All IPs > Interface Controller & PHY > USB
The USB Interface Controller & PHY semiconductor IP category encompasses a variety of products and solutions essential for managing USB data transfer protocols and physical layer connectivity. Universal Serial Bus (USB) technology has become a fundamental element in electronic devices, providing a ubiquitous interface for data transfer, charging, and peripheral connectivity. This category includes specialized semiconductor IPs designed to implement USB standards such as USB 2.0, USB 3.0, and USB 3.1, enabling high-speed communication and seamless integration in various applications.
A USB Interface Controller plays a critical role in the communication process by handling the data exchange between the USB host and peripheral devices. It interprets USB signals, manages data flow control, and ensures compliance with USB protocols. Meanwhile, the PHY, or Physical Layer, acts as the bridge between the USB digital signals and the physical transmission medium. Together, the Interface Controller and PHY ensure the proper functioning of USB ports in devices ranging from smartphones and laptops to industrial machines and automotive systems.
Incorporating USB Interface Controller & PHY semiconductor IPs into designs provides manufacturers with flexibility and scalability. These IPs can be customized to meet the specific data rate, power consumption, and physical space requirements of diverse applications. This adaptability allows for efficient and cost-effective integration of USB functionality, reducing time-to-market and maximizing performance.
Products in this category are crucial for any device requiring USB connectivity. They are used in a vast array of applications, including consumer electronics, computer peripherals, automotive infotainment systems, and industrial control systems. Designing with these semiconductor IPs ensures compliance with global USB standards, enabling compatibility across devices and enhancing user experience by facilitating easy data transfer and device interoperability.
The KL730 is a third-generation AI chip that integrates advanced reconfigurable NPU architecture, delivering up to 8 TOPS of computing power. This cutting-edge technology enhances computational efficiency across a range of applications, including CNN and transformer networks, while minimizing DDR bandwidth requirements. The KL730 also boasts enhanced video processing capabilities, supporting 4K 60FPS outputs. With expertise spanning over a decade in ISP technology, the KL730 stands out with its noise reduction, wide dynamic range, fisheye correction, and low-light imaging performance. It caters to markets like intelligent security, autonomous vehicles, video conferencing, and industrial camera systems, among others.
The 1G to 224G SerDes technology by Alphawave Semi is a robust connectivity solution designed for high-speed data transmission. It integrates seamlessly into various applications including Ethernet, PCI Express, and die-to-die connections, enabling fast and reliable data transfer. This technology supports a broad spectrum of signaling schemes such as PAM2, PAM4, PAM6, and PAM8, ensuring compatibility with over 30 different industry protocols and standards. As the demand for high-performance data centers and networking solutions increases, the 1G to 224G SerDes proves indispensable, delivering the speed and bandwidth required by modern systems. Alphawave Semi's SerDes supports data rates from as low as 1Gbps to a staggering 224Gbps, making it highly versatile for a multitude of configurations. Its application extends beyond traditional data centers, also covering areas like AI and 5G communication networks where latency and data throughput are critical. This flexibility is further enhanced by its low power consumption, which is essential for efficient data processing in today's power-conscious technological environment. Incorporating the 1G to 224G SerDes into your chip designs guarantees reduced latency and increased data throughput, which is vital for applications that demand real-time data processing. By ensuring high data integrity and reducing signal degradation, this SerDes solution aids in maintaining steadfast connectivity, even under heavy data loads, promising a future-ready component in the evolving tech landscape.
The GL3590-S is a USB 3.2 Gen 2 hub controller that features integrated support for USB Type-C connections and multiple upstream ports. This product is engineered to enhance connectivity by providing efficient data transfer speeds up to 10 Gbps, facilitating rapid communication across various peripherals. It supports advanced power management capabilities, allowing devices to negotiate power delivery efficiently. Additionally, the GL3590-S incorporates robust security protocols to ensure data integrity during transmission. This controller is ideal for applications needing versatile USB connectivity with high-speed data transfers. It can be utilized in computing setups, where the demand for reliable and fast data exchanges is paramount. Moreover, its compatibility with USB Type-C enables seamless integration with a wide array of modern devices, enhancing its applicability in contemporary technological environments. In terms of technical advancements, the GL3590-S simplifies the integration process by supporting multiple upstream ports, making it easier for developers to utilize its capabilities in complex designs. Furthermore, the energy-efficient design reduces power consumption, making it a sustainable choice for manufacturers looking to include environmentally friendly components in their products. Thanks to its advanced features, the GL3590-S is an attractive option for any stakeholder in need of high-speed data management and efficient power usage. Its adaptability and performance make it a cornerstone in the development of innovative USB solutions.
The Universal Chiplet Interconnect Express (UCIe) by EXTOLL is a cutting-edge interconnect framework designed to revolutionize chip-to-chip communication within heterogeneous systems. This product exemplifies the shift towards chiplet architecture, a modular approach enabling enhanced performance and flexibility in semiconductor designs. UCIe offers an open and customizable platform that supports a wide range of technology nodes, particularly excelling in the 12nm to 28nm range. This adaptability ensures it can meet the diverse needs of modern semiconductor applications, providing a bridge that enhances integration across various chiplet components. Such capabilities make it ideal for applications requiring high bandwidth and low latency. The design of UCIe focuses on minimizing power consumption while maximizing data throughput, aligning with EXTOLL’s objective of delivering eco-efficient technology. It empowers manufacturers to forge robust connections between chiplets, allowing optimized performance and scalability in data-intensive environments like data centers and advanced consumer electronics.
