Hi Tony!
I'm using the 3.0 release (git checkout release-0.3). I would use ifort but
I am currently using the free student license which includes Intel® C++
Compiler, Intel® MKL, Intel® TBB, Intel® IPP, Intel® VTune™ Amplifier XE,
Intel® Inspector XE, Intel® Advisor XE and does not include ifort.
Here is the output now that I have set linalg4.jl debug from false to true
mark@studio1458: ~/builds/julia
:> make testall
PERL base/version_git.jl.phony
exports.jl
base.jl
reflection.jl
build_h.jl
version_git.jl
c.jl
promotion.jl
tuple.jl
range.jl
expr.jl
error.jl
bool.jl
number.jl
int.jl
operators.jl
pointer.jl
float.jl
complex.jl
rational.jl
abstractarray.jl
reduce.jl
subarray.jl
array.jl
bitarray.jl
intset.jl
dict.jl
set.jl
hashing.jl
iterator.jl
inference.jl
osutils.jl
char.jl
ascii.jl
utf8.jl
utf16.jl
utf32.jl
iobuffer.jl
string.jl
utf8proc.jl
regex.jl
pcre.jl
base64.jl
io.jl
iostream.jl
libc.jl
env.jl
errno.jl
path.jl
intfuncs.jl
task.jl
show.jl
stream.jl
uv_constants.jl
socket.jl
stat.jl
fs.jl
process.jl
multimedia.jl
grisu.jl
file.jl
methodshow.jl
floatfuncs.jl
math.jl
float16.jl
cartesian.jl
multidimensional.jl
primes.jl
serialize.jl
multi.jl
poll.jl
loading.jl
reducedim.jl
ordering.jl
collections.jl
sort.jl
combinatorics.jl
rounding.jl
gmp.jl
mpfr.jl
hashing2.jl
dSFMT.jl
random.jl
darray.jl
mmap.jl
sharedarray.jl
version.jl
datafmt.jl
deepcopy.jl
interactiveutil.jl
replutil.jl
test.jl
meta.jl
i18n.jl
help.jl
simdloop.jl
Terminals.jl
LineEdit.jl
REPLCompletions.jl
REPL.jl
client.jl
printf.jl
util.jl
sparse.jl
sparse/abstractsparse.jl
linalg.jl
broadcast.jl
statistics.jl
fftw.jl
dsp.jl
sysinfo.jl
constants.jl
quadgk.jl
deprecated.jl
pkg.jl
graphics.jl
profile.jl
precompile.jl
JULIA test/all
>From worker 9: * keywordargs
>From worker 2: * linalg1
>From worker 6: * linalg/cholmod
>From worker 4: * linalg3
>From worker 3: * linalg2
>From worker 5: * linalg4
>From worker 7: * linalg/umfpack
>From worker 8: * core
>From worker 5: Triangular matrices
>From worker 9: * numbers
>From worker 6: * strings
>From worker 5: elty is Float32, relty is Float32
>From worker 5: Linear solver
>From worker 5: Eigensystems
>From worker 8: * collections
>From worker 7: * hashing
>From worker 5: Condition number tests - can be VERY approximate
>From worker 5: Binary operations
>From worker 5: Linear solver
>From worker 5: Eigensystems
>From worker 5: Condition number tests - can be VERY approximate
>From worker 5: Binary operations
>From worker 6: * remote
>From worker 5: elty is Complex{Float32}, relty is Float32
>From worker 5: Linear solver
>From worker 6: * iobuffer
>From worker 6: * arrayops
>From worker 7: * reduce
>From worker 5: Eigensystems
>From worker 5: Condition number tests - can be VERY approximate
>From worker 5: Binary operations
>From worker 5: Linear solver
>From worker 5: Eigensystems
>From worker 5: Condition number tests - can be VERY approximate
>From worker 5: Binary operations
