As an embedded design and engineering services company offering an extensive portfolio of FPGA & SoC FPGA system on modules and embedded computing solutions, iWave is committed to being your reliable technology partner. With over 25 years of expertise and projects on Arria®, Intel Agilex®, Intel® Stratix®, Cyclone® devices, and Intel® Quartus® Prime Design Software development tools, iWave helps customers in their product development and innovation journey while shortening their product design and development cycle. With a key focus on industrial, medical, automotive, and defense, iWave offers the highest level of expertise and ensures product longevity and extensive customization/integration support. In addition to our SoM portfolio and engineering design services, we take pride in providing an extensive suite of proven, optimized, and easy-to-use FPGA IP Cores along with reference designs to complement & quicken the development of your application. Our extensive suite of IP Cores includes ARINC 818 complete suite, storage, and legacy x86 processors and its peripherals that cover all key markets and applications.
Offerings
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The iW-RainboW-G58M System on Module from iWave features the Agilex™ 5 FPGA. The SoM is built in a compact form factor of 60mm x 70mm and is equipped with 4GB LPDDR4 for HPS, Dual 32Bit 4GB LPDDR4 for the FPGA, and a 32GB eMMC which is expandable. The Agilex™ 5 SoM supports 24 transceivers up to 28 Gbps, a PCIe Gen 4 connectivity interface, and a 2.5 Gigabit Ethernet PHY transceiver. This Agilex™ 5 System on Module is availabe in industrial grade and supports a temperature range of -40 to +85 deg.C, with a product longevity of 10 years.
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The Agilex™ 7 SmartNIC Storage and Network Accelerator Card is a high-performance PCIe Gen4 x16 network interface designed to enhance data processing in computing and networking applications. It features 400GbE Ethernet connectivity for high-bandwidth tasks, alongside NVMe slots for rapid storage access. With 8GB of High-Performance System (HPS) DDR4 memory, it provides substantial resources for complex processing. This SmartNIC is versatile, making it suitable for various sectors such as industrial, medical, automotive, and avionics, ultimately delivering a robust solution for organizations aiming to improve network performance and data handling capabilities.
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Agilex™ 7 R24C Development Kit incorporates Intel Agilex® 7 SoC and FPGA SoM, high-performance carrier board providing complete BSP support, allowing customers to efficiently develop prototypes and validate high-speed I/Os and interfaces. The development kit is a ready-to-use platform supporting features such as a QSFP28/QSFP+ connector for high-speed data transfer rates up to 100Gbps, and an SFP+ connector for 10Gbps Ethernet and fiber channel applications. The kit also includes 12G SDI Video IN and OUT through HD BNC connectors for high-definition video input and output, and 4K HDMI 2.0 IN and OUT through HDMI connectors for ultra-high-definition video streaming and display.
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Agilex™ 5 FPGA Development Kit comprises of the Intel Agilex® 5 SoC and FPGA SoM, high performance carrier card with complete BSP support enabling customers to develop rapid prototypes and validate the highspeed interfaces and I/Os. The Development Kit is a ready-to-use platform featuring 32-bit 4GB LPDDR4 for the HPS and dual 32-bit 4GB LPDDR4 for the FPGA which makes it suitable for Development platform comprising 2.5G Ethernet RJ45 MagJack and Gigabit Ethernet RJ45 MagJack, Micro SD Connector, TypeC USB connector for Debug, JTAG Connector and also PCIe Gen4 x4.
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The iW-RainboW-G51M System on Module is powered by the Agilex™ 7 R24C FPGA Family. Two High-Speed High Density ruggedized terminal strip connectors and One High-Speed High-Density connector on the SoM facilitates a carrier board to carry all the I/O signals to and from the Intel® Agilex™ 7 SoC FPGA SOM. The SOM Supports 32 x FGT transceivers up to 32Gbps speed in NZR mode and up to 58Gbps speed in PAM4 Mode. The Agilex™ 7 R24 SoM is buillt on a compact form factor of 110mm x 75mm and is availabe in Industrial Grade.
