コンカレント日本 Product Lineup

"SimWB" is a comprehensive platform for developing and executing hardware-in-the-loop (HIL) and human-in-the-loop (HITL) simulations. The Windows version of "SimWB" provides a parallel development environment that allows for the efficient preparation and testing of complex heterogeneous models before deployment on Concurrent Real-Time's iHawk. "SimWB" on RedHawk Linux NRT leverages WSL2 to accelerate the simulation workflow. 【Features】 ■ Integrated developer experience ■ Parallel and scalable developer workflow ■ Faster and more scalable development cycle ■ Single installer ■ Seamless data exchange ■ Support for hardware, I/O, and client APIs *For more details, please download the PDF or feel free to contact us.

• others
• Software (middle, driver, security, etc.)

This document is the product guide catalog of Hottinger Brüel & Kjaer (HBK). It features a diverse lineup of sensor products including torque sensors, force, pressure, strain, and displacement sensors, load cells, accelerometers, and microphones. It also covers data acquisition systems and analysis software. From research and development to manufacturing, you can find total solutions tailored to your product lifecycle. 【Contents (partial)】 ■ Torque sensors/converters ■ Force, pressure, strain, and displacement sensors/converters ■ Load cells ■ Piezoelectric sensors ■ Accelerometers ■ Microphones *For more details, please download the PDF or feel free to contact us.

• Sensors
• Sensors

In the broadcasting industry's transmission systems, interruptions in video and audio can lead to viewer dissatisfaction and potentially damage a company's credibility. To achieve stable transmission, a real-time operating system is essential. RedHawk Linux guarantees event response times of less than 5 microseconds, contributing to the stable operation of broadcasting transmission systems. 【Use Cases】 - Program transmission systems - Commercial transmission systems - Video distribution servers 【Benefits of Implementation】 - Prevents interruptions in video and audio - Achieves stable transmission - Improves system reliability

• Other embedded systems (software and hardware)
• Vibration Testing

In the financial industry’s transaction processing systems, fast and accurate data processing is essential. Delays or errors in transactions can lead to a loss of trust from customers and potentially significant losses. RedHawk Linux guarantees event response times of less than 5 microseconds, enhancing the real-time nature of transaction processing. This enables rapid execution of transactions and ensures overall system stability. 【Use Cases】 - Securities trading platforms - FX trading systems - Online banking systems for banks 【Benefits of Implementation】 - Acceleration of transaction processing - Improvement in overall system stability - Gaining trust from customers

• Other embedded systems (software and hardware)
• Vibration Testing

In the aerospace industry, flight control systems require high reliability and real-time performance. Even slight delays or errors can lead to serious accidents. RedHawk Linux guarantees event response times of less than 5 microseconds, enabling safe flight control. 【Use Cases】 - Flight control systems - Flight simulators - Aircraft onboard systems 【Benefits of Implementation】 - High safety in mission-critical environments - Improved real-time performance - Enhanced overall system reliability

• Other embedded systems (software and hardware)
• Vibration Testing

In the power control industry, real-time performance of systems is crucial for stable power supply. Power outages and instability in power supply can have serious impacts on social infrastructure. Therefore, power control systems require high responsiveness and reliability. RedHawk Linux guarantees event response times of less than 5 microseconds, providing safety in mission-critical environments. 【Use Cases】 - Control systems for power plants - Monitoring and control of power transmission networks - Smart grid systems 【Benefits of Implementation】 - Improved system stability - Enhanced reliability of power supply - Improved real-time performance

• Other embedded systems (software and hardware)
• Vibration Testing

In the telecommunications industry, real-time performance is crucial for maintaining stable network connections at base stations. Particularly in high-speed communications like 5G, delays in data processing can lead to a decline in communication quality or service interruptions. RedHawk Linux guarantees event response times of less than 5 microseconds, enhancing the real-time processing capabilities of base stations. 【Use Cases】 - Control systems for base stations - Data processing for wireless communications - Management of network equipment 【Benefits of Implementation】 - Maintenance of stable network connections - Improvement in communication quality - Increased reliability of the entire system

• Other embedded systems (software and hardware)
• Vibration Testing

In railway signaling systems, real-time performance is crucial to ensure the safe operation of trains. The system must control signals accurately and without delay to prevent accidents before they occur. Delays in responsiveness can lead to serious accidents. RedHawk Linux guarantees event response times of less than 5 microseconds, making it ideal for railway signaling systems that require high reliability and safety. 【Use Cases】 - Control of railway signaling systems - Real-time data processing for train operation management systems - Construction of safety monitoring systems 【Benefits of Implementation】 - Improved safety due to high real-time performance - Stable operation of the system - High compatibility with existing Linux environments