Silicon Creations' SerDes Interfaces are crafted to handle high-speed data transmission challenges over varied processes, ranging from 12nm to 180nm. Addressing multiple protocols such as CPRI, PCIe, and SATA, these interfaces demonstrate flexibility by supporting data transmission speeds from 100 Mbps to beyond 32 Gbps. The architecture incorporates a host of advanced features including adaptive equalization techniques and programmable de-serialization widths, making it stand out in terms of performance and signal integrity even under challenging conditions. With ultra-low latency PMAs, they sustain excellent operational speed and efficiency, imperative for sophisticated communication applications. Moreover, Silicon Creations partners with leading entities to provide comprehensive solutions, including complete PCIe PHY integrations. This synergy ensures that SerDes Interfaces are fully optimized for operational excellence, delivering stable and reliable communication signals. With an emphasis on low power and minimized area requirements, they cater to burgeoning industry needs for power-efficient and space-conservative designs.
xcore.ai is XMOS Semiconductor's innovative programmable chip designed for advanced AI, DSP, and I/O applications. It enables developers to create highly efficient systems without the complexity typical of multi-chip solutions, offering capabilities that integrate AI inference, DSP tasks, and I/O control seamlessly. The chip architecture boasts parallel processing and ultra-low latency, making it ideal for demanding tasks in robotics, automotive systems, and smart consumer devices. It provides the toolset to deploy complex algorithms efficiently while maintaining robust real-time performance. With xcore.ai, system designers can leverage a flexible platform that supports the rapid prototyping and development of intelligent applications. Its performance allows for seamless execution of tasks such as voice recognition and processing, industrial automation, and sensor data integration. The adaptable nature of xcore.ai makes it a versatile solution for managing various inputs and outputs simultaneously, while maintaining high levels of precision and reliability. In automotive and industrial applications, xcore.ai supports real-time control and monitoring tasks, contributing to smarter, safer systems. For consumer electronics, it enhances user experience by enabling responsive voice interfaces and high-definition audio processing. The chip's architecture reduces the need for exterior components, thus simplifying design and reducing overall costs, paving the way for innovative solutions where technology meets efficiency and scalability.
The KL630 is a pioneering AI chipset featuring Kneron's latest NPU architecture, which is the first to support Int4 precision and transformer networks. This cutting-edge design ensures exceptional compute efficiency with minimal energy consumption, making it ideal for a wide array of applications. With an ARM Cortex A5 CPU at its core, the KL630 excels in computation while maintaining low energy expenditure. This SOC is designed to handle both high and low light conditions optimally and is perfectly suited for use in diverse edge AI devices, from security systems to expansive city and automotive networks.
The SERDES technology by Analog Bits represents a pinnacle in high-speed data serialization and deserialization, fundamental for maximizing data throughput in sophisticated electronics. This IP is engineered to accommodate extensive data volumes across interconnected systems, elevating data transfer rates significantly. It supports various communication standards, providing seamless integration across multiple vehicular and networking applications. Analog Bits' SERDES stands out due to its robustness in maintaining signal clarity and reducing latency during data transmission, even across significant distances. It is a critical component in applications that demand reliable, high-speed data movement, such as data centers, telecommunications, and automotive systems. Its design flexibility allows it to be a match for varied serialization protocols, an essential aspect of modern digital communications. The SERDES technology also enhances thermal performance and power efficiency, reducing the overall energy footprint of systems engaged in continual high-speed operations. As such, it becomes a cornerstone for innovations looking to up the ante on data transmission capabilities while maintaining environmentally friendly operations.
KPIT Technologies' Connected Vehicle Solutions provide a comprehensive suite of capabilities designed to enhance the connectivity, security, and functionality of modern vehicles. These solutions encompass a wide range of connectivity features, including vehicle-to-everything (V2X) communication systems, in-vehicle network integration, and telematics platforms. By leveraging cloud technology and edge analytics, KPIT ensures seamless data exchange and processing, which is essential for real-time decision-making and enhanced vehicle utility. The solutions are crafted to support next-generation vehicles' multifaceted digital interfaces, from infotainment systems to advanced driver communication platforms. KPIT's connected vehicle offerings are engineered to meet stringent automotive-grade requirements, guaranteeing high reliability, security, and interoperability. This positions KPIT as a pivotal player in the evolution of connected vehicle ecosystems, facilitating the industry’s move towards smarter and more efficient vehicular technologies. Through strategic partnerships with automakers, KPIT continually refines its connected vehicle platforms to address the critical privacy and security challenges posed by increasing vehicle connectivity. With a focus on end-to-end connectivity, KPIT empowers the automotive sector to harness the full potential of networked vehicles, ensuring drivers and passengers enjoy a more connected journey.
This product offers an extensive range of high-speed interface IP solutions developed using an array of process technologies from 28nm to 90nm nodes. It supports various technology needs and provides tailored services for IP customization and transfer, enhancing adaptability for state-of-the-art processes or more mature ones ranging from 90-180nm. These encompass technologies like USB, DDR, and MIPI, ensuring robust solutions for advanced data communication requirements.
eSi-Connect offers an extensive suite of AMBA-compliant peripheral IPs designed to streamline SoC integration. This suite encompasses versatile memory controllers, standard off-chip interface support, and essential control functions. Its configurability and compatibility with low-level software drivers make it suitable for real-time deployment in complex system architectures, promoting reliable connectivity across various applications.
