All IPs > Graphic & Peripheral > Peripheral Controller
Peripheral Controller semiconductor IPs play a crucial role in the seamless integration of peripherals with core processing units, enhancing the functionality and connectivity of various electronic devices. These IPs are designed to manage the communication between the central processing unit (CPU) and external devices such as keyboards, mice, printers, and other peripherals. By enabling efficient data transfer and control signals between components, Peripheral Controller IPs ensure that systems operate smoothly and efficiently.
A key application of Peripheral Controller semiconductor IPs is in consumer electronics, where they facilitate the connection of tablets, smartphones, and laptops to a multitude of accessories and networks. For example, Universal Serial Bus (USB) controllers, memory card readers, and audio interfaces are just a few of the peripherals that these IPs manage. This allows end-users to transfer data quickly, connect various devices seamlessly, and enjoy a more versatile computing experience.
In industrial and automotive sectors, Peripheral Controller IPs are vital for maintaining robust and reliable communication within complex electronic systems. They are used to interface with sensors, actuators, and other control systems, ensuring that necessary data is transmitted accurately and in real-time. This is critical for applications that require precise timing and synchronization, such as automated manufacturing systems, smart grids, and advanced driver-assistance systems (ADAS).
Moreover, the evolution of Internet of Things (IoT) devices has further expanded the importance of Peripheral Controller IPs. As IoT ecosystems continue to grow, the need for efficient data management and connectivity solutions becomes more prominent. Peripheral Controller IPs offer the adaptability and scalability required to support a wide array of IoT applications, ensuring that devices can connect, communicate, and interact with each other effectively in both personal and industrial settings.
Overview: The UCIe IP supports multiple protocols (CXL/PCIe/Streaming) to connect chiplets, reducing overall development cycles for IPs and SOCs. With flexible application and PHY interfaces, The UCIe IP is ideal for SOCs and chiplets. Key Features: Supports UCIe 1.0 Specification Supports CXL 2.0 and CXL 3.0 Specifications Supports PCIe Gen6 Specification Supports PCIe Gen5 and older versions of PCIe specifications Supports single and two-stack modules Supports CXL 2.0 68Byte flit mode with Fallback mode for PCIe non-flit mode transfers Supports CXL 3.0 256Byte flit mode Supports PCIe Gen6 flit mode Configurable up to 64-lane configuration for Advanced UCIe modules and 16 lanes for Standard UCIe modules Supports sideband and Mainband signals Supports Lane repair handling Data to clock point training and eye width sweep support from transmitter and receiver ends UCIe controller can work as Downstream or Upstream Main Band Lane reversal supported Dynamic sense of normal and redundant clock and data lines activation UCIe enumeration through DVSEC Error logging and reporting supported Error injection supported through Register programming RDI/FDI PM entry, Exit, Abort flows supported Dynamic clock gang at adapter supported Configurable Options: Maximum link width (x1, x2, x4, x8, x16) MPS (128B to 4KB) MRRS (128B to 4KB) Transmit retry/Receive buffer size Number of Virtual Channels L1 PM substate support Optional Capability Features can be Configured Number of PF/VFDMA configurable Options AXI MAX payload size Variations Multiple CPI Interfaces (Configurable) Cache/memory configurable Type 0/1/2 device configurable
Overview: The Expanded Serial Peripheral Interface (xSPI) Master/Slave controller offers high data throughput, low signal count, and limited backward compatibility with legacy SPI devices. It is designed to connect xSPI Master/Slave devices in computing, automotive, Internet of Things, embedded systems, and mobile processors to various peripherals such as non-volatile memories, graphics peripherals, networking devices, FPGAs, and sensor devices. Key Features: Compliance with JEDEC standard JESD251 eXpanded SPI for Non-Volatile Memory Devices, Version 1.0 Support for Single master and multiple slaves per interface port Single Data Rate (SDR) and Double Data Rate (DDR) support Source synchronous clocking Deep Power Down (DPD) enter and exit commands Eight IO ports in standard, expandable based on system requirements Optional Data Strobe (DS) for write masking bit wide SDR transfer support Profile 1.0 Commands for non-volatile memory device management Profile 2.0 Commands for read or write data for various slave devices Applications: Consumer Electronics Defense & Aerospace Virtual Reality Augmented Reality Medical Biometrics Automotive Devices Sensor Devices
