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Cortus's Automotive AI Inference SoC is a powerful component at the crossroads of artificial intelligence and automotive technology. Engineered with RISC-V architecture expertise, this chip is poised to transform ADAS (Advanced Driver-Assistance Systems) by providing a cost-effective yet highly efficient AI processing solution. It has been designed to handle complex image processing and inference tasks akin to what Level 4 autonomous driving specifications demand, leveraging a power-efficient architecture to meet stringent automotive operational requirements. The chip features a 1.5 GHz core with 48 DLTOPS, designed on a 22nm process node, which significantly enhances its ability to execute teraflop operations while maintaining operational efficiency. This balance allows automotive developers to integrate advanced driver assistance without compromising the vehicle's overall performance and power budget, making it suitable for current mid-range car markets targeting enhanced driver support systems. By adopting this SoC, automakers can efficiently elevate their vehicle offerings to include state-of-the-art driver assistance, significantly reducing time to market and boosting competitiveness. Its optimization for Yolo-class image algorithms ensures it is at the cutting edge of usage in urban environments, offering smart, responsive driving capabilities necessary for the next generation of automotive innovation.
Cortus's high-performance RISC-V processor is an essential part of their portfolio, offering unparalleled oomph for applications needing significant computational power. As a world-class construction in processor design, this RISC-V 64-bit chip introduces innovative Out-of-Order (OoO) execution capabilities. Such performance ensures superior processing speeds necessary for edge computing devices as well as vast supercomputing systems that demand state-of-the-art low-latency multi-synchronous operations. The processor is designed to cater to a multitude of sectors, including desktop computing, servers, AI for ADAS, and mobile devices. It is characterized by a multi-socket, cache coherent implementation, ensuring efficient data exchanges crucial for modern AI workloads and algorithm-heavy applications. With an in-built vector and AI accelerator, along with a bioinformatics accelerator co-processor, this processor aligns performance with cutting-edge innovation, ensuring readiness for advanced computing environments. Utilizing the processor's robust capabilities, businesses can achieve enhanced computational power with minimal energy costs. Cortus's processor design continues to enable technological evolution across IT infrastructures, from high-performance desktops to intensive AI-driven automotive applications, ensuring that their clients can seamlessly adapt to the future of computing.
The ULYSS MCU family by Cortus represents a sophisticated range of 32-bit and 64-bit RISC-V automotive SoC solutions. Engineered to meet the demands of automotive applications, these microcontrollers cover a spectrum of vehicle functionalities from body control to ADAS (Advanced Driver Assistance Systems). With solutions like the ULYSS 1 focusing on body control, running a single-core CPU up to 120 MHz, and other variants like ULYSS 3 with quad-core MPUs capable of 1.5 GHz for networking and ADAS applications, the ULYSS family is aptly equipped for modern vehicular computing requirements. Cortus has meticulously developed the ULYSS series to ensure high-performance capabilities combined with cost-effective production, aligning with the intense demands of automotive manufacturers. Whether it's powertrain management, safety features, or network interfacing, this family of MCUs delivers the speed and processing power necessary to tackle today's complex automotive challenges without compromising on energy efficiency. With the ULYSS series, automotive developers have the flexibility to tailor solutions that meet specific vehicle designs, supported by Cortus's extensive intellectual property portfolio. The combination of innovative RISC-V architecture and affordable performance ensures these MCUs are optimal for integrating advanced tech features in both present and forthcoming automotive models.
The CIoT25 chip offers a versatile and power-efficient solution tailored for IoT applications. Integrating Cortus's matured expertise in RISC-V architecture, the CIoT25 is a strategic asset for developers aiming to deploy IoT devices that demand both cost-efficiency and non-negotiable performance. Designed for operation in the sub-1 GHz unlicensed ISM bands, this chip supports a range of industrial applications requiring reliable and long-range communication, making it ideal for sectors such as agriculture, retail, and city infrastructures. An amalgamation of smart design and high functionality allows the CIoT25 to manage data transmission effectively while maintaining low power consumption. This capability ensures devices can remain operational in remote environments with minimal intervention. The architecture's compact instruction set enhances code density, optimizing the chip for IoT systems prioritizing swift data processing without energy drain complexities. Cortus positions the CIoT25 as a key component for businesses investing in IoT expansion, enabling swift and efficient integration. By delivering seamless support for modern communication protocols, Cortus empowers users to innovate with confidence, ensuring that their IoT devices embody robustness and cutting-edge technology. This makes the CIoT25 a critical tool for maximizing return on IoT investments while facilitating sustainable and future-ready technological evolution.
The NB-IoT C200 from Cortus offers a robust solution for low-power wide-area network (LPWAN) applications. As IoT expansions continue in smart cities and other sectors, the NB-IoT C200 stands out as a reliable connectivity module designed to meet demanding data transmission requirements while conserving energy. The chip integrates NB-IoT and Bluetooth Low Energy functionalities, facilitating broader and more efficient device communications. Designed for the sub-1 GHz unlicensed ISM bands, this module is especially well-suited for applications that require long-range, low-power communication. Cortus ensures that this product is optimized for seamless integration into various industry applications, such as smart metering, logistics, and environmental monitoring. Its compatibility with existing IoT infrastructures means quicker deployment times and better scaling potential for IoT systems looking to expand their reach without incurring additional energy or infrastructure costs. The focus on efficient power usage allows the NB-IoT C200 to operate in remote or hard-to-reach areas, where frequent maintenance is impractical. With a proven track in reducing operational costs and simplifying IoT device creation, the NB-IoT C200 supports businesses in achieving stricter sustainability targets by significantly lowering the carbon footprint of smart devices. This integration strength affords businesses the ability to enhance Internet-of-Things strategies with confidence, ensuring connectivity remains robust and future-ready as technologies advance.
The Lotus 1 microcontroller is a premier Cortex solution designed to achieve optimal efficiency for a wide array of applications. This microcontroller integrates a RISC-V RV32IMAFC CPU, operating at frequencies up to 40 MHz, and is capable of supporting a diverse set of functions while maintaining ultra-low power consumption. The inclusion of floating-point capabilities and integer parallel operations enhances the processing power of this compact chip, making it apt for intricate embedded applications. Built with 24 KBytes of RAM and 256 KBytes of Flash memory, the Lotus 1 enables complex applications, such as advanced motor control or battery-operated devices, to be accomplished. With six independent 16-bit timers featuring PWM control, the chipset is perfectly suited for sophisticated motor control scenarios, like three-phase H-bridge operations. This versatility assures that the Lotus 1 can serve the requirements of consumer electronics, sensors, and energy-sensitive applications seamlessly. Cortus provides a comprehensive development board accompanying the Lotus 1, designed to facilitate streamlined integration and shorten development cycles. This support enables developers to leverage the full potential of the Lotus 1, ensuring project timelines are met without compromise. The Lotus 1 provides a solution to market challenges by combining versatility, low power demands, and processing prowess in a singular, economically viable microcontroller offering.
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