LAPACK  3.5.0
LAPACK: Linear Algebra PACKage
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make.inc.SUN4SOL2
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1 ####################################################################
2 # LAPACK make include file. #
3 # LAPACK, Version 3.5.0 #
4 # November 2013 #
5 ####################################################################
6 #
7 SHELL = /bin/sh
8 #
9 # Modify the FORTRAN and OPTS definitions to refer to the
10 # compiler and desired compiler options for your machine. NOOPT
11 # refers to the compiler options desired when NO OPTIMIZATION is
12 # selected. Define LOADER and LOADOPTS to refer to the loader and
13 # desired load options for your machine.
14 #
15 FORTRAN = f77
16 #OPTS = -O4 -u -f -mt
17 #OPTS = -u -f -dalign -native -xO5 -xarch=v8plusa
18 OPTS = -u -f -dalign -native -xO2 -xarch=v8plusa
19 DRVOPTS = $(OPTS)
20 NOOPT = -u -f
21 #NOOPT = -u -f -mt
22 LOADER = f77
23 #LOADOPTS = -mt
24 LOADOPTS = -f -dalign -native -xO2 -xarch=v8plusa
25 #
26 # Timer for the SECOND and DSECND routines
27 #
28 # Default : SECOND and DSECND will use a call to the EXTERNAL FUNCTION ETIME
29 TIMER = EXT_ETIME
30 # For RS6K : SECOND and DSECND will use a call to the EXTERNAL FUNCTION ETIME_
31 # TIMER = EXT_ETIME_
32 # For gfortran compiler: SECOND and DSECND will use a call to the INTERNAL FUNCTION ETIME
33 # TIMER = INT_ETIME
34 # If your Fortran compiler does not provide etime (like Nag Fortran Compiler, etc...)
35 # SECOND and DSECND will use a call to the INTERNAL FUNCTION CPU_TIME
36 # TIMER = INT_CPU_TIME
37 # If neither of this works...you can use the NONE value... In that case, SECOND and DSECND will always return 0
38 # TIMER = NONE
39 #
40 # Configuration LAPACKE: Native C interface to LAPACK
41 # To generate LAPACKE library: type 'make lapackelib'
42 # Configuration file: turned off (default)
43 # Complex types: C99 (default)
44 # Name pattern: mixed case (default)
45 # (64-bit) Data model: LP64 (default)
46 #
47 # CC is the C compiler, normally invoked with options CFLAGS.
48 #
49 CC = cc
50 CFLAGS = -O3
51 #
52 # LAPACKE has also the interface to some routines from tmglib,
53 # if LAPACKE_WITH_TMG is selected, we need to add those routines to LAPACKE
54 #LAPACKE_WITH_TMG = Yes
55 #
56 # The archiver and the flag(s) to use when building archive (library)
57 # If you system has no ranlib, set RANLIB = echo.
58 #
59 ARCH = ar
60 ARCHFLAGS= cr
61 RANLIB = echo
62 #
63 # Location of the extended-precision BLAS (XBLAS) Fortran library
64 # used for building and testing extended-precision routines. The
65 # relevant routines will be compiled and XBLAS will be linked only if
66 # USEXBLAS is defined.
67 #
68 # USEXBLAS = Yes
69 XBLASLIB =
70 # XBLASLIB = -lxblas
71 #
72 # The location of the libraries to which you will link. (The
73 # machine-specific, optimized BLAS library should be used whenever
74 # possible.)
75 #
76 #BLASLIB = ../../librefblas.a
77 #BLASLIB = -xlic_lib=sunperf_mt
78 BLASLIB = -xlic_lib=sunperf
79 LAPACKLIB = liblapack.a
80 TMGLIB = libtmglib.a
81 LAPACKELIB = liblapacke.a
liblapack3 least squared solutions to linear sets of eigenvector singular value etc It is a very comprehensive and reputable package that has found extensive use in the scientific community least squared solutions to linear sets of eigenvector singular value etc It is a very comprehensive and reputable package that has found extensive use in the scientific community This package contains the Standard C language library for LAPACK liblapacke(=${binary:Version}) Description
Definition: control:58
adapt the repackaging code *Remove recursive patch Replace it by the frecursive flag to gfortran
Definition: changelog:27