All IPs > Interface Controller & PHY > V-by-One
V-by-One semiconductor IP solutions represent a leap forward in high-speed serial communication interfaces, designed to streamline connectivity and enhance the efficiency of modern electronic systems. Originating from the need to handle higher data rates with minimal signal interference, V-by-One technology has become an industry standard in the realm of high-definition displays and beyond. This category in our Silicon Hub is dedicated to providing a comprehensive selection of V-by-One interface controllers and physical layer (PHY) IPs, crucial for optimizing data transmission in various high-performance applications.
The primary utilization of V-by-One semiconductor IPs lies in their ability to manage significant data throughput while maintaining signal integrity over shorter physical connections. These IPs are essential in digital signage, television displays, and automotive infotainment systems, where large volumes of data must be seamlessly transmitted across different components. V-by-One IPs support resolutions such as 4K and 8K, enabling clear, vivid imagery without lag or distortion, making them indispensable for next-generation visual technologies.
Within this category, you will find a range of products designed to meet various design requirements and technical specifications. Our selection includes versatile V-by-One interface controllers known for their adaptability in handling diverse multimedia and data communication tasks. Additionally, our PHY IP offerings ensure robust signal processing, providing the hardware capabilities necessary to sustain high-speed data flow in complex electronic environments.
Whether you're developing consumer electronics, automotive, or industrial equipment, implementing V-by-One semiconductor IP solutions can greatly improve your product's performance. By ensuring superior data transmission efficiency and reducing electromagnetic interference, these IP solutions facilitate cutting-edge innovations for manufacturers and designers who demand the best in interface technology. Explore our extensive catalog to find the right V-by-One IPs that align with your production goals and technical needs.
Sunplus’s LVDS IP is designed for efficient data transmission in applications requiring low power consumption and high noise immunity. This Low Voltage Differential Signaling technology is particularly effective for transferring large amounts of data over long distances with minimal signal degradation. Ideal for use in display panels and digital communication systems, LVDS technology offers high-speed data rates while maintaining low electromagnetic interference (EMI). This allows for clearer and more reliable data communication, essential for high-resolution video and complex data streams. The architecture supports scalability and adaptability, making it suitable for various applications including video displays, automotive infotainment systems, and industrial communications. It is engineered to maintain signal integrity even under challenging environmental conditions, a testament to its robustness and reliability.
Panmnesia's CXL 3.1 Switch is an integral component designed to facilitate high-speed, low-latency data transfers across multiple connected devices. It is architected to manage resource allocation seamlessly in AI and high-performance computing environments, supporting broad bandwidth, robust data throughput, and efficient power consumption, creating a cohesive foundation for scalable AI infrastructures. Its integration with advanced protocols ensures high system compatibility.
The GL3590-S is a USB 3.2 Gen 2 Hub Controller designed to provide seamless connectivity via integrated USB Type-C® support. This controller is capable of managing multiple upstream ports, making it ideal for complex data management tasks in modern electronics. Its sophisticated architecture allows for high-speed data transfer, ensuring efficiency in demanding computational environments. Integrated with USB 3.2 Gen 2 hub capabilities, the GL3590-S supports rapid data exchange rates essential for applications needing swift resolution and connectivity. The device plays a crucial role in amplifying the USB connection bandwidth, thereby enhancing the performance and reliability of connected devices. Moreover, this hub controller is equipped with advanced compatibility features, supporting various data transfer protocols. It aims to streamline the integration process across computing platforms, providing a robust solution for today's data-driven ecosystems.
Universal Chiplet Interconnect Express (UCIe) is a cutting-edge technology designed to enhance chiplet-based system integrations. This innovative interconnect solution supports seamless data exchange across heterogeneous chiplets, promoting a highly efficient and scalable architecture. UCIe is expected to revolutionize system efficiencies by enabling a smoother and more integrated communication framework. By employing this technology, developers can leverage its superior power efficiency and adaptability to different mainstream technology nodes. It makes it possible to construct complex systems with reduced energy consumption while ensuring performance integrity. UCIe plays a pivotal role in accelerating the transition to the chiplet paradigm, ensuring systems are not only up to current standards but also adaptable for future advancements. Its robust framework facilitates improved interconnect strategies, crucial for next-generation semiconductor products.