Silicon Creations crafts highly reliable LVDS interfaces designed to meet diverse application needs, going from bi-directional I/Os to specialized uni-directional configurations. Spanning process compatibilities from 90nm CMOS to advanced 7nm FinFET, these interfaces are a cornerstone for high-speed data communication systems, thriving particularly in video data transmission and chip-to-chip communications. Supporting robust data rates over multiple channels, the LVDS Interfaces guarantee flexible programmability and protocol compatibility with standards such as FPD-Link and Camera-Link. They capitalize on proven PLL and CDR architectures for superior signal integrity and error-free data transfers. Operating efficiently in various technology nodes, they remain highly effective across collaborative chipset environments. The interfaces are fortified with adaptable features like dynamic phase alignment to stabilize data sequences and on-die termination options for superior signal integrity. Their proven record places them as a critical enabler in applications where consistent high-speed data transfer is paramount, demonstrating Silicon Creations’ prowess in delivering industry-leading communication solutions.
Digital Blocks' AXI4 DMA Controller is a robust solution designed for transferring data efficiently between systems over the AXI4 interface. Supporting up to 16 independent channels, it excels in high data throughput both for small and large data sets. Its capabilities are extended with advanced DMA features, allowing custom configurations to minimize silicon usage and licensing costs. Precise control over DMA operations is facilitated through its customizable settings, supporting a flexible range of interface buses and addressing modes.
The EW6181 GPS and GNSS solution from EtherWhere is tailored for applications requiring high integration levels, offering licenses in RTL, gate-level netlist, or GDS formats. This highly adaptable IP can be ported across various technology nodes, provided an RF frontend is available. Designed to be one of the smallest and most power-efficient cores, it optimizes battery life significantly in devices such as tags and modules, making it ideal for challenging environments. The IP's strengths lie in its digital processing capabilities, utilizing cutting-edge DSP algorithms for precision and reliability in location tracking. With a digital footprint approximately 0.05mm² on a 5nm node, the EW6181 boasts a remarkably compact size, aiding in minimal component use and a streamlined Bill of Materials (BoM). Its stable firmware ensures accurate and reliable position fixations. In terms of implementation, this IP offers a combination of compact design and extreme power efficiency, providing substantial advantages in battery-operated environments. The EW6181 delivers critical support and upgrades, facilitating seamless high-reliability tracking for an array of applications demanding precise navigation.
The C100 IoT chip by Chipchain is engineered to meet the diverse needs of modern IoT applications. It integrates a powerful 32-bit RISC-V CPU capable of reaching speeds up to 1.5GHz, with built-in RAM and ROM to facilitate efficient data processing and computational capabilities. This sophisticated single-chip solution is known for its low power consumption, making it ideal for a variety of IoT devices. This chip supports seamless connectivity through embedded Wi-Fi and multiple transmission interfaces, allowing it to serve broad application areas with minimal configuration complexity. Additionally, it boasts integrated ADCs, LDOs, and temperature sensors, offering a comprehensive toolkit for developers looking to innovate across fields like security, healthcare, and smart home technology. Notably, the C100 simplifies the development process with its high level of integration and performance. It stands as a testament to Chipchain's commitment to providing reliable, high-performance solutions for the rapidly evolving IoT landscape. The chip's design focuses on ensuring stability and security, which are critical in IoT installations.
The Multi-Protocol SerDes provided by Silicon Creations serves as an essential component for high-speed data interfaces across multiple industry protocols. This SerDes portfolio accommodates a vast array of protocols such as PCIe, JESD204, XAUI, and many more, facilitating broad compatibility with industry standards. Operating across 12nm to 180nm processes, these interfaces support data rates from 100 Mbps to an impressive 32.75 Gbps. Incorporating advanced features like programmable de-serialization widths and adaptive equalization, the Multi-Protocol SerDes ensures optimal signal integrity and performance even in demanding environments. The design includes jitter cleaner functions and employs low-latency optimized PMAs, delivering high precision and speed across various operational scenarios. This comprehensive adaptability ensures seamless integration into a wide range of applications from communications to high-performance computing. Supported by robust architectures, the SerDes enables enhanced efficiency and reliability, featuring low power consumption and reduced area overheads. With a commitment to customer satisfaction, Silicon Creations offers complete solutions through partnerships with leading controller vendors, cementing its products as high-value choices for modern electronic systems.
The USB PHY designed by Silicon Library Inc. provides a robust physical interface for USB connectivity, supporting a wide range of devices with efficient data transmission. Its design ensures compatibility with the USB 2.0 standard, allowing for seamless integration into consumer electronics, computing devices, and more. This IP emphasizes speed and reliability, crucial for applications that require high data transfer rates. USB PHY from Silicon Library Inc. integrates easily with existing device architectures, minimizing the need for additional hardware when embedding it into new products. Its design allows for energy-efficient operation, reducing power consumption without compromising performance, which is increasingly important in today's eco-conscious market. In addition, the USB PHY offers excellent compatibility with various digital platforms, providing designers with flexibility and reliability in creating new and innovative products. When considering IP for high-speed data transfer, Silicon Library Inc.'s USB PHY stands as a dependable choice.
