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 sophisticated AI System on Chip (SoC) that embodies Kneron's third-generation reconfigurable NPU architecture. This SoC delivers a substantial 8 TOPS of computing power, designed to efficiently handle CNN network architectures and transformer applications. Its innovative NPU architecture significantly optimizes DDR bandwidth, providing powerful video processing capabilities, including supporting 4K resolution at 60 FPS. Furthermore, the KL730 demonstrates formidable performance in noise reduction and low-light imaging, positioning it as a versatile solution for intelligent security, video conferencing, and autonomous applications.
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.
The GS-065-008-1-L is engineered for high-voltage operations, providing an ideal solution for applications that necessitate efficient energy management. Its enhancement mode design results in impressive power handling capabilities, supported by a low on-resistance which minimizes power loss even in challenging environments. This GaN transistor highlights a bottom-side cooling feature that significantly aids thermal management, ensuring stable performance over extended periods. Its build quality accommodates compact electronic designs where efficiency and reduced size are important, serving industries like renewable energy and automotive. With its capacity to handle larger loads without compromising on efficiency, the GS-065-008-1-L is crucial in power system designs requiring reliability and durability. Adopting this component into energy systems can lead to improved performance metrics across the board, substantially impacting cost reductions and energy conservation strategies.
The eSi-Connect suite introduces a fully integrated solution encompassing a wide variety of processor peripherals, each interfacing seamlessly through standard AMBA protocols like AXI, AHB, or APB, simplifying integration and development of SoC architectures. This suite features memory controllers for DDR, SPI Flash, and interfaces including USB, UART, and GPIO among others, bounded by real-time and control functionalities such as timers and watchdogs. Each peripheral component is highly configurable to adjust features like FIFO sizes for UART, I2C clock rates, SPI operating modes, providing modular flexibility to target specific application needs. Low-level driver software accompanies each peripheral for real-time deployments, enhancing the module's utility for prompt SoC integration and application fulfillment. This attribute ensures enhanced interoperability within diverse design environments fulfilling both immediate and long-term product objectives through architectural simplicity and reliable performance-level adaptability.
The CT25205 is a comprehensive digital controller designed for 10BASE-T1S Ethernet applications, providing seamless integration with Ethernet MACs and offering essential PMA, PCS, and PLCA Reconciliation Sublayer components. Crafted in Verilog 2005 HDL, this core is fully synthesizable on standard cells and FPGA systems, ensuring versatile deployment in various network architectures. The IP also supports PLCA RS, enabling advanced Ethernet features without the need for additional MAC extensions. It's developed to function with the OPEN Alliance 10BASE-T1S PMD interface, making it a robust solution for modern Ethernet-based systems.
The USB PHY offering from this company facilitates efficient data transfer by supporting USB 2.0 protocols. Known for its versatility and reliability, this interface IP provides seamless integration into various digital platforms, ensuring high performance in data communication tasks. It's engineered to support a wide range of applications, reinforcing USB's significant role in both consumer electronics and industrial applications. The design of the USB PHY is optimized for low power consumption while maintaining data integrity and speed. Its adaptability makes it suitable for integration into systems requiring robust communication links, thereby enhancing the user experience in connecting multiple devices across different environments. Moreover, the USB PHY is designed with consideration for ease of use and compatibility, making it a valuable asset for developers looking to implement high-speed data solutions in their projects. This component underlines the company's commitment to providing effective, efficient, and easy-to-implement IP solutions, cementing its reputation in the semiconductor industry.
The secondary or slave PHY for LPDDR4/4X/5 is designed to serve memory-side applications, facilitating efficient communication between diverse devices and processing units in AI and in-memory computing. Its low power, high-speed nature makes it ideal for dynamic environments adhering to current JEDEC standards.
YouSerdes provides a versatile high-speed serial data interface, supporting multiple data rates ranging from 2.5Gbps to 32Gbps. It integrates multiple SERDES channels, ensuring it delivers top-tier performance, area efficiency, and power consumption relative to its peers in the market. It's ideal for applications requiring robust, high-speed data communication.
