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.
The Metis AIPU M.2 Accelerator Module by Axelera AI is a compact and powerful solution designed for AI inference at the edge. This module delivers remarkable performance, comparable to that of a PCIe card, all while fitting into the streamlined M.2 form factor. Ideal for demanding AI applications that require substantial computational power, the module enhances processing efficiency while minimizing power usage. With its robust infrastructure, it is geared toward integrating into applications that demand high throughput and low latency, making it a perfect fit for intelligent vision applications and real-time analytics. The AIPU, or Artificial Intelligence Processing Unit, at the core of this module provides industry-leading performance by offloading AI workloads from traditional CPU or GPU setups, allowing for dedicated AI computation that is faster and more energy-efficient. This not only boosts the capabilities of the host systems but also drastically reduces the overall energy consumption. The module supports a wide range of AI applications, from facial recognition and security systems to advanced industrial automation processes. By utilizing Axelera AI’s innovative software solutions, such as the Voyager SDK, the Metis AIPU M.2 Accelerator Module enables seamless integration and full utilization of AI models and applications. The SDK offers enhancements like compatibility with various industry tools and frameworks, thus ensuring a smooth deployment process and quick time-to-market for advanced AI systems. This product represents Axelera AI’s commitment to revolutionizing edge computing with streamlined, effective AI acceleration solutions.
A2e's H.264 FPGA Encoder and CODEC Micro Footprint Cores provide a customizable solution targeting FPGAs. Known for its small size and rapid execution, the core supports 1080p60 H.264 Baseline with a singular core, making it one of the industry's swiftest and most efficient FPGA offerings. The core is compliant with ITAR, offering options to adjust pixel depths and resolutions according to specific needs. Its high-performance capability includes offering a latency of just 1ms at 1080p30, which is crucial for applications demanding rapid processing speeds. This licensable core is ideal for developers needing robust video compression capabilities in a compact form factor. The H.264 cores can be finely tuned to meet unique project specifications, enabling developers to implement varied pixel resolutions and depths, further enhancing the core's versatility for different application requirements. With a licensable evaluation option available, prospective users can explore the core’s functionalities before opting for full integration. This flexibility makes it suitable for projects demanding customizable compression solutions without the burden of full-scale initial commitment. Furthermore, A2e provides comprehensive integration and custom design services, allowing these cores to be seamlessly absorbed into existing systems or developed into new solutions. This support ensures minimized risk and accelerated project timelines, allowing developers to focus on innovation and efficiency in their video-centric applications.
The Universal DSP Library is designed to simplify digital signal processing tasks within FPGA systems. This extensive collection of DSP algorithms and functions allows for efficient development and deployment of signal processing applications. Users can leverage this library to handle complex computations swiftly, making it perfect for industries requiring real-time processing power. It streamlines development by offering pre-tested routines that developers can integrate into their systems without extensive customization.
ActLight's Dynamic PhotoDetector (DPD) for wearables is specifically engineered to revolutionize light sensing in compact devices. This innovative sensor operates on low voltage, significantly extending the battery life of wearable devices such as fitness trackers and smartwatches. The DPD's high sensitivity allows it to detect even minimal light changes without the need for bulky amplifiers, enabling a sleek design and energy-efficient operation. This sensor supports advanced health monitoring features, providing precise heart rate and activity measurements, thereby empowering users with real-time wellness insights. Its compact size makes it ideal for integration into space-constrained wearable devices 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.
Spec-TRACER is a requirements lifecycle management tool crafted for FPGA and ASIC designs. It simplifies the capture, management, analysis, traceability, and reporting of requirements, supporting robust lifecycle management from inception to completion. This tool ensures that design specifications are met, facilitating compliance and reducing the potential for development errors.
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