Our Expanded Serial Peripheral Interface (JESD251) Master controller features a low signal count and high data bandwidth, making it ideal for use in computing, automotive, Internet of Things, embedded systems, and mobile system processors. It connects multiple sources of Serial Peripheral Interface (xSPI) slave devices, including nonvolatile memories, graphics peripherals, networking peripherals, FPGAs, and sensor devices. Features • Compliant with JEDEC standard JESD251 expanded Serial Peripheral Interface (xSPI) for Non-Volatile Memory Devices, Version 1.0. • Supports a single master and multiple slaves per interface port. • Supports Single Data Rate and Double Data Rate. • Supports source synchronous clocking. • Supports data transfer rates up to: o 400MT/s (200MHz Clock) o 333MT/s (167MHz Clock) o 266MT/s (133MHz Clock) o 200MT/s (100MHz Clock) • Supports Deep Power Down (DPD) enter and exit commands. • Standard support for eight IO ports, with the possibility to increase IO ports based on system performance requirements. • Optional support for Data Strobe (DS) for writemasking. • Supports 1-bit wide SDR transfer. • Supports Profile 1.0 commands to manage nonvolatile memory devices. • Supports Profile 2.0 commands to read or writedata for any type of slave device. • Compatible with non-volatile memory arrays such as NOR Flash, NAND Flash, FRAM, and nvSRAM. • Compatible with volatile memory arrays such as SRAM, PSRAM, and DRAM. • Supports register-mapped input/output functions. • Supports programmable function devices such as FPGAs. Application • Consumer Electronics. • Defence & Aerospace. • Virtual Reality. • Augmented Reality. • Medical. • Biometrics (Fingerprints, etc). • Automotive Devices. • Sensor Devices. Deliverables • Verilog Source code. • User Guide. • IP Integration Guide. • Run and Synthesis script. • Encrypted Verification Testbench Environment. • Basic Test-suite.
Overview: PCIe Gen6 is a high-speed, layered protocol interconnect interface supporting speeds up to 64GT/s, featuring multi-lanes and links. The Transport, Data Link, and Physical layers specified in the PCIe specification are implemented, along with PIPE interface logic connecting to PHY and AXI Bridging logic for application connectivity. Specifications: Supports PCIe Gen 6 and Pipe 5.X Specifications Core supports Flit and non-Flit Mode Lane Configurations: X16, X8, X4, X2, X1 AXI MM and Streaming supported Supports Gen1 to Gen6 modes Data rate support of 2.5 GT/s, 5 GT/s, 8 GT/s, 16 GT/s, 32 GT/s, 64 GT/s PAM support when operating at 64GT/s Encoding/Decoding Support: 8b/10b, 128b/130b, 1b/1b Supports SerDes and non-SerDes architecture Optional DMA support as plugin module Support for alternate negotiation protocol Can operate as an endpoint or root complex Lane polarity control through register Lane de-skew supported Support for L1 states and L0P Support for SKP OS add/removal and SRIS mode No equalization support through configuration Deemphasis negotiation support at 5GT/s Supports EI inferences in all modes Supports PTM, OBFF, MSI, MSIX, Power management, and all message formats
Overview: The Multi-Protocol Accelerator IP is a versatile technology designed to support low latency and high bandwidth accelerators for efficient CPU-to-device and CPU-to-memory communication. It also enables switching for fan-out to connect more devices, memory pooling for increased memory utilization efficiency, and provides memory capacity with support for hot-plug, security enhancements, persistent memory support, and memory error reporting. Key Features: CXL 3.0 Support: Compliant with CXL spec V3.X/V2.X PCIe Compatibility: Supports PCIe spec 6.0/5.0 CPI Interface: Support for CPI Interface AXI Interface: Configurable AXI master, AXI slave Bus Support: PIPE/FLEX bus, Lane x1,x2,x4,x8,x16 Protocol Support: Gen3, Gen4, Gen5 & Gen6, Fallback Mode Register Checks: Configuration and Memory Mapped registers Dual Mode: Supports Dual Mode operation Transfer Support: HBR/PBR & LOpt Transfers, Standard Cache and Mem Transfers CXL Support: Can function as both CXL host and device Data Transfer: Supports Standard IO, 68Byte Flit, and 256Byte Flit Transfers FlexBus Features: FlexBus Link Features, ARB/MUX, ARB/MUX Bypass Optimization: Latency Optimization, Credit Return Forcing, Empty Flits (Latency Optimized) Power Management: Supports Power Management features Enhancements: CXL IDE, RAS Features, Poison & Viral Handling, MLD/SLD Testing: Compliance Testing and Error Scenarios support