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 KL630 chip stands out with its pioneering NPU architecture, making it the industry's first to support Int4 precision alongside transformer networks. This unique capability enables it to achieve exceptional computational efficiency and low energy consumption, suitable for a wide variety of applications. The chip incorporates an ARM Cortex A5 CPU, providing robust support for all major AI frameworks and delivering superior ISP capabilities for handling low light conditions and HDR applications, making it ideal for security, automotive, and smart city uses.
The Polar ID Biometric Security System by Metalenz revolutionizes smartphone biometric security with its advanced imaging capabilities that capture the full polarization state of light. This system detects unique facial polarization signatures, enabling high-precision face authentication that even sophisticated 3D masks cannot deceive. Unlike traditional systems requiring multiple optical modules, Polar ID achieves secure recognition with a single image, ideal for secure digital payments and more. Operating efficiently across various lighting conditions, from bright daylight to complete darkness, Polar ID ensures robust security without compromising user convenience. By leveraging meta-optic technology, it offers a compact, cost-effective alternative to structured light solutions, suitable for widespread deployment across millions of mobile devices.
The GL3590-S is a sophisticated USB 3.2 Gen 2 hub controller designed with multiple advanced features to handle high-speed data transfer and effective power management. It integrates Genesys Logic's proprietary USB 3.1 Gen 2 Super Speed PHY, and supports USB 2.0 High-Speed PHY, enabling it to efficiently manage Super Speed, Hi-Speed, and Full-Speed USB connections. This controller is backward compatible with USB 2.0 and USB 1.1 standards, ensuring versatile connectivity options for various devices. Key to its design is its ability to support multiple Transaction Translators (TTs), which allocate dedicated resources for each downstream port, optimizing full-speed data transfer when managing multiple devices. Compliant with the USB-IF battery charging specifications, the GL3590-S supports fast-charging for a wide array of mobile devices, aligning with the latest industry standards. This controller also offers integrated USB Type-C functions, which eliminates the need for external mux or CC controllers for USB-C ports. Its power management capabilities are notable, offering configurations like configurable charging ports and in-system firmware updates via SPI-flash. The GL3590-S is engineered to provide a cost-effective solution with enhanced features for modern devices, making it an ideal component for standalone USB hubs, docking stations, and other smart applications.
EW6181 is an IP solution crafted for applications demanding extensive integration levels, offering flexibility by being licensable in various forms such as RTL, gate-level netlist, or GDS. Its design methodology focuses on delivering the lowest possible power consumption within the smallest footprint. The EW6181 effectively extends battery life for tags and modules due to its efficient component count and optimized Bill of Materials (BoM). Additionally, it is backed by robust firmware ensuring highly accurate and reliable location tracking while offering support and upgrades. The IP is particularly suitable for challenging application environments where precision and power efficiency are paramount, making it adaptable across different technology nodes given the availability of its RF frontend.
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.
The ORC3990 SoC is a state-of-the-art solution designed for satellite IoT applications within Totum's DMSSâ„¢ network. This low-power sensor-to-satellite system integrates an RF transceiver, ARM CPUs, memories, and PA to offer seamless IoT connectivity via LEO satellite networks. It boasts an optimized link budget for effective indoor signal coverage, eliminating the need for additional GNSS components. This compact SoC supports industrial temperature ranges and is engineered for a 10+ year battery life using advanced power management.
xcore.ai is a powerful platform tailored for the intelligent IoT market, offering unmatched flexibility and performance. It boasts a unique multi-threaded micro-architecture that provides low-latency and deterministic performance, perfect for smart applications. Each xcore.ai contains 16 logical cores distributed across two multi-threaded processor tiles, each equipped with 512kB of SRAM and capable of both integer and floating-point operations. The integrated interprocessor communication allows high-speed data exchange, ensuring ultimate scalability across multiple xcore.ai SoCs within a unified development environment.
