While dedicated NOAA NWR weather (WX) radios are available, two-way communications radios such as CB radio and GMRS etc. can also have 162 MHz weather radio receivers.
162 MHz WX radio is a one-way radio service that broadcasts weather information and emergency alerts across much of the USA, Canada, and Mexico.
When determining which WX channel to receive on, it can be confusing because there is no standard WX channel number to 162 MHz frequency mapping.
Use the NOAA
USA search
or
Canada search
to find nearby WX radio transmitter frequencies.
Channel number to frequency mapping: a common practice is to start with the lowest frequency and go up across the 7 WX radio frequencies.
This is perhaps the most common channel number to frequency mapping.
WX Channel
Frequency (MHz)
1
162.400
2
162.425
3
162.450
4
162.475
5
162.500
6
162.525
7
162.550
Non-sequential channel order is used by some CB radios such as Radioddity / Anytone radios made by Qixiang.
WX Channel
Frequency (MHz)
1
162.550
2
162.400
3
162.475
4
162.425
5
162.450
6
162.500
7
162.525
Comparing the reception performance on a known frequency vs. a handheld radio can give a quick indication that an antenna system is working OK–even if like 27 MHz CB radio the designed antenna frequency is far from the 162 MHz weather radio frequency.
Comparing WX radio reception on a CB radio with base or mobile antenna versus a handheld radio on the same 162 MHz WX radio frequency indicates that the CB radio antenna coax is perhaps not severely damaged or lossy, and the radio is working OK.
Modern sub-$250 television receivers make compromises in low cost hardware while supporting the best possible picture quality for internet streams.
This can lead to compromises in fundamental performance for over-the-air (OTA) reception of digital ATSC TV signals.
For example, the ability to monitor signal strength is often not present in such low-cost TVs.
When a channel(s) that should be easily received is not available, the fundamental step of checking signal strength might be unavailable on a low-cost TV.
A first step is generally to rerun the channel scan with the antenna (if indoor) positioned in a window facing the
transmitter direction.
A diagnostic tool and possible solution is an ATSC tuner connected to the TV via HDMI.
ATSC 1.0 HDMI tuners are available for under $30.
The dedicated tuner may be of higher quality than the TV’s built-in tuner, and may provide a signal strength reading.
Check product reviews to ensure the tuner is of good quality and has a signal strength meter.
Some tuners can connect to an Android device or laptop via USB to receive broadcasts or monitor signal strength.
This can allow a technically-minded user to diagnose reception issues including interference.
The C23 standard requires function declarations to have the arguments specified, else (void) (zero arguments) is assumed.
This is a
breaking change
for code that didn’t use the best practice of specifying the argument types in the function declaration.
A real life
example
of upgrading a large project (Red Hat Linux) to C23 compliance is illustrative.
This change emphasizes the importance of adhering to recent C standards for clarity while maintaining compatibility with older language standards if possible.
Freezing the compiler version range for project code is generally a costly long-term strategy as technical debt and developer frustration accumulate.
Newer compilers keep adding
debugging features
and performance improvements.
C++ standard library (STL) improvements over time include paring down internal includes where possible as best practice and to improve compilation time.
When user code accidentally relies on internal includes, it can lead to compilation errors when the internal includes are removed by the STL maintainers or external libraries.
Tools like
IWYU
can help identify missing or unused include statements.
GCC 15 STL
removed
some superfluous <ostream> includes that may affect code using std::endl without including <ostream>.
It’s a common mistake to assume that <iostream> includes std::endl.
When checking code to ensure that std::endl code files include <ostream>, consider if the code could use \n newline instead to improve code
performance
by avoiding unnecessary stream flushing with std::endl.
Part of checking if \n can be used instead of std::endl is to observe if downstream code requires the output buffer to be flushed – for example in interactive
CTest
runs.
The Raspberry Pi 5 power management IC
PMIC
is the Renesas DA9091, a chip
specifically designed
for the Pi 5.
The Raspberry Pi 3B+ and
Raspberry Pi 4 PMIC
is the MaxLinear MXL7704.
Older Raspberry Pi models used
custom circuitry
or the
APX803
instead of a COTS PMIC to handle sequencing of discrete DC power input to the Pi subsystems.
It has been
noted
that damaging the PMIC can make the Raspberry Pi too difficult to repair.
A yellow lightning bolt is GPU-superimposed on the Raspberry Pi display output for low voltage.
In general computing platform operation is not guaranteed with voltages out of tolerance.