Our Expanded Serial Peripheral Interface (JESD251) Slave controller offers high data throughput, low signal count, and limited backward compatibility with legacy Serial Peripheral Interface (SPI) devices. It is used to connect xSPI Master devices in computing, automotive, Internet of Things, embedded systems, and mobile system processors to non-volatile memories, graphics peripherals, networking peripherals, FPGAs, and sensor devices. Features • Compliant with JEDEC standard JESD251 expanded Serial Peripheral Interface (xSPI) for Non-Volatile Memory Devices, Version 1.0. • Supports Single Data Rate (SDR) and Double Data Rate (DDR). • Supports source synchronous clocking. • Supports data transfer rates up to: o 400MT/s (200MHz Clock) o 333MT/s (167MHz Clock) o 266MT/s (133MHz Clock) o 200MT/s (100MHz Clock) • Supports Deep Power Down (DPD) enter and exit commands. • Standard support for eight IO ports, with the possibility to increase IO ports based on system performance requirements. • Optional support for Data Strobe (DS) for timing reference. • Supports 1-bit wide SDR transfer. • Supports Profile 1.0 commands to manage nonvolatile memory devices. • Supports Profile 2.0 commands for reading or writing data for any type of slave device. • Compatible with non-volatile memory arrays such as NOR Flash, NAND Flash, FRAM, and nvSRAM. • Compatible with volatile memory arrays such as SRAM, PSRAM, and DRAM. • Supports register-mapped input/output functions. • Supports programmable function devices such as FPGAs. Application • Consumer Electronics. • Defence & Aerospace. • Virtual Reality. • Augmented Reality. • Medical. • Biometrics (Fingerprints, etc). • Automotive Devices. • Sensor Devices. Deliverables • Verilog Source code. • User Guide. • IP Integration Guide. • Run and Synthesis script. • Encrypted Verification Testbench Environment. • Basic Test-suite.
iWave Global introduces the ARINC 818 Switch, a pivotal component in the management and routing of video data within avionics systems. Designed for applications that require efficient video data distribution and management, the switch is optimized for performance in environments with stringent data handling requirements. The switch's architecture supports a high level of bandwidth, allowing for the smooth routing of multiple video streams in real-time. Its design includes advanced features that ensure low-latency, error-free data transfer, integral to maintaining the integrity and reliability of video data in critical applications. Featuring robust interoperability characteristics, the ARINC 818 Switch easily integrates into existing systems, facilitating modular expansion and adaptability to new technological standards. It is indispensable for any aerospace project that involves complex video data management, providing a stable platform for video data routing and switching.
eSi-Connect offers an extensive suite of AMBA-compliant peripheral IPs designed to streamline SoC integration. This suite encompasses versatile memory controllers, standard off-chip interface support, and essential control functions. Its configurability and compatibility with low-level software drivers make it suitable for real-time deployment in complex system architectures, promoting reliable connectivity across various applications.
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 HOTLink II Product Suite from Great River Technology exemplifies a high-performance video and data communication solution, tailored to meet the demanding requirements of aerospace applications. This suite is designed to facilitate the seamless transfer of high-speed data using the HOTLink II protocol, supporting the implementation of systems that require synchronization and reliability. With its focus on bridging video interfaces efficiently, Great River Technology provides a formidable toolset for avionics engineers looking to streamline their data communication systems. Leveraging the HOTLink II suite, users can expect a credible solution that offers both adaptability and robust performance, capable of integrating into a multitude of platforms. Great River Technology's commitment to technical excellence delivers a product suite that not only caters to current industry needs but is also adaptable for future advancements within the domain of video data exchange systems. By combining the tools and expertise offered in this suite, clients can develop, test, and implement HOTLink II systems that enhance communication capabilities within their network infrastructure. The suite is backed by comprehensive support to ensure optimal performance in all stages of product deployment, making it a vital component in achieving strategic communication objectives in aerospace technology.
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.
iWave Global delivers the Serial FPDP (sFPDP) solution, a high-bandwidth, low-latency serial communication protocol widely deployed in high-performance computing systems. This technology is optimized for applications that require rapid data transport, such as radar and high-definition video processing, making it a vital tool in industrial and defense sectors. By supporting high throughput rates, the Serial FPDP ensures timely and reliable data transmission, crucial for systems where time sensitivity and data integrity are paramount. The solution is particularly designed to address real-time data operations, ensuring that data handling meets rigorous industry standards. With its robust design, the Serial FPDP accommodates various network topologies, allowing for the flexible deployment of communication systems. This flexibility and performance make it highly applicable in environments where system designers demand unobstructed high-speed data transfer capabilities.