The NeuroVoice chip by Polyn Technology is engineered to improve voice processing capabilities for a variety of consumer electronic devices, particularly focusing on addressing challenges associated with traditional digital voice solutions. Built on the NASP platform, this AI chip is tailored to operate efficiently in noisy environments without relying on cloud-based processing, thus ensuring privacy and reducing latency. A key feature of NeuroVoice is its ultra-low power consumption, which allows continuous device operation even in power-sensitive applications like wearables and smart home devices. It includes abilities such as always-on voice activity detection, smart voice control, speaker recognition, and real-time voice extraction. This amalgamation of capabilities makes the NeuroVoice a versatile component in enhancing voice-controlled systems' efficacy. NeuroVoice stands out by seamlessly integrating into devices, offering users the advantage of precise voice recognition and activity detection with minimal energy demands. It further differentiates itself by delivering clear communication even amidst irregular background noises, setting a new benchmark for on-device audio processing with its advanced neural network-driven design.
The AXI4 DMA Controller by Digital Blocks provides robust multi-channel direct memory access across various systems, capable of managing up to 16 independent data transfers. It supports scatter-gather data management and integrates flexibly with AXI4 interfaces for efficient data movement and processing, ideal for tasks ranging from simple to complex data throughput requirements.
The C100 is designed to enhance IoT connectivity and performance with its highly integrated architecture. Built around a robust 32-bit RISC-V CPU running up to 1.5GHz, this chip offers powerful processing capabilities ideal for IoT applications. Its architecture includes embedded RAM and ROM memory, facilitating efficient data handling and computations. A prime feature of the C100 is its integration of Wi-Fi components and various transmission interfaces, enhancing its utility in diverse IoT environments. The inclusion of an ADC, LDO, and a temperature sensor supports myriad applications, ensuring devices can operate in a wide range of conditions and applications. The chip's low power consumption is a critical factor in this design, enabling longer operation duration in connected devices and reducing maintenance frequency due to less charging or battery replacement needs. This makes the C100 chip suitable for secure smart home systems, interactive toys, and healthcare devices.
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.
The Topaz FPGA family by Efinix is crafted for high-performance, cost-efficient production volumes. Topaz FPGAs combine an advanced architecture with a low-power, high-volume design, suitable for mainstream applications. These devices integrate seamlessly into systems requiring robust protocol support, including PCIe Gen3, LVDS, and MIPI, making them ideal for machine vision, industrial automation, and wireless communications. These FPGAs are designed to pack more logic into a compact area, allowing for enhanced innovation and feature addition. The architecture facilitates seamless migration to higher performance Titanium FPGAs, making Topaz a flexible and future-proof choice for developers. With support for various BGAs, these units are easy to integrate, thus enhancing system design efficiency. Topaz FPGAs ensure product longevity and a stable supply chain, integral for applications characterized by long life cycles. This ensures systems maintain high efficiency and functionality over extended periods, aligning with Efinix’s commitment to offering durable and reliable semiconductor solutions for diverse market needs.
The Network Protocol Accelerator Platform (NPAP) by Missing Link Electronics is engineered to significantly enhance network protocol processing. This platform leverages MLE's innovative patented and patent-pending technologies to boost the speed of data transmission within FPGAs, achieving impressive rates of up to 100 Gbps. The NPAP provides a robust, efficient solution for offloading processing tasks, leading to superior networking efficiency. MLE's NPAP facilitates multiple high-speed connections and can manage large volumes of data effectively, incorporating support for a variety of network protocols. The design ensures that users benefit from reduced latency and improved data throughput, making it an ideal choice for network-intensive applications. MLE’s expertise in integrating high-performance networking capabilities into FPGA environments comes to the forefront with this product, providing users with a dependable tool for optimizing their network infrastructures.
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.
The eSi-Comms suite is a versatile toolset designed for enabling sophisticated communication functionalities in integrated circuits. Known for its high degree of parameterization, this communication IP adapts to various industry standards, effectively facilitating connectivity across a range of applications. Built to support modern wireless and wireline standards like Wi-Fi, Li-Fi, LTE, and DVB, eSi-Comms demonstrates a balance between adaptability and high performance, suiting dynamic communication environments. It facilitates robust network communications, ensuring seamless data exchange and reliable connectivity in demanding scenarios. EnSilica's focus on optimized resource usage allows eSi-Comms to deliver top-tier communication capabilities with minimized power consumption, a crucial feature in portable and battery-operated devices. Furthermore, its integration ability ensures that it aligns with diverse system architectures, enhancing interoperability across different technology ecosystems.