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 10G TCP Offload Engine is a sophisticated high-performance solution designed to offload TCP processing from the host CPU. Utilizing ultra-low latency technology, this IP incorporates a TCP/UDP stack integrated into high-speed FPGA hardware, ideal for networking environments demanding efficient processing and high throughput. Designed to handle up to 16,000 concurrent sessions, it manages TCP stacks within an impressive 77 nanoseconds, offering unmatched performance without straining the CPU. The engine supports 10 Gigabit Ethernet connectivity, ensuring seamless network integration and optimal data flow. With features like full TCP stack implementation and zero host CPU processing requirement, the offload engine is perfect for real-time cloud computing and AI networking applications, significantly reducing power consumption and enhancing bandwidth utilization. Equipped with a range of additional functions, such as large send offload and checksum offload, it optimizes network operations by eliminating bottlenecks typically associated with software-based solutions. It's an excellent choice for data centers and enterprise environments struggling with CPU bottlenecks.
The DisplayPort 1.4 core provides a comprehensive solution for DisplayPort requirements, implementing both source and sink capabilities. It supports link rates ranging from 1.62 Gbps to 8.1 Gbps, fitting standard DisplayPort and eDP scenarios efficiently. Users can take advantage of its support for multiple lanes, specifically 1, 2, and 4 lanes configurations, enabling versatile video interface options such as Native and AXI stream interfaces. This facilitates a strong multimedia performance, catering to both Single Stream Transport (SST) and Multi Stream Transport (MST) modes. The video processing toolkit accompanying this IP aims at aiding users in diverse video operations. These tools include a timing generator, a versatile test pattern generator, and crucial video clock recovery mechanisms. To simplify the integration into various systems, the IP is supported across a broad range of FPGA devices, including AMD and Intel lines, providing users with choice and flexibility for their specific application needs. Notably, it supports diverse video formats and color spaces, such as RGB, YCbCr 4:4:4, 4:2:2, and 4:2:0 at pixel depths of 8 and 10 bits. Secondary data packets handling audio and metadata enhance its multimedia capabilities. Furthermore, Parretto offers the source code on GitHub for ease of custom development, ensuring developers have the tools they need to adapt the IP to their unique systems.
The ISPido on VIP Board is tailored specifically for Lattice Semiconductor's Video Interface Platform (VIP) and is designed to achieve clear and balanced real-time imaging. This ISPido variant supports automatic configuration options to provide optimal settings the moment the board is powered on. Alternatively, users can customize their settings through a menu interface, allowing for adjustments such as gamma table selection and convolutional filtering. Equipped with the CrossLink VIP Input Bridge, the board features dual Sony IMX 214 image sensors and an ECP5 VIP Processor. The ECP5-85 FPGA ensures reliable processing power while potential outputs include HDMI in YCrCb 4:2:2 format. This flexibility ensures users have a complete, integrated solution that supports runtime calibration and serial port menu configuration, making it an extremely practical choice for real-time applications. The ISPido on VIP Board is built to facilitate seamless integration and high interoperability, making it a suitable choice for those engaged in designing complex imaging solutions. Its adaptability and high-definition support make it particularly advantageous for users seeking to implement sophisticated vision technologies in a variety of industrial applications.
The AST 500 and AST GNSS-RF represent cutting-edge semiconductor solutions in the realm of GNSS technology. These chips are meticulously designed to enhance the performance of Global Navigation Satellite Systems, allowing them to function with heightened accuracy and reliability. With advanced RF front-end technologies, these ICs efficiently handle GNSS signals across multiple satellite systems, ensuring robust connectivity and precise location tracking. Leveraging state-of-the-art process technology, AST 500 and AST GNSS-RF chips are fabricated in leading semiconductor foundries, providing superior signal integrity and low noise performance. These ICs are engineered to perform optimally under various environmental conditions, making them suitable for both commercial and defence applications. Their compatibility with systems such as GPS, GLONASS, and Galileo ensures versatility and global applicability. By integrating these chips, devices can achieve improved positioning accuracy and faster time-to-first-fix, making them an ideal choice for navigation-centric products across multiple industries, including automotive and aerospace.
D2D® Technology, developed by ParkerVision, is a revolutionary approach to RF conversion that transforms how wireless communication operates. This technology eliminates traditional intermediary stages, directly converting RF signals to digital data. The result is a more streamlined and efficient communication process that reduces complexity and power consumption. By bypassing conventional analog-to-digital conversion steps, D2D® achieves higher data accuracy and reliability. Its direct conversion approach not only enhances data processing speeds but also minimizes energy usage, making it an ideal solution for modern wireless devices that demand both performance and efficiency. ParkerVision's D2D® technology continues to influence a broad spectrum of wireless applications. From improving the connectivity in smartphones and wearable devices to optimizing signal processing in telecommunication networks, D2D® is a cornerstone of ParkerVision's technological offerings, illustrating their commitment to advancing communication technology through innovative RF solutions.