Intilop offers a sophisticated 10G TCP Offload Engine that integrates MAC, PCIe, and Host IF to deliver ultra-low latency performance. This engine is designed to significantly reduce CPU workload by offloading TCP/IP processing onto the hardware, ensuring faster data transmission with minimal delay. It efficiently supports extensive data flow and high-speed connectivity through its advanced architecture, making it an optimal solution for enterprises seeking high-performance network infrastructure. The engine is specifically engineered to handle up to 10 Gbps speed, maintaining consistent levels of performance even under heavy data loads. Its robust design supports full state offload, checksum offload, and large send offload, making it adept at managing high volumes of data without compromising speed or reliability. By including features like dual 10G SFP+ ports, it offers users flexibility and increased bandwidth, catering to the needs of bandwidth-intensive applications. Additional highlights include zero jitter and the ability to manage multiple sessions simultaneously, thereby enhancing data throughput while minimizing network latency. The integration of features such as kernel bypass and no-CPU-needed architecture underscores its design geared towards efficiency and resource optimization. Ideal for data centers, cloud computing environments, and high-speed network servers, this offload engine is structured to provide significant improvements in cost, space, and overall network infrastructure efficiency.
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 ARINC 818 Product Suite is a comprehensive solution set designed to support the entire lifecycle of ARINC 818 enabled equipment. This suite offers tools and resources essential for developing, qualifying, testing, and simulating ARINC 818 products. It is recognized for its robust design and ability to address the complexities of high-performance avionics systems. Within the product suite, users can access the ARINC 818 Development Suite and Flyable Products, providing a framework for both development and in-field application. The suite is indispensable for organizations aiming to integrate ARINC 818 into their systems, ensuring precise data handling and compatibility. Great River Technology's experience in crafting over 100 mission-critical systems is embedded into the suite, offering unmatched expertise and dependability. By leveraging this suite, companies can ensure the reliable operation and seamless integration of ARINC 818 technologies.
The CT25205 is a robust digital IP core designed for IEEE 802.3cg 10BASE-T1S Ethernet Physical Layer. It includes PMA, PCS, and PLCA Reconciliation Sublayer blocks, enhancing compatibility with standard IEEE MACs via the MII. Featuring a fully synthesizable Verilog design, it is deployable on standard cells and FPGAs. With integrated PLCA RS, this IP provides advanced features without necessitating additional extensions, making it a vital component for Zonal Gateways SoCs.
The HOTLink II Product Suite is engineered to deliver advanced capabilities in high-speed data and video link technologies. It serves as an essential toolset for developing and implementing HOTLink II protocols effectively, catering to the specific needs of modern avionics systems requiring reliable and high-throughput data transfer. This suite includes various components that enable the seamless transmission and conversion of data, supporting both development and operational phases. Its design incorporates technologies that enhance data integrity and efficiency, making it integral to systems where performance and reliability are critical. Great River Technology ensures that each component of the HOTLink II suite is crafted with precision, providing comprehensive support and simplifying integration processes. The suite redounds to the extensive expertise of Great River Technology in the sector, reinforcing their standing as providers of pioneering solutions.
CT25203 is an Analog Front-End IP core compliant with IEEE 802.3cg standard for 10BASE-T1S applications. It is part of Canova Tech's strategic offerings in analog domain, enhancing high-performance communication. The IP supports integral interoperability with digital PHYs, such as the CT25205, and is designed to operate with a high-voltage process technology, ensuring exceptional electromagnetic compatibility (EMC) performance. Its features facilitate reliable communication for industrial and automotive applications, proven in diverse environments.
Analog Bits offers sophisticated SERDES solutions that deliver high-speed data communication with remarkably low power usage. Their customizable PCIe Gen 3/4/5 class SERDES technology supports data rates up to 32Gbps and is applicable to a wide range of protocols, including SAS, SATA, and USB. The SERDES IP from Analog Bits is crafted to meet the stringent requirements of high-performance computing environments, offering the smallest die area and lowest latency for chip-to-chip communications. These capabilities are vital for high-frequency data transfer tasks in sectors like mobile computing and server designs. Offering multi-protocol support and flexibility in lane count, Analog Bits' SERDES solutions are adaptable to different market needs. Their implementation at advanced process nodes like 8nm, 7nm, and 5nm confirms their dedication to delivering cutting-edge technology solutions to their clients.
