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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.
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.
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.
The NVMe Host Controller from iWave Global offers an advanced solution for managing NVMe drive interfaces in computing systems. This controller is designed to facilitate the high-speed data exchange that NVMe drives demand, streamlining operations across data-centric applications. Engineered for scalability and performance, the NVMe Host Controller supports high data throughput, ensuring quick access and transfer of data between storage devices and host systems. Its design caters to the demands of modern computational environments where rapid data retrieval and storage are critical. The controller is integral in systems requiring high-performance storage solutions, and its support for multiple interfaces underscores its adaptability and broad applicability in data-intensive industries such as enterprise storage and high-performance computing.
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.
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 ARINC 818-2 Single Channel Conversion Card from iWave Global provides a high-performance solution for the conversion of video data across different standards while maintaining signal integrity. This IP core is engineered to support a range of applications where reliable video data conversion is vital. The card offers seamless integration with existing systems and supports various video transmission standards. This conversion card is particularly beneficial in aerospace and defense applications, where data accuracy and reliability are non-negotiable. With its ability to handle high-bandwidth video streams efficiently, it aids in the smooth conversion and transmission of video data. The card's robust design ensures durability, making it suitable for use in harsh environments. The ARINC 818-2 Single Channel Conversion Card enhances data conversion processes by offering low-latency video signal handling and extended protocol support. These features ensure that the card meets the rigorous demands of real-time video data processing, providing a reliable and efficient solution for complex video conversion needs.
iWave Global's ARINC 818-2 Multi-Channel Conversion Card is designed for high-efficiency conversion of video data across multiple channels. This card is ideal for aerospace environments where managing numerous data streams is crucial for operations. It integrates seamlessly into existing systems, offering compatibility with a variety of video standards. Built to operate under stringent conditions, the multi-channel variant supports multiple video streams concurrently, enhancing operational efficiency in data-intensive applications. It is a critical component for systems requiring simultaneous handling of various video data sources without compromising on speed or accuracy. The card's architecture is focused on reducing latency while maximizing throughput, ensuring a consistent and reliable performance across applications like avionics, where data precision and system integration are essential. With its advanced capabilities, the ARINC 818-2 Multi-Channel Conversion Card is an indispensable tool for complex video data management in dynamic aviation environments.
iWave NAND Host Controller provides an easy interface to access NAND Flash Memory devices. This IP forms a bridge between the NAND flash and User (Processor), enabling to store, read and erase the data in NAND flash. The Controller has two different variants depending on the availability of the processor towards user side. One being the AXI complaint interface for accessing through processor and other is custom interface which can be used without the processor.
iW-PCIe to SD/MMC Bridge is the IP core which converts the PCIe to SD or MMC bus interface. The interface towards the SD or MMC card is realized by the SD or MMC protocol implemented in the controller.
SD Express FPGA IP core enables high-speed data transfer by leveraging PCIe and NVMe protocols over an SD card interface. It supports backward compatibility with legacy SD modes while offering significantly enhanced performance for storage applications. This enables the high-speed data transfer for next-generation storage applications as it supports the data rates significantly higher than traditional SD cards. Designed for FPGA-based implementations, it provides flexibility for custom storage solutions in embedded and industrial applications.
iWave’s SATA 3.0 Bridge Controller compliant with SATA 3.0 specification which provides bridging features between SATA Host (Processor/PC) and SATA Device. SATA 3.0 Bridge Controller is designed to ensure secure SSD/HDD in SATA compliant devices
The SATA Host Core is available for integration into host FPGA designs to provide an industry-compliant SATA 1.5-Gbps, SATA 3.0-Gbps, and SATA 6.0-Gbps interface. Serial ATA (SATA) are computer bus standards that have the primary function of transferring data (directly or otherwise) between the FPGA and mass storage devices such as a hard disk. SATA host controller along with AHCI controller enables the software to communicate with the SATA drives which are best suited for SOC devices.
Memory Slave Controller IP forms a bridge between the SD host and user interface, enabling the data transfer between each other. This IP will send the response to the SD host depending on the command issued and also communicates with the user through a register interface for control and status. The Controller has two different variants depending on the availability of the processor towards user side. One being the AXI4 -lite or AHB complaint interface for accessing through processor and other is simple general-purpose interface which can be used without the processor.
The UDP/IP Hardware protocol stack offloads UDP encapsulation task from the host processor enabling media streaming with speed up to 40G even in a processor less non-SoC designs, making it ideal for any standalone operation. This IP core provides an effective infrastructure to implement high-speed communication between the FPGA and other network devices. It supports easy to use AXI streams on the FPGA to connect to the network devices.
iWave’s ARINC 429 IP is a high-performance solution for integrating ARINC 429 data buses into avionics systems. It enables reliable, real-time communication between avionics equipment with efficient, fault-tolerant data exchange. The IP supports both transmit and receive functions, offers customizable data rates, and includes advanced error detection for data accuracy. Its hardware-based communication layer ensures low latency, high integrity, and robust performance, making it ideal for aerospace applications.
iWave eMMC 5.1 Controller interfaces MMC / eMMC card to any processor with a generic interface. The interface towards the eMMC is realized by the eMMC protocol implemented in the controller. The core supports AXI4-Lite interface for the control and status register access and AXI4-MM interface for data transfer through ADMA2 mode.
iW-SD/SDIO 3.0 Host controller is compatible with the SD Physical Layer specification V3.0. The core supports AXI4-Lite interface for the control and status register access and AXI4-MM interface for data transfer through ADMA2 mode. The Host interface is compatible with the standard register set for the host controller as per SD host controller specification Version 3.0.
SDIO Slave controller facilitates the design of SDIO cards and reduces the development time. By using this IP core, customers no longer need to spend time on handling the SD bus protocol since such function is provided by the core.
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