The last three articles have explored the five steps to designing an embedded software architecture. So far, we’ve separated our software architecture into hardware-dependent and independent ...

OntoSpace software lets users measure the complexity of almost any system — for example, mechanical components or assemblies — that can be described by input and output variables. We use the software ...

Component-based software helps you get a system working quickly, keep costs down, and reuse the most robust software from prior applications. This article presents methods for creating your own ...

Embedded software and its specification is a vital component in deploying SoCs with reduced time-to-market. A key contribution to this is the technology area of embedded software architecture. This ...

In today's lightning-fast software landscape, traditional architecture practices are becoming a bottleneck. The velocity and complexity of systems scaling across ephemeral microservices, complex APIs ...

Connected devices and systems have become an integral part of our everyday life and we take this for granted. Finding the fastest way to our destination with a smartphone, reading the news on a tablet ...

With 3D printing technology becoming more readily available, it only makes sense that design software would follow suit. DesignSpark Mechanical, a 3D solid modeling and assembly tool, aims to provide ...

To fill the talent gap, CS majors could be taught to design hardware, and the EE curriculum could be adapted or even shortened.

As Linux OS have become one of the most popular opensource OS for Servers and Desktop, many software will release a linux version . It also applies to the circuit design software .Since we are using ...