All IPs > Automotive > Other
The 'Automotive > Other' category in our Silicon Hub IP catalog is a collection of specialized semiconductor IP solutions designed to support a wide array of automotive applications. As the automotive industry evolves, vehicles increasingly incorporate sophisticated technologies requiring robust semiconductor IPs for optimal performance and safety. This category encompasses IP offerings that may not fit into traditional automotive subcategories but are essential for the development of modern vehicle systems and technologies.
One key area within this category includes semiconductor IPs facilitating advanced driver-assistance systems (ADAS). These systems rely on sensors, processors, and interfaces to improve vehicle safety and enhance the driving experience. The 'Other' subcategory captures innovative IP solutions that might address shortcomings in sensor data processing, improve real-time decision-making, or integrate novel interfaces that elevate vehicle automation levels.
Furthermore, IPs in this category may cater to developments in smart mobility solutions, addressing the demand for connectivity and integration within automotive networks. As vehicles become more interconnected, the need for reliable communication protocols and efficient data handling increases. Whether through advanced telematics or infotainment systems, semiconductor IPs in this category play a pivotal role in ensuring seamless interaction between different vehicle systems and external devices.
Additionally, the 'Automotive > Other' category may include unique IP products that support alternative energy vehicle designs, such as electric or hybrid cars. IP solutions for power management, battery monitoring, and energy-efficient processing are crucial in optimizing the performance of such vehicles. This diverse collection of semiconductor IPs highlights the ongoing innovation in the automotive sector, responding to the varied and ever-evolving needs of modern automotive engineering.
ISELED Technology emerges as a revolutionary solution in automotive lighting, integrating digital control of smart RGB LEDs and addressing automotive gradings. The initiative offers precisely calibrated Smart RGB LEDs, deftly facilitating color calibration at production, providing manufacturers with a streamlined implementation process. Primarily, ISELED excels in reducing complexities associated with the management of color mixing and compensation. Ideal for ambient and functional lighting, ISELED supports daisy-chain configurations of RGB LEDs, enhancing both aesthetic and functional vehicle illumination possibilities. The integrated communication protocol simplifies color adjustments through a straightforward digital interface, moving away from traditional 3-channel current control methods. These advancements promote innovation beyond aesthetics by fostering significant reductions in system cost and complexity. This comes from integrated features such as onboard calibration data storage, which removes dependency on external resources during vehicle manufacturing, making ISELED an optimal choice for next-generation automotive lighting technologies.
Dyumnin Semiconductors' RISCV SoC is a robust solution built around a 64-bit quad-core server-class RISC-V CPU, designed to meet advanced computing demands. This chip is modular, allowing for the inclusion of various subsystems tailored to specific applications. It integrates a sophisticated AI/ML subsystem that features an AI accelerator tightly coupled with a TensorFlow unit, streamlining AI operations and enhancing their efficiency. The SoC supports a multimedia subsystem equipped with IP for HDMI, Display Port, and MIPI, as well as camera and graphic accelerators for comprehensive multimedia processing capabilities. Additionally, the memory subsystem includes interfaces for DDR, MMC, ONFI, NorFlash, and SD/SDIO, ensuring compatibility with a wide range of memory technologies available in the market. This versatility makes it a suitable choice for devices requiring robust data storage and retrieval capabilities. To address automotive and communication needs, the chip's automotive subsystem provides connectivity through CAN, CAN-FD, and SafeSPI IPs, while the communication subsystem supports popular protocols like PCIe, Ethernet, USB, SPI, I2C, and UART. The configurable nature of this SoC allows for the adaptation of its capabilities to meet specific end-user requirements, making it a highly flexible tool for diverse applications.
aiSim 5 is a premier simulation tool tailored for ADAS (Advanced Driver Assistance Systems) and automated driving validations. As the world's first ISO26262 ASIL-D certified simulator, aiSim 5 employs state-of-the-art AI-based digital twin technology. This enhances its capability to simulate complex driving scenarios with high precision, making it an ideal environment for testing AD systems. The simulator boasts a proprietary rendering engine that provides a deterministic and high-fidelity virtual reality where sensor simulations can cover diverse climatic and operational conditions, such as snow, rain, and fog, ensuring results are reproducible and reliable.\n\naiSim 5's architecture is designed for flexibility, allowing seamless integration with existing development toolchains, and thus minimizing the need for expensive real-world testing. It features a comprehensive 3D asset library that includes detailed environments, vehicles, and scenarios, which can be customized to generate synthetic data for testing. The solution supports multi-sensor simulations, providing a rich testing ground for developers looking to refine and validate their software stacks.\n\nThanks to its modular C++ and Python APIs, aiSim 5 can be easily deployed within any System under Test (SuT) and CI/CD pipeline, enhancing its adaptability across various automotive applications. Additionally, its open SDK facilitates developer customizations, ensuring aiSim 5 remains adaptable and user-friendly. With built-in scenario randomization, users can efficiently simulate a wide array of driving conditions, making aiSim 5 a powerful tool for ensuring automotive system safety and accuracy.
