METHOD OF PROCESSING COMPUTATION AND INFORMATION PROCESSING APPARATUS

Organization Name

Fujitsu Limited

Inventor(s)

Yutaka Tamiya of Yokohama (JP)

METHOD OF PROCESSING COMPUTATION AND INFORMATION PROCESSING APPARATUS - A simplified explanation of the abstract

This abstract first appeared for US patent application 18480532 titled 'METHOD OF PROCESSING COMPUTATION AND INFORMATION PROCESSING APPARATUS

Simplified Explanation: The patent application describes a program that enables a computer to calculate a two-electron integral through multiple iterations, updating input values and buffers.

Key Features and Innovation:

• Program enables calculation of two-electron integral through iterative computing.
• Input values stored in buffers are updated and used in subsequent iterations.
• Results of computations are stored in designated buffers for efficient processing.

Potential Applications: This technology can be applied in quantum chemistry simulations, computational physics, and other scientific computing tasks requiring complex calculations.

Problems Solved:

• Streamlines the process of computing two-electron integrals.
• Improves efficiency and accuracy of calculations in scientific research and simulations.

Benefits:

• Faster and more accurate computation of two-electron integrals.
• Enhanced performance in scientific computing applications.
• Enables researchers to conduct complex simulations with greater precision.

Commercial Applications: The technology can be utilized in industries such as pharmaceuticals, materials science, and environmental research for advanced computational analysis and modeling.

Prior Art: Researchers can explore existing literature on quantum chemistry algorithms and computational methods for similar approaches to calculating two-electron integrals.

Frequently Updated Research: Stay informed on advancements in quantum computing, computational chemistry, and scientific computing to enhance the application of this technology.

Questions about two-electron integral calculation: 1. How does this technology improve the efficiency of computing two-electron integrals? 2. What are the potential implications of using this program in quantum chemistry simulations?

Original Abstract Submitted

A non-transitory computer-readable recording medium stores a program that causes a computer to execute a process of calculating a two-electron integral obtained by executing computing for a plurality of times of iterations, the process includes computing, in a first time of the iterations, with a value stored in a first buffer as an input value, outputting a result of the computing in the first time of the iterations to a second buffer, computing, in a second time of the iterations, with a value stored in the second buffer as an input value, updating the value stored in the first buffer by outputting a result of the computing in the second time of the iterations to the first buffer, and computing, in a third time of the iterations, with the updated value stored in the first buffer as an input value.