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 Network Protocol Accelerator Platform (NPAP) is engineered to accelerate network protocol processing and offload tasks at speeds reaching up to 100 Gbps when implemented on FPGAs, and beyond in ASICs. This platform offers patented and patent-pending technologies that provide significant performance boosts, aiding in efficient network management. With its support for multiple protocols like TCP, UDP, and IP, it meets the demands of modern networking environments effectively, ensuring low latency and high throughput solutions for critical infrastructure. NPAP facilitates the construction of function accelerator cards (FACs) that support 10/25/50/100G speeds, effectively handling intense data workloads. The stunning capabilities of NPAP make it an indispensable tool for businesses needing to process vast amounts of data with precision and speed, thereby greatly enhancing network operations. Moreover, the NPAP emphasizes flexibility by allowing integration with a variety of network setups. Its capability to streamline data transfer with minimal delay supports modern computational demands, paving the way for optimized digital communication in diverse industries.
The DisplayPort 1.4 IP core by Parretto is designed for efficient video signal transmission, providing comprehensive solutions for both source (DPTX) and sink (DPRX) configurations. Supporting link rates from 1.62 to 8.1 Gbps, this core offers flexibility for different applications, including embedded DisplayPort (eDP) rates. It can handle 1, 2, and 4 DP lanes, and supports diverse video interfaces such as native video and AXI stream. This IP core accommodates Single Stream Transport (SST) and Multi Stream Transport (MST) modes, adapting to different output requirements. Its dual and quad pixels per clock with rich color managing capabilities—including RGB and various YCbCr formats—enable it to meet high-quality video standards. A secondary data packet interface allows for straightforward audio and metadata transport. Equipped with a Video Toolbox (VTB), it simplifies video processing tasks, including clock recovery and pattern generation. The core is compatible with several FPGA devices like AMD's UltraScale+ and Artix-7, as well as Intel's Cyclone 10 GX and Arria 10 GX.
Silicon Library Inc.'s DisplayPort/eDP is an advanced interface IP crafted for delivering high-definition audio-visual data. It conforms to the specifications of DP/eDP 1.4, positioning it as a critical component for devices like laptops, monitors, and digital signage, where seamless and high-quality display output is required. This product supports high-resolution displays with considerable bandwidth, enabling the transmission of ultra-high-definition content efficiently and effectively. Its design takes into account the need for reduced power consumption, aligning with the trend towards more energy-efficient electronics without compromising on performance. The DisplayPort/eDP IP ensures excellent signal transmission quality, meeting the stringent demands of modern digital displays. It also features compatibility with various control protocols, providing flexibility in integration across different devices. As multimedia consumption continues to rise, this IP offers a strategic advantage in developing cutting-edge display solutions.
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.
Dyumnin's RISCV SoC is a versatile platform centered around a 64-bit quad-core server-class RISCV CPU, offering extensive subsystems, including AI/ML, automotive, multimedia, memory, cryptographic, and communication systems. This test chip can be reviewed in an FPGA format, ensuring adaptability and extensive testing possibilities. The AI/ML subsystem is particularly noteworthy due to its custom CPU configuration paired with a tensor flow unit, accelerating AI operations significantly. This adaptability lends itself to innovations in artificial intelligence, setting it apart in the competitive landscape of processors. Additionally, the automotive subsystem caters robustly to the needs of the automotive sector with CAN, CAN-FD, and SafeSPI IPs, all designed to enhance systems connectivity within vehicles. Moreover, the multimedia subsystem boasts a complete range of IPs to support HDMI, Display Port, MIPI, and more, facilitating rich audio and visual experiences across devices.
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.
The INAP375R Receiver complements its transmitter counterpart in offering comprehensive high-speed data reception for automotive applications. It supports multiple video and audio channels, facilitating seamless data conversion and transfer for automotive entertainment systems. Designed to work effectively with up to 12 meters of cable, the receiver ensures consistent data fidelity over distance. Incorporating an advanced current mode logic, the INAP375R efficiently handles differential signals, maintaining data integrity even in demanding environments. Its capacity to deliver up to 3Gbps over a single cable ensures compatibility with various automotive applications, be it infotainment or safety-related systems. The versatile interface options of the INAP375R enable it to adapt to varying automotive standards while ensuring reliable performance. With built-in support for AShell protocol for error detection and correction, the receiver guarantees the safe and accurate transmission of critical data across automotive networks, underpinning its suitability for high-reliability applications.