• Other embedded systems (software and hardware)
• Vibration Testing

In robot control within the manufacturing industry, precise operation and high safety are essential. Particularly in situations where high-speed and precise movements are required, or in robots that work collaboratively with humans, ensuring real-time performance becomes crucial. Response delays and system errors can lead to decreased productivity and accidents. RedHawk Linux guarantees event response times of less than 5 microseconds, enabling safe operation and high-precision control of robots. 【Use Cases】 - Precision control of industrial robots - Safe operation of collaborative robots - Real-time control of autonomous robots - High-speed movements of robotic arms - Integration of robots in manufacturing lines 【Benefits of Implementation】 - Improved operational accuracy of robots - Enhanced safety - Increased productivity - Improved system stability - Assurance of real-time performance

• Other embedded systems (software and hardware)
• Vibration Testing

In the field of semiconductor manufacturing equipment, advanced control and precise operation are required. Even slight delays or errors in the manufacturing process can lead to a decline in product quality or a decrease in yield. Real-time operating systems contribute to improving manufacturing efficiency by providing accurate timing control and high reliability to address these challenges. RedHawk Linux guarantees event response times of less than 5 microseconds, ensuring safety in mission-critical environments for semiconductor manufacturing equipment. 【Use Cases】 - Precision control of semiconductor manufacturing equipment - Real-time control of wafer transport systems - High-speed data processing for inspection equipment 【Benefits of Implementation】 - Stabilization of the manufacturing process - Improvement in yield - Enhancement of equipment performance

• Other embedded systems (software and hardware)
• Vibration Testing

In the medical device industry, particularly in biometric monitoring systems, it is essential to process patients' vital data accurately and quickly. Delays or errors in data processing can lead to serious issues that threaten patient safety. RedHawk Linux guarantees event response times of less than 5 microseconds, making it ideal for biometric monitoring systems that prioritize real-time performance. This enables accurate data processing and rapid system responses, enhancing reliability in medical settings. 【Use Cases】 - Biometric information monitoring - Patient monitoring systems - Medical image processing 【Benefits of Implementation】 - Accurate data processing ensured by real-time capabilities - Improved system stability - Enhanced patient safety

• Other embedded systems (software and hardware)
• Vibration Testing

In the autonomous driving industry, it is essential to accurately and quickly process information from sensors and perform real-time control to ensure the safe operation of vehicles. Particularly in situations where millisecond-level responsiveness is required, the performance of the operating system affects the reliability of the system. RedHawk Linux guarantees event response times of less than 5 microseconds, enhancing the safety and reliability of autonomous driving systems. 【Use Cases】 - Autonomous driving ECU - ADAS (Advanced Driver Assistance Systems) - Autonomous driving simulation 【Benefits of Implementation】 - Improved real-time performance - Enhanced system safety - Reduced development time

• Other embedded systems (software and hardware)
• Vibration Testing

In the field of research, particularly in measurement, accurate data acquisition and real-time processing are essential. The accuracy of experimental data influences research outcomes, and ensuring real-time capability is crucial for high-speed data collection and control. RedHawk Linux guarantees event response of less than 5 microseconds, enhancing the reliability of measurement environments in research. 【Usage Scenarios】 - High-speed data collection - Precision instrument control - Real-time simulation 【Effects of Implementation】 - Improved research accuracy through precise data acquisition - Increased efficiency of experiments through real-time processing - Reduced risk of research interruptions due to stable system operation

• Other embedded systems (software and hardware)
• Vibration Testing

The "iHawk Platforms" are high-performance Linux-based computer platforms designed for concurrent real-time time-critical simulations, data collection, and process control applications. Our product, which features symmetric multiprocessing, can be equipped with 1 to 8 Intel x86 CPUs and supports up to 1TB of memory in a single rack mount or tower chassis. Additionally, it provides processors, chipsets, and packaging technologies such as Intel's Xeon Scalable Family. 【Features】 ■ x86 systems with 1, 2, or 4 CPU sockets ■ The number of supported cores depends on the kernel ■ Each system can be expanded to 1TB of memory ■ Available in rack mount, tower, and desktop chassis ■ Can be modified to a ruggedized package *For more details, please download the PDF or feel free to contact us.

