1 ELF > @ @ PF @ 8 @ % " @ @ @ @ @ 8 8@ 8@ @ @ ` ` p x ` ` T T@ T@ D D Ptd 4 4@ 4@ T T Qtd Rtd ` ` /lib64/ld-linux-x86-64.so.2 GNU GNU 1zpvp?m
2 . k = Q libgfortran.so.3 _ITM_deregisterTMCloneTable __gmon_start__ _Jv_RegisterClasses _ITM_registerTMCloneTable _gfortran_transfer_real_write _gfortran_st_write_done _gfortran_transfer_character_write _gfortran_set_options _gfortran_st_write _gfortran_set_args libc.so.6 __stack_chk_fail __libc_start_main GLIBC_2.2.5 GLIBC_2.4 GFORTRAN_1.4 GFORTRAN_1.0 0 ui - ii
3 9 e C e P ` ` ` ( ` 0 ` 8 ` @ ` H ` P ` X ` HH5 Htc H 5" %$ @ %" h % h % h %
4 h % h % h % h % h p% h `HH5p Va 1H1I^HHPTI@ H@@ Hǀ@ Qw ` UH-p ` HHv Ht]p ` f ]fffff. p ` UHp ` HHHH?HHt Ht]p ` ]fD = uUHn] @ ` H? u HtUH]zUHH0H}؉udH%( HE1 E .Ez .Eu E EHEع H5 HǸ tEE HEع H5 HǸ tE E EE.ErMb XYEf~EEE HEع H5( HǸ t/ Es HEع H5 HǸ tE(Xf~ЉE5 HEع H5 HǸ t E HEع H5 HǸ o tEE HEع H5U HǸ > t` E HEع H5" HǸ >
<td
5 t EkHEع H5 HǸ t E:HEع H5 HǸ t E EEEEEEHEdH3%( tUHH0H}HudH%( HE1HEHE Xf~ȉEEEEHEdH3%( tPf. @ 8t#pPqFQF9f. fSH= H0 dH%( H$( 1H\$@eH= 1 D$ LH= 1 D$4D$-H= 1 D$H= 1 D$$H= 1
6 D$8H= 1 D$0H= 1 D$H= 1 D$,H=v 1D$~H HD$(D$P3 D$@ HD$HD$D &H5? HHt$ HHH HD$P4 D$@ D$D HD$HH5 HXHt$4 HvH~HK HD$P5 D$@ D$D HD$HrH5 HHt$ HH$H HD$P6 D$@ D$D HD$HH5 HHt$$ HHH HD$P7 D$@ D$D HD$HH5W HJHt$8 HhHpH= HD$P8 D$@ D$D HD$HdH5 HHt$0 HHH HD$P9 D$@ D$D HD$H ` ]f!
7 H5 HHt$ HHH HD$P: D$@ D$D HD$HH5 H<Ht$, HZHbH/ HD$P; D$@ D$D HD$HVH5o HHt$ H HH HD$P< D$@ D$D HD$HH55 HHt$( HHH{ HD$P= D$@ D$D HD$HH5 H.L$Ht$<; ^HD$<4H<H$( dH3%( u H0 [f. AWAAVIAUIATL% UH- SL)1HHEHt LLDAHH9uH[]A\A]A^A_ff. HH ESBPNRMULO ? 3 4 @ A C EpsilonSafe minimumBasePrecisionNumber of digits in mantissaRounding modeMinimum exponentUnderflow thresholdLargest exponentOverflow threshold Epsilon = Safe minimum = Base = Precision = Number of digits in mantissa = Rounding mode = Minimum exponent = Underflow threshold = Largest exponent = Overflow threshold = Reciprocal of safe minimum = D slamchtst.f ?;P LD rl b # \ | zR x * zR x $ FJw ?;*3$" D AC
10 AA & Da D e BEE E(H0H8M@l8A0A(B BBB $ p@ P@ @
12 ] ` @ @ o h@ o o N@ ` @ @ @ &@ 6@ F@ V@ f@ v@ GCC: (Ubuntu 4.9.1-16ubuntu6) 4.9.1 GCC: (Ubuntu 4.8.3-11ubuntu1) 4.8.3 , @ , D @ 4 < @ 5 @ & @ N @ % @ 3 + D8 3 @ D H Deps V3 T V3 Xrnd V3 `2 V3 \H V3 d " 3 P
14 3 W@ [ a 3 Xb 3 P 3 d e % @ 4 v 4Y @ 4 ca 4 u cb 4 _ca 9 _cb r ` E E | E , m Q I
16 k % ! @ 5 {8 { {eps {D {o { {rnd {2 {t {1@ x U @ T7 J@ x $ U @ T< i@ x H U @ T4 @ x l U @ T9 @ x U @ TL @ x U <@ T= @ x U I@ T@ @ x U Y@ TC @ x U l@ T@
68 8 k @ k H _ P _ T{ k X k `i _ h9 _ l k pu K
71 k t _ _ k k _ _ Q k pad k _ w _ k N k K _ S (8
85 %B & I $ > .?:;nI@B :;I I4 4 :;I 4 :;I 4 I4
89 .?:;nI@B :;I %B .?:;nI@B :;I :;I I4 4 :;I 4 I4 $ >
90 & I %BU .:;@Bj6 4 :;I 4 :;I 1 B 1 $ > .?:;I@B
96 I8 I ! I"/ . ?4< .?< ~
97 slamch.f @ !&&&&u&&&&&&gX