>From worker 5: elty is Float64, relty is Float64
>From worker 5: Linear solver
>From worker 7: * reducedim
>From worker 5: Eigensystems
>From worker 5: Condition number tests - can be VERY approximate
>From worker 5: Binary operations
>From worker 5: Linear solver
>From worker 5: Eigensystems
>From worker 5: Condition number tests - can be VERY approximate
>From worker 5: Binary operations
>From worker 5: elty is Complex{Float64}, relty is Float64
>From worker 5: Linear solver
>From worker 8: * simdloop
>From worker 8: * blas
>From worker 5: Eigensystems
>From worker 5: Condition number tests - can be VERY approximate
>From worker 5: Binary operations
>From worker 5: Linear solver
>From worker 5: Eigensystems
>From worker 5: Condition number tests - can be VERY approximate
>From worker 5: Binary operations
>From worker 5: elty is BigFloat, relty is BigFloat
>From worker 5: Linear solver
>From worker 5: Eigensystems
>From worker 8: * fft
>From worker 5: Binary operations
>From worker 5: Linear solver
>From worker 5: Eigensystems
>From worker 5: Binary operations
>From worker 5: elty is Complex{BigFloat}, relty is BigFloat
>From worker 5: Linear solver
>From worker 7: * dsp
>From worker 9: * sparse
>From worker 8: * bitarray
>From worker 5: Eigensystems
>From worker 7: * random
>From worker 5: Binary operations
>From worker 5: Linear solver
>From worker 5: Eigensystems
>From worker 5: Binary operations
>From worker 5: Tridiagonal matrices
>From worker 5: relty is Float32, elty is Float32
>From worker 7: * math
>From worker 5: Simple unary functions
>From worker 5: Binary operations
>From worker 5: relty is Float32, elty is Complex{Float32}
>From worker 5: Simple unary functions
>From worker 4: * functional
>From worker 5: Binary operations
>From worker 5: relty is Float64, elty is Float64
>From worker 5: Simple unary functions
>From worker 5: Binary operations
>From worker 5: relty is Float64, elty is Complex{Float64}
>From worker 5: Simple unary functions
>From worker 5: Binary operations
>From worker 5: SymTridiagonal (symmetric tridiagonal) matrices
>From worker 4: * bigint
>From worker 5: elty is Float32, relty is Float32
>From worker 5: Idempotent tests
>From worker 5: Simple unary functions
>From worker 5: Eigensystems
>From worker 5: This tests eigenvalue and eigenvector computations using
stebz! and stein!
>From worker 4: * sorting
>From worker 6: * statistics
>From worker 5: stein! call using iblock and isplit
>From worker 5: Binary operations
>From worker 5: elty is Complex{Float32}, relty is Float32
>From worker 5: Idempotent tests
>From worker 5: Simple unary functions
>From worker 5: Binary operations
>From worker 5: elty is Float64, relty is Float64
>From worker 5: Idempotent tests
>From worker 5: Simple unary functions
>From worker 5: Eigensystems
>From worker 5: This tests eigenvalue and eigenvector computations using
stebz! and stein!
