Quantum-inspired optimization / Embedded combinatorial optimization solutions
Embedded, optimal solution with the shortest distance. Quantum-inspired optimization solver.
Are there any issues with "optimization and decision-making" in manufacturing sites and control systems? ● There are too many combinations, making it impossible to provide optimal decisions in real-time. ● Calculations take too long, resulting in control delays and performance degradation. ● We want to perform high-precision optimization, but cannot use servers or the cloud. ● In embedded environments, optimization processes are heavy, leading to abandonment of implementation. ▼ Leave it to our combination optimization solution for embedded systems! ――Features―――――――――――――――――――――― ◆ Our quantum-inspired optimization technology rapidly calculates good solutions for combination optimization problems. ◆ Supports low-latency and real-time processing, contributing to advanced control and decision-making. ◆ Compatible with various hardware such as FPGA and CPU, making it implementable in embedded environments. ――――――――――――――――――――――――――― This is a combination optimization solution for embedded devices utilizing Toshiba's unique quantum-inspired optimization technology. It can process combination optimization problems such as allocation, route exploration, and matching quickly and securely at the edge in embedded devices like automotive equipment, industrial machinery, and robots.
basic information
The combinatorial optimization problem in embedded systems is an important issue that affects the accuracy of control. Our company provides a fast and secure combinatorial optimization solution using Toshiba's unique quantum-inspired optimization technology for combinatorial optimization problems.
Price information
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Applications/Examples of results
Application example: Multi-object tracking in the automotive field In autonomous driving systems, a series of processes from sensing to perception, decision-making, and control are repeatedly performed in cycles. Multi-object tracking (MOT) is used in the perception process, and the results are passed on to decision-making and control, leading to avoidance actions, among other things.
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We will provide optimal solutions that contribute to our customers' businesses through our "extensive experience and achievements accumulated over many years" and "high technical capabilities" in the fields of embedded and LSI design.