The KL530 is built with an advanced heterogeneous AI chip architecture, designed to enhance computing efficiency while reducing power usage. Notably, it is recognized as the first in the market to support INT4 precision and transformers for commercial applications. The chip, featuring a low-power ARM Cortex M4 CPU, delivers impressive performance with 1 TOPS@INT 4 computing power, providing up to 70% higher processing efficiency compared to INT8 architectures. Its integrated smart ISP optimizes image quality, supporting AI models like CNN and RNN, suitable for IoT and AIoT ecosystems.
Designed to cater to high-definition digital display interfaces, the DisplayPort/eDP solutions provided by Silicon Library offer robust support for both consumer and professional electronics. Adhering to version 1.4 specifications, these solutions are built to handle high-resolution display data, delivering exceptional image quality and color depth needed in high-end display setups. The DisplayPort/eDP solutions enable streamlined digital video and audio transmission paths, directly catering to the needs of modern display technology. Whether utilized for computer monitors, laptops, or televisions, these solutions provide scalable connectivity, ensuring that devices can manage both high bandwidth and diverse media content effectively. Engineered for a broad range of applications, these solutions are suited for professionals seeking reliable and versatile digital interfacing options. They are optimized for performance with a focus on maintaining low latency and robust color fidelity, essentials for demanding image rendering and graphic display tasks.
Digital Blocks' DB9000AXI Display Controller is a sophisticated solution for driving a wide spectrum of display resolutions including standard Full HD and up to advanced 4K and 8K panels. Built on the AMBA AXI Protocol, this controller interfaces seamlessly with Frame Buffer Memory to deliver high-quality images via display panels. Users benefit from diverse programmable features such as overlay window composition, along with color space conversion, allowing detailed image processing that enriches display presentations.
Packetcraft's Bluetooth LE Audio Solutions offer a full suite of host, controller, and LC3 components optimized for seamless transition to Bluetooth LE Audio. The platform supports Auracast broadcast audio and True Wireless Stereo (TWS), making it adaptable to prevalent chipsets and providing flexibility to product companies. The modular design facilitates simplified integration, ensuring companies can leverage advanced audio capabilities in a variety of applications. As Bluetooth audio technology evolves, Packetcraft remains at the leading edge, offering industry-leading solutions that cater to modern audio requirements.
The RISC-V Hardware-Assisted Verification by Bluespec is designed to expedite the verification process for RISC-V cores. This platform supports both ISA and system-level testing, adding robust features such as verifying standard and custom ISA extensions along with accelerators. Moreover, it offers scalable access through the AWS cloud, making verification available anytime and anywhere. This tool aligns with the needs of modern developers, ensuring thorough testing within a flexible and accessible framework.
The ARINC 818 Product Suite by Great River Technology is an industry-leading collection of tools and solutions designed to address every aspect of ARINC 818 protocol implementation. This suite provides comprehensive resources for developing, qualifying, testing, and simulating ARINC 818 products, ensuring seamless integration and operation in mission-critical environments. With a focus on the unique requirements of avionics systems, this product suite supports a wide range of high-fidelity video and data communications applications. Great River Technology's suite is renowned for its role in helping organizations bring ARINC 818 products to fruition, offering unparalleled support throughout the product lifecycle. Their guidance in the protocol's implementation is enhanced by an expansive set of development tools and resources, making them a preferred partner for companies looking to enhance their avionics capabilities. This integration capability is essential for creating robust systems that meet the rigorous demands of modern aerospace engineering. The ARINC 818 Product Suite is complemented by expert service and support from Great River Technology, ensuring that customers not only receive top-tier products but also benefit from the company’s extensive experience in the field. As a cornerstone of the company’s offerings, the ARINC 818 suite empowers clients to deliver exceptional performance in their aviation technology projects.
The Aeonic Integrated Droop Response System is an innovative solution that mitigates voltage droop while enabling detailed droop monitoring and fine-grained DVFS capability. This system is designed to handle droop in complex integrated circuits efficiently, reducing power consumption significantly. It delivers fast adaptation to droop scenarios, leveraging multi-threshold detection and robust interfacing capabilities, making it indispensable for modern silicon health management and lifecycle analytics.
The InfiniBand Transport Layer Core is engineered to deliver exceptional performance in data handling and high-bandwidth applications. Suitable for Data Acquisition and High-Performance Computing, it supports advanced UC SEND and RDMA Write operations across one to eight virtual lanes with up to 1024 Queue Pairs. This core is pivotal for creating powerful Target Channel Adapters, enabling efficient data transfer with minimal latency. Its versatility supports a range of applications like bridging PCI to InfiniBand and integrating with various high-speed data protocols.