• Other PCs and OA equipment

The embedded application "RedHawk for NVIDIA Jetson" is a product designed for mission-critical applications. RedHawk Linux RTOS, now available on the NVIDIA Jetson platform, provides high performance in a compact and power-efficient form factor for intelligent edge devices such as robots, drones, and smart cameras. RedHawk Linux is a real-time operating system that supports both x86 and ARM64 systems. It is widely used in embedded applications that require high performance and deterministic responses. 【Features】 - Provides high performance in a compact and power-efficient form factor - Supports both x86 and ARM64 systems - Guarantees response times of less than 20 microseconds, with an average process dispatch latency (PDL) of 3 microseconds *For more details, please download the PDF or feel free to contact us.

• Other embedded systems (software and hardware)

The "RedHawk KVM-RT" is a finely tuned hypervisor developed by Concurrent Real-Time, integrating proven open-source kernel-based virtual machine technology with the RedHawk Linux real-time OS. Using the KVM-RT configuration tool, it is easy to extend the real-time capabilities of RedHawk Linux to virtual machines operating on a single physical host system. Additionally, on certified hardware platforms, it can achieve response times of less than 10 microseconds even in the worst-case scenarios. 【Features】 ■ Support for multiple RedHawk Linux real-time guests, multiple Windows, and non-real-time Linux guests ■ Advanced processor shielding capabilities ■ Rapid deployment of real-time systems ■ Special handling of multi-threaded CPU cores when using real-time VMs *For more details, please download the PDF or feel free to contact us.

• Software (middle, driver, security, etc.)

"SIMulation Workbench" is a simulator that provides a comprehensive framework for the development and execution of real-time Hardware-in-the-Loop Simulation (HILS) and Man-in-the-Loop Simulation (Driving Simulator). It is equipped with performance that satisfies hard real-time systems and supports industry-standard modeling environments. It can reliably execute simulations of multiple models (Co-Simulation) and also supports multi-rate and multi-core configurations. 【Features】 ■ Supports a wide range of industry-standard modeling tools ■ Environmental simulation software such as PreScan ■ Simultaneous execution of models such as Simulink, SIMPACK, ADAMS, FMU, and hand-coded models ■ Multi-rate, multi-model, and multi-core simulation ■ Complete GUI control of all runtime activities *For more details, please download the PDF or feel free to contact us.

• simulator

In addition to the Intel/AMD CPU-based iHawk computer equipped with Concurrent Real-Time's RedHawk Linux OS, which is well-received in defense and aerospace for mission-critical performance, by incorporating NVIDIA GPUs and Concurrent's FPGAs, it is possible to build a next-generation architecture where AI inference, communication processing, and control are consolidated on the same node, thereby minimizing worst-case latency and creating a jitter-free environment. It is optimal for private 5G, AI-RAN, and mission-critical applications. In future wireless communication environments, it integrates the hard determinism of FPGAs with the soft determinism of RT Linux. While utilizing GPU inference as a supplementary resource, it minimizes control failures.

• Communications

In the aerospace industry, attitude control systems require response times of less than a millisecond and high reliability. To ensure the stability and safety of the aircraft, a real-time operating system is essential. RedHawk Linux guarantees a response time of less than 20 microseconds on the Jetson AGX Orin, achieving an average process dispatch latency of 3 microseconds. This contributes to the performance improvement of attitude control systems in aerospace applications. 【Use Cases】 - Drones - Satellites - Unmanned Aerial Vehicles 【Benefits of Implementation】 - Improved responsiveness of attitude control - Enhanced system reliability - Accelerated real-time processing

• Embedded OS
• Other embedded systems (software and hardware)

In the robotics industry, particularly in autonomous control systems, real-time performance is extremely important. Robots need to quickly process information from sensors and respond immediately to changes in the environment. Delays measured in milliseconds can lead to malfunctions or accidents. RedHawk Linux guarantees a response time of less than 20 microseconds on the Jetson AGX Orin, achieving an average process dispatch latency (PDL) of 3 microseconds. This enhances the performance of autonomous control robots. 【Use Cases】 - Autonomous driving robots - Drones - Smart cameras 【Benefits of Implementation】 - Improved real-time performance due to low latency - High performance and stable operation - Enhanced performance of intelligent edge devices

• Embedded OS
• Other embedded systems (software and hardware)