The THOR platform is a versatile tool for developing application-specific NFC sensor and data logging solutions. It incorporates silicon-proven IP blocks, creating a comprehensive ASIC platform suitable for rigorous monitoring and continuous data logging applications across various industries. THOR is designed for accelerated development timelines, leveraging low power and high-security features. Equipped with multi-protocol NFC capabilities and integrated temperature sensors, the THOR platform supports a wide range of external sensors, enhancing its adaptability to diverse monitoring needs. Its energy-efficient design allows operations via energy harvesting or battery power, ensuring sustainability in its applications. This platform finds particular utility in sectors demanding precise environmental monitoring and data management, such as logistics, pharmaceuticals, and industrial automation. The platform's capacity for AES/DES encrypted data logging ensures secure data handling, making it a reliable choice for sectors with stringent data protection needs.
YouSerdes offers a versatile, high-speed serial interface solution supporting a broad range of data rates from 2.5Gbps to 32Gbps. The multi-rate SERDES solution is innovatively designed to incorporate multiple SERDES channels, delivering superior performance, minimized area, and reduced power consumption compared to other competitive products. This solution is ideal for high-speed data transfer applications, delivering reliable performance across various industry standards. Its optimized architecture ensures that designers can achieve maximum throughput, catering to the demanding needs of telecommunication, data center, and consumer electronic applications. Moreover, YouSerdes is crafted to provide a seamless integration experience, backed by comprehensive compatibility with different IC platforms. This adaptability facilitates a smoother system design process, allowing developers to integrate high-speed connectivity into their products efficiently.
Designed to ensure reliable communication in automotive networks, the TSN Switch for Automotive Ethernet orchestrates robust timing and synchronization across multiple network components. It leverages Time-Sensitive Networking (TSN) standards to guarantee real-time performance and low latency, which are critical in vehicular communication systems. This switch is pivotal for managing complex data flows in automobiles, supporting advancements in autonomous vehicle technologies by enabling the seamless integration of various data streams. The switch is engineered to align with the increasing demands for high-speed connectivity in modern automobiles. With a focus on enhancing safety and operational efficiency, it allows for precise control over packet transmission, minimizing the risk of data collisions and ensuring that high-priority information is accurately transmitted through the network. This focus on precise data management makes the TSN Switch vital for deploying advanced driver-assistance systems (ADAS) and infotainment solutions. By incorporating TSN protocols, this switch enhances the reliability of vehicle networks, thereby facilitating a safer and more interconnected driving experience. It supports the integration and coordination of sensors, processors, and communication networks within the vehicle, making it an indispensable component in the development of next-generation smart transportation solutions.
The Mixed-Signal CODEC offered by Archband Labs integrates advanced analog and digital audio processing to deliver superior sound quality. Designed for a variety of applications such as portable audio devices, automotive systems, and entertainment systems, this CODEC provides efficiency and high performance. With cutting-edge technologies, it handles complex signal conversions with minimal power consumption. This CODEC supports numerous interface standards, making it a versatile component in numerous audio architectures. It's engineered to offer precise sound reproduction and maintains audio fidelity across all use cases. The integrated components within the CODEC streamline design processes and reduce the complexity of audio system implementations. Furthermore, the Mixed-Signal CODEC incorporates features that support high-resolution audio, ensuring compatibility with high-definition sound systems. It's an ideal choice for engineers looking for a reliable and comprehensive audio processing solution.
The RISCV SoC - Quad Core Server Class is engineered for high-performance applications requiring robust processing capabilities. Designed around the RISC-V architecture, this SoC integrates four cores to offer substantial computing power. It's ideal for server-class operations, providing both performance efficiency and scalability. The RISCV architecture allows for open-source compatibility and flexible customization, making it an excellent choice for users who demand both power and adaptability. This SoC is engineered to handle demanding workloads efficiently, making it suitable for various server applications.
The Polar ID is an innovative biometric security system that elevates facial recognition technology through its use of sophisticated meta-optics. By capturing and analyzing the unique polarization signature of a face, Polar ID delivers a new standard in security. This system can detect spoofing attempts that incorporate 3D masks or other similar deceptive tactics, ensuring high security through accurate human authentication. Polar ID minimizes the complexity typically associated with face recognition systems by integrating essential optical functions into a single optic. Its compact design results in cost savings and reduces the space required for optical modules in devices like smartphones. Operating in near-infrared light, Polar ID can consistently deliver secure face unlock capabilities even under challenging lighting conditions, dramatically outperforming traditional systems that may fail in bright or dark environments. The platform does not rely on time-of-flight sensors or structured light projectors, which are costly and complex. Instead, Polar ID leverages the simplicity and efficiency of its single-shot identification process to deliver immediate authentication results. This makes it a potent tool for securing mobile transactions and providing safer user experiences in consumer technology.
UTTUNGA is a high-performance PCIe accelerator card, purpose-built to amplify HPC and AI tasks through its integration with the TUNGA SoC. It effectively harnesses the power of multi-core RISC-V technology combined with Posit arithmetic, offering significant enhancements in computation efficiency and memory optimization. Designed to be compatible with a broad range of server architectures, including x86, ARM, and PowerPC, UTTUNGA elevates system capabilities, particularly in precision computing applications. The UTTUNGA card operates by implementing foundational arithmetic operations in Posit configurations, supporting multiple bit-width formats for diverse processing needs. This flexibility is further complemented by a pool of programmable FPGA gates, optimized for scenarios demanding real-time adaptability and cloud computing acceleration. These gates facilitate the acceleration of complex tasks and aid in the effortless management of non-standard data types essential for advanced AI processing and cryptographic applications. By leveraging a seamless integration process, UTTUNGA eliminates the need for data copying in host memory, thus ensuring efficient utilization of resources. It also provides support for well-known scientific libraries, enabling easy adoption for legacy systems while fostering a modern computing environment. UTTUNGA stands as a testament to the profound impact of advancing arithmetic standards like Posit, paving the way for a transformation in computational practices across industries.
