Rename Python conda environment “old” to “new” by copying the environment and deleting the original environment:
conda create --name new --clone old
conda remove --name old --all
Each Miniconda/Anaconda environment consumes disk space.
One may wish to delete old, unused conda environments to free disk space.
Conda environment disk size can be checked by listing all environment paths
Linux
control groups
can limit any user’s CPU, memory or other resource usage.
Control groups can be used to test program behavior under constrained resources.
Control groups v2 are recommended in general with a new architecture and better performance.
By default with
RHEL/CentOS 8,
we need to enable cgroups-v2.
Although setting up persistent control groups is straightforward, it’s possible to create a transient commend line initiated control group using
systemd-run.
This use can be good for diagnosing program behavior–for example, does a program’s memory use blow up then come down faster than “top” might show.
An example use constraining a program to 2 GB of RAM is like:
The flag --user did not work–we needed to type the sudo password despite running as the standard user.
Another way to set hardware/firmware-based limits for more intensive benchmarks is to simply use a device with less RAM, edit BIOS/UEFI to only enable a limited amount of RAM, or on Linux use
GRUBkernel mem= parameter to constrain the available RAM.
Ensure the swap/paging file is turned off.
Sometimes files are accidentally spilled into a Git repo.
Before the files are git add, they are “untracked”.
If the files match a pattern in “.gitignore” they will not appear in Git operations generally.
Untracked, non-ignored files show with:
git status --porcelain
like
?? oops.txt
where the question marks indicate the file is untracked.
These files may be interactively removed (deleted) by:
git clean -id
When there are files spilled in multiple directories, the “filter by pattern” options lets you select files to retain.
The updated display shows files to be deleted.
When satisfied, select “Clean”–there’s no recovering those files trivially, so be sure of your choices.
To clean files matching patterns in .gitignore, add the “-x” option like:
git clean -xid
That’s useful for cleaning up in source builds, perhaps from Makefile or LaTeX.
Variables that are larger than a few kilobytes often should be put into heap memory instead of stack memory.
In Fortran, compilers typically put variables with parameter property into stack memory.
Our practice in Fortran is to put non-trivial arrays intended to be static/unchanged memory into an
allocatable,
protected
array.
Example:
module foo
implicit none (type, external)
integer, allocatable, protected:: x(:,:)
contains
subroutine init()
allocate(x(1024,256))
!! in real life, this would be some constant data array or
!! expression filling the "constant" array x.
x =1end subroutine init
end module
program bar
use foo, only : init, x
call init()
if (any(x /=1)) error stop"did not init"end program
In this example, x is approximately a one megabyte variable, assuming kind=int32.
Even though the compiler may not warn if we instead declare this variable as parameter, it can cause segfaults and other seemingly random runtime errors.
Normally we would use a derived type instead of a bare module, but we did it here for simplicity.
Fortran allocate large variables
If the variable to be allocated is about one gigabyte or larger, sometimes special techniques are needed, even on systems with very large amounts of RAM including HPC.
This is especially the case on Windows systems, where even the latest Windows 10 has particular limitations.
The error messages one may get upon allocating large variables in Fortran include:
Error allocating <N> bytes: Not enough space
Segmentation fault (core dumped)
For Windows, a peculiar limitation is that each variable (including allocatable) cannot exceed the virtual paging file size, even if the Windows computer has large amount of RAM that isn’t being exceeded.
The paging file size may be inspected and set under: Control Panel | System and Security | System | Advanced system settings | Advanced | Performance | Settings | Advanced | Virtual memory
In general, the compiler may need to have the memory model flag set for the situation.
This flag has a set of implications.
As noted by Hector Martin and others, MacOS 11 appeared to have a possible kernel bug causing excessive SSD write wear whenever the SSD was in the “on” state.
One can use “smartmontools” to check SSD write history:
People with an M1 mac, please run `brew install smartmontools && sudo smartctl --all /dev/disk0` and report back (and what kind of usage you make of the machine, especially RAM).
Note that SSD on state time can be much less than Mac powered-on time, particularly if the Mac is sitting idle.