Designed for robust data throughput, the InfiniBand DDR Link Layer Core offers enhanced speed and efficiency for data-centric applications. Operating at 250 MHz, it supports bidirectional speeds up to 20 Gbits per second and requires a 5 GHz SerDes for optimal performance. This core is utilized in advanced Xilinx and Altera FPGA platforms and is suitable for a variety of ASIC applications. With support for medium speed grades, it integrates seamlessly into existing systems, providing a reliable backbone for high-performance data transmission applications.
Bluespec's Portable RISC-V Cores offer a versatile and adaptable solution for developers seeking cross-platform compatibility with support for FPGAs from Achronix, Xilinx, Lattice, and Microsemi. These cores come with support for operating systems like Linux and FreeRTOS, providing developers with a seamless and open-source toolset for application development. By leveraging Bluespec’s extensive compatibility and open-source frameworks, developers can benefit from efficient, versatile RISC-V application deployment.
The Universal Drive Controller by Enclustra is an IP core designed for comprehensive motion control, managing up to eight drives per controller. Suitable for DC, BLDC, and stepper motors, it integrates position control, field-oriented control, and trajectory planning within a single FPGA, eliminating the need for separate drive control chips. This reduces both PCB space and overall system costs. Optimized for integration in FPGA systems, the controller offers robust error handling and customizability, making it ideal for applications requiring precise motor control.
Analog Bits' I/O solutions offer highly efficient differential clocking and crystal oscillator IPs with customizable options for die-to-die connectivity. These technologies are optimized to utilize minimal transistors while ensuring the highest quality of signal transmission. Demonstrating proven silicon performance at 5nm and developments at 3nm, the company's I/O solutions are at the forefront of innovation, meeting high-volume production demands across top-tier fab facilities. These products are tailored to specifically address customer requirements, ensuring optimal operation with precision in signal integrity and low power usage, offering users flexibility in implementation across systems.
aiSim 5 stands as the world's first simulator for automotive applications to achieve ISO26262 ASIL-D certification, ensuring that it meets rigorous safety and reliability standards. This advanced simulator enables high-fidelity simulation for ADAS and autonomous driving systems, helping engineers validate automotive technologies in a virtual setting. A key feature of aiSim 5 is its use of a proprietary rendering engine that handles both the physics-based simulation of environments and exhaustive sensor animatics, presenting a nuanced representation of real-world conditions including varied weather and complex sensor setups. The simulator offers a modular architecture that integrates effortlessly with existing automotive toolchains through open APIs in C++ and Python. Extensive 3D asset libraries and aiFab scenario randomization functionalities add further versatility, allowing developers to simulate a multitude of roadway conditions and events to rigorously test autonomous capabilities. By utilizing AI-based rendering, aiSim 5 optimizes computing resources for efficient operation across multi-sensor configurations, providing unparalleled utility in scenarios extending from highways to urban environments. This tool is being adopted in high-mileage testing setups to enable a new standard of safety in automotive simulation, effectively reducing the reliance on costly real-road trials. Through its advanced simulation capabilities, aiSim 5 minimizes development time and yields a more streamlined and reliable validation process.
The YouMIPI solution from Brite Semiconductor provides comprehensive interfaces for MIPI protocols, specifically CSI and DSI solutions. These are crafted to enable seamless image signal processing from camera modules in multimedia applications.<br><br>With a strong emphasis on performance optimization and usability, YouMIPI enhances the integration of visual data, making it a cornerstone in high-definition video recording and streaming devices. The technology is tailored to boost the capabilities of modern digital cameras and display technologies.<br><br>YouMIPI supports efficient transmission speeds and clear signal pathways, ensuring that device manufacturers can achieve high-quality visual outputs without compromising on speed or efficiency.
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.
Certus Semiconductor's Analog I/O offerings bring ultra-low capacitance and robust ESD protection to the forefront. These solutions are crafted to handle extreme voltage conditions while securing signal integrity by minimizing impedance mismatches. Key features include integrated ESD and power clamps, support for broad RF frequencies, and the ability to handle signal swings below ground. Ideal for high-speed RF applications, these Analog I/Os provide superior protection and performance, aligning with the most demanding circuit requirements.
