipliers.push_back(m);
std::cout << "Level : " << multipliers.size() << " with multiplier : " << m << std::endl;
// here gauge
Read.push("Action");
do{
auto &ActionFactory = HMC_ActionModuleFactory<gauge_string, typename ImplementationPolicy::Field, ReaderClass>::getInstance();
std::string action_type;
Read.readDefault("name", action_type);
output_vector_string(ActionFactory.getBuilderList() );
ActionsList.emplace(m, ActionFactory.create(action_type, Read));
} while (Read.nextElement("Action"));
ActionsList.find(m)->second->print_parameters();
Read.pop();
}
};
}
}
#endif // HMC_RESOURCE_MANAGER_H

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