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Cortus's High Performance RISC-V Processor represents the pinnacle of processing capability, designed for demanding applications that require high-speed computing and efficient task handling. It features the world’s fastest RISC-V 64-bit instruction set architecture, implemented in an Out-of-Order (OoO) execution core, supporting both single-core and multi-core configurations for unparalleled processing throughput. This processor is particularly suited for high-end computing tasks in environments ranging from desktop computing to artificial intelligence workloads. With integrated features such as a multi-socket cache coherent system and an on-chip vector plus AI accelerator, it delivers exceptional computation power, essential for tasks such as bioinformatics and complex machine learning models. Moreover, the processor includes coherent off-chip accelerators, such as CNN accelerators, enhancing its utility in AI-driven applications. The design flexibility extends its application to consumer electronics like laptops and supercomputers, positioning the High Performance RISC-V Processor as an integral part of next-gen technology solutions across multiple domains.
The Automotive AI Inference SoC by Cortus is a cutting-edge chip designed to revolutionize image processing and artificial intelligence applications in advanced driver-assistance systems (ADAS). Leveraging RISC-V expertise, this SoC is engineered for low power and high performance, particularly suited to the rigorous demands of autonomous driving and smart city infrastructures. Built to support Level 2 to Level 4 autonomous driving standards, this AI Inference SoC features powerful processing capabilities, enabling complex image processing algorithms akin to those used in advanced visual recognition tasks. Designed for mid to high-end automotive markets, it offers adaptability and precision, key to enhancing the safety and efficiency of driver support systems. The chip's architecture allows it to handle a tremendous amount of data throughput, crucial for real-time decision-making required in dynamic automotive environments. With its advanced processing efficiency and low power consumption, the Automotive AI Inference SoC stands as a pivotal component in the evolution of intelligent transportation systems.
Cortus CIoT25 is an inventive solution aimed at enhancing IoT connectivity with its ultra-energy-efficient RISC-V architecture. Supporting Sub-1 GHz unlicensed ISM bands, the CIoT25 makes IoT devices smarter and more efficient, reducing both power consumption and operational costs significantly. The design is specifically crafted for smart home devices and low-power sensor networks, offering unparalleled integration in the IoT domain. The CIoT25's unique architecture ensures high adaptability to varying IoT environments, enabling tailored performance delivery for distinct applications. Its comprehensive support for diverse communication protocols makes it an ideal candidate for multi-platform IoT setups, leading to widespread adoption among IoT service providers seeking reliable communication hardware. With the increasing demands of connected environments, the CIoT25 meets the intricate requirements of modern applications by offering seamless functionality over extended periods, largely due to its low operational energy demand. This microcontroller is set to empower a new wave of IoT devices with its intelligent resource management and superior data handling capabilities.
The ULYSS MCU range from Cortus is a powerful suite of automotive microcontrollers designed to address the complex demands of modern automotive applications. These MCUs are anchored by a highly optimized 32/64-bit RISC-V architecture, delivering impressive performance levels from 120MHz to 1.5GHz, making them suitable for a variety of automotive functions such as body control, safety systems, and infotainment. ULYSS MCUs are engineered to accommodate extensive application domains, providing reliability and efficiency within harsh automotive environments. They feature advanced processing capabilities and are designed to integrate seamlessly into various automotive systems, offering developers a versatile platform for building next-generation automotive solutions. The ULYSS MCU family stands out for its scalability and adaptability, enabling manufacturers to design robust automotive electronics tailored to specific needs while ensuring cost-effectiveness. With their support for a wide range of automotive networking and control applications, ULYSS MCUs are pivotal in the development of reliable, state-of-the-art automotive systems.
The Cortus Lotus 1 is a multifaceted microcontroller that packs a robust set of features for a range of applications. This cost-effective, low-power SoC boasts RISC-V architecture, making it suitable for advanced control systems such as motor control, sensor interfacing, and battery-operated devices. Operating up to 40 MHz, its RV32IMAFC CPU architecture supports floating-point operations and hardware-accelerated integer processing, optimizing performance for computationally demanding applications. Designed to enhance code density and reduce memory footprint, Lotus 1 incorporates 256 KBytes of Flash memory and 24 KBytes of RAM, enabling the execution of complex applications without external memory components. Its six independent 16-bit timers with PWM capabilities are perfectly suited for controlling multi-phase motors, positioning it as an ideal choice for power-sensitive embedded systems. This microcontroller's connectivity options, including multiple UARTs, SPI, and TWI controllers, ensure seamless integration within a myriad of systems. Lotus 1 is thus equipped to serve a wide range of market needs, from personal electronics to industrial automation, ensuring flexibility and extended battery life across sectors.
The Cortus NB-IoT C200 is a sophisticated narrowband-IoT solution integrated with Bluetooth Low Energy capabilities, designed to meet the needs of smart IoT systems. This IP enables seamless connectivity in sub-GHz unlicensed ISM bands, offering robust performance for remote and wireless communication. Ideally suited for smart metering and industrial IoT applications, this IP delivers reliable, low-power wireless connectivity essential for long-distance communication without sacrificing battery life. Built with the latest advancements in wireless technology, the NB-IoT C200 provides comprehensive support for various IoT standards, ensuring broad compatibility and adoption across multiple platforms. Its low-data-rate, extensive coverage, and reduced power consumption features make it an optimal choice for portable devices and remote sensors that rely on uninterrupted connections. With its capacity to handle significant data processing at reduced bandwidths, the NB-IoT C200 is in line with the demands of modern IoT ecosystems. This model is particularly adept at maintaining efficient operations in dense urban environments, thanks to its noise-immune and highly stable connection protocols.
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