富士ソフト Product Lineup

The Q7-974 is a high-performance System on Module (SoM) compliant with Qseven 2.0, featuring Intel Atom processors based on the Silvermont microarchitecture. With quad-core 64-bit SoC, Intel HD Graphics, and burst technology, it delivers powerful performance with low power consumption. Supporting up to 8GB DDR3L memory and rich I/O interfaces such as USB 3.0, PCIe, HDMI, and DP, it is ideal for industrial and embedded applications. Backed by Fujisoft’s technical support, it ensures a smooth development and integration process.

• Embedded Board Computers
• Industrial PCs
• Expansion Boards

It features mainstream value tablets and small-screen 2-in-1 devices designed for Intel Atom processors. End users benefit from powerful graphics performance, built-in security, and OS flexibility. This system-on-chip (SoC) is based on Intel's Silvermont microarchitecture using 22 nm process technology. The 64-bit quad-core SoC with Intel HD Graphics provides a low-power solution that excels in computing and graphics performance compared to the previous generation platform, and it includes Intel Burst Technology and Intel Wireless Display. For more details, please refer to the PDF document or feel free to contact Fuji Soft. https://www.fsi-embedded.jp/product_detail/10422/

• Embedded Board Computers
• Industrial PCs

The i.MX 6 series application processors provide a scalable multi-core platform with features and performance, including single, dual, and quad-core families based on the Cortex architecture, such as a combination of Cortex-A9, Cortex-A9 + Cortex-M4, and Cortex-A7 based solutions. For more details, please refer to the PDF document or feel free to contact Fuji Soft. https://www.fsi-embedded.jp/product_detail/10424/

• Embedded Board Computers
• Industrial PCs
• Expansion Boards

The Intel Atom Processor E3900 Series, Intel Celeron Processor N3350, and Intel Pentium Processor N4200 platforms (formerly Apollo Lake) support real-time computing in digital surveillance, new in-vehicle experiences, advancements in industrial and office automation, and provide new solutions for retail and healthcare. These processors are based on the Goldmont architecture and utilize Intel's industry-leading 14 nm process technology. For more details, please refer to the PDF document or feel free to contact Fuji Soft. https://www.fsi-embedded.jp/product_detail/10420/

• Embedded Board Computers
• Industrial PCs
• Expansion Boards

The i.MX 8 series application processors are a scalable multi-core platform with expandable functionality and performance, including single-core, dual-core, and quad-core families based on the Arm Cortex architecture. This includes combinations of Cortex-A72 + Cortex-A53 and Cortex-A35, as well as Cortex-M4 and Cortex-M7 based solutions for advanced graphics, imaging, machine vision, audio, voice, video, and safety-critical applications. For more details, please refer to the PDF document or feel free to contact Fuji Soft. https://www.fsi-embedded.jp/product_detail/10418/

• Embedded Board Computers
• Industrial PCs
• Expansion Boards

The i.MX8M family of application processors based on Arm Cortex-A53 and Cortex-M4 cores provides industry-leading audio, voice, and video processing for applications ranging from consumer home audio to industrial building automation and mobile computing. The Q7-C25 is a 2.1-compliant module based on the NXP i.MX 8M application processor with multi-core processing: dual or quad ARM Cortex-A53 cores + a general-purpose Cortex-M4 processor for real-time applications, and 4Kp60 HEVC decoding using HDR. The Q7-C25 is a scalable solution for applications requiring advanced security, connectivity, and multimedia, such as home automation and vending machines. For more details, please refer to the PDF document or feel free to contact Fuji Soft. https://www.fsi-embedded.jp/product_detail/8187/

• Embedded Board Computers
• Industrial PCs
• Expansion Boards

It features mainstream value tablets and small-screen 2-in-1 devices designed for Intel Atom processors. End users benefit from powerful graphics performance, built-in security, and OS flexibility. This system-on-chip (SoC) is based on Intel's Silvermont microarchitecture using 22 nm process technology. The 64-bit quad-core SoC with Intel HD graphics provides a low-power solution that excels in computing and graphics performance compared to the previous generation platform, and it includes Intel Burst Technology and Intel Wireless Display. For more details, please refer to the PDF document or feel free to contact Fuji Soft. https://www.fsi-embedded.jp/product_detail/8946/

• Industrial PCs

The Intel Atom Processor E3900 Series, Intel Celeron Processor N3350, and Intel Pentium Processor N4200 platforms support real-time computing in digital surveillance, new in-vehicle experiences, advancements in industrial and office automation, and also provide new solutions for retail and healthcare. These processors are based on the Goldmont architecture and utilize Intel's industry-leading 14 nm process technology.

