Tech News
Back to home
Technology

OceanGate Titan computers crushed into twisted mass of metal and electronics during catastrophic implosion — investigators find signs of thermal damage, too

Source

Tom's Hardware

Published

TL;DR

AI Generated

The US NTSB released a final report on the implosion of the OceanGate Titan submersible, revealing severe damage to its computer equipment, including three Nuvo-5000LP series fan-less PCs. Investigators used CT scans to examine the compressed electronic remnants but were unable to find any 'survivable void' spaces where memory devices could be intact. The ATF extracted two PCBs from the wreckage, but data recovery efforts were unsuccessful due to deformations and missing components. No data was recovered from smaller electronic masses found at the site.

Read Full Article

Similar Articles

New 3D device computes using living brain cells — bioelectronic device uses 3D electronic mesh design paired with living tissue

New 3D device computes using living brain cells — bioelectronic device uses 3D electronic mesh design paired with living tissue

Researchers at Princeton University have developed a 3D bioelectronic device that merges living brain cells with advanced embedded electronics to create a neural network capable of computational tasks. The device features a 3D mesh design with living tissue that can differentiate patterns using computational techniques. Unlike previous methods using brain cells for computation, this device allows for recording and stimulating neurons' electrical activity at a finer scale. The team successfully trained the device to identify recurring pulse patterns and differentiate between distinct patterns, aiming to scale it for more complex tasks. This technology not only delves into brain computing secrets but also holds potential for understanding and treating neurological diseases while addressing AI's energy consumption challenges.

Tom's Hardware
3DPrint.com

Rice Researchers Use Microwaves to 3D Print Electronics

Rice University researchers have developed a new method for 3D printing electronics using microwaves. This innovative technique allows for the rapid fabrication of complex electronic components with high precision. By utilizing microwaves to selectively heat materials, the researchers were able to create intricate circuit patterns on a variety of surfaces. This approach could revolutionize the production of electronic devices, making them more customizable and cost-effective.

3DPrint.com
Apex Gaming PCs recalls nearly 18,000 power supplies over missing safety labels — the fix is a warning sticker sent by mail, units are entirely safe

Apex Gaming PCs recalls nearly 18,000 power supplies over missing safety labels — the fix is a warning sticker sent by mail, units are entirely safe

Apex Gaming PCs is recalling nearly 18,000 power supplies due to missing safety labels that identify electrical shock and electrocution hazards. The affected units were sold between December 2021 and February 2026, both as standalone components and pre-installed in gaming desktops. The recall is not due to a hardware defect, as the power supplies are safe to use, but lack necessary warning labels. Customers will receive warning stickers by mail or can request a replacement PSU. The company advises users to stop using the recalled PSUs and not to open or service them.

Tom's Hardware
1,200-V SiC Half-Bridge Modules Offer Easy Upgrade Path for IGBT-Based Designs

1,200-V SiC Half-Bridge Modules Offer Easy Upgrade Path for IGBT-Based Designs

SemiQ Inc. has introduced the QSiC Dual3 family of 1,200-V half-bridge MOSFET modules designed for applications like motor drives in data center cooling systems and grid converters in energy storage systems. These modules feature 1-mΩ on-resistance SiC MOSFETs and parallel SiC diodes for enhanced power-conversion efficiency. The QSiC Dual3 modules are created to facilitate the replacement of IGBT modules with minimal redesign, offering benefits like high power density and low junction-to-case thermal resistance. The modules have undergone rigorous testing and aim to simplify system design with smaller, lighter heatsinks.

ElectronicDesign

We use cookies

We use cookies to ensure you get the best experience on our website. For more information on how we use cookies, please see our cookie policy.