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ZU19/17/11 Zynq UltraScale+ MPSoC development kit

iwave systems zynq ultrascale+ zu19/17/11 devkit front

iWave's Zynq Ultrascale+ SoC Development kit comprises of Xilinx's Ultrascale+ MPSoC SOM and Ultra-High-Performance carrier card. The SOM is equipped with 64-bit 4GB DDR4 RAM with ECC for PS & 64-bit 4GB Dual DDR4 RAM for PL. The Zynq Ultrascale+ MPSoC development kit carrier board supports required set of features like FMC+ (HPC), FMC (HPC), FireFly, QSFP, SFP+, 12-Pin Pmod, and HDMI- IN/OUT connectors to validate Zynq Ultrascale+ MPSoC high-speed PL interfaces and PCIe x4, SATA, USB-Type-C, Display Port, Gigabit Ethernet and SDI Video IN/OUT on-board connectors to validate  the Zynq Ultrascale+ MPSoC high-speed PS interfaces.

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Arria10 SoC/FPGA FMC+ Development Platform

Arria10 SoC/FPGA FMC+ Development Platform top

iWave’s Arria10 SoC/FPGA FMC+ Development Kit comprises of Arria10 SoC/FPGA SOM and High-Performance FMC+ Carrier Card. Arria10 SoC/FPGA FMC+ Development Kit provides developers the best Out-Of-The box experience. It enables, customers to develop rapid prototypes and validate the highspeed interfaces and I/Os. The SOM is equipped with 4GB DDR4 RAM (64bit) from FPGA and 2GB DDR4 SDRAM (32bit) with ECC from HPS (Expandable). Arria10 SoC/FPGA Development Kit carrier board supports wide range of highspeed interfaces like FMC+ Connector, PCIe x 4 Connector and NVMe M.2 Connector to validate Arria10 FPGA high speed transceivers and also it supports HDMI Output, USB Blaster-II, Pmod connectors, LEDs, push buttons, sliding switches to validate the Arria10 FPGA I/Os. And, other on-board switches and connectors are available to validate Arria10 SoC (HPS) interfaces.

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ZU7/5/4 Zynq Ultrascale+ MPSoC development Kit

iwave systems zynq ultrascale+ zu7/5/4 devkit top

iWave's ZU7/5/4 Zynq Ultrascale+ SoC Development kit comprises of Xilinx's Ultrascale+ MPSoC SOM and High Performance carrier card. The SOM is equipped with 64-bit 4GB DDR4 RAM with ECC for PS & 16-bit 1GB for PL. The ZU7/5/4 Zynq ultrascale+ MPSoC development kit carrier board supports required set of features like FMC (HPC)Connectors, SATA, SFP+, Display Port, USB-Type-C and PCIe x4 connector to validate Zynq Ultrascale+ MPSoC high speed transceivers and other on-board connectors to validate Zynq Ultrascale+ SoC PS interfaces.

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Zynq 7000 SODIMM Development Kit

Zynq 7000 Development Kit
iWave’s Zynq 7000 SoC Development kit comprises of Xilinx’s Z7020 SoC based SODIMM SOM and Pico ITX form factor carrier card. The SOM is equipped with 512MB DDR3RAM & 8GB eMMC Flash memory support, Gigabit Ethernet PHY and built-in 802.11n Wi-Fi/BLE4.0 for PS. The Zynq 7020 development kit carrier board supports several on-board connectors to validate all the PS & PL features of Zynq 7020 10 SoC through on-board connectors. The kit is ideal platform for quick proto typing of Zynq 7000 SOC targeted applications.
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Arria 10 SoC FPGA Development Platform

Arria 10 SOM+Carrier Bord_Top

iWave’s Arria10 SoC/FPGA Development Kit comprises of Arria10 SoC/FPGA SOM and High Performance Carrier Card. Arria10 SoC/FPGA Development Kit enables, customers to develop rapid prototypes and validate the highspeed interfaces and I/Os. The SOM is equipped with 4GB DDR4 RAM (64bit) from FPGA and 2GB DDR4 SDRAM (32bit) with ECC from HPS (Expandable). Arria10 SoC/FPGA Development Kit carrier board supports wide range of highspeed interfaces like FMC (HPC) Connectors, SATA, SFP+ and PCIe connector to validate Arria10 FPGA high speed transceivers and other on-board connectors to validate Arria10 SoC(HPS) interfaces.

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Altera Cyclone V SoC Development Platform

Altera Cyclone V SoC Development Platform

iWave Systems launched Cyclone V SoC Development Platform – 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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