• Industrial PCs

The Intel Atom Processor E3900 Series, Intel Celeron Processor N3350, and Intel Pentium Processor N4200 platforms support real-time computing in digital surveillance, new in-vehicle experiences, advancements in industrial and office automation, and also provide new solutions for retail and healthcare. These processors are based on the Goldmont architecture and utilize Intel's industry-leading 14 nm process technology. For more details, please refer to the PDF document or feel free to contact Fuji Soft. https://www.fsi-embedded.jp/product_detail/8949/

• Industrial PCs

It features mainstream value tablets and small-screen 2-in-1 devices designed for Intel Atom processors. End users benefit from powerful graphics performance, embedded security, and OS flexibility. This system-on-chip (SoC) is based on Intel's Silvermont microarchitecture using 22 nm process technology. The 64-bit quad-core SoC with Intel HD graphics provides a low-power solution that excels in computing and graphics performance compared to the previous generation platform, and it includes Intel Burst Technology and Intel Wireless Display. For more details, please refer to the PDF document or feel free to contact Fuji Soft. https://www.fsi-embedded.jp/product_detail/8944/

• Industrial PCs

The PQ7-M106 is a Qseven module equipped with an Intel Atom processor (BayTrail). The BayTrail processor has been adopted by various customers, operates stably, and is also available for long-term supply. The PQ7-M106 is suitable for a variety of applications and can withstand harsh environments by supporting a wide operating temperature range. For more details, please refer to the PDF document or feel free to contact Fuji Soft. https://www.fsi-embedded.jp/product_detail/8070/

• Embedded Board Computers
• Industrial PCs

The PQ7-M108 is a Qseven module equipped with Intel Atom/Pentium/Celeron processors (Apollo Lake). It features higher graphics performance and a wider memory bandwidth than before. The PQ7-M108 is suitable for various applications and can withstand harsh environments by supporting a wide operating temperature range. For more details, please refer to the PDF document or feel free to contact Fuji Soft. https://www.fsi-embedded.jp/product_detail/7895/

• Embedded Board Computers
• Industrial PCs

The SM-C12 is a 2.0-compliant SMARC module equipped with the NXP i.MX 8M application processor. It features multi-core processing (dual or quad ARM Cortex-A53 cores + a general-purpose Cortex-M4 processor) and 4Kp60 HEVC decoding using HDR, designed by SECO as a scalable solution for home automation, transportation, digital signage, and vending machines. It is applicable to scenarios requiring advanced security, connectivity, multimedia, and real-time responsiveness. For more details, please refer to the PDF document or feel free to contact Fuji Soft. https://www.fsi-embedded.jp/product_detail/8203/

• Embedded Board Computers
• Industrial PCs

The SM-B69 is a 2.0 compliant SMARC module equipped with Intel Atom X series, Intel Celeron J/N series, and Intel Pentium N series (Apollo Lake) processors. This high-performance, low-power, and feature-rich solution can run up to three independent displays with 4K hardware encoding for HEVC (H.265), H.264, VP8, SVC, and MVC. It features up to 8GB of quad-channel soldered-down LPDDR4-2400 memory, up to 2 x Gigabit Ethernet interfaces, and 2 x MIPI CSI interfaces. For more details, please refer to the PDF document or feel free to contact Fuji Soft. https://www.fsi-embedded.jp/product_detail/8201/

• Embedded Board Computers
• Industrial PCs

The SM-B71 is a 2.0 compliant SMARC module that uses the Xilinx Zynq Ultrascale+ MPSoC. This solution provides flexible ARM + FPGA heterogeneous processing in a standard form factor, offering a wide range of scalability and excellent flexibility, from cost-effective dual-core to high-performance quad-core ARM Cortex-A53 MPSoCs with GPU/VCU (up to 256k FPGA logic cells). It also features a dedicated real-time ARM Cortex-R5 processor, LVDS and DP video interfaces with up to 4K resolution, and high-speed interfaces. For more details, please refer to the PDF materials or feel free to contact Fuji Soft. https://www.fsi-embedded.jp/product_detail/8195/

• Embedded Board Computers
• Industrial PCs

The SMARC-iMX8M provides high-performance processing for low-power system-on-modules. It is ideal for a variety of embedded products, the growing market of connected devices and portable devices, as well as various devices that require connected streaming audio/video, scanning/imaging devices, and high-performance, low-power applications. This product is based on the NXP i.MX8M dual/quad-lite/quad family of versatile processors, featuring up to 1.5GHz ARM CortexTM-A53 and an additional 266MHz ARM Cortex-M4 core. For more details, please refer to the PDF document or feel free to contact Fuji Soft. https://www.fsi-embedded.jp/product_detail/9052/

• Embedded Board Computers
• Industrial PCs

The SMARC-FiMX7 is a versatile small form factor computer-on-module equipped with Qualcomm/NXP i.MX7 processors, offering scalability with single-core and dual-core processors. The peak frequency of the dual-core ARM Cortex-A7 is 1GHz, while the peak frequency of the single-core ARM Cortex-M4 is 200MHz. The single-core Cortex-A7 operates at a peak frequency of 800MHz, and the single-core Cortex-M4 runs at 200MHz. For more details, please refer to the PDF document or feel free to contact Fuji Soft. https://www.fsi-embedded.jp/product_detail/9050/

• Embedded Board Computers
• Industrial PCs

The SMARC-FiMX6 module is a CPU module that covers a very wide range of performance with single/dual light/dual/quad-core NXP (Freescale) i.MX6 processors. Based on ARM Cortex A9 technology, it supports a variety of industry-standard interfaces while providing advanced multimedia and high-speed connectivity, making it suitable for an almost unlimited number of applications. For more details, please refer to the PDF document or feel free to contact Fuji Soft. https://www.fsi-embedded.jp/product_detail/9048/

• Industrial PCs
• Embedded Board Computers

The SMARC-T4378 with the Sitara AM4378 processor supports the ARM Cortex-A9 core and extends performance by up to 40% compared to the Sitara AM335X processor line at up to 1GHz. As a successor to the popular SMARC-T335X platform, these high-performance features integrate additional capabilities to support a variety of markets, from human-machine interfaces (HMI) to IoT gateways and industrial automation. Embedian continues to optimize and expand its portfolio of SMARC solutions for the embedded market. For more details, please refer to the PDF document or feel free to contact Fuji Soft. https://www.fsi-embedded.jp/product_detail/9054/

• Industrial PCs
• Embedded Board Computers

The XUP-P3R is a 3/4-length PCIe x16 card based on the Xilinx Virtex UltraScale+ FPGA. UltraScale+ devices provide high performance, high bandwidth, and low latency for systems that require large data flows and packet processing. This board offers up to 512 GBytes of memory, advanced clocking, extensive memory configurations, and four front panel QSFP cages that support up to 100 Gbps (4x25), including 100GbE. It also incorporates a Board Management Controller (BMC) for advanced system monitoring, significantly simplifying platform integration and management.

• Embedded Board Computers
• Image Processing Board
• Evaluation Board

The XUP-VV8 is a 3/4 length PCIe card equipped with a QSFP-DD (double-density) cage. The Virtex UltraScale + VU13P or VU9P FPGA supports up to 8x100GbE or 32x10/25GbE. The FPGA provides a large logic and memory resource with up to 3.8M logic cells and 455Mb of memory. This board also includes a jitter cleaner to support synchronous Ethernet. It can be configured as a single width for users who do not require DIMMs for external memory.

• Embedded Board Computers
• Image Processing Board
• Evaluation Board

In theme park performance systems, a balance between safety and entertainment is required. Especially in performances that require complex movements and synchronization, precise control of the system is crucial. Inaccurate control can lead to performance failures and safety risks. Our model-based development (MBD) supports the entire process from upstream to downstream, aiding in the development of safe and high-quality performance systems. 【Usage Scenarios】 - Control of attractions - Performance direction of shows - Coordination of lighting and sound systems 【Benefits of Implementation】 - Improved system reliability - Reduced development time - Cost savings

• Calibration and repair
• Assembly robot

In the gaming industry, physical simulations and complex character controls are required to pursue more realistic expressions. In particular, the reproducibility of character movements and interactions with the environment greatly affects the immersion of the game. Model-based development efficiently designs and verifies these complex elements, supporting high-quality game development. 【Usage Scenarios】 - Improvement of physical simulation accuracy - Reproduction of natural character movements - Real-time processing of interactions with the environment 【Effects of Implementation】 - Improvement in game quality - Reduction of development time - Cost savings