Certus Semiconductor's Digital I/O solutions are engineered to meet various GPIO/ODIO standards. These versatile libraries offer support for standards such as I2C, I3C, SPI, JEDEC CMOS, and more. Designed to withstand extreme conditions, these I/Os incorporate features like ultra-low power consumption, multiple drive strengths, and high levels of ESD protection. These attributes make them suitable for applications requiring resilient performance under harsh conditions. Certus Semiconductor’s offerings also include a variety of advanced features like RGMII-compliant IO cells, offering flexibility for different project needs.
The ORC3990 is a groundbreaking LEO Satellite Endpoint SoC engineered for use in the Totum DMSS Network, offering exceptional sensor-to-satellite connectivity. This SoC operates within the ISM band and features advanced RF transceiver technology, power amplifiers, ARM CPUs, and embedded memory. It boasts a superior link budget that facilitates indoor signal coverage. Designed with advanced power management capabilities, the ORC3990 supports over a decade of battery life, significantly reducing maintenance requirements. Its industrial temperature range of -40 to +85 degrees Celsius ensures stable performance in various environmental conditions. The compact design of the ORC3990 fits seamlessly into any orientation, further enhancing its ease of use. The SoC's innovative architecture eliminates the need for additional GNSS chips, achieving precise location fixes within 20 meters. This capability, combined with its global LEO satellite coverage, makes the ORC3990 a highly attractive solution for asset tracking and other IoT applications where traditional terrestrial networks fall short.
The DisplayPort Transmitter from Trilinear Technologies is a sophisticated solution designed for high-performance digital video streaming applications. It is compliant with the latest VESA DisplayPort standards, ensuring compatibility and seamless integration with a wide range of display devices. This transmitter core supports high-resolution video outputs and is equipped with advanced features like adaptive sync and panel refresh options, making it ideal for consumer electronics, automotive displays, and professional AV systems. This IP core provides reliable performance with minimal power consumption, addressing the needs of modern digital ecosystems where energy efficiency is paramount. It includes customizable settings for audio and video synchronization, ensuring optimal output quality and user experience across different devices and configurations. By reducing load on the system processor, the DisplayPort Transmitter guarantees a seamless streaming experience even in high-demand environments. In terms of integration, Trilinear's DisplayPort Transmitter is supported with comprehensive software stacks allowing for easy customization and deployment. This ensures rapid product development cycles and aids developers in managing complex video data streams effectively. The transmitter is particularly optimized for use in embedded systems and consumer devices, offering robust performance capabilities that stand up to rigorous real-time application demands. With a focus on compliance and testing, the DisplayPort Transmitter is pre-tested and proven to work seamlessly with a variety of hardware platforms including FPGA and ASIC technologies. This robustness in design and functionality underlines Trilinear's reputation for delivering reliable, high-quality semiconductor IP solutions that cater to diverse industrial applications.
Dolphin Technology's I/O products encompass a vast selection of interface IPs known for their high-performance capabilities. These I/O components are designed to complement various process technologies, ensuring reliability and efficiency in applications ranging from core limited designs to flip-chip utilizations. The product range includes standard I/O, high-speed I/O, and specialty interface I/O that can be customized for specific design requirements. The portfolio comprises various specialized I/Os like High Voltage Tolerant GPIO, LVDS Tx/Rx, and several DDR and SD IO variations, each built to meet demanding design specifications. Dolphin Technology’s offerings are fully equipped with compilers that allow for customization, ensuring each I/O library can be tailored to address process and chip-specific needs, thereby delivering optimal performance and versatility. These I/O solutions are available in multiple forms, including inline styles and flip-chip arrangements, which assist in the efficient use of space and signal integrity in complex semiconductor designs. The capability to integrate with different technology levels further broadens the applicability of these products, making them suitable for a diverse set of industry requirements.
The IP Platform for Low-Power IoT is engineered to accelerate product development with highly integrated, customizable solutions specifically tailored for IoT applications. It consists of pre-validated IP platforms that serve as comprehensive building blocks for IoT devices, featuring ARM and RISC-V processor compatibility. Built for ultra-low power consumption, these platforms support smart and secure application needs, offering a scalable approach for different market requirements. Whether it's for beacons, active RFID, or connected audio devices, these platforms are ideal for various IoT applications demanding rapid development and integration. The solutions provided within this platform are not only power-efficient but also ready for AI implementation, enabling smart, AI-ready IoT systems. With FPGA evaluation mechanisms and comprehensive integration support, the IP Platform for Low-Power IoT ensures a seamless transition from concept to market-ready product.
