If I want to compile WRF ARW from source code, what would be the closest option compared to the EMS binaries, knowing I have a XEON architecture :
Thank you !1. (serial) 2. (smpar) 3. (dmpar) 4. (dm+sm) NEC SX (sxf90/sxcc)
5. (serial) 6. (smpar) 7. (dmpar) 8. (dm+sm) GNU (gfortran/gcc)
9. (serial) 10. (dmpar) GNU (g95/gcc)
11. (serial) 12. (smpar) 13. (dmpar) 14. (dm+sm) PGI (pgf90/gcc)
15. (serial) 16. (smpar) 17. (dmpar) 18. (dm+sm) PGI (pgf90/pgcc): SGI MPT
19. (serial) 20. (smpar) 21. (dmpar) 22. (dm+sm) PGI (pgf90/gcc): PGI accelerator
23. (serial) 24. (smpar) 25. (dmpar) 26. (dm+sm) INTEL (ifort/icc)
27. (dm+sm) INTEL (ifort/icc): Xeon Phi (MIC architecture)
28. (serial) 29. (smpar) 30. (dmpar) 31. (dm+sm) INTEL (ifort/icc): Xeon (SNB with AVX mods)
32. (serial) 33. (smpar) 34. (dmpar) 35. (dm+sm) INTEL (ifort/icc): SGI MPT
36. (serial) 37. (smpar) 38. (dmpar) 39. (dm+sm) INTEL (ifort/icc): IBM POE
40. (serial) 41. (smpar) 42. (dmpar) 43. (dm+sm) INTEL (ifort/icc): ia64
44. (serial) 45. (smpar) 46. (dmpar) 47. (dm+sm) INTEL (ifort/icc): SGI Altix
48. (serial) 49. (dmpar) PATHSCALE (pathf90/pathcc)
50. (serial) 51. (smpar) 52. (dmpar) 53. (dm+sm) GNU (gfortran/gcc)
54. (serial) 55. (smpar) 56. (dmpar) 57. (dm+sm) IBM (xlf90_r/cc_r)
58. (serial) 59. (smpar) 60. (dmpar) 61. (dm+sm) PGI (ftn/gcc): Cray XC CLE
62. (serial) 63. (smpar) 64. (dmpar) 65. (dm+sm) CRAY CCE (ftn/gcc): Cray XE and XC
66. (serial) 67. (smpar) 68. (dmpar) 69. (dm+sm) INTEL (ftn/icc): Cray XC
70. (serial) 71. (smpar) 72. (dmpar) 73. (dm+sm) FUJITSU (frtpx/fccpx): FX10 SPARC64 IXfx
74. (dmpar) IBM (blrts_xlf90/blrts_xlc): ppc64 Blue Gene\L
75. (smpar) 76. (dmpar) 77. (dm+sm) IBM (mpixlf90_r/mpixlc_r): ppc64 Blue Gene\P
78. (dmpar) IBM (xlf90_r/xlc_r): ppc64 IBM Blade
79. (serial) 80. (smpar) 81. (dmpar) 82. (dm+sm) PGI (pgf90/pgcc)
83. (serial) 84. (smpar) 85. (dmpar) 86. (dm+sm) PGI (pgf90/gcc): -f90=pgf90
87. (serial) 88. (smpar) 89. (dmpar) 90. (dm+sm) PGI (pgf90/pgcc): -f90=pgf90