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Real Time Operating Systems

In the world of technology and engineering, operating systems play a crucial role in the management and operation of devices and applications. Real-Time Operating Systems (RTOS) are essential to ensure that critical tasks are performed within a specific and predictable timeframe. This article explores in detail what real-time applications are, real-time systems, examples of critical applications, comparisons with general-purpose operating systems, and analysis of the most popular RTOS on the market. Additionally, key concepts such as multitasking, parallel computing, and concurrency are addressed, and the future trends and practical implementation of RTOS are discussed.

All the Fundamentals You Need to Know About Embedded Firmware

Embedded firmware is the key to the operation of many electronic devices we use in everyday life, from mobile phones to smart appliances and industrial equipment. This article will provide a detailed overview of embedded firmware, including abstraction levels, APIs, Hardware Abstraction Layer, programming languages used in its development, and the importance of debuggers.

The Lithographys Evolution in Semiconductor Manufacturing

Semiconductor manufacturing is a complex process that involves multiple steps to create integrated circuits (ICs) on silicon wafers. One of the most critical steps in this process is lithography. The evolution of lithography has been a driving force behind the exponential growth of semiconductor technology. From the early days of visible light lithography to the current state-of-the-art EUV systems, each advancement has enabled significant strides in performance, efficiency, and miniaturization. This article covers the evolution of lithography in semiconductor manufacturing.

Quick Review of Important Milestones in the Evolution of Integrated Circuits

The design of Integrated Circuits has dramatically evolved from the integration of a few transistors to the capability of integrating billions on a single chip. This evolution has been driven by advances in manufacturing technologies, design tools, and new architectures that have enabled the development of increasingly powerful and efficient electronic devices. In this article, we will briefly review the historical evolution of Integrated Circuits.
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