LightningBlu is designed specifically to transform the connectivity landscape of high-speed rail by providing uninterrupted, on-the-move multi-gigabit connectivity. By bridging the gap between trackside infrastructure and the train, it offers onboard services such as internet access, entertainment, and passenger information. Operating within the mmWave range, LightningBlu ensures a seamless communication experience even at high speeds, significantly enhancing the onboard experience for passengers. Integrating robust mmWave technology, the solution supports high data throughput, ensuring passengers can enjoy swift internet access and other online services while traveling. This wireless solution eliminates the need for traditional wired networks, reducing complexities and enhancing operational flexibility. With a profound ability to support high-speed data-intensive applications, LightningBlu sets a new benchmark in transportation connectivity. This platform's design facilitates smooth operation at velocities exceeding 300 km/h; coupled with its ability to maintain service over several kilometers, it is a critical component in advancing modern rail systems. LightningBlu not only meets today’s connectivity demands but also future-proofs the necessities of tomorrow's rail network implementations.
APIX3 technology represents the pinnacle of data communication solutions for advanced automotive infotainment and cockpit systems. It supports ultra-high definition video resolutions, facilitated by its capacity for multi-channel high-speed data transmission. The technology enables a scalable bandwidth that adapts from entry-level to luxurious, high-end automotive systems, ensuring a broad range of application compatibilities. APIX3 modules are engineered to transmit data at rates of up to 6 Gbps over a shielded twisted pair cable and up to 12 Gbps over a quad twisted pair. This makes them invaluable in systems requiring high levels of data integrity and precision, such as those found in modern, connected vehicle architectures. In addition to supporting complex video channels, APIX3 is compatible with 100 Mbps Ethernet and integrates advanced diagnostic capabilities for cable monitoring, which allows for predictive maintenance by detecting cable degradation. Its backwards compatibility with APIX2 ensures seamless integration and upgradability in existing infrastructures, reinforcing its status as a future-proof solution.
The TSN Switch for Automotive Ethernet is an advanced solution designed for the modern automotive network environment, supporting Time-Sensitive Networking (TSN) capabilities to ensure low-latency and reliable data transmission across automotive systems. This switch technology is critical for enabling real-time communication, an essential requirement for new-age automotive applications such as autonomous driving and complex onboard diagnostics. Through TSN, data traffic can be transmitted with precise timing, which is crucial in maintaining the seamless operation of safety-critical features. At its core, the TSN Switch integrates functionalities that allow for the prioritization and scheduling of network traffic, ensuring vital data is delivered on time under various conditions. This feature is important for managing the extensive array of data exchanged in modern vehicles, where different subsystems must communicate effectively to maintain overall vehicle performance and safety. In addition to its primary applications in vehicles, the TSN Switch is designed with versatility in mind, allowing it to be adapted for other industries that require robust and timely communication, such as industrial automation and control systems. The modular approach to its design enables future updates and upgrades, ensuring the switch remains relevant as technology progresses. This adaptability underscores its strategic importance in both the automotive and broader industrial contexts.
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.
Bridging complex data communication requirements, the SERDES12G offers comprehensive serialization/deserialization capabilities, supporting 32:1 and 1:32 operations at speeds of 8.5Gb/s to 11.3Gb/s. With robust low power features, its design leverages IBM's 65nm technology, vital for SONET/SDH and XFI protocols in modern telecommunication systems. By integrating CDR and CMU, it provides high performance and stability, ensuring seamless data handling across a wide array of applications.
The Alcora V-by-One HS FMC daughter card by Parretto is a high-speed interface solution aimed at enhancing the connectivity of FPGA development boards with high-speed transceivers. By offering 8 RX and 8 TX lanes, the card facilitates high-throughput data transmission, supporting video resolutions such as 4K at 120Hz and 8K at 30Hz. Its dual-variant design, ranging from 41 to 51-pin headers, renders the card adaptable to diverse hardware setups, further broadening its compatibility. Additionally, two clock generators integrated within the card ensure precise synchronization by generating the necessary transceiver reference clocks and reducing jitter. This technology, developed by THine Electronics, finds its primary application in high-resolution video transmission within the flat panel display sector. The card's rich feature set and robust performance make it an ideal choice for industries demanding high-quality video output and seamless integration with existing FCA platforms.
Designed specifically for high-speed automotive data communication, the INAP590T transmitter handles demanding data loads effectively. This device supports robust video data transmission and is innovatively tailored for automotive environments, ensuring high levels of integration and performance. The INAP590T is built with features that accommodate HDMI and DSI interfaces, ensuring seamless adaptability. Its capacity for managing dual video channels highlights its applicability in complex automotive infotainment systems. The INAP590T also supports AShell channels and Ethernet functionalities, underscoring its versatility in handling comprehensive automotive data transmission requirements. Notably, the transmitter supports dual-port communication, enhancing its utility in modern automotive networking. With its focus on high-fidelity data transfer and the ability to handle diverse formats, it represents a pivotal component in advancing vehicle connectivity and infotainment solutions.
The PCS2100 is a cutting-edge modem chip, specifically designed to facilitate the deployment of Wi-Fi HaLow networks, an extension of the Wi-Fi standard that enhances IoT connectivity. Based on the IEEE 802.11ah norm, this chip caters primarily to IoT devices, functioning proficiently within a network spearheaded by the PCS2500 access point. Its strength lies in its ability to operate over sub-gigahertz frequencies, offering extended transmission range that reaches over one kilometer.\n\nIncorporating innovative network management functions tailored for IoT, the PCS2100 ensures a robust and scalable connection with low power consumption, essential for densely packed IoT scenarios. The chip supports modulation schemes that enhance its capacity to manage receiver sensitivity and correct phase noise, contributing to its efficient transmission and reception.\n\nFocused on extending battery life while ensuring consistent IoT connectivity, features such as resource allocation windowing and target wake time optimize the network's power usage. This makes the PCS2100 an ideal candidate for long-term operational devices like sensors, providing extended communication life cycles while maintaining high data throughput.
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.
Designed for high-capacity data transfer over fiber optic networks, the SER12G facilitates 32:1 serialization for robust telecommunications. Capable of sustaining data rates from 8.5Gb/s to 11.3Gb/s, this module is essential for SONET/SDH and 10GbE operations, embracing IBM's 65nm CMOS technology. The design boasts low power requirements and integrates CMU and frac N PLL, making it suitable for both line and host side transmission, effectively enhancing data throughput and signal integrity.
Secure Protocol Engines by Secure-IC are high-performance IP blocks designed to offload the intensive computational tasks of network and security processing from primary processors. These engines improve overall system efficiency by handling complex security protocols, ensuring that the main computing resources are available for critical applications. They are architected to provide robust protection against security breaches while ensuring swift data processing, maintaining the integrity, confidentiality, and availability of data across networks.
Serializer/Deserializer (SerDes) technology is essential in converting data between serial and parallel interfaces, facilitating efficient data transmission over limited bandwidth channels. Advinno's SerDes offers high-speed data transfer capabilities that enhance communication between chips and systems with minimal latency. Key features of Advinno's SerDes include advanced signal modulation techniques that ensure high data integrity and reduce signal degradation over distance. These SerDes solutions are designed for flexibility, accommodating various data rates and channel lengths, making them ideal for a wide range of high-performance applications, including data centers, storage networks, and high-speed computing. The robustness of Advinno's SerDes technology is further exemplified by its ability to function in diverse environments, thanks to its adaptive equalization techniques and clock recovery systems. These features ensure consistent performance and reliability, crucial for applications where data integrity and speed are paramount, such as telecommunications and enterprise networking.
The Scan Ring Linker (SRL) serves as a fully-embeddable solution designed to streamline JTAG test infrastructure, significantly easing the design complexities and reducing the associated costs of implementing multiple scan rings within a single system. This IP module effectively transforms diverse scan paths into a unified high-speed test bus, enabling seamless access and configuration of components on secondary chains without cumbersome hardware redesigns. Especially beneficial for designs involving numerous interconnected scan rings, the SRL enables broad testing and configuration possibilities by linking all secondary paths to a central management bus. In doing so, engineers can independently test and configure each connected element through a singular 1149.1 interface, effectively consolidating test procedures and simplifying the design workflow. Moreover, the SRL reduces manufacturing and operational costs by cutting down the need for multiple configuration PROMs and voltage translators in multi-scan chain designs. By this, it not only aids in efficient product testing but also aligns with stringent standards for effective and rapid device configuration and testing in modern electronic manufacturing environments.
