All IPs > Security IP > Other
The 'Security IP > Other' category encompasses a diverse range of semiconductor intellectual properties focused on enhancing the security features of various electronic devices. This category includes IPs that don't necessarily fit into traditional security areas like encryption or authentication but offer specialized and innovative solutions that are crucial for safeguarding digital devices and systems.
In this category, you'll find semiconductor IPs that cater to niche security needs, such as biometrics, secure boot processes, hardware anomaly detection, and secure data storage solutions. These IPs are vital for protecting sensitive data against unauthorized access, tampering, or data breaches. By integrating these specialized security IPs into their designs, manufacturers can significantly boost their product's ability to resist cyber threats, ensuring a robust defense mechanism.
Products in this category are pivotal for industries where security is paramount, including automotive, IoT, consumer electronics, and more. Whether it's securing the firmware boot process in connected cars or protecting user data in smart home devices, the security semiconductor IPs listed here provide crucial benefits and unmatched peace of mind.
As the landscape of cyber threats continually evolves, the 'Other' security IP category highlights the importance of pioneering and non-conventional security measures. By offering these unique and customizable security solutions, designers can stay ahead of emerging threats and vulnerabilities, ensuring their products are both secure and future-proof.
This H.264 FPGA Encoder and CODEC Micro Footprint Core is engineered to achieve minimal latency and compact size when deployed in FPGA environments. It is customizable and ITAR compliant, providing robust 1080p60 H.264 Baseline support on a single core. Known for its remarkable speed and small footprint, this core adapts to various configurations, including complete H.264 encoders and I-Frame Only variations, supporting custom pixel depths and unique resolutions. The core's design focuses on reducing latency to a mere 1 millisecond at 1080p30, setting a high industry standard for performance. Flexibility in deployment allows this core to meet bespoke requirements, offering significant value for customer-specific applications. It stands as a versatile solution for applications demanding high-speed video processing while maintaining compliance with industry standards. Supporting a variety of FPGA platforms, the core is especially valuable in environments where space and power constraints are crucial. Its adaptability, combined with A2e's integration capabilities, ensures seamless incorporation into existing systems, bolstering performance and development efficiency.
The Universal DSP Library by Enclustra is designed to streamline digital signal processing across various applications. This library provides an extensive collection of DSP functions optimized for FPGA performance, enabling users to implement complex signal processing algorithms with ease and efficiency. It's tailored for image processing, audio applications, and other demanding DSP tasks, ensuring high performance and resource-efficient implementations. The library supports fixed-point and floating-point operations, offering flexibility in design according to specific needs. This makes it an invaluable resource for both prototyping and deployment in production environments, minimizing development time and maximizing performance. Furthermore, the Universal DSP Library includes a comprehensive set of features that are readily integrable with existing FPGA designs. Complementing its robust algorithmic offerings, Enclustra ensures that their DSP library is highly customizable, catering to unique processing requirements. This adaptability helps maintain high signal integrity and algorithm precision, making it an ideal choice for engineers looking to optimize their FPGA-based signal processing systems.
The Dynamic PhotoDetector (DPD) for Wearables by ActLight embodies a revolution in light sensing technology specifically catered to the wearable tech market. This cutting-edge sensor is engineered to deliver enhanced precision by detecting even the tiniest light changes, which facilitates more accurate data collection for health monitoring devices and smart wearables. Its power efficiency is unmatched, operating at a fraction of the power used by traditional sensors, making it an ideal choice for battery-sensitive applications. The DPD technology ensures both high sensitivity and low power consumption, providing a significant advantage in maintaining the longevity and efficacy of wearable devices. Furthermore, its compact design allows for seamless integration into the most minimalist and modern wearable product designs without compromising performance.
Certus Semiconductor's RF/Analog solutions encompass state-of-the-art ultra-low power wireless front-end technologies. These include silicon-proven RF IPs, full-chip RF products, and next-generation wireless IPs. The RF IPs are compatible with various process nodes, offering comprehensive transceiver solutions integrated with digital controls and modern power management strategies. Specialized for wireless applications, these products include transceivers for LTE, Wifi, GNSS, and Zigbee, each meticulously designed to enhance communication reliability and efficiency in any technology node, from 12nm to 65nm processes.
The SOQPSK-TG LDPC Modulator is specifically designed for aeronautical telemetry systems, offering a robust solution for efficient data transmission. This modulator implements the Shaped Offset Quadrature Phase Shift Keying - Telemetry Group (SOQPSK-TG) waveform, which is widely used in telemetry to optimize bandwidth utilization and improve performance under various transmission conditions. The integration of Low-Density Parity-Check (LDPC) coding further enhances the modulator's performance by providing forward error correction. This feature is crucial for maintaining data integrity during transmission, especially in environments where signal quality can be variable or susceptible to interference. Users benefit from a modulator that delivers high data rates and reliable communications, ensuring efficient and secure transmission of telemetry data in aerospace applications. This IP core is available for implementation on various FPGA platforms, providing flexibility for different design requirements and deployment scenarios.
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