In the medical device industry, image processing requires real-time capabilities and high-precision data processing. In particular, the rapid processing of image data, which affects diagnostic accuracy, is crucial. Delays or insufficient processing power can lead to delays in diagnosis or misdiagnosis. RedHawk Linux guarantees a response time of less than 20 microseconds on Jetson Orin, enhancing real-time capabilities in medical image processing. 【Use Cases】 - Medical image processing such as MRI and CT scans - Endoscopy and surgical assistance robots - Real-time image analysis 【Benefits of Implementation】 - Reduced diagnosis time due to accelerated image processing - Improved diagnostic accuracy through high-precision image processing - Enhanced performance of medical devices by ensuring real-time capabilities

• Embedded OS
• Other embedded systems (software and hardware)

RedHawk Linux RTOS, now available on the NVIDIA Jetson platform, provides high performance in a compact and power-efficient form factor for intelligent edge devices such as robots, drones, and smart cameras. Concurrent Real-Time's RedHawk Linux is an industry-leading real-time OS that supports both x86 and ARM64 systems. It is widely used in embedded applications that require guaranteed response times and high-performance, deterministic responses. Jetson AGX Orin is an Arm64-based AI system on module equipped with NVIDIA's Ampere GPU technology featuring Tensor cores. On Jetson AGX Orin, RedHawk guarantees a response time of less than 20 microseconds, with an average process dispatch latency (PDL) of 3 microseconds. This represents a significant improvement from the millisecond-level latency experienced without using RedHawk Linux.

• Embedded OS
• Other embedded systems (software and hardware)

Test smarter, deploy faster. Missile TestBench is a scalable hardware-in-the-loop (HIL) simulation solution specialized for testing, guidance, and control verification of missiles, rockets, and projectiles. Developed on the foundation of Concurrent Real-Time's proven real-time technology, it enables deterministic testing and verification at every stage of the missile development lifecycle, from subsystem modeling to system-wide validation.

• simulator

Main Features of RedHawk Linux - Real-time performance - Advanced shielding and optimization - Compatibility with industry standards - Security and virtualization - Cluster and system management - Single vendor Linux support

• Other embedded systems (software and hardware)
• Vibration Testing

In the aerospace industry, the field of signal processing requires advanced data processing capabilities and real-time performance. Particularly in aircraft control systems and communication systems, accurate signal processing is essential for safe operations. The FPGA Workbench consists of application builder/configurator software for customers using FPGA cards and built-in IP cores on the iHawk computer, as well as proprietary IP cores. Customers can freely combine standard IP cores provided in advance by Concurrent Real-Time and can also implement their own created IP cores. 【Use Cases】 - Aircraft flight control systems - Signal processing for satellite communication systems - Data processing for radar systems 【Benefits of Implementation】 - Acceleration and high precision of signal processing - Improved flexibility and scalability of the system - Reduction in development time and costs

• simulator
• Secondary Cells/Batteries
• Generators and transmission motors

The FPGA Workbench consists of application builder/configurator software for customers using FPGA cards and built-in IP cores on the iHawk computer, as well as proprietary IP cores. Customers can freely combine standard IP cores provided in advance by Concurrent Real-Time, and it is also possible to implement IP cores created independently by customers. This not only allows for the implementation of only the necessary functions but also enables changes to the combinations as needed, facilitating the repeated use and repurposing of the system, effectively utilizing customer investments while also reducing operational costs. The FPGA Workbench offers useful IP cores not only for automotive customers but also for those developing and manufacturing aerospace, defense, general passenger and cargo transport equipment, and heavy machinery. Recently, the FPGA Workbench received the highest honor, the Platinum Award, at the <2021 Military & Aerospace Technology Innovators Awards> selected by the U.S. defense specialty magazine Military & Aerospace Technology.

• simulator
• Secondary Cells/Batteries
• Generators and transmission motors

"SIMulation Workbench" provides a comprehensive framework for the development and execution of real-time hardware-in-the-loop simulation and man-in-the-loop simulation. The real-time core of this product is built around a very fast memory-resident database. Simulation models and I/O processes can directly access the RTDB with very short wait times. Additionally, it fully leverages the powerful features of real-time operating systems and is completely optimized for multi-channel applications. 【Features】 ■ Supports a wide range of industry-standard modeling tools ■ Multi-rate, multi-model, multi-core simulation ■ Complete GUI control of all runtime activities ■ Support for multi-rate and multi-core ■ Asynchronous and synchronous data collection I/O tasks ■ Real-time test scripts *For more details, please refer to the PDF documentation or feel free to contact us.

• Testing Equipment and Devices