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 eSi-Crypto solution provides an advanced encryption and authentication framework, ensuring robust security for digital data. Its sophisticated algorithms cover a wide array of cryptographic needs, from basic encryption to complex data protection mechanisms. This solution is designed to offer high performance with low resource consumption, making it ideal for various embedded systems where security and efficiency are paramount. EnSilica has integrated various cryptographic components, including True Random Number Generators (TRNGs), to support extensive security protocols. These components are critical in applications such as secure communications, financial transactions, and personal data protection, where unauthorized access prevention is crucial. The streamlined architecture of eSi-Crypto ensures it can be efficiently implemented across diverse system architectures, offering scalable security solutions for emerging digital threats. Its flexibility allows customization and integration with other IPs, providing a seamless security shield for both legacy and new systems.
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.
IPM-NVMe Device is a sophisticated IP core designed to boost data transfer efficiency in PCIe SSD Controllers by minimizing CPU load. Serving as a proficient data manager, this IP core bridges the communication interface and the NAND flash controller, optimizing data operations for high-performance applications. The device is fully compliant with NVM Express standards, offering features such as automatic command processing and support for multiple I/O queues. It’s equipped with advanced functionalities, including legacy interrupt support and asynchronous event management, ensuring that it meets the demands of modern data-intensive environments. Integration into FPGA and ASIC architectures is facilitated by its full hardware implementation, reducing reliance on drivers and software overhead. This aspect greatly simplifies deployment across various platforms, from consumer products to enterprise solutions, ensuring that server manufacturers can take advantage of standardization for cost-effective and high-efficiency storage solutions.
ISPido represents a fully configurable RTL Image Signal Processing Pipeline, adhering to the AMBA AXI4 standards and tailored through the AXI4-LITE protocol for seamless integration with systems such as RISC-V. This advanced pipeline supports a variety of image processing functions like defective pixel correction, color filter interpolation using the Malvar-Cutler algorithm, and auto-white balance, among others. Designed to handle resolutions up to 7680x7680, ISPido provides compatibility for both 4K and 8K video systems, with support for 8, 10, or 12-bit depth inputs. Each module within this pipeline can be fine-tuned to fit specific requirements, making it a versatile choice for adapting to various imaging needs. The architecture's compatibility with flexible standards ensures robust performance and adaptability in diverse applications, from consumer electronics to professional-grade imaging solutions. Through its compact design, ISPido optimizes area and energy efficiency, providing high-quality image processing while keeping hardware demands low. This makes it suitable for battery-operated devices where power efficiency is crucial, without sacrificing the processing power needed for high-resolution outputs.
Ubi.cloud is a breakthrough geolocation solution designed to offload GPS and Wi-Fi computing tasks to the cloud effectively. This innovation results in significantly smaller, more efficient geolocation devices, ideal for IoT tracking applications. By reducing the size and energy consumption of the hardware, Ubi.cloud provides organizations with the ability to deploy diverse tracking solutions across their operations. It supports global GPS positioning for outdoor use and Wi-Fi for indoor urban tracking, making it versatile for various needs. Designed to minimize the inherent power and size issues of traditional GNSS modules, Ubi.cloud leverages advanced embedded technologies like UbiGNSS and UbiWIFI. These allow for remarkable on-time performance improvements compared to traditional setups, drastically cutting down receiver chipset consumption and boosting battery life. With Ubi.cloud, businesses can integrate cutting-edge geolocation capabilities into their devices using a pay-as-you-go model or life-time licenses, ensuring flexibility in application. This makes it ideal for asset tracking of unpowered devices, fitting into existing systems seamlessly or being part of new innovative designs.