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The Arria®10 SoC System on Module is based on the Arria®10 SX family device with F34 package. The module is equipped with 32-bit DDR4 memory support for HPS with ECC and 64-bit DDR4 support for FPGA. All the IOs and high-speed transceiver blocks will be available on the SOM board to board connectors. The Arria®10 SoC System On Module is aimed to offer applications such as Test and measurement equipment, Control and intelligence equipment, Diagnostic medical imaging equipment, Wireless infrastructure equipment, Compute and storage equipment, Broadcast and distribution equipment.
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Cyclone® V SoC Development Kit – iW-RainboW-G17D equipped with Cyclone® V SoC based Qseven SOM and generic Qseven carrier card for the increased system performance requirements. The Dual ARM Cortex A9 core with the FPGA allows greater flexibility for the system designers and helps to lower the system cost and power consumption. The improved logic integration with integrated high speed transceivers and hard memory controllers provides increased bandwidth capacity which is ideal for cost sensitive high end applications.
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The ARINC818 Embedded card shall be installed in an avionics application. The card shall have 6U size CPCI PICMG 2.0 Rev 3.0 backplane compliance with necessary card locking mechanism for fitment into the backplane cPCI chassis. ARINC 818 Embedded card offers speeds up to 512 MB/s of DMA transfer and up to a 6 Gb/s link rate for ARINC 818. Copper interfaces offer speeds up to 1.5 Gb/s. These cards can capture video over the DVI link and transmit video over ARINC 818 using either fiber or copper. They can also receive video and display the video via DVI
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iWave’s Cyclone® V-based 6U cPCI Card is a rugged standalone module compliant with a 6U size CPCI PICMG 2.0 Rev 3.0 backplane, aimed for high-speed data, video processing, and display applications. The card offers speeds up to 512MB/s of DMA transfer and up to 6 channels of transceiver interfaces capable of operating up to 6 Gbps, SFP, Built-in health monitoring circuits, DVI Input, and Output Interfaces.
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Agilex™ 7 R31B/C Development Kit incorporates Intel Agilex® 7 SoC and FPGA SoM, high-performance carrier board offering comprehensive BSP support. The Development Kit supports features such as dual upto 400G & dual upto 200G ethernet through QSFP112 connectors, PCIe x16, gigabit ethernet, and FMC+ connectors to enhance the capabilities of the carrier card. The SoM in it features Quad-core 64-bit Arm Cortex-A53 up to 1.50 GHz with programmable LEs up to 2.7 million, high-speed connectivity peripherals up to 8 FHT high-speed transceivers and up to 64 FGT General purpose transceivers.
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Arria® 10 FMC+ Development Kit comprises of Arria® 10 SoC/FPGA SoM and high performance carrier board with full BSP support, enabling customers to swiftly develop prototypes and validate high-speed interfaces and I/Os. The SoM in it is equipped with 32-bit DDR4 memory support for HPS with ECC and 64-bit DDR4 support for FPGA and 24 Channels High Speed Transceivers. The development kit also includes a VITA 57.4 FMC+ High Pin Count (HPC) connector for high-speed and high-density I/O, a PCIe Gen3 x4 connector for high-bandwidth data transfer, and an NVMe M.2 connector (PCIe x4) for high-speed storage solutions.
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Stratix® 10 GX/SX SoC FPGA Development Kit incorporates Stratix® 10 GX/SX SoC and FPGA SoM, high-performance Carrier board with complete BSP support. The Stratix® 10 Development Kit is a ready-to-use platform enabling customers to develop rapid prototypes and validate the highspeed interfaces and I/Os.The Development Kit comprises of 10G & 100G Ethernet, FMC & FMC+ connectors, Gigabit ethernet & USB2.0 OTG with the Stratix 10 SX SoM featuring 72-bit DDR4 for HPS inclusive of 8-bit ECC and 2 x 64bit DDR4 for FPGA.