• Calibration and repair
• Assembly robot

In the drone industry, the advancement of autonomous flight technology is essential for improving safety and efficiency. In particular, advanced control technologies are required for flying in complex environments and responding to diverse tasks. Inadequate control can lead to flight instability and accidents. Our model-based development supports everything from the creation of drone specifications to the development of operational systems, the creation of verification models, and actual machine verification, aiding in the development of safe and reliable autonomous flight systems. 【Use Cases】 - Automated patrol and inspection - Surveying and research - Logistics 【Benefits of Implementation】 - Reduced development time - Improved quality - Cost reduction

• Calibration and repair
• Assembly robot

In the shipping industry, improving fuel efficiency has become an important issue. To enhance energy-saving performance, optimizing propulsion systems and energy management systems is essential. Model-Based Development (MBD) efficiently conducts the design, simulation, and verification of these systems, contributing to improved energy-saving performance. Fujisoft's MBD solutions support the energy-saving efforts of ships. [Usage Scenarios] - Optimization of propulsion systems - Development of energy management systems - Fuel efficiency simulation [Effects of Implementation] - Improved fuel efficiency - Reduced operational costs - Decreased environmental impact

• Calibration and repair
• Assembly robot

In the machine tool industry, there is a growing demand for high precision and multifunctionality in products, along with a need to shorten development periods. Particularly when implementing complex control systems and advanced features, improving development efficiency is crucial. Model-Based Development (MBD) addresses these challenges and contributes to reducing development time. Our products support the entire process of MBD, from upstream to downstream, aiding in the advancement of machine tools. 【Usage Scenarios】 - Development of control systems for machine tools - Development of automation systems - Performance simulation 【Benefits of Implementation】 - Shortened development time - Improved quality - Cost reduction

• Calibration and repair
• Assembly robot

In the energy industry, the stable operation of systems is the most important issue. In particular, abnormalities or shutdowns in power supply and plant control can have widespread impacts. Model-Based Development (MBD) efficiently handles everything from system specification creation to verification and real-world validation, contributing to the improvement of system reliability. Our MBD solutions support the stabilization of energy systems. 【Use Cases】 - Control systems for power grids - Plant control systems - Control of renewable energy systems 【Benefits of Implementation】 - Early detection of issues in the system's early stages - Improved system reliability - Reduced development time

• Calibration and repair
• Assembly robot

In the home appliance industry, there is a trend towards the advancement and diversification of products, leading to demands for shorter development periods and improved quality. Particularly, with the increasing complexity of software, verification during the design phase has become crucial. Model-based development contributes to enhancing design quality and shortening development time by creating models based on product requirements and performing simulations and automatic code generation. Our model-based development supports the refinement of home appliances. 【Usage Scenarios】 - Development of control systems for high-functionality home appliances - Improvement of product reliability - Reduction of development time 【Effects of Implementation】 - Early detection of defects during the design phase - Improvement of software quality - Reduction of development costs

• Calibration and repair
• Assembly robot

In the medical device industry, advanced control and precise operation are required to ensure product reliability and safety. Particularly for medical devices that are critical to patient lives, accurate simulation and verification during the design phase are essential. Model-Based Development (MBD) is an effective means to meet these demands. By utilizing MBD, it becomes possible to conduct simulations from the early stages of design, allowing for the early detection and correction of potential issues. This contributes to a reduction in development time and the creation of higher-quality medical devices. 【Application Scenarios】 - Development of control systems for precision medical devices - Motion simulation for medical robots - Safety verification of medical devices 【Benefits of Implementation】 - Reduction in development time - Improvement in design quality - Increased product reliability

• Calibration and repair
• Assembly robot

In the robotics industry, shortening the time to market is key to competitiveness. There is a demand for shorter product cycles and the development of more complex systems. Model-Based Development (MBD) streamlines the process from specification creation to actual machine verification, contributing to the reduction of development time. 【Usage Scenarios】 - Control design for robotic systems - Verification through simulation - Efficiency in actual machine testing 【Benefits of Implementation】 - Reduced development time - Improved quality - Cost reduction

• Calibration and repair
• Assembly robot

In the agricultural machinery industry, there is a demand for improved fuel efficiency and enhanced work efficiency. In particular, durability under harsh conditions and the ability to handle diverse tasks are crucial. Inadequate control can lead to worsened fuel efficiency and potential failures. Our model-based development supports the construction of optimal control systems to address these challenges. 【Application Scenarios】 - Optimization of tractor fuel efficiency - Improvement of combine harvester work efficiency - Development of autonomous driving systems 【Benefits of Implementation】 - Enhanced fuel performance - Reduced work time - Improved system reliability