NOVELIC's ACAM in-cabin monitoring solution is a revolutionary 60 GHz radar sensor designed for comprehensive vehicle interior surveillance. It combines high precision sensing with privacy protection, providing an unobtrusive way to monitor the presence of passengers, including detecting whether a child has been left unattended. The technology is finely tuned to differentiate between living beings and objects, ensuring accurate readings without requiring a direct line of sight, therefore preserving passenger privacy. ACAM is equipped with versatile applications that enhance vehicle safety and comfort. Its features include the ability to detect seat occupancy, offer intrusion alerts, and monitor vital signs like respiration rates, even through obstacles like heavy clothing. The solution is designed to work seamlessly across various lighting and weather conditions, ensuring reliability and minimal false alarms. The innovative design of ACAM also includes gesture control capabilities, allowing for contactless operation of car features, thus improving driver focus and vehicle operation convenience. Consequently, this technology not only improves safety standards in vehicles but also aligns with future Euro NCAP requirements for modern passenger cars, providing an upgrade path for existing vehicles to achieve top safety ratings.
The ARINC 818-3 IP Core from iWave Global represents an advancement in avionics video interface technology, designed for high-speed and high-fidelity video data transmission. This IP core addresses the needs of modern aerospace systems that require robust video communication links both for military and commercial use. It supports a wide array of enhancements over previous generations, including increased bandwidth and improved signal integrity. This ensures that the ARINC 818-3 IP Core can handle the demands of next-generation avionic systems seamlessly, supporting advanced video processing and display systems. The core's design prioritizes modularity and scalability, allowing for easy integration and expansion to meet evolving system requirements. It is positioned as an essential tool for aviation applications demanding high reliability and accuracy in video data handling and display solutions, making it indispensable for new and retrofitted aerospace projects.
Oxytronic's iCan System is a modular solution designed for In-Flight Entertainment and Cabin Management Systems in the aviation sector. This comprehensive system integrates various modules for a customized entertainment and control experience for passengers and crew. With its modular design, the iCan System is highly adaptable, allowing airlines to tailor the integration of video, audio, and cabin control functionalities according to specific needs. This flexibility ensures that the system can meet the diverse demands of modern aviation, providing passengers with rich entertainment options while enabling efficient cabin management. The iCan System's robust architecture supports seamless and reliable operation, even under the demanding conditions of commercial flight. Its versatility and high performance make it a standout choice for airlines looking to enhance the passenger experience while maintaining efficient cabin control.
The ARINC 664 P7 IP Core by iWave Global is at the forefront of aviation network solutions, offering an advanced platform for Ethernet-based communication in aerospace systems. Known for adhering to stringent industry standards, this IP core provides reliable and efficient communication protocols essential for avionics Ethernet networks. It effectively manages high-speed data across network infrastructures, paving the way for streamlined operations within aircraft systems. The core supports features essential for critical networked systems, such as bandwidth allocation, prioritization of data flows, and quality of service mechanisms. Ideal for enhanced networking capabilities in aircraft, the ARINC 664 P7 IP Core ensures data communication integrity, which is essential for the safety-critical operations found in modern aviation environments. This core is crucial for developers aiming to create sophisticated onboard systems that require precise and dependable data exchange mechanisms.
Microdul AG offers a Capacitive Proximity Switch designed to maximize energy efficiency in electronic devices. This ultra-low-power switch leverages capacitive touch technology to detect user interaction, providing seamless operation for a variety of applications. By reliably sensing touch or proximity, the switch can serve as an effective tool for power management, turning devices on or into sleep mode based on user activity. This approach not only conserves energy but also enhances user experience by allowing intuitive device operation. The proximity switch is suitable for implementing simple user interfaces requiring only single or multiple touch points, such as sliders or virtual buttons. Its capacity to function in both standalone and integrated system environments makes it a versatile component in the design of modern electronics, particularly those relying on battery efficiency and extended operation times. Engineered with precision by Microdul, this switch supports enhanced functionality in devices across various sectors, including consumer electronics and industrial control. With the company's deep expertise in microelectronics, customers can rely on this switch to deliver both performance and energy savings.
The Domain-Specific RISC-V Cores from Bluespec are engineered to facilitate hardware acceleration in a streamlined and efficient manner. By packaging accelerators as software threads, these cores deliver high concurrency and efficient system performance. The scalability embedded in this technology caters to a range of application needs, enabling systematic hardware acceleration for developers and organizations aiming to optimize RISC-V implementations.
