A fundamental overview of operating systems (OSes) with an emphasis on practice. Topics covered include: OS structure, OS models, OS abstractions, concurrency sources, concurrency challenges, ...

Traditional pole load analysis relies on manual field measurements, which are time-consuming and prone to inaccuracies, especially at scale. A structural operating system connects field data ...

Aditya Akella leads the project that aims to boost performance of OSes and help enable assistant robots, autonomous vehicles and smart cities. Research that will use artificial intelligence to boost ...

Lauded for avoiding the typical vague, high-level survey approach found in many texts, earlier editions of this bestselling book removed the mystery by explaining the internal structure of an ...

As enterprise adoption of artificial intelligence continues to expand, a consistent challenge has emerged: while AI mo ...

The push toward disaggregation and customization in hardware is starting to be mirrored on the software side, where operating systems are becoming smaller and more targeted, supplemented with ...

This is the second in a series of articles examining the security implications of AI-driven vulnerability discovery. The first addressed the engineering foundation. This one addresses the operational ...

Internally, Apple engineers rely on a dedicated app to view, manage, and toggle in-development features and user interface elements within pre-release versions of new operating systems. Here's what ...

A startup focuses on getting information from design and engineering down to the shop floor and back again to enrich decision-making and improve the product. Takeaway: insights on improving factory ...

Embedded system developers have a wide range of operating systems available to them today. Of course, the most straightforward operating system is to have no operating system! However, many systems ...