In the previous parts of this series, we explored key innovations that could reshape computing: Now, let’s take a bold step forward and envision what all these technologies combined could lead to a Star Trek-like future where computing becomes instantaneous, intelligent, and seamlessly integrated into every aspect of life. The End of Waiting: A World…
Transforming CPUs into Lookup Engines with Quantum Communication In our previous discussions, we explored how local result caches using CAM memory could eliminate redundant computations at the device level. Now, we’re taking a bold leap into the future with the concept of a global result cache – a vast, distributed registry where computed results are…
In our journey toward more efficient computing, we’ve recognized that a significant amount of energy is spent on redundant tasks. Modern CPUs often perform the same calculations repeatedly—whether across different threads, processes, or even different devices in distributed systems. This redundancy isn’t just a performance bottleneck; it also contributes to the massive energy consumption we…
In today’s computing landscape, performance often hinges on how quickly we can locate data. Whether it’s checking if an element exists in an array, searching through a list, or performing complex lookups in vast databases, much of our processing power is dedicated to finding the right piece of information. This challenge has led to the…
Artificial Intelligence (AI) has seen rapid advancements over the past decade, with neural networks achieving remarkable feats in image recognition, natural language processing, and even creative tasks. Yet, the question of how to achieve Artificial General Intelligence (AGI) remains elusive. One intriguing concept that could bring us closer to AGI is the idea of a…
In my last blog post I talked about the underlying principle for holography, neural networks and quantum computers. You can check it out here: The Holographic Model – A key in understanding neural networks and quantum computers? Let’s take a step forward and incorporate some principles of holography into neural networks. Properties of HNNs Complex…
TL;DRThis post explores how principles of holography, quantum computing, and neural networks might share a common foundation in interference patterns. Could these parallels help us better understand AI, data storage, and brain functions? Introduction I first read The Holographic Universe by Michael Talbot over 15 years ago, and its ideas have stayed with me ever…
Today I start this blog to write about productivity, technical stuff and things I find interesting. Hope you also enjoy this blog! And a happy new year 2025!