This is especially the case for the Mac Mini, which may sit powered on but unused for the majority of the time by some users.
Thankfully as noted by Jonas Ribe, Hector Martin and others, MacOS 11.4 appears to have fixed this SSD write bug:
After a week with macOS 11.4 it seems clear that the SSD thrashing issue has *finally* been resolved on my M1 MBA and I can stop running smartctl on a regular basis😅 https://t.co/X0QwI6FK2zpic.twitter.com/ncbCK66TkP
Thankfully we haven’t see the 100+ TB of excess SSD wear pre-11.4 as Jonas did.
We saw less than 5TB of excess wear on each of our mostly idle, continuously powered on Mac Minis.
Again, tentatively this problem is resolved by MacOS 11.4.
The CMake test frontend CTest can easily select subsets of tests.
While there are more advanced
CTest test selection options,
two of the most common and easy to use test subset selection methods are by
regex
selection of names, labels and/or fixtures exclusion.
Assuming the project has a meaningful test naming scheme, one may trivially select tests by either or both of the ctest -R and ctest -E flags.
For this article, assume the tests are named:
The colon has no special meaning, and CTest names may use special characters if desired.
When figuring out how to use CTest test selection, it’s very helpful to also add the ctest -N option, so that test names are printed without running the tests.
For all examples, we assume the user working directory is
PROJECT_BINARY_DIR
or is using ctest --test-dir.
One may select all the “egg” tests by:
ctest -R egg
Suppose one wishes to exclude the test named “beta:egg”:
ctest -R egg -E beta
To run all tests except those with “beta” in the name:
ctest -E beta
A more sophisticated test selection scheme requires setting
test labels
in the respective CMakeLists.txt like:
Git
stash
is often used to hold temporary work that wasn’t yet ready for a commit, perhaps during a rebase.
The stash history is per repo.
Over time, one may accumulate numerous stash entries that are no longer relevant and may desire to cleanup this clutter.
View Git stash entries by:
git stash list
View the contents of a particular stash entry by:
git stash show -p "stash@{0}"
where the number in braces corresponds to the git stash list index.
To remove a stash entry, sliding up all the entries older than it:
git stash drop "stash@{N}"
where “N” is the entry index to remove.
If one wishes to recover a dropped Git stash entry, it may be
possible:
TeXLive is a well maintained and often updated LaTeX distribution that works for any OS.
Download
TeXLive net Installer
and run.
Click Advanced and use the “basic” scheme, which is well under one GB to start.
When building a document and it seems to be missing a package, note the error messages.
Find and install needed packages via tlmgr using commands like:
find package by filename: tlmgr search --global --file fullpage.sty
When a new major version of TeXLive is released, simply repeat the procedure above and point any programs like TeXstudio to the new TeXLive install directory.
Upgrading the Matlab version or installing Addon Toolboxes can be initiated from the system Terminal / Command Prompt.
Actually doing the upgrade or addon install does require a graphical connection to the computer (Remote Desktop, VNC, or similar).
The little bell icon on the upper right corner of the Matlab IDE typically shows when a Matlab update is available.
To force checking for install, even if the bell is not showing an update, under the Matlab directory look for “update_installer”
Windows: bin/win64/update_installer.exe
Linux: bin/glnxa64/update_installer
MacOS: bin/maci64/update_installer
If the graphical connection has a problem, an error results like:
terminating with uncaught exception of type (anonymous namespace)::DisplayError: No display available.
The Addon interface does need to be launched from the Matlab IDE and likewise requires a graphical connection.
If having trouble with the graphical windows launched, try this for diagnosis:
matlab.internal.webwindow('www.mathworks.com')
That should return a webwindow object without error (a window does not actually open).
If on Linux with a graphical connection and errors result, try renaming libcrypto.so.1.1 like:
cd <matlabroot>/bin/glnxa64/
mv libcrypto.so.1.1 libcrypto.so.1.1.bak
Windows Terminal is a useful and welcome
open source
addition to any developer working on Windows.
It has no prerequisites and works well with multiple WSL distros.