Kothar Computing, founded by scientists for scientists, today announced the launch of Kothars FORGE, a next-generation scientific computing platform designed to solve complex quantum many-body problems. This platform aims to liberate quantum physicists from extensive coding requirements, enabling interactive simulation, collaboration, and publication in fields including condensed matter physics, chemistry, and material sciences. Frdric Francis, President of Kothar, described the launch as enabling simulation-driven quantum material discovery at scale, while Jonathon Riddell, CEO of Kothar, envisions the platform allowing undergraduate students to achieve the proficiency of leading computational physicists. Built upon its proprietary Quantum Symbolic Algebraic Framework, Kothars FORGE is currently onboarding a limited number of academic users, with results to be publicly showcased in the near future; further information is available at www.kotharcomputing.com/signup.
New Platform Accelerates Quantum Many-Body Problem Solving
Kothar Computing launched its new scientific computing platform, Kothars FORGE, designed to address complex quantum many-body problems, a century after Werner Heisenberg’s foundational work in quantum mechanics. The company intends for the platform to liberate quantum physicists from the need for extensive computer science or software engineering expertise, enabling them to model and solve complex physics problems within minutes, rather than months. Kothar Computing, named after the Ugaritic god of craftsmanship, technology, smithing, and magic, aims to enhance the quality, accuracy, speed, and scope of simulation for computational physicists.
Built upon Kothar Computing’s proprietary Quantum Symbolic Algebraic Framework, Kothars FORGE reinterprets, compresses, and accelerates problems to overcome existing computational constraints. According to Jonathon Riddell, CEO of Kothar Computing, the platform is designed for both current heterogeneous computing and the impending quantum future, positioning it as a comprehensive solution for quantum physics simulation. The company envisions a future where undergraduate students can achieve the same proficiency as leading computational physicists of the past, facilitated by this unified scientific computing platform.
Kothar Computing is currently onboarding an initial group of academic users and will soon publicly showcase results produced using the platform. Interested physicists, potential partners, and investors can register for early access and further information at www.kotharcomputing.com/signup, although only a limited number of academic users will be granted early access. Frdric Francis, President of Kothar Computing, described this as the advent of simulation-driven quantum material discovery at scale.
Kothar FORGE Architecture and Capabilities
Kothars FORGE is intended to serve as a physicist’s complete workshop, facilitating simulation, visualisation, and publication drafting within a single environment. The platform’s architecture is built upon Kothar Computing’s proprietary Quantum Symbolic Algebraic Framework, which reinterprets, compresses, and accelerates problems to overcome existing computational constraints, resulting in an interactive computational physics environment capable of generating scientific insights orders of magnitude faster than previously attainable.
According to Frdric Francis, President of Kothar Computing, the launch of Kothars FORGE represents the advent of simulation-driven quantum material discovery at scale. Jonathon Riddell, CEO of Kothar Computing, envisions a future where today’s undergraduate students can achieve the same proficiency as leading computational physicists of the past, facilitated by the unified scientific computing platform.
Kothar Computing is currently onboarding its initial group of academic users and will soon publicly showcase results produced using the platform, though only a limited number of academic users will be granted early access. Interested physicists, potential partners, and investors can register for early access and further information at www.kotharcomputing.com/signup.
Founded by scientists for scientists, Kothar Computing has created a computational physics platform intended to transform how scientific problems are modelled, solved, and documented, building next-generation tools for scientific computing, providing uncompromising performance and accelerating scientific discovery.
Future Vision and Access Details
Kothar Computing is currently onboarding its initial group of academic users and will soon publicly showcase results produced using the platform, though only a limited number of academic users will be granted early access. Interested physicists, potential partners, and investors can register for early access and further information at www.kotharcomputing.com/signup.
According to Jonathon Riddell, CEO of Kothar Computing, the platform is designed for both current heterogeneous computing and the impending quantum future, positioning Kothars FORGE as a comprehensive solution for quantum physics simulation—a toolset currently lacking in the field. The company aims to elevate the baseline of what is possible for physics on classical hardware, with plans to further expand capabilities on quantum computers.
Kothar Computing, named after the Ugaritic god of craftsmanship, technology, smithing, and magic, was founded by scientists for scientists and is building next-generation tools for scientific computing, providing uncompromising performance and accelerating scientific discovery. The launch of Kothars FORGE occurs a century after Werner Heisenberg’s foundational work in quantum mechanics, aiming to liberate quantum physicists from the necessity of being proficient computer scientists or software engineers.