Everspin's MRAM solutions for radiation-hard markets are specifically crafted to withstand the challenging conditions beyond Earth's atmosphere. Traditional electronic memories suffer from data integrity issues in high-radiation environments, but MRAM provides a robust solution, ensuring data is preserved without power.\n\nLeveraging magnetoresistive properties, this memory type exhibits zero hard errors at high radiation levels, crucial for aerospace and defense applications. As the sole U.S.-based MRAM provider, Everspin manufactures these devices to strict quality standards, ensuring reliability in mission-critical operations.\n\nWith the ability to operate with various CMOS front-end options, their MRAM solutions offer versatility and customization, allowing deployment in both discrete and embedded formats. This adaptability ensures a broad application spectrum, from satellites to military-grade devices, where performance and durability are paramount.
The Ethernet TSN Endstation Controller IP family from Comcores is a comprehensive hardware and software solution for automotive applications. The solution implements Timing & Synchronization (802.1AS), Multiple types of Traffic Shaping (802.1Qav, 802.1Qby, 802.1Qcr), Frame preemption (802.1Qbu), Frame replication & elimination (802.1CB), Steam filtering & policing (802.1Qci), and optional MACsec encryption/decryption (802.1AE). The solution is designed to provide high-precision time synchronization and accurate traffic scheduling. It supports up to 8 traffic classes, each with a dedicated queue for all ports. It is available in two versions: Ethernet TSN Endstation Controller IP and Ethernet Tiny TSN Endstation Controller IP. Both versions of the Ethernet TSN Endstation controller IP include a comprehensive software package with device drivers for several operating systems, a software stack for 802.1AS and a complete demonstration system based on Linux. The solution is available as technology independent RTL source code (System Verilog) or encrypted netlist for ASIC and FPGA implementations. Furthermore, FPGA based hardware platforms are available for evaluation and prototyping.
The 1G Managed Ethernet TSN Switching IP core is an advanced managed switch targeting industrial, automotive and avionic applications. It is providing cut-through and supporting the TSN family of standards. It is compliant to several industrial TSN profiles while offering the ultimately lowest gate count on the market. The non-blocking 1G Managed Ethernet TSN switch IP from Comcores enables fine-grained traffic differentiation for rich implementations of packet prioritization enabling per port and per queue shaping on egress ports. The switch supports MAC learning, VLAN 802.1Q, multicast and broadcast as well as support for timing synchronization according to 802.1AS. Each port provides a native interface for GMII Ethernet PHY devices.
Unmanaged Ethernet Switch IP cores are a family of Ethernet switching IPs from Comcores that provide a variety of configurations, including 1G, 1G/ 10G, 10G, and 10G/25G options. The unmanaged Ethernet switch IP cores family is a size-optimized implementation of non-blocking crossbar switches designed to support wire-speed packet processing and forwarding. The unmanaged Ethernet switch IP cores family features FCS validation/recalculation, MAC learning/forwarding/ageing and VLAN tagging including implementing a store-and-forward switching architecture. The number of ports is configurable at compile time, making the unmanaged Ethernet switch IP cores solution highly flexible and the solutions from Comcores are silicon-agnostic, making them suitable for implementation in any ASIC, FPGA, or ASSP technology.
The 10M/100M/1G/10G/25G Ethernet Switching IP is an advanced Ethernet TSN Switch IP with an extensive set of QoS features and statistics. The Comcores Ethernet TSN Switch IP supports up to 8 queues, classification, VLAN 802.1Q, multicast and broadcast as well as IEEE 1588 transparent clock. Each port provides a native interface for Ethernet PHY devices. IEEE 802.1 Protocol Implementation Conformance Statement is available, specifying exact feature-set. The Ethernet TSN Switch IP provides support for key TSN features including IEEE 802.1Qbu and 802.3br Frame preemption, 802.1Qbv Time aware shaping, 802.1Qav Credit based shaping, 802.1Qci Per-Stream Filtering and Policing, and 802.1CB Frame replication and elimination for reliability. This enables the use of the IP in high speed time-critical applications.
DCAN XL redefines data communication by bridging the performance gap between CAN FD and 100Mbit Ethernet, setting a new benchmark in high-speed, flexible connectivity. With data rates up to 20 Mbit/s and payloads reaching 2048 bytes, it delivers unprecedented throughput—far beyond traditional CAN standards. Engineered for versatility, DCAN XL supports advanced protocol layering and Ethernet frame tunneling, making it an ideal choice for future-proof automotive, industrial, and IoT applications. It retains the robustness and reliability of the CAN protocol while offering full backward compatibility with Classical CAN, CAN FD, and CAN XL—ensuring effortless integration into existing systems. For physical layer connectivity, DCAN XL interfaces seamlessly with standard CAN transceivers (sub-10Mbps) and CAN SIC XL transceivers (above 10Mbps), providing flexibility without compromise. It’s not just evolution—it’s the next revolution in controller area networking.
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