hellaPHY Positioning Solution is an advanced edge-based software that significantly enhances cellular positioning capabilities by leveraging 5G and existing LTE networks. This revolutionary solution provides accurate indoor and outdoor location services with remarkable efficiency, outperforming GNSS in scenarios such as indoor environments or dense urban areas. By using the sparsest PRS standards from 3GPP, it achieves high precision while maintaining extremely low power and data utilization, making it ideal for massive IoT deployments. The hellaPHY technology allows devices to calculate their location autonomously without relying on external servers, which safeguards the privacy of the users. The software's lightweight design ensures it can be integrated into the baseband MCU or application processors, offering seamless compatibility with existing hardware ecosystems. It supports rapid deployment through an API that facilitates easy integration, as well as Over-The-Air updates, which enable continuous performance improvements. With its capability to operate efficiently on the cutting edge of cellular standards, hellaPHY provides a compelling cost-effective alternative to traditional GPS and similar technologies. Additionally, its design ensures high spectral efficiency, reducing strain on network resources by utilizing minimal data transmission, thus supporting a wide range of emerging applications from industrial to consumer IoT solutions.
The Video Wall system offers robust support for HDMI and DisplayPort inputs and outputs, catering to up to four separate displays. Capable of handling input resolutions as high as 3840x2400 and output resolutions of 1920x1200 at 60Hz, it provides features like bezel compensation and various image processing operations. The system's clone and stretch operation modes allow users to configure multi-monitor setups with ease, backed by an API for configuration and control.
Nextera Video offers the IPMX Core as part of their expanding portfolio of IP solutions. Built on the SMPTE ST 2110 standard, IPMX (Internet Protocol Media Experience) sets a new benchmark for AV over IP by being the first truly open standard designed for Professional AV environments. Designed to deliver seamless interoperability, it supports both uncompressed and compressed media formats, ensuring high performance across diverse network infrastructures. IPMX cores accommodate a wide range of applications, from digital signage to live events, by enhancing functionality with very low latency compressed video that operates independently of PTP timing. This ensures optimal flexibility in environments that lack a common clock reference. IPMX also supports a broad spectrum of video resolutions, from HD to 8K+, and can operate on networks ranging from 1G to 25G+. Adding to its versatility, IPMX enables robust encryption and secure media handling, as well as advanced format control, ensuring seamless media management throughout the AV ecosystem. Whether aiming to enrich audio-visual experiences in corporate settings or elevate broadcast environments, Nextera's IPMX core integrates effortlessly to facilitate next-level multimedia experiences.
The FireSpy bus analyzer series is a cutting-edge toolset designed for comprehensive monitoring and analysis of the IEEE-1394 buses. These devices are integral for testing in aerospace applications, providing reliable service for projects involving up to nine buses. The FireSpy analyzers are equipped with Mil1394 protocol modules, offering extensive support for IEEE-1394b-2008 and AS5643 standards. This suite of analyzers is notable for its user-friendly interaction, allowing seamless integration into existing systems and comprehensive data retrieval for diagnostics and maintenance. The latest 4th generation of FireSpy bus analyzers encompasses advanced functionalities with compelling expansion capabilities. This generation has set a new industry standard, ensuring unmatched analysis power for Mil1394-enabled buses. Key features include a variety of interface options and enhanced data throughput, making it ideal for high-frequency signal analysis and bus reset propagation studies. FireSpy analyzers support modular configurations, enabling custom setups for diverse application requirements. They are vital for ensuring compliance with aerospace data handling standards, and their robust design ensures longevity and dependability across intensive operational scenarios.
The PCS2500 is a sophisticated access point system-on-chip designed for Wi-Fi HaLow networks, enabling a robust IoT ecosystem in accordance with the IEEE 802.11ah standard. It serves as a central hub managing communication between multiple PCS2100 client devices, using sub-gigahertz frequencies to cover extensive areas up to one kilometer. As an IoT internet gateway, the PCS2500 excels in managing dense networks with efficient resource allocation.\n\nEnsuring reliable and extended connectivity for IoT devices, this access point features various innovations to manage power consumption effectively, such as resource allocation windows (RAW) and target wake time (TWT). These features allow for orderly network access and reduce device contention, optimizing throughput and conserving energy.\n\nHigh receiver sensitivity and optimized transmission features make the PCS2500 a cornerstone in IoT networking, especially in applications requiring wide coverage and long-term battery life for connected devices like sensors. Its integration capability allows seamless interaction with existing network infrastructures, facilitating easy implementation and management.
To augment their diverse microcontroller IP lineup, Syntill8 provides an array of peripheral interface IP cores designed to integrate seamlessly with their 8051 microcontrollers. The suite includes a Two-Wire Slave Interface (M2WIS) and a Four-Wire Slave Interface (M4WIS), which complement the integral interfaces within the microcontroller cores. Additionally, the UDPMAC core caters to networking needs, providing a robust 1-Gigabit UDP/Ethernet MAC solution. These peripheral integrations enable comprehensive connectivity options for diverse applications.
Catalyst-GbE represents RADX’s high-performance NIC solution for modular PXIe systems, combining cutting-edge Intel and NVIDIA Mellanox technology to deliver high-speed networking capabilities. Ideal for applications that demand rapid data communication, Catalyst-GbE supports configurations including 4x10, 2x25, and 2x100 GbE NICs. Ensuring seamless and cost-effective deployment, this single-slot module boasts industry-leading performance, especially in PXIe environments where maximizing speed and efficiency is critical. The Catalyst-GbE’s advanced architecture effectively meets the bandwidth requirements of contemporary data-driven networks, providing dependable connectivity for a wide range of PXIe system applications. RADX’s Catalyst-GbE NIC modules are crafted to deliver low-latency connections, critical for time-sensitive activities and data-intensive processes, enhancing the overall operability and integration of PXIe-based systems.
MIFARE Certification Technologies offered by LSI-TEC represent advanced solutions in ensuring secure data transfer and authentication necessary for modern smart card operations. These technologies are pivotal in the wireless communication industry and facilitate seamless interactions across security systems. The certification technologies adhere to stringent international standards, ensuring optimal performance and increased reliability across various applications. MIFARE technologies integrate with numerous smart card systems, offering a robust framework for transaction security. Their implementation ensures that data integrity and access security are maintained, which is crucial in sectors like banking, transportation, and identification. Through these advanced certification technologies, organizations can rely on a safe, scalable, and efficient solution tailored to their unique security needs.
The INAP375T Transmitter is a high-performance device engineered to enhance serial data transmission. Leveraging state-of-the-art technology, this transmitter offers robust support for high-speed video channels, Ethernet, as well as audio channels, making it ideal for applications in automotive infotainment. The device features current mode logic for its physical layer, ensuring reliable and long-distance data transmission over a single twisted pair cable. This flexibility in transmission format allows the INAP375T to cater to various use cases, from video streaming to audio data interchange. Designed with versatility in mind, the INAP375T supports up to 12 meters of transmission distance at impressive gigabit speeds. This makes it suitable for complex automotive architectures where reliability and data integrity are paramount. The transmitter includes advanced AShell protocol support to optimize data handling and ensure error-free communication. The INAP375T is equipped to handle dual video channels with RGB/LVDS support, enabling seamless integration in advanced automotive video systems. The device’s diverse configuration options, accessible via SPI and I2C interfaces, enhance usability and adaptability. This transmitter is well-matched for high-demand environments where precision and high data throughput are critical.
Our USB Solutions are tailored to deliver exceptional data transfer rates, reaching up to 10 gigabits per second. These solutions are versatile and are compatible with a wide range of devices, facilitating seamless connectivity and transmission of large volumes of data swiftly and efficiently.
UCIe, designed by XtremeSilica, revolutionizes the way disparate computing components interconnect, addressing the need for an advanced, unified chiplet-based architecture. This IP allows multiple chiplets from different vendors to work together seamlessly, offering incredible flexibility in system design, particularly in high-performance computing applications.\n\nThe UCIe standard focuses on enabling direct, high-speed connections between individual chiplets, minimizing latency and maximizing throughput. This is paramount for applications that require massive parallel processing capabilities, such as artificial intelligence and data analytics.\n\nBy adopting UCIe, developers can build modular systems tailored to specific needs, facilitating easier upgrades and innovation. XtremeSilica's UCIe solution thus empowers designers to achieve unprecedented levels in customization and performance enhancement for the next generation of electronic systems.
This dual-core ARM Cortex A9-based audio-video player provides a low-power solution for playing H.264 HD content. Integrated within a Xilinx Zynq-Z7010 platform, it serves numerous applications like digital signage, automotive infotainment, and industrial displays. With its capability to handle digital AV playback seamlessly, it supports various industry verticals by delivering high-def audiovisual output in a compact, efficient format.
