$GTCH The technology seeks to address ALU instruct
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"Integrated Circuits firms are constantly looking for new ways to deliver faster performance through increased number of cores (Parallelization), higher memory capacity, better power management and faster interconnectivity. Then there is the manufacturing approach, which is shrinking transistor’s size, increasing density to boost performance and reduce power. Process scaling becomes more challenging due to physics rules, taking significantly longer time, and with significant cost increase, along with extended time to market. The payback is higher performance, lower power consumption and the capability to add more features.
We are looking to provide a out-of-the-box solution in computing power performance which currently is still limited by the rules of physics. Since arithmetic and logic operations within processing ICs are a crucial factors for speed, we developed a new approach to the ALU. The new system and method introduces a different circuitry and machine language (Flow) to perform a much faster computation in an efficient algorithmic method. The new ALU is designed to work with other semiconductor processing units to achieve superior speed and computing power. The patent application seeks to protect a different methodology within the basic ALU calculations handling, with the goal of making computers faster, with better exploitation of parallel processing, and pre-computation instructions execution. As part of our constant R&D efforts to find new methods to improve our modern world’s computing power, especially for advanced machine learning algorithms, we are seeking to develop new ideas to enable high performance Arithmetic/Logic processing. The nonprovisional patent application was published on June 2, 2022, and we plan to design an experimental, POC microchip and test its performance against traditional ALUs in the near future." Provided Danny Rittman the Company’s CTO.