Zynq™ UltraScale+™ ZU5/ZU4/ZU3T/ZU3/ZU2/ZU1 MPSoC System on Module

iG-G36M®

  • Zynq™ UltraScale+™ ZU5/4/3T/3/2/1 with SFVC784 Package
  • PL 16 bit, 2GB PL DDR4 RAM, PS 64bit, 4GB PS DDR4 RAM (Upgradable)
  • 16GB eMMC Flash, 256MB QSPI Flash
  • Up to 256.2K Logic cells & 117.12K LUTs
  • 4 High-Speed GTH Transceiver lanes (Up to 12.5Gb/s)
  • 4 x PS GTR Transceivers
CONTACT SALES
img ZU5/ZU4/ZU3T/ZU3/ ZU2/ZU1 SoM img Top View img Bottom View img Development Kit
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Documents

Documents

Design Support

Software

Features Details
ZU5/ZU4/ZU3T/ZU3/ZU2/ZU1 – ZynqTM Ultrascale+TM MPSoC Processing System (PS/Processor)

    • Quad-core Arm Cortex-A53 MPCore @1.5GHz, Dual-core Arm Cortex-R5 MPCore @600MHz
    • Arm Mali-400MP2 GPU @677MHz

Programming Logic (PL/FPGA)

    • Up to 256.2K Logic cells & 117.12K LUTs
    • High Speed GTH Transceiver Lanes x 4 (Up to 12.5Gb/s)
RAM Memory Processing System (PS):

    • 64bit, 4GB DDR4 RAM with ECC (Upgradable)

Programmable Logic (PL/FPGA):

    • 16bit, 2GB DDR4 RAM
On Board Flash
    • 256MB QSPI Flash for boot & storage (Optional)
    • 16GB eMMC Flash for boot & storage (Expandable up to 128GB)
    • EEPROM (4Kbit)
240pin High-Speed Board to Board Connector 1 Interfaces From PS Block:

    • PS GTR Transceiver Lanes x 4 (Up to 6.0Gb/s)

From PL/FPGA Block:

    • HP Bank IOs – Up to 47LVDS/95 Single Ended (SE)
    • HD Bank IOs – Up to 24 DIFF/ 48SE
    • ADC Input pins – Up to 32 Differential/Single Ended from HP Banks
    • ADC Input pins – Up to 16 Differential/Single Ended from HD Banks
    • System Synchronization Differential Clock Output/Input
240pin High-Speed Board to Board Connector 2 Interfaces From PS Block

    • GEM3 RGMII Interface or ULPI Interface x 1
    • Gigabit Ethernet x 1 Port (through On SOM Gigabit Ethernet PHY)
    • USB2.0 OTG x 1 Port (through On-SOM USB2.0 transceiver)
    • SD (4bit) x 1 Port & I2C x 2 Ports
    • Debug UART & Data UART x 1 Port
    • CAN Interface x 2 Ports2
    • JTAG x 1

From PL Block

    • High Speed GTH Transceiver Lanes x 4 (Up to 12.5Gbps)
    • HD Bank IOs – 17 DIFF/36 Single Ended
    • GC Inputs – 6 Differential/Single Ended
    • ADC Input Pins – Up to 17 Differential/Single Ended from HD Banks
    • SPI with (2CS) x 1
    • 1PPS In/Out
Other On-Board Features
    • Trusted Platform Module 2.0 (TPM)
    • Fan Header
    • USB 2.0 PHY
    • Gigabit Ethernet PHY
    • 10-Bit Clock Synthesizer
General Features
  • Power Input: +5VDