Taken to the extreme, today’s high-end graphics processors (GPUs) can execute thousands of simultaneous operations, which is fundamental for highly parallel 3D visualizations and complex AI [artificial intelligence] processing tasks.

Much of the innovation in high-performance embedded computing starts with microprocessors.

TSN is a set of standards and capabilities that enable hard real-time use cases over standard Ethernet networks.

Designed with Intel® Xeon® D processor architecture, Curtiss-Wright's CHAMP-XD1 processor card is ideally suited for compute-intensive aerospace and defense applications, meeting the high performance, reliability, and security standards these industries require.

Optimized for performance, speed, security, and SWaP, Curtiss-Wright CHAMP-XD1 processor cards leverage Intel® Xeon® D processor architecture to meet the high demands of modern defense missions.

Today, increasing demand for functionality in modern aircraft is driving a critical need for virtualized avionics systems that combine separate capabilities into a single ruggedized and compact computer.

In August 2021, Intel announced the new Intel Xeon W-11000E Series processor ­(formerly known as “Tiger Lake-H”), designed for the embedded market.

Time Sensitive Networking (TSN) is a set of Ethernet networking capabilities used to transmit time-sensitive data across standard Ethernet networks. Originally, TSN grew out of the IEEE 802.1 standard working groups on Audio Video Bridging (AVB) to make sure that independent networks streams for audio and video data arrive at the correct times to ensure synchronization.