100 slamchtst.f @ (xt.uXYgYջYgYgYgYgYgYgYgZhPZZZZZZZZZr! @ >J" integer(kind=4) slamc3_ real(kind=4) /build/buildd/lapack-3.5.0/INSTALL small GNU Fortran 4.9.1 -ffixed-form -mtune=generic -march=x86-64 -g -O0 -fPIC -fstack-protector-strong -frecursive -fintrinsic-modules-path /usr/lib/gcc/x86_64-linux-gnu/4.9/finclude _cmach __result_slamc3 rmach zero __result_slamch sfmin slamch_ slamch.f logical(kind=4) lsame_ inta lsame.f __result_lsame zcode intb GNU Fortran 4.9.1 -ffixed-form -mtune=generic -march=x86-64 -g -O2 -fPIC -fstack-protector-strong -frecursive -fintrinsic-modules-path /usr/lib/gcc/x86_64-linux-gnu/4.9/finclude namelist_name_len sign_len _gfortran_transfer_character_write round_len iomsg format_len character(kind=1) pad_len decimal round advance_len iolength internal_unit_desc line size blank __st_parameter_dt decimal_len base _gfortran_set_args _gfortran_st_write _gfortran_set_options delim _gfortran_st_write_done rmax asynchronous_len slamchtst.f delim_len blank_len format iomsg_len main _gfortran_transfer_real_write filename flags rmin argc namelist_name sizetype __stack_chk_fail c_char MAIN__ integer(kind=8) emax iostat prec argv sign __st_parameter_common internal_unit_len advance emin internal_unit asynchronous t 4 T Q 4 Q R 4 R / P/ 2 ) u u u aI,( 2 R 2 Z q 8$r 8$) * u 8$r 8$)* 2 u 8$q 8$) @ @ U@ @ U @ @ t @ @ T @ 5@ @ @ .symtab .strtab .shstrtab .interp .note.ABI-tag .note.gnu.build-id .gnu.hash .dynsym .dynstr .gnu.version .gnu.version_r .rela.dyn .rela.plt .init .text .fini .rodata .eh_frame_hdr .eh_frame .init_array .fini_array .jcr .dynamic .got .got.plt .data .bss .comment .debug_aranges .debug_info .debug_abbrev .debug_line .debug_str .debug_loc .debug_ranges 8@ T@ t@ @ @ @ N@ h@ @
102 @ @ @ 4@ @ ` ` ` ` ` ` ` ` p ` ! `
107 @ 5 @ $ @ ` ` ` ` 3 ` I
108 @ Y u ` ` p ` @ ` ` * 9 h ` F @ U
114 W@ [ crtstuff.c __JCR_LIST__ deregister_tm_clones register_tm_clones __do_global_dtors_aux completed.7259 __do_global_dtors_aux_fini_array_entry frame_dummy __frame_dummy_init_array_entry lsame.f slamchtst.f MAIN__ options.11.2343 slamch.f __FRAME_END__ __JCR_END__ __init_array_end _DYNAMIC __init_array_start _GLOBAL_OFFSET_TABLE_ __libc_csu_fini _ITM_deregisterTMCloneTable data_start _edata _fini _gfortran_set_options@@GFORTRAN_1.0 __stack_chk_fail@@GLIBC_2.4 _gfortran_transfer_character_write@@GFORTRAN_1.4 __libc_start_main@@GLIBC_2.2.5 __data_start __gmon_start__ __dso_handle _IO_stdin_used _gfortran_transfer_real_write@@GFORTRAN_1.4 __libc_csu_init _end lsame_ _start __bss_start _gfortran_st_write_done@@GFORTRAN_1.0 main _gfortran_set_args@@GFORTRAN_1.0 _Jv_RegisterClasses __TMC_END__ _gfortran_st_write@@GFORTRAN_1.0 _ITM_registerTMCloneTable slamch_ _init slamc3_ 8@ 8 # T@ T 1 t@ t $ D o @ N @ 8 V @ ] ^ o N@ N k o h@ h ` z @ B @ @ @ @ 2
115 @ @ t 4@ 4 T @ l ` ` ` ` ` ` ` ` ` ` p ` p 0 p H X! # R. 1 1 j = 0 2 H #7 1 S T9 0 9 a : $ 8 B m