The MIPI solutions offered are comprehensive design and verification intellectual properties, continually updated to align with the latest specifications while maintaining backward compatibility. They cover an extensive range of standards such as CSI-2, DSI, UNIPRO, I3C, RFFE, Soundwire, BIF, and SPMI. These solutions are critical for high-speed interfaces required in mobile and automotive devices, ensuring robust performance across various applications.\n\nMIPI CSI-2 solutions, for example, support transmitter functionalities for Combo C/DPHY and receiver capabilities, offering complete solutions from version 1.0 through to 3.0. Each specification version builds on the last, ensuring that users can maintain compatibility with older systems while accessing cutting-edge features. DSI and DSI-2 offer similar comprehensive support, providing critical tools for display interfacing.\n\nOn top of this, auxiliary standards like I3C, RFFE, and Soundwire reinforce PRSsemicon's capacity to equip the latest devices with advanced communication capabilities. Their design includes master and slave functionality, ensuring comprehensive inter-device compatibility and communication efficiency. The continuous advancements in these IPs make them integral for any semiconductor-driven market, especially in technologically dynamic fields like automotive and consumer electronics.
Trilinear Technologies has developed a cutting-edge DisplayPort Receiver that enhances digital connectivity, offering robust video reception capabilities necessary for today's high-definition video systems. Compliant with VESA standards, the receiver supports the latest DisplayPort specifications, effortlessly handling high-bandwidth video data necessary for applications such as ultra-high-definition televisions, professional video wall setups, and complex automotive display systems. The DisplayPort Receiver is designed with advanced features that facilitate seamless video data acquisition and processing, including multi-stream transport capabilities for handling multiple video streams concurrently. This is particularly useful in professional display settings where multiple input sources are needed. The core also incorporates adaptive sync features, which help reduce screen tearing and ensure smooth video playback, enhancing user experience significantly. An important facet of the DisplayPort Receiver is its low latency and high-efficiency operations, crucial for systems requiring real-time data processing. Trilinear's receiver core ensures that video data is processed with minimal delay, maintaining the integrity and fidelity of the original visual content. This makes it a preferred choice for high-performance applications in sectors like gaming, broadcasting, and high-definition video conferencing. To facilitate integration and ease of use, the DisplayPort Receiver is supported by a comprehensive suite of development tools and software packages. This makes the deployment process straightforward, allowing developers to integrate the receiver into both FPGA and ASIC environments with minimal adjustments. Its scalability and flexibility mean it can meet the demands of a wide range of applications, solidifying Trilinear Technologies' position as a leader in the field of semiconductor IP solutions.
eSi-Crypto provides advanced encryption and authentication capabilities crucial for safeguarding modern electronic systems. The IP includes features such as True Random Number Generators (TRNGs), cryptographic processing, and Public Key Acceleration. By optimizing resource usage while ensuring high throughput, this technology aids in protecting device data against cyber threats.
Silicon Creations' Bi-Directional LVDS Interfaces are engineered to offer high-speed data transmission with exceptional signal integrity. These interfaces are designed to complement FPGA-to-ASIC conversions and include broad compatibility with industry standards like FPD-Link and Camera-Link. Operating efficiently over processes from 90nm to 12nm, the LVDS interfaces achieve data rates exceeding 3Gbps using advanced phase alignment techniques. A standout feature of this IP is its capability to handle independent LVCMOS input and output functions while maintaining high compatibility with TIA/EIA644A standards. The bi-directional nature allows for seamless data flow in chip-to-chip communications, essential for modern integrated circuits requiring high data throughput. The design is further refined with trimmable on-die termination, enhancing signal integrity during operations. The LVDS interfaces are versatile and highly programmable, meeting bespoke application needs with ease. The interfaces ensure robust error rate performance across varying phase selections, making them ideal for video data applications, controllers, and other high-speed data interfaces where reliability and performance are paramount.
This Secondary/Slave PHY is intended for the memory side, offering high-speed, low-power protocols for data transfer. Following the JEDEC standards for LPDDR4/4X/5, it promotes efficient communication in various devices, especially AI and memory-intensive solutions. Although designed for TSMC's 7nm technology, its flexible architecture allows adaptation across different processes and memory configurations.
ISPido is a powerful and flexible image signal processing pipeline tailored for high-resolution image processing and tuning. It supports a comprehensive pipeline of image enhancement features such as defect correction, color filter array interpolation, and various color space conversions, all configurable via the AXI4-LITE protocol. Designed to handle input depths of 8, 10, or 12 bits, ISPido excels in processing high-definition resolutions up to 7680x7680 pixels, making it highly suitable for a variety of advanced vision applications. The architecture of ISPido is built to be highly compatible with AMBA AXI4 standards, ensuring that it can be seamlessly integrated into existing systems. Each module in the pipeline is individually configurable, allowing for extensive customization to optimize performance. Features such as auto-white balance, gamma correction, and HDR chroma resampling empower developers to produce precise and visually accurate outputs in complex environments. ISPido's modular and versatile design makes it an ideal choice for deploying in heterogeneous processing environments, ranging from low-power battery-operated devices to sophisticated vision systems capable of handling resolutions higher than 8K. This adaptability makes it a prime solution for developers working across various sectors demanding high-quality image processing.
Prack is a sophisticated pet tracking device utilizing LoRaWAN technology to ensure the safety and security of pets. This device offers wide-area communication capabilities that enable pet owners to track their pets’ whereabouts over extensive regions. Prack provides long battery life and real-time location updates, making it an essential tool for pet enthusiasts who prioritize their animals' well-being and security.
The FCM1401 is a highly efficient 14GHz CMOS power amplifier tailored for applications within the Ku-band spectrum, typically ranging from 12.4GHz to 16GHz. It excels in performance by delivering significant RF output power also characterized by a gain of 22dB. This amplifier is engineered with a power added efficiency (PAE) of 47%, making it an optimal choice for long-range communication systems where energy conservation is paramount. Additionally, it operates with a supply voltage of 1.8V, which aligns with its design for lower power consumption. This product is available in a QFN package, providing a compact solution for modern RF system designs.
