Google will launch Chrome for ARM64 Linux devices in Q2 2026, following the successful expansion of Chrome to Arm-powered macOS devices in 2020 and Arm-powered Windows devices in 2024.. Google is partnering with NVIDIA to make it easier for DGX Spark users to install Chrome.
Will be useful in isolated Debian Linux pKVM Arm VM with accelerated vGPU, in Android-ChromeOS converged desktop on Qualcomm Arm laptops. Possibly Nvidia-Mediatek Arm laptops, if they support h/w nested virt for pKVM/AVF. locked/frozen during boot
until the drive has been power-cycled
There's a fixed time window for accepting secure erase, after power cycle? The KAIST professor discussed an HBF unit having a capacity of 512 GB and a 1.638 TBps bandwidth.
PCIe x8 GPU bandwidth is about 32GBbps, so HBF could be 50x PCIe bandwidth. 75% = title written by first author
22% = name of second author, endorsing work of first author
HN mods can revert the title to the original headline, without any author. Developer: BlackBerry (formerly QNX Software Systems)
On April 9, 2010, Research In Motion (later renamed to BlackBerry Limited) announced they would acquire QNX Software Systems from Harman International Industries. Conformant: Incompatibilities with strict shopify/liquid are bugs to be fixed.
Flexible: Liquid embraces variants for different domains and we want to follow in that spirit.
Performant: Do the best we can within what is conformant.
This has potential to replace Github Pages ruby-based Jekyll+Liquid, which is unusably slow on iOS without JIT. sudo apt install rustup build-essential
rustup target add i586-unknown-linux-musl
git clone https://github.com/cobalt-org/cobalt.rs
cd cobalt.rs
cargo build --release --target i586-unknown-linux-musl
cp target/i586-unknown-linux-musl/release/cobalt /mnt/usb
Copy cobalt static binary to iSH filesystem via iOS Files app, execute and view http://localhost:NNNN with a web browser: ./cobalt --no-watch --host 0.0.0.0 --port NNNN SARLink is a passive satellite backscatter communication system that uses existing spaceborne synthetic aperture radar (SAR) imaging satellites to provide connectivity in remote regions .. As the first technique for passively sending information bits from the ground to a SAR satellite — and with some SAR systems offering open-access data — this system could enable anyone to send information without expensive licenses or subscriptions.
Thus, it provides an accessible way of sending messages in areas without connectivity or in censored environments where active radio transmissions cannot be used. Furthermore, SARLink requires no modification of the satellite infrastructure.. We demonstrate our system using the European Space Agency (ESA) satellite Sentinel-1A, as the data is freely available and the system regularly images all the land on Earth .. a 5.5 ft by 5.5 ft modulating corner reflector could send 60 bits every satellite pass, enough to support low bandwidth sensor data and messages.