The SD card can become unreadable, the Pi may have random malfunctions, and corrupt data (bad writes) on the SD card.
Raspberry Pi 4 and Pi 5 require a minimum 5 Volt 3.0 Amp power supply.
Using peripherals can require higher current supply.
The cable between the power supply and Raspberry Pi must be of good quality to minimize voltage drop and unstable operation.
The USB-C power connector of the Raspberry Pi 4 and Pi 5 is markedly more robust than the micro-USB power connector of legacy Raspberry Pi models.
If the DC input voltage falls below 4.65 volts (depending on Raspberry Pi model and firmware), the GPU superimposes a lightning bolt graphic on the display output.
This may not be visible on a VNC remote desktop.
The Raspberry Pi 5 added
vcgencmd pmic_read_adc
to read DC input voltage and the several generated voltages and currents consumed.
On older Raspberry Pi models there is no built-in capability to measure the Raspberry Pi DC input voltage without adding an external ADC.
On the older Raspberry Pi (older than Pi 5) it may be possible to read the input voltage binary state (OK or low) from the Terminal, but we have not confirmed this.
On the Raspberry Pi 1 B+ and Pi 2 it may be possible to
read state of GPIO 35,
depending on the hardware and firmware.
On the Raspberry Pi 3 in may be possible to
read GPU-driven LED status.
When compiling programs with concerns about excessive power consumption, consider not compiling in parallel.
For GNU Make, “make -j1” uses 1 CPU core.
For Ninja compilation in parallel is default, so specify “ninja -j1” for one build thread.
For meta-build systems limit build parallelism like CMake
cmake --build build -j1
or Meson
meson compile -j1
lynx
is a text web browser that allows browsing certain websites without need for a graphical display.
Several other text-based web browsers for Terminal are available, and while they offer some measure of increased security due to their lacking JavaScript or easily disabling JS, there have been CVEs for these web browsers as well.
With this type of browser using a custom engine, the web-browsing data bandwidth can be dramatically less than with general graphical web browsers as the graphics and JavaScript might simply be ignored and not downloaded.
This orders of magnitude reduction in data usage can be useful for those with limited data plans or slow connections.
This can be useful at remote arctic sites or on a satellite connection.
However, the lack of a general web browser backend engine like Chrome or Firefox can lead to many websites not rendering properly or at all.
An alternative approach is to render the website remotely and send only rendered text over a secure connection like SSH.
This achieves dramatic data bandwidth reduction to the remote site by rendering at a server with a normal full internet connection.
An implementation of this approach using a headless Mozilla Firefox is
browsh.
Browsh
keybindings
or mouse can be used to browse the web in the Terminal.
On Windows, Browsh can be installed by
winget:
Certain platforms default or have defaulted to use a 32-bit time_t, which will
overflow in year 2038.
To check if the platform uses a 64-bit time_t, use code like this
Gist.
Matlab previously made prerelease users sign a non-disclosure agreement (NDA), which hindered users from giving feedback about significant changes or bugs.
Developers of Matlab packages were likewise inhibited from updating their packages to work with new syntax or features.
There was typically one prerelease and the official release would sometimes have large jumps between the prerelease and added, removed, or changed features.
Each official release would have a few updates to fix bugs and add minor features.
Each official release was a gamble as to its quality and support by third-party packages.
Thankfully, Mathworks
loosened
the prerelease restrictions to allow public discussion and implementation of prerelease features.
Matlab prereleases are updated several times before the official release to help ensure features and fixes work across the diverse computing platforms Matlab supports.
Kudos to Mathworks for having a more open prerelease process.
Git 2.49 added the option to
build with Zlib-ng,
which can give a reported 25% compression speedup, which can be quite significant for large repositories.
Rust also began to be integrated in Git code along with further “libification” of Git code for reusability and quality.
When doing large builds on a computer that’s also used for interactive tasks (say, a developer laptop), the system may feel sluggish to the user while building.
Likewise, running tests can take a lot of CPU time and make the system less responsive.
To mitigate the high CPU usage, the run priority of the build system or test runner can be lowered.
This does not help if the system is running out of RAM or has low
disk IOPS,
but it can help if the system is CPU-bound.
Running at a lower priority can be more efficient than simply hard-limiting the number of CPU cores used by the build system or test runner.
These examples apply to virtually any build system such as CMake or Meson.
On Unix-like systems (Linux,
macOS,
BSD, …) use nice
to control process priority.