The FireTrac AS5643 interface card is a high-performance solution tailored for advanced Mil1394 data processing. Engineered specifically for avionics requirements, FireTrac cards are designed to handle complex test and simulation tasks with precision. They are configured to comply with the SAE AS5643 standard, ensuring reliable data encapsulation and decapsulation for robust avionic system integration. These interface cards leverage the full potential of the Mil1394 technology, with specific support for high-resolution data throughput and error-free transmission. The FireTrac series provides multiple interface options, each designed to cater to specific setup needs, whether it's for simulation, testing or operational deployment in avionics systems. The FireTrac series stands out in the industry as it incorporates built-in AS5643 functionalities, offering easy configuration and streamlined integration into existing aerospace applications. Enhanced by DapTechnology's software suite, these cards ensure smooth interaction across various setup requirements, maintaining consistency and reliability in data handling and processing environments.
Euresys' USB3 Vision Device Core is engineered to support the USB3 Vision standard, providing high-speed data transmission for imaging applications that demand both speed and reliability. This IP core is designed for use with FPGAs and enables seamless integration into various imaging systems, offering exceptional data throughput to accommodate high-definition video streams and complex imaging data. The core facilitates USB3 connectivity, allowing developers to harness the widespread availability and plug-and-play capabilities of USB interfaces. This not only enhances the ease of deployment but also ensures that the imaging system can handle large volumes of data with minimal latency. It's particularly useful in applications where quick setup and high data rates are imperative, such as in laboratory and industrial environments. With the USB3 Vision Device Core, developers can easily implement advanced vision systems requiring high-speed data capture and processing. Its design supports rapid development cycles and flexible customization, making it an excellent choice for projects requiring reliable and scalable imaging solutions.
The Xilinx NVMe Host Recorder offers robust capabilities for recording and interacting with NVMe host operations. This includes compatibility with various Xilinx platforms, ensuring versatile integration. It is designed to meet the high-speed demands of modern data transactions, making it essential for applications requiring swift data throughput. The solution is crafted to enhance the performance of storage systems, providing a reliable choice for systems architects seeking to leverage the full potential of NVMe technology. Whether it's for large-scale data centers or specialized enterprise environments, the Xilinx NVMe Host Recorder IP delivers consistent, high-performance outcomes. Further supported by a robust foundation in FPGA technology, this IP facilitates easy configuration and efficient deployment, ensuring that businesses can quickly adapt to technology changes without compromising on performance or reliability.
The V2X Router facilitates seamless communication between vehicles and surrounding infrastructure, promoting the development of smart traffic systems. This router supports vehicle-to-everything (V2X) interactions, enhancing road safety and traffic efficiency by enabling data exchange between vehicles, traffic systems, and networks. The V2X Router contributes to the establishment of connected and autonomous driving environments, improving the safety and fluidity of road transport systems through its advanced connectivity and reliable data transmission protocols.
The LineSpeed FLEX family represents a range of 100G PHY products, enabling retimer, gearbox, and multiplexing functionalities with integrated redundant link options. These products are optimized for use on line cards or within modules, meeting industry standards and varying data rates from 10G to 100G. Equipped with on-chip 100G RS-FEC capabilities, these devices are built to improve gearbox and retimer performance while ensuring that systems can handle dense data aggregation efficiently. The multi-link gearbox (MLG) feature facilitates effective data management and transition, supporting 10GbE aggregation across 100G ports seamlessly. The FLEX family devices are characterized by their protocol independence, allowing for flexibility across different deployment scenarios, such as handling mixed port speeds and ensuring high reliability through robust design. Each device's serial mux/demux functions help enhance system throughput, contributing to more efficient data flow and system operations. Widely applicable in high-reliability systems, including 100GbE line cards and switches, the LineSpeed FLEX family is critical for managing data transfer across modern telecommunications and data network frameworks. These solutions allow businesses to optimize their networking capabilities, aligning well with the current advancements in high-speed communications.
Designed to meet the modern demands of RF communication systems, the ATEK367P4 is an analog phase shifter engineered to deliver precise control over phase alignment across a bandwidth of 2 to 4 GHz. It offers a comprehensive phase range of up to 375 degrees, which is crucial for tuning and calibrating signal paths in phased array antennas and other sophisticated signal processing systems. The ATEK367P4 is characterized by its minimal insertion loss of 3 dB, thereby ensuring maximum signal integrity and efficiency—a necessity for optimal system performance. Packaged in a 4x4 mm QFN casing, this phase shifter is designed to fit seamlessly into existing systems, offering an effective solution for both upgrading current infrastructure and developing new projects. Thanks to its robust and reliable design, the ATEK367P4 is adept for conditions requiring high accuracy and consistency, such as satellite communications and radar systems. This product underscores Atek Midas's expertise in crafting components that bear the reliability and precision essential for cutting-edge RF applications.
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