>From worker 5: stein! call using iblock and isplit
>From worker 5: Binary operations
>From worker 5: elty is Complex{Float64}, relty is Float64
>From worker 5: Idempotent tests
>From worker 5: Simple unary functions
>From worker 5: Binary operations
>From worker 5: Eigenvalues in interval for Symmetric{Float64}
>From worker 5: Eigenvalues in interval for Hermitian{Float64}
>From worker 5: Eigenvalues in interval for Hermitian{Complex{Float64}}
>From worker 5: Eigenvalues in interval for SymTridiagonal{Float64}
>From worker 5: Bidiagonal matrices
>From worker 5: elty is Float32, relty is Float32
>From worker 5: Test upper and lower bidiagonal matrices
>From worker 5: isupper is: true
>From worker 5: Idempotent tests
>From worker 5: Linear solver
>From worker 5: Eigensystems
>From worker 5: Singular systems
>From worker 5: Binary operations
>From worker 5: Conversion from Bidiagonal to Tridiagonal
>From worker 5: isupper is: false
>From worker 5: Idempotent tests
>From worker 5: Linear solver
>From worker 5: Eigensystems
>From worker 5: Singular systems
>From worker 5: Binary operations
>From worker 5: Conversion from Bidiagonal to Tridiagonal
>From worker 5: elty is Complex{Float32}, relty is Float32
>From worker 5: Test upper and lower bidiagonal matrices
>From worker 5: isupper is: true
>From worker 5: Idempotent tests
>From worker 5: Linear solver
>From worker 5: Eigensystems
>From worker 5: Singular systems
>From worker 5: Binary operations
>From worker 5: Conversion from Bidiagonal to Tridiagonal
>From worker 5: isupper is: false
>From worker 5: Idempotent tests
>From worker 5: Linear solver
>From worker 5: Eigensystems
>From worker 5: Singular systems
>From worker 5: Binary operations
>From worker 5: Conversion from Bidiagonal to Tridiagonal
>From worker 5: elty is Float64, relty is Float64
>From worker 5: Test upper and lower bidiagonal matrices
>From worker 5: isupper is: true
>From worker 5: Idempotent tests
>From worker 5: Linear solver
>From worker 7: * spawn
>From worker 5: Eigensystems
>From worker 5: Singular systems
>From worker 5: Binary operations
>From worker 5: Conversion from Bidiagonal to Tridiagonal
>From worker 5: isupper is: false
>From worker 5: Idempotent tests
>From worker 5: Linear solver
>From worker 5: Eigensystems
>From worker 5: Singular systems
>From worker 5: Binary operations
>From worker 5: Conversion from Bidiagonal to Tridiagonal
>From worker 5: elty is Complex{Float64}, relty is Float64
>From worker 5: Test upper and lower bidiagonal matrices
>From worker 5: isupper is: true
>From worker 5: Idempotent tests
>From worker 5: Linear solver
>From worker 5: Eigensystems
>From worker 5: Singular systems
>From worker 5: Binary operations
>From worker 5: Conversion from Bidiagonal to Tridiagonal
>From worker 5: isupper is: false
>From worker 5: Idempotent tests
>From worker 5: Linear solver
>From worker 5: Eigensystems
>From worker 5: Singular systems
>From worker 5: Binary operations
>From worker 5: Conversion from Bidiagonal to Tridiagonal
>From worker 5: elty is BigFloat, relty is BigFloat
>From worker 5: Test upper and lower bidiagonal matrices
>From worker 5: isupper is: true
>From worker 5: Idempotent tests
>From worker 5: Linear solver
>From worker 7: [stdio passthrough ok]
>From worker 5: Eigensystems
>From worker 5: Singular systems
>From worker 5: Binary operations
>From worker 5: Conversion from Bidiagonal to Tridiagonal
>From worker 5: isupper is: false
>From worker 5: Idempotent tests
>From worker 5: Linear solver
>From worker 5: Eigensystems
>From worker 5: Singular systems
>From worker 5: Binary operations
>From worker 5: Conversion from Bidiagonal to Tridiagonal
