When
1. Spack installs libtool,
2. system libtool is installed too, and
3. system automake is used
Spack passes system automake's `-I <prefix>` flag to itself, even though
it's a default search path. This takes precedence over spack's libtool
prefix dir. This causes the wrong `libtool.m4` file to be used (since
system libtool is in the same prefix as system automake).
And that leads to error messages about incompatible libtool, something
something LT_INIT.
fixes#31627
spack.mirror.get_all_versions now uses the package class
instead of the package object in its implementation.
Ensure spec is concrete before staging for mirrors
* Update open-ce patches for py-torch to us immutable URLs. Update magma dependency specs to be more explicit.
* Address comments for PR regarding URLs and conflicting variants.
Co-authored-by: Nicholas Cameron Sly <sly1@llnl.gov>
* rocblas: make tensile dependencies conditional
* Remove rocm-smi from the rocblas dependency list
rocm-smi was added to the rocblas dependency list because Tensile was a
dependency of rocBLAS and rocm-smi was a dependency of Tensile. However,
that reasoning was not correct.
Tensile is composed of three components:
1. A command-line tool for generating kernels, benchmarking them, and
saving the parameters used for generating the best kernels
(a.k.a. "Solutions") in YAML files.
2. A build system component that reads YAML solution files, generates
kernel source files, and invokes the compiler to compile then into
code object files (*.co, *.hsco). An index of the kernels and their
associated parameters is also generated and stored in either YAML
or MessagePack format (TensileLibrary.yaml or TensileLibrary.dat).
3. A runtime library that will load the TensileLibrary and code object
files when asked to execute a GEMM and choose the ideal kernel for
your specific input parameters.
rocBLAS developers use (1) during rocBLAS development. This is when
Tensile depends on rocm-smi. The GPU clock speed and temperature must be
controlled to ensure consistency when doing the solution benchmarking.
That control is provided by rocm-smi. When building rocBLAS, Tensile is
used for (2). However, there is no need for control of the GPU at that
point and rocm-smi is not a dependency. At runtime, the rocBLAS library
uses Tensile for (3), but there is again no dependency on rocm-smi.
tl;dr: rocm-smi is a dependency of the tensile benchmarking tool,
which is not a build dependency or runtime dependency of rocblas.
This PR contains several fixes for the kallisto package.
- create hdf5 variant as hdf5 is optional beginning with 0.46.2
- provide patch for 0.43 to link against libz
- provide patch for older versions to build again gcc-11 and up
- patch and code to use autoconf-2.70 and up
Newer versions of botocore (>=1.23.47) support the full IOBase
interface, so the hacks added to supplement the missing attributes are
no longer needed. Conditionally disable the hacks if they appear to be
unnecessary based on the class hierarchy found at runtime.
* py-panaroo: new package
* moving panaroo to branch
* updated mizani, plotnine, and pystan versions and requirements
* made suggested fixes
* adding more requested fixes
* added new versions of statsmodels and httpstan
* py-torch: add version 0.23.0 and fix to built on aarch64
* Add newer versions, fix build issues
* Fix tests
Co-authored-by: Adam J. Stewart <ajstewart426@gmail.com>