USB Interface IP provides a reliable and standardized method for connecting peripherals to computer systems. Supporting a range of USB versions, these solutions offer high-speed data transfer capabilities with broad device compatibility. These interfaces are integral in day-to-day computing environments, facilitating communication between computers and devices such as keyboards, mice, and storage devices. They provide efficient data transfer rates and robust connectivity features that cater to both consumer and enterprise-level applications. Designed to support evolving USB standards, these IP solutions ensure that your devices remain compatible with the latest technological developments, providing a future-proof solution for connectivity. Offering both backward and forward compatibility, these interfaces maintain seamless operation with new and legacy devices alike.
The 10G TCP Offload Engine (TOE) is engineered to provide superior network performance by offloading TCP/IP processing tasks from the CPU. Implemented on advanced FPGA platforms, it ensures ultra-low latency and exceptional throughput by handling TCP tasks directly within the hardware. This engine supports high-performance applications by streamlining network data flow, drastically cutting down CPU load, and providing efficient data packet handling with minimal delay. Its architecture allows for optimal CPU usage, enabling it to support a larger number of sessions and superior bandwidth handling. The 10G TOE is especially suited for environments where efficient data processing and low latency are vital, such as financial trading platforms, real-time analytics, and other enterprise-level applications. The integration of direct hardware processing ensures consistent high-speed performance.
The xcore-200 chip from XMOS is a pivotal component for audio processing, delivering unrivaled performance for real-time, multichannel streaming applications. Tailored for professional and high-resolution consumer audio markets, xcore-200 facilitates complex audio processing with unparalleled precision and flexibility. This chip hosts XMOS's adept capabilities in deterministic and parallel processing, crucial for achieving zero-latency outputs in applications such as voice amplification systems, high-definition audio playback, and multipoint conferencing. Its architecture supports complex I/O operations, ensuring that all audio inputs and outputs are managed efficiently without sacrificing audio quality. The xcore-200 is crafted to handle large volumes of data effortlessly while maintaining the highest levels of integrity and clarity in audio outputs. It provides superior processing power to execute intensive tasks such as audio mixing, effects processing, and real-time equalization, crucial for both consumer electronics and professional audio gear. Moreover, xcore-200 supports a flexible integration into various systems, enhancing the functionality of audio interfaces, smart soundbars, and personalized audio solutions. It also sustains the robust performance demands needed in embedded AI implementations, thereby extending its utility beyond traditional audio systems. The xcore-200 is a testament to XMOS's dedication to pushing the boundaries of what's possible in audio engineering, blending high-end audio performance with cutting-edge processing power.
The eSPI Master/Slave Controller by Digital Blocks is adept at handling multiple SPI and eSPI protocols. Compatible with existing AMBA interfaces such as AXI and AHB, this controller can switch roles between master and slave, catering to versatile communication requirements. It is structured to support efficient data exchange over the serial interface, with considerations for execution in place (XIP) functionalities extending its utility in flash memory interactions.
The MIPI D-PHY offering by SkyeChip enhances high-speed data communication between chips, supporting image sensors, display panels, and camera designs. This PHY layer is tailored to provide efficient data transfer mechanisms while maintaining low power consumption, suited for mobile and multimedia electronics where high bandwidth and energy efficiency are critical.
The Yuzhen 600 RFID Chip by T-Head Semiconductor plays a pivotal role in supply chain management and logistics by revolutionizing the way businesses track and manage their inventory. Designed to operate in high-frequency RFID systems, this chip offers superior read range capabilities, making it a preferred choice for extensive applications in retail and asset management operations. Its architecture benefits from T-Head's advanced signal processing capabilities, enabling it to handle complex data exchanges seamlessly. This facilitates smoother interactions between RFID tags and readers, thereby optimizing inventory management and reducing time lags in data retrieval processes. The versatility of the Yuzhen 600 allows it to be implemented across diverse environments, from warehouse storage to retail store checkouts. Furthermore, the Yuzhen 600 supports a range of protocols that ensure compatibility with existing RFID systems worldwide, making it an essential component for scalable global logistics solutions. This chip enhances operational efficiency by providing real-time data access, thus aligning with T-Head's commitment to innovative solutions that bolster digital transformation efforts across different sectors.
The Universal High-Speed SERDES core caters to applications demanding rapid data exchange across a range of standards, including RapidIO, Fibre Channel, and XAUI. This core is remarkable for its flexibility, accommodating data rates from 1Gbps to 12.5Gbps with variable data width options like 16bit, 20bit, 32bit, and 40bit. Designed with a pre-emphasis linear equalizer and an adaptive receiver equalizer, this SERDES solution ensures optimal signal integrity across various transmission distances and conditions, enhancing the robustness of the data link. It is also capable of operating without any external components, streamlining the design process and minimizing associated costs. Additionally, the core supports multiple packaging models and channel configurations, providing a highly adaptable platform for diverse applications. Whether for high-speed backplanes or chip-to-chip communications, this SERDES core delivers high performance and reliability, supported by process node flexibility including support for 28nm and larger nodes, facilitating integration into a wide range of semiconductor technologies.
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