Asynchronous, or clockless, logic–an alternative to standard digital circuits that avoids many of their problems–is beginning to look attractive for embedded designs in consumer electronics and mobile ...

Lack of coordination between asynchronous resets and synchronous logic clocks leads to intermittent failures on power up. In this series of articles, we discuss the requirements and challenges of ...

Lack of coordination between asynchronous resets and synchronous logic clocks leads to intermittent failures on power up. In this series of articles, we discuss the requirements and challenges of ...

For a useful primer on circuit design, see Optimize your DSPs for power and performance. To learn how power and performance vary with voltage and temperature, see Push performance and power beyond the ...

As the quest grows to manage power in everything from the handheld smart phone to sensors for automotive applications and contactless payment cards, designers are getting hungry for new design ...

The future of asynchronous logic design is looking a little bit brighter. As the semiconductor industry struggles with mounting problems trying to achieve significant yields, higher performances and ...

There are a number of interesting technologies to keep an eye on in term of how and when they could be adopted for use in SoC design today, some of which include gallium arsenide, GPGPUs, 3D ICs and ...

A synchronous computer has been developed that operates using the unique physics of moving water droplets. Their goal is to design a new class of computers that can precisely control and manipulate ...

Synchronous detection is a measurement method where a stimulus is modulated with some frequency and the response is demodulated to bring the signal back down to base band. Performed when a dc stimulus ...