• Calibration and repair
• Assembly robot

In the railway industry, ensuring safety is crucial, making the reliability and accuracy of systems extremely important. Particularly in operational management systems and vehicle control systems, even minor malfunctions can lead to serious accidents. Model-Based Development (MBD) is effective in streamlining the design, verification, and implementation of these systems, thereby enhancing safety. Fujisoft's MBD is considered essential for improving the safety of railway systems. 【Application Scenarios】 - Development of operational management systems - Development of vehicle control systems - Verification of safety-related systems 【Benefits of Implementation】 - Improved system reliability - Shortened development time - Enhanced quality

• Calibration and repair
• Assembly robot

In the aerospace industry, strict quality control and efficient development processes are required to ensure product safety and reliability. Particularly in the aerospace field, where complex systems and advanced technologies are used, shortening development time and reducing costs are critical challenges. Model-Based Development (MBD) is an effective means to address these challenges and improve development efficiency. Our company leverages its extensive experience in model-based development and 40 years of embedded development expertise to support our customers in the aerospace sector. 【Application Scenarios】 - Development of aircraft control systems - System design of spacecraft - Verification through simulation 【Benefits of Implementation】 - Shortened development time - Improved quality - Cost reduction

• Calibration and repair
• Assembly robot

Fujisoft, with extensive experience in model-based development, will assist you from the specification creation of in-vehicle devices to the development of implementation systems, creation of verification models, and actual machine verification. Our company has various achievements in model-based development, primarily in the automotive industry. 【Areas of Achievement】 - Automotive / Autonomous Driving - Automotive / Powertrain - Automotive / Chassis - Industrial Robots

• Calibration and repair
• Assembly robot

In the security industry, particularly in surveillance systems, high real-time video processing and data analysis are required. As high resolution and multi-channel capabilities advance, FPGA technology is crucial to meet these demands. The flexibility and processing power of FPGAs are essential for improving the performance of surveillance systems. Our company supports the development of surveillance systems through FPGA/board contract development. 【Application Scenes】 - Security camera systems - Access control systems - Video analysis systems 【Benefits of Implementation】 - Acceleration of real-time video processing - Support for high-resolution video - Overall performance improvement of the system

• Mechanical Design
• Processing Contract

In the robotics industry, precise position control is a crucial factor that influences the performance of robots. To achieve accurate movements, high-speed signal processing and real-time control are essential, and FPGAs are one of the optimal choices to meet these requirements. FPGA/board contract development contributes to improving the operational accuracy of robots. 【Application Scenarios】 - Position control for industrial robots - Position control for autonomous robots - Robots requiring precise positioning 【Benefits of Implementation】 - Achievement of high-precision position control - Improved responsiveness through real-time processing - Miniaturization and power saving of the system

• Mechanical Design
• Processing Contract

In the energy industry, particularly in power control systems, the reliability and real-time performance of the system are the most critical challenges. Fast data processing and accurate control are required for stable power supply. FPGAs are the optimal choice to meet these demands. Our FPGA/board contract development services strongly support the development of power control systems. 【Use Cases】 - Smart Grid - Renewable Energy Management - Power System Protection - Power Quality Monitoring 【Benefits of Implementation】 - Increased system speed - Improved real-time performance - Stabilization of power supply - Enhanced system reliability

• Mechanical Design
• Processing Contract

In the financial industry, the acceleration of transactions is a source of competitiveness, and delays measured in milliseconds can lead to significant losses. FPGAs are essential technology for speeding up trading systems due to their high processing power and flexibility. Our FPGA/board contract development services aim to minimize latency in trading systems for financial institutions and enhance transaction processing speed. By leveraging FPGAs, we achieve real-time processing of market data, rapid order execution, and advanced risk management, thereby establishing a competitive advantage. 【Use Cases】 - High-frequency trading platforms - Market data processing - Risk management systems 【Benefits of Implementation】 - Improved transaction speed - Enhanced system throughput - Strengthened risk management capabilities

• Mechanical Design
• Processing Contract

In the telecommunications industry, there is an increasing demand for larger data volumes and real-time processing. Particularly in high-speed communication infrastructures such as 5G/6G, high-speed data processing using FPGAs is essential. FPGAs are utilized in various applications such as the implementation of communication protocols and signal processing due to their high parallel processing capabilities and flexibility. However, developing FPGAs requires advanced expertise and technology. Our FPGA/board contract development offers a one-stop solution from RTL design to board development and software development, addressing our customers' high-speed data processing needs. 【Use Cases】 - 5G/6G base stations - High-speed network equipment - Data centers 【Benefits of Implementation】 - Realization of high-speed data processing - Reduction of development time - Cost savings