>From worker 5: elty is Complex{BigFloat}, relty is BigFloat
>From worker 5: Test upper and lower bidiagonal matrices
>From worker 5: isupper is: true
>From worker 5: Idempotent tests
>From worker 5: Linear solver
>From worker 5: Eigensystems
>From worker 5: Singular systems
>From worker 5: Binary operations
>From worker 5: Conversion from Bidiagonal to Tridiagonal
>From worker 5: isupper is: false
>From worker 5: Idempotent tests
>From worker 5: Linear solver
>From worker 5: Eigensystems
>From worker 5: Singular systems
>From worker 5: Binary operations
>From worker 5: Conversion from Bidiagonal to Tridiagonal
>From worker 5: Diagonal matrices
>From worker 5: elty is Float32, relty is Float32
>From worker 5: Linear solve
>From worker 6: * intfuncs
>From worker 6: * backtrace
>From worker 6: * priorityqueue
>From worker 5: Simple unary functions
>From worker 5: Binary operations
>From worker 5: elty is Complex{Float32}, relty is Float32
>From worker 5: Linear solve
>From worker 5: Simple unary functions
>From worker 6: * arpack
exception on 5: From worker 7: * file
ERROR: assertion failed: |func(D) - func(DM)| <= 3.4332275e-5
func(D) = 1.048798f0 - 1.5707964f0im
func(DM) = 1.0487979650497437 - 0.5797938426309308im
difference = 0.9910025278753558 > 3.4332275e-5
in error at error.jl:22
in test_approx_eq at test.jl:109
in anonymous at no file:295
in runtests at /home/mark/builds/julia/test/testdefs.jl:5
in anonymous at multi.jl:855
in run_work_thunk at multi.jl:621
in anonymous at task.jl:855
while loading linalg4.jl, in expression starting on line 263
signal (11): Segmentation fault
mkl_blas_mc3_zdotc at /opt/intel/composerxe/mkl/lib/intel64/libmkl_mc3.so
(unknown line)
zdotc at /opt/intel/composerxe/mkl/lib/intel64/libmkl_intel_ilp64.so
(unknown line)
zdotc at /opt/intel/composerxe/mkl/lib/intel64/libmkl_rt.so (unknown line)
zneupd_ at /home/mark/builds/julia/usr/bin/../lib/libarpack.so (unknown
line)
neupd at linalg/arpack.jl:285
jlcall_neupd_24499 at (unknown line)
jl_apply at <invalid>:0
eupd_wrapper at linalg/arpack.jl:131
jlcall_eupd_wrapper_24492 at (unknown line)
jl_apply at <invalid>:0
eigs at linalg/arnoldi.jl:105
jlcall___eigs#159___24445 at (unknown line)
jl_apply_generic at <invalid>:0
julia_eigs_24485 at (unknown line)
jlcall_eigs_24485 at (unknown line)
jl_apply at <invalid>:0
eigs at linalg/arnoldi.jl:5
julia_eigs_24440 at (unknown line)
jl_apply at <invalid>:0
anonymous at no file:28
jl_apply at <invalid>:0
jl_parse_eval_all at <invalid>:0
jl_load at <invalid>:0
runtests at /home/mark/builds/julia/test/testdefs.jl:5
jlcall_runtests_20201 at (unknown line)
jl_apply_generic at <invalid>:0
jl_apply at <invalid>:0
anonymous at multi.jl:855
run_work_thunk at multi.jl:621
jl_apply_generic at <invalid>:0
anonymous at task.jl:855
start_task at <invalid>:0
julia_trampoline at <invalid>:0
unknown function (ip: 4201261)
__libc_start_main at /usr/lib/libc.so.6 (unknown line)
unknown function (ip: 4200937)
unknown function (ip: 0)
Worker 6 terminated.
ERROR: assertion failed: |func(D) - func(DM)| <= 3.4332275e-5
func(D) = 1.048798f0 - 1.5707964f0im
func(DM) = 1.0487979650497437 - 0.5797938426309308im
difference = 0.9910025278753558 > 3.4332275e-5
in wait at ./task.jl:284
in wait at ./task.jl:194
in wait_full at ./multi.jl:602
in remotecall_fetch at multi.jl:704
in remotecall_fetch at multi.jl:709
in anonymous at task.jl:1365
while loading linalg4.jl, in expression starting on line 263
while loading /home/mark/builds/julia/test/runtests.jl, in expression
starting on line 39
Makefile:16: recipe for target 'all' failed
make[1]: *** [all] Error 1
Makefile:426: recipe for target 'testall' failed
make: *** [testall] Error 2