The UHS-II solution for high-definition content is meticulously designed for rapid data transfer, catering predominantly to high-performance storage applications. This solution efficiently supports various high-definition content formats, ensuring seamless transmission and integration with sophisticated imaging devices. Its extensive compatibility with diverse storage systems and high-speed interfaces enables it to meet the rigorous demands of modern digital video and photographic environments.
Uniquify's High-Speed SerDes Technology is designed to deliver exceptional performance across a range of serial data communication standards. Known for its ability to handle bit-rates and aggregate data rates effectively, this technology is integral to applications requiring rapid and reliable data transfer, such as in video processors and network backbones. The SerDes technology boasts a processing capacity suitable for various applications, including USI-T video display processors with an impressive bit rate of 4 Gbps. It supports a wide array of functionalities from HDMI compatibility supporting resolutions up to 4k2k30fps to 3G-SDI interfaces, which are crucial for standard video interfaces. Each component is designed with process technology considerations, optimizing for systems at 28nm and 7nm nodes. Designed to integrate seamlessly into existing infrastructures, this SerDes solution is adept at enhancing digital communication pathways while ensuring low power consumption. By utilizing advanced manufacturing processes, it achieves high data throughput, making it a sought-after choice for high-speed interface applications.
ISPido on VIP Board is a customized runtime solution tailored for Lattice Semiconductors’ Video Interface Platform (VIP) board. This setup enables real-time image processing and provides flexibility for both automated configuration and manual control through a menu interface. Users can adjust settings via histogram readings, select gamma tables, and apply convolutional filters to achieve optimal image quality. Equipped with key components like the CrossLink VIP input bridge board and ECP5 VIP Processor with ECP5-85 FPGA, this solution supports dual image sensors to produce a 1920x1080p HDMI output. The platform enables dynamic runtime calibration, providing users with interface options for active parameter adjustments, ensuring that image settings are fine-tuned for various applications. This system is particularly advantageous for developers and engineers looking to integrate sophisticated image processing capabilities into their devices. Its runtime flexibility and comprehensive set of features make it a valuable tool for prototyping and deploying scalable imaging solutions.
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.
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.
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.
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.
Secure Protocol Engines offer high-performance IP blocks designed to enhance network and security processing capabilities. These engines support critical operations like cryptographic functions, dramatically offloading the central processing units within SoCs. They ensure secure communication channels for embedded systems by seamlessly integrating into existing security frameworks, thereby bolstering the system's defense mechanisms against potential cyber threats.
The APIX3 transmitter and receiver modules represent Inova Semiconductors' cutting-edge advancement in automotive multimedia innovation. Highlighting its versatility, APIX3 is developed to meet the rigorous demands of modern infotainment systems and premium cockpit architectures, supporting data rates up to 12 Gbps when utilizing quad twisted pair cabling. This provides high-resolution display connections, ideal for ultra-high-definition video applications within vehicles. Engineered for future scalability, APIX3 modules enable multiple video channels to traverse a singular connection, adhering to cost-effective implementations while maintaining high-performance standards. Compatibility extends to Ethernet technologies, ensuring seamless integration into existing vehicle communication systems and infrastructures, fostering more connected and smarter vehicles. The APIX3 infrastructure also features advanced diagnostic capabilities which foresee potential cable issues, accommodation through active equalizers that automatically adjust to transmission paths, and temperature adaptations. Such features significantly reduce maintenance needs, avoiding unplanned service interruptions, and contributing to safe, reliable data transmission.
ParkerVision's Direct-to-Data (D2D) Technology marks a transformative development in RF communication, significantly enhancing the performance of modern smartphones and wireless devices. This innovative technology replaces the century-old super-heterodyne downconverter with a new RF downconverter that operates efficiently within CMOS architectures. D2D allows RF receivers to connect more seamlessly across global bands while processing high data rates essential for today's media and communication needs. D2D RF receivers built on ParkerVision technology minimize power usage while delivering fast data speeds, substantially contributing to the functionality and efficiency of modern smartphones. These receivers are capable of handling a wide spectrum of data rates from streaming video to large data transfers, thanks to their high-performance design capable of managing a range of signal strengths from various distances with cellular towers. This patented technology plays a crucial role in the smartphone revolution, with its incorporation leading to smarter, faster devices. These developments are enabled by a precise downconversion mechanism that transforms high-frequency RF signals into data-efficient formats. The D2D technology reduces the traditional noise and signal loss, making it a cornerstone in the advancement of mobile and IoT device communication strategies.