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Arria® 10 SoC/FPGA Development Kit comprises of Arria® 10 SoC/FPGA SoM and robust carrier board equipped with comprehensive BSP support, designed to help customers quickly prototype and verify high-speed interfaces and I/Os. The SoM in it is equipped with 32-bit DDR4 memory support for HPS with ECC and 64-bit DDR4 support for FPGA and 24 Channels High Speed Transceivers. The Carrier board supports wide range of highspeed interfaces like FMC (HPC) Connectors, SATA, SFP+, PCIe Gen3 x 1 connector, Display port, SDI IN & OUT connectors to validate Arria® 10 FPGA high speed transceivers and other on-board connectors to validate Arria® 10 SoC interfaces.
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Arria® 10 FPGA Development Kit comprises of the Intel Arria® 10 FPGA SoM and the high performance carrier card. The Development Kit is a ready-to-use platform enabling customers to develop rapid prototypes and validate the highspeed interfaces and I/Os. The SoM in it is equipped with 4-GB DDR4 RAM & 2-GB DDR4 RAM for FPGA with upto 1150K Logic Elements and 24 High Speed transceivers. The Carrier board supports wide range of highspeed interfaces like FMC (HPC) Connectors, SATA, SFP+, PCIe Gen3 x 1 connector, Display port and SDI IN & OUT.
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The iW-RainboW-G43M SoM from iWave is powered by the Agilex™ 7(R31B/C package family). The SoM is equpped with 8GB DDR4 for HPS and 2x 8GB DDR4 for the FPGA. The SoM is power-packed with up to 2.7M programmable logic elements and supports primary interface and components such as Gigabit Ethernet, USB2.0 port, JTAG, UART, onboard DDR4 and eMMC flash for storage and high-speed transceivers. This Agilex™ 7System on Module is availabe in industrial grade supporting a temperature range of -40 to +85 deg.C, with a product longevity of 10 years.
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The Arria®10 FPGA System on Module is built on the Arria® 10 GX family device. This module is equipped with 4-GB DDR4 RAM (64bit) support for FPGA. All the IOs and high-speed transceiver blocks will be available on the SOM board to board connectors. The SoM has and supports Two 240pin high speed ruggedized terminal strip connectors which provide the carrier board interfaces to carry all the I/O signals to and from the System on Module.
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The iW-RainboW-G45M Stratix® 10 GX/SX SoM is compatible with SX850, SX1100, SX1650, SX2100, SX2500, SX2800 variants. The SoM supports up to 48 high speed transceivers up to 28.3 Gbps. The SoM is integrated with 32GB eMMC Flash, 1Gb QSPI Flash, 8GB DDR 4 for the HPS and 2x 8GB DDR4 for the FPGA. The SoM is integrated with a Gigabit Ethernet Phy, USB 2.0 OTG Transceiver and JTAG Headers.
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ARM Cortex A9 Dual core CPU integrated with FPGA with up to 110K LEs Enhanced with integrated transceivers and hard memory controller Readily available FPGA IP cores for integration R2.0 Qseven compatible module First ARM based Qseven SOM module with PCIe x 4 lane support
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iWave's Arria® 10 SoC System on Module is based on the Arria® 10 SX family device with F34 package. The module is equipped with 32-bit DDR4 memory support for HPS with ECC and 64-bit DDR4 support for FPGA. All the IOs and high-speed transceiver blocks will be available on the SOM board to board connectors. The Arria® 10 SoC System On Module is aimed to offer applications such as Test and measurement equipment, Control and intelligence equipment, Diagnostic medical imaging equipment, Wireless infrastructure equipment, Compute and storage equipment, Broadcast and distribution equipment. Compatible Arria® 10 SoC Family - SX270, SX320, SX480, SX570, SX660 With up to 660K Logic Elements, and 24 High Speed Transceivers.
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Color Space Converter converts video data from one color space format to another format. It is necessary to transfer data between devices which used different color space.