• Mechanical Design
• Processing Contract

In the field of medical imaging analysis, high precision and real-time processing are required. Especially in diagnostic support and surgical assistance, latency-free image processing is essential. FPGAs can meet these demands due to their high parallel processing capabilities. Our FPGA/board contract development offers a one-stop solution from RTL design to board development and software development, supporting the development of your image analysis systems. 【Application Scenarios】 - Medical imaging diagnostic devices - Endoscopy systems - Surgical assistance robots - Medical devices requiring real-time image processing 【Benefits of Implementation】 - Acceleration of image processing - Improvement of real-time capabilities - Miniaturization and power saving of systems - Achievement of high-precision image analysis

• Mechanical Design
• Processing Contract

In the data collection within the measurement instrument industry, high-speed and accurate data processing is required. Especially in cases where high-precision measurements or real-time processing are necessary, the flexibility and processing capability of FPGAs become crucial. If the design and implementation of the FPGA are not appropriate, data loss or delays may occur, hindering accurate analysis. Our company provides solutions to maximize the data collection performance of measurement instruments through FPGA/board contract development. 【Usage Scenarios】 - High-speed data logging - Signal processing - Real-time data analysis 【Benefits of Implementation】 - Reduced analysis time through high-speed data processing - High-precision data collection through real-time processing - Optimal performance achieved through custom design

• Mechanical Design
• Processing Contract

In the field of motion control for industrial equipment, advanced control performance and real-time capabilities are required. Particularly when precise positioning and speed control are necessary, the flexibility and high-speed processing capabilities of FPGAs are essential. FPGA/board development provides optimal solutions through custom design to meet these demands. Our company has extensive knowledge in hardware design centered around FPGAs, enabling us to accommodate a wide range of FPGA development from small to large scale. We offer a one-stop solution that includes not only logical design such as RTL design but also software development and custom implementation, including board development. We have formed alliances with various chip vendors, allowing us to work with not only major FPGA vendors but also new FPGA vendors that have gained attention due to the recent semiconductor supply shortages. 【Use Cases】 - Robot arm control - Precision control of machine tools - Motion control for conveyor systems 【Benefits of Implementation】 - Achieves high-precision motion control - Improves system real-time capabilities - Enhances product reliability

• Mechanical Design
• Processing Contract

In the field of defense signal processing, advanced data processing capabilities and real-time performance are required. In particular, high-speed and accurate signal processing is essential for radar systems and communication systems. FPGAs are the optimal platform to meet these demands. Our FPGA/board contract development services provide a one-stop solution from RTL design to board development and mass production, offering custom solutions tailored to our customers' needs. 【Application Scenarios】 - Radar Systems - Communication Systems - Image Processing Systems 【Benefits of Implementation】 - Realization of high-speed signal processing - Miniaturization and power saving of systems - Ensuring high reliability and stability

• Mechanical Design
• Processing Contract

In the aerospace industry, control systems require high reliability and safety. FPGAs are ideal for control systems that demand real-time processing and high reliability. Our FPGA/board contract development service provides a one-stop solution from RTL design and other logical designs to board development and software development, offering custom solutions tailored to our customers' needs. With extensive knowledge in hardware design centered around FPGAs, we can accommodate a wide range of FPGA development from small to large scale. We have formed alliances with various chip vendors, enabling us to support not only major FPGA vendors but also new FPGA vendors that have gained attention due to the recent semiconductor supply shortages. 【Use Cases】 - Aircraft flight control systems - Satellite-mounted data processing systems - Rocket attitude control systems 【Benefits of Implementation】 - Improved system reliability - Reduced development time - Cost savings

• Mechanical Design
• Processing Contract

In the field of ADAS (Advanced Driver Assistance Systems), real-time processing capability and high reliability are required. In particular, high-speed processing of sensor data and ensuring safety are crucial. FPGA is one of the optimal choices to meet these demands. Our company supports customers in solving challenges in ADAS development by providing extensive knowledge in FPGA-based hardware design and a one-stop solution that includes software development and board development. 【Application Scenarios】 - Prototype development of ADAS systems - Implementation of various sensor interfaces - Image processing, radar signal processing - ECU development 【Benefits of Implementation】 - Shortened development time - Realization of high-performance ADAS systems - Cost reduction - Ensured high reliability

• Mechanical Design
• Processing Contract