The DisplayPort 1.4 provides a comprehensive solution for DisplayPort needs by offering both source (DPTX) and sink (DPRX) configurations. It supports various link rates from 1.62 Gbps to 8.1 Gbps, including embedded DisplayPort (eDP) rates. This versatility makes it ideal for a wide range of applications, including those requiring either Single Stream Transport (SST) or Multi Stream Transport (MST). With support for dual and quad pixels per clock, as well as 8 & 10-bit video in RGB and YUV 4:4:4 color spaces, the DisplayPort 1.4 is well-equipped to handle high-resolution video tasks. The robust features of DisplayPort 1.4 include a Secondary Data Packet Interface designed for audio and metadata transport, ensuring comprehensive support for multimedia applications. Parretto also enhances the IP with a Video Toolbox containing a timing generator, test pattern generator, and video clock recovery functions. These components facilitate seamless integration and operational efficiency within a wide array of systems. This product supports numerous FPGA devices, such as AMD UltraScale+, Intel Cyclone 10 GX, and Lattice CertusPro-NX, giving users flexibility in their choice of hardware. The availability of source code on GitHub allows users to tailor the IP specifically to their design requirements, broadening the scope of customization and ensuring a perfect fit in various applications.
The GL9767 card reader controller is tailored for high-performance applications requiring PCI Express connectivity and multi-interface support for SD-type cards. Compliant with PCI Express Rev. 2.1, it includes integrated PHY interfaces and can handle a wide variety of memory cards, from standard SD to high-capacity SDUC cards, making it ideal for devices requiring extensive data management capabilities. GL9767 is engineered to support up to 128TB capacity, catering to the demands of modern digital data storage. It integrates several mechanisms for power efficiency, including PCI Express ASPM and L1 sub-states, offering extensive power-saving strategies to facilitate efficient operation across various devices. This versatile card reader controller also excels in providing high-speed data transfer capabilities with support for advanced memory card modes like UHS-I and UHS-II, ensuring robust performance. Its wide system compatibility, coupled with design features that reduce EMI, positions it as a critical component in high-demand applications such as computers and digital cameras.
The U9 Flash Memory Controller is engineered to address the stringent requirements of industrial storage systems. It is a USB 3.1 compliant controller, featuring hyReliabilityâ„¢ flash management technology, which ensures data integrity and enhances endurance through sophisticated wear leveling and error management. Incorporating a flexible 96-Bit/1K BCH ECC engine and an optimized 32-bit RISC core, the U9 guarantees robust performance and adaptability across a wide range of flash memory chips. It supports advanced data security features, including AES 128 and 256 encryption modes, to safeguard sensitive data effectively. With the ability to implement custom firmware extensions via its API, the U9 controller excels in offering turnkey solutions suitable for USB flash drives, eUSB modules, and other flexible disk-on-board applications. Its long-term availability and customizable firmware make it an ideal choice for industrial applications demanding high reliability and security.
As part of the advanced communication toolkit, the DSER12G addresses the need for robust data/clock recovery and deserialization at rates between 8.5Gb/s to 11.3Gb/s. Prominent in 10GbE, OC-192, and equivalent setups, it boasts ultra-low power design principles grounded in IBM's 65nm technology. Supporting high noise immunity and compact integration, it is a cornerstone in systems requiring efficient data management and communications interfaces across various digital infrastructures.