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8259A Interrupt Controller is designed to transfer the interrupt with highest priority to the CPU, along with interrupt address information.
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8530 MPSC Controller (Multi-Protocol Serial Communication Controller) is a general-purpose communication controller which consists of two sets of bi-directional parallel / serial converter circuits for data communication.
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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. The SATA host controller along with the AHCI controller enables the software to communicate with the SATA drives which are best suited for SOC devices.
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SDIO to UART bridge is an IP core which converts SDIO slave to UART bus interface. 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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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.
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sFPDP IP Core is based on ANSI/VITA 17.1-2015 Standards. This IP core provides a relatively simple protocol using maximum available data throughput with a minimum protocol for point-to-point data links. sFPDP links support a wide range of physical interfaces upto 10 gigabits per second multimode fiber.
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"NAND Flash Memory Controller, 8/16-bit Async Interface, IP not device specific, any device having 8/16 interface can be supported IP capable to do ECC using Hamming Code Support for BBM"
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PCI Controller provides an interface between the PCI bus and user interface. PCI core interface is processor independent, enabling an efficient transition to future processor generations and use with multiple processors.
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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.
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iWave’s ARINC IP core is ARINC 818–2 compliant offering point-to-point, high-speed, low latency video transmission. This IP core can be implemented on any transceiver-based FPGA device. It can be used for both transmit and receive applications. This core supports configurable ADVB video formats and uses a simple streaming interface to interface with video & image processing IP cores supported by FPGA vendors.
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The 80186XL is a powerful 16-bit microprocessor core, executes instruction list compatible with 80186XL microprocessor. The 80186XL core has a broad set of integrated peripherals, which helps reduce system development time and cost and is compatible with wide range of compilers and debuggers. The design along with multiple peripherals can be fit into single FPGA.
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The 80186EC is a powerful 16-bit microprocessor core, executes instruction list compatible with 80186EC microprocessor. The 80186EC core has a broad set of integrated peripherals, which helps reduce system development time and cost and is compatible with wide range of compilers and debuggers. The design along with multiple peripherals can be fit into single FPGA.
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8251 Serial Controller is an USART with support for asynchronous communication only. This controller converts parallel data from the processor to serial data and transmits it and converts the serial received data into parallel data for the processor to read.
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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 handling the SD bus protocol since such a function is provided by the core.
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iWave’s SATA 3.0 Bridge Controller is 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.
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eMMC Controller interfaces MMC / eMMC cards to any processor with a generic interface. The interface toward the MMC card is realized by the MMC protocol implemented in the controller. The core supports the AXI4-Lite interface for the control and status register to access and the AXI4-MM interface for data transfer through ADMA2 mode.
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8237 DMA Controller is a peripheral core for microprocessor systems. It controls data transfer between the main memory and the external systems with limited CPU intervention.
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The 80188XL is a powerful 16-bit microprocessor core, executes instruction list compatible with 80188XL microprocessor. The 80188XL core has a broad set of integrated peripherals, which helps reduce system development time and cost and is compatible with wide range of compilers and debuggers. The design along with multiple peripherals can be fit into single FPGA.
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iWave’s ARINC 664 P7 IP is an Ethernet Technology that provides a deterministic network to build an ARINC 664 P7 end system with guaranteed service to each subscriber with free access to the network. This protocol offers dedicated bandwidth for each node with guaranteed quality of service. iWave offers high integrity and redundancy management, as well as UDP/IP, profiled communication layer implemented in hardware.
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The 80188EB is a powerful 16-bit microprocessor core, that executes an instruction list compatible with the 80188EB microprocessor. The 80188EB core has a broad set of integrated peripherals, which helps reduce system development time and cost and is compatible with a wide range of compilers and debuggers. The design along with multiple peripherals can be fit into a single FPGA.
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8254 Programmable Timer is used for timing control applications in microcomputer systems. The design is capable of generating accurate time delays under software control.