Hi, I'm Bill. I'm a software developer with a passion for making and electronics. I do a lot of things and here is where I document my learning in order to be able to inspire other people to make ...

In 1916, a Polish scientist discovered how to create a mono-crystal, which later became the basis for integrated circuits and semiconductors.

What if a century-old computing concept suddenly leapfrogged the most advanced GPUs on the planet? That’s exactly what researchers at Peking University have demonstrated with a new analog processor ...

The proof-of-concept could pave the way for a new class of AI debuggers, making language models more reliable for business-critical applications.

It has taken eight years and $303 million in seed and three rounds of venture funding, but NextSilicon is today delivering ...

Electric-field-assisted assembly enables scalable, lithography-free fabrication of logic circuits using 2D semiconductors. It provides a practical route to high-performance electronics beyond ...

A comprehensive educational repository implementing fundamental digital logic circuits and arithmetic operations in Lua. Features basic gates, adders, multipliers, and multi-bit operations with ...

LTSpice is a tool that every electronics nerd should have at least a basic knowledge of. Those of us who work professionally in the analog and power worlds rely heavily on the validity of our ...

both circuits represent the addition of two numbers, but the arithmetic circuit simply uses one built-in addition gate, and the boolean circuit achieves (4-bit) addition using only boolean operations.

Abstract: Multi-valued logic (MVL) circuits, especially the ternary logic circuits, have attracted great attention in recent years due to their higher information density than binary logic systems.

Abstract: This work presents a new approach to designing Arithmetic Logic Units (ALUs) using electro-optic microring resonators. The methodology covers the demonstration of full and half addition and ...