The MIPI D-PHY solution from SkyeChip offers a fully integrated macro that complies with the MIPI D-PHY spec v2.5. This IP is pivotal for developers looking to integrate high-speed data transmission capabilities into devices, supporting up to 2.5 Gbps per lane. It incorporates low-power escape modes and ultra-low power states, which significantly enhance its suitability for battery-operated devices with varying performance demands. The D-PHY’s configurability allows customization to meet specific system requirements, offering flexibility in design. Capable of handling intricate data flows with precision, this IP is a core component for mobile and consumer electronics that demand efficient and reliable data communication channels. It is widely applicable for cameras, display interfaces, and various other high-speed serial protocols.
The VoSPI Rx for FLIR Lepton IR Sensor is designed to cater to infrared sensor needs for various applications. Specially configured to support the FLIR Lepton sensor, this receiver facilitates effective and precise data handling of infrared signals, crucial in environments demanding high thermal accuracy. It provides real-time processing capabilities, aligning with the rigorous demands of security and monitoring applications. This receiver excels in maintaining data integrity, ensuring that the thermal data transmitted across platforms is of the highest accuracy. Its sophisticated engineering allows it to work seamlessly with other system components, enhancing system performance and reliability. The receiver is integrated with features that boost signal processing while minimizing latency, providing a seamless operational environment. This ensures that users can rely on it for consistent performance across various industry applications, boosting both efficiency and reliability.
Facilitate inter-chip communication within your AMD Zynq 7000 All Programmable SoC designs with the logiSPI IP core. It serves as a bridge between the Serial Peripheral Interface (SPI) and AXI4, simplifying the integration of various MCU components into your systems. This module is indispensable for ensuring smooth, reliable interfacing between digital devices in complex circuit designs.
The C3-CODEC-G712-4 audio codec is an innovation in digital audio conversion technology, transforming audio signals with high efficiency and fidelity. Designed with the telecommunications sector in mind, this codec is reserved for environments that demand clear and reliable audio processing. By incorporating DIGICC's fully digital design, Cologne Chip achieves low-cost and flexible codec solutions, reducing reliance on complex analog components. The C3-CODEC-G712-4's digital core ensures robust performance in scenarios requiring high-quality audio conversion and also supports precise encoding and decoding of audio signals without the noise usually introduced by analog systems. Ideal for advancing audio clarity in various telecommunication systems, this codec plays a vital role in establishing seamless communication. Its superior design facilitates ease of integration into existing systems while ensuring minimized distortion and enhanced signal quality, embodying a modern approach to audio processing in technology-driven applications.
The Dukosi Cell Monitoring System (DKCMS™) represents a breakthrough in battery technology, providing enhanced performance, safety, and sustainability for high-capacity battery packs. This system features the Dukosi DK8102 Cell Monitor, capable of measuring precise voltage and temperature for each cell, and uses the groundbreaking C-SynQ® communication protocol. By employing near field RF communication, it synchronously channels data to the DK8202 System Hub, offering a robust and power-efficient solution for complex battery environments. The DKCMS architecture elevates battery monitoring to a new level with its robust contactless communication, enabled through a single bus antenna. This reduces the complexity of traditional wired setups, offering up to twice the reliability and using ten times fewer components. Its configuration ensures simultaneous synchronization of all cell data, crucial for making optimal decisions in safety-critical scenarios. Offering scalability for addressing up to 216 cells, it allows for modular design adjustments, allowing developers to adapt swiftly to market changes. Designed for high-performance environments, this architecture provides significant cost benefits and accelerates time-to-market for battery manufacturers. The system significantly simplifies design processes by allowing cells to be added or removed individually without necessitating an entire pack redesign. The DKCMS can be seamlessly adapted to various market terrains, from electric vehicles to stationary energy storage systems, providing assured robustness and enhanced uptime.
The MIPITM SVRPlus2500 provides an efficient solution for high-speed 4-lane video reception. It's compliant with CSI2 rev 2.0 and DPHY rev 1.2 standards, designed to facilitate easy timing closure with a low clock rating. This receiver supports PRBS, boasts calibration capabilities, and offers a versatile output of 4/8/16 pixels per clock. It features 16 virtual channels and 1:16 input deserializers per lane, handling data rates up to 10Gbps, making it ideal for complex video processing tasks.
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