Advinno's LVDS (Low-Voltage Differential Signaling) technology is engineered to provide high-speed data transmission with low power consumption, making it an optimal choice for extending network and device longevity while minimizing overall energy usage. This technology is particularly beneficial in applications requiring high throughput with minimal electromagnetic interference. Advinno's LVDS ensures robust signal integrity and reduced crosstalk, essential for maintaining communication reliability across different electronic systems. The technology supports scalable data rates, which can be adjusted based on specific application needs, providing flexibility in system design and deployment. Ideal for applications ranging from computer interfaces to automotive infotainment systems, Advinno's LVDS enhances data handling capabilities, ensuring seamless integration and superior performance across diverse technological landscapes.
The ARINC 818-2 IP Core by iWave Global is engineered to support the high-speed video interface standard used in aerospace applications. This IP core signifies a leap in the integration of advanced video transmission protocols with existing avionics architectures. It is tailored for applications that demand highly reliable and efficient video data communications. Focusing on seamless compatibility, the ARINC 818-2 IP Core integrates easily into various platforms, ensuring minimal modifications and reduced time-to-market for development. This core supports high-speed data transfer rates, providing robust solutions for real-time video streaming and data transfer. Ideal for systems requiring precise video data handling, the ARINC 818-2 IP Core guarantees data integrity and synchronization across all transmission stages. Its versatile design allows for broad implementation across military and commercial aviation sectors, where data reliability and transfer efficiency are paramount.
The Xilinx FPGA Test Patterns by Polybus facilitate extensive testing for Xilinx FPGAs, enhancing the detection of defects and bolstering system reliability. This customizable suite includes over 400 test patterns designed to evaluate both the internal functionality and the extensive interconnects of FPGAs, far surpassing traditional manufacturer tests in coverage. By running these tests in-system, users can ensure the future upgradeability and robustness of their FPGA installations, minimizing the risk associated with field upgrades and handling defects.
The Flat Panel Display Interface for Advanced Processes from CURIOUS is a critical component for modern display technologies, allowing seamless integration of display panels with various electronic devices. Designed to accommodate high-speed video streaming, this interface supports several protocols, including MIPI D-PHY and LVDS, offering flexible deployment across consumer electronics. Its structure facilitates high-frequency data transfer, accommodating resolutions required by high-definition displays. This feature ensures minimal latency and enhanced image quality, making the interface ideal for applications in televisions, monitors, and other display systems where clarity and quick refresh rates are crucial. Additionally, the use of advanced processes in its design allows for reduced power consumption and increased performance stability. Suitable for numerous consumer electronic platforms, the interface is built to handle the high demands of next-generation display technologies, supporting advanced graphics and fluid motion displays. Integrating this interface can significantly enhance a device's visual performance, incorporating cutting-edge display technology with user-friendly connectivity solutions. Compatible with both advanced and mature process nodes, it provides designers with the flexibility needed to meet specific project requirements.
NOVELIC's hypr_gate is a high-speed data logger platform specifically crafted to manage and analyze extensive radar data streams. This versatile platform supports real-time data logging, streaming, and processing, making it a crucial asset for applications requiring detailed data analysis and sensor fusion. hypr_gate is expandable, allowing integration with various sensor types such as radar, lidar, and cameras, enhancing the breadth of data collection from multiple sources. This feature supports enhanced system redundancy and decision-making processes in complex environments. With robust data streaming capacity, hypr_gate ensures low-latency transmission and processing, key for applications in autonomous driving and other high-speed environments. The logger is equipped with various interface options, including USB, Ethernet, and SATA, providing flexibility in data integration and management across diverse applications.
The IMG DXS GPU represents a significant advancement in functionally safe graphics processing, making it highly suited for automotive applications where safety is paramount. This GPU integrates novel mechanisms to enhance safety while maintaining superior performance. By focusing on distributed safety and introducing features like Safety Pairs, the DXS GPU achieves high safety standards with remarkable efficiency gains, making it an optimal choice for automotive environments. Its architecture balances the need for safety with robust processing power, supporting next-generation automotive infotainment and cockpit solutions.
The InfiniBand QDR Link Layer Core is tailored for extreme data environments, operating at up to 500 MHz in ASICs and 250 MHz in FPGAs. It supports multiple data rates, including 1X, 4X, and 8X QDR operation, facilitating versatility in deployment. Suitable for both Xilinx and Altera platforms, the core is integral to systems requiring fast, efficient data handling capabilities. With an embedded PCS Layer, this core also accommodates high-speed SerDes interfaces, crucial for maintaining low-latency and high-throughput data processes in demanding networking systems.
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.
The Guiliani GUI Framework provides a comprehensive solution for developing intuitive graphical user interfaces in embedded systems. It includes tools and libraries for creating dynamic and effective GUIs that enhance user interaction and experience. The framework supports diverse display resolutions and configurations, ensuring flexibility and adaptability across various device types.
The pPOR01 is a critical Power-On Reset solution that ensures safe initialization of digital circuits by monitoring the supply voltage levels. This IP plays a fundamental role in maintaining system stability by generating a reset signal whenever the power supply deviates from specified thresholds, thus safeguarding against unexpected power fluctuations. Effectively designed for use in various digital logic environments, the pPOR01 offers a reliable method to ensure system integrity and operational correctness upon power-up. Its features include precise voltage sensing, minimal power consumption, and easy integration into diverse semiconductor processes, affirming its adaptability to various applications and technologies. The pPOR01's robust architecture is aimed at maximizing compatibility and performance across different power supply conditions, making it a vital asset in the arsenal of any digital designer looking to bolster the reliability and performance of their system's power management strategy.
The logiCVC-ML is a compact, multilayer video controller designed to support advanced display functionalities on TFT LCD panels up to 2048x2048 resolution. Tailored for deployment in AMD Zynq 7000 AP SoC and FPGA configurations, this controller ensures smooth integration with complex multimedia systems. It supports various software drivers compatible with Linux, Android, and Windows Embedded Compact 7, enabling seamless operation across diverse environments. With its design optimized for multitasking and dynamic visuals, the logiCVC-ML is an essential component for high-quality graphics display solutions in modern embedded applications.
The IMG CXM GPU stands out with its high efficiency, designed for varied applications ranging from smart home devices to augmented reality systems. It offers a flexible architecture that delivers superb graphics capabilities while maintaining a compact footprint and low power consumption. CXM is suitable for integrations that require rapid responsiveness and engaging user interfaces without compromising on performance. This GPU supports rich multimedia capabilities, fostering immersive user experiences in both consumer electronics and industrial settings. Its design ensures developers have the freedom to innovate across different IoT and wearable platforms.
The InfiniBand SDR Link Layer Core is engineered to facilitate high-speed data transfer in modern high-performance computing environments. This smaller core operates at a frequency of 125 MHz and achieves bidirectional data rates of 10 Gbits per second, making it ideal for FPGA and ASIC deployments. It supports popular FPGA platforms including Xilinx Virtex and Altera Stratix, ensuring broad compatibility and flexibility in various system configurations. With capabilities to operate in lower speed grades, it efficiently supports a range of applications while maintaining performance integrity.
EMI Flex Filters are advanced electromagnetic interference solutions tailored for critical applications. These filters are engineered to combat EMI challenges, ensuring high-performance signal clarity and reducing error rates in complex environments. Built with a flexible, ultra-thin form factor, they adapt seamlessly to various surfaces and tight enclosures, providing exceptional EMI attenuation while minimizing signal loss. These filters excel in supporting high-speed data communication, compatible with frequencies up to 50 GHz, making them ideal for 5G and radar applications. The EMI Flex Filters are designed to meet stringent military and aerospace standards, ensuring long-term reliability even in harsh conditions. They are customizable, allowing for tailored solutions specific to the requirements of diverse devices, including IoT and medical technology. These filters are trusted by top defense and tech industries, recognized for their proven track record in enhancing signal integrity and operational security. Applications span multiple sectors, including military, aerospace, telecommunications, and automotive, where secure communication and operational security are paramount. Their use in IoT devices prevents EMI disruptions in densely packed settings, while their role in automotive systems supports high-frequency power operations.
The H.264 UHD Hi422 Intra Video Decoder by Atria Logic is a high-performance hardware-based solution built for ultra-high-definition video applications. It is particularly adept at handling Intra-only coding at impressive resolutions up to 3840x2160p30. Designed with low latency requirements in mind, it serves vital roles across medical imaging, broadcast, and industrial monitoring domains. Its architecture ensures the retention of video quality with full 10-bit video support, which maintains rich color depths and sharp images crucial in medical diagnostics. Leveraging sophisticated pipelined architecture, the decoder minimizes latency to approximately 0.3 milliseconds, making it ideal for seamless real-time professional applications.
Paired seamlessly with its decoder counterpart, the H.264 UHD Hi422 Intra Video Encoder from Atria Logic is a sophisticated hardware solution that ensures superior video quality for UHD scenarios. It maintains high fidelity in color and grayscale presentation by supporting 10-bit video content across applications ranging from medical imaging to industrial video surveillance. The encoder accomplishes this by employing efficient Intra-only coding and leveraging a low-latency pipeline that reduces delay to just a few milliseconds. This capability makes it an invaluable tool for real-time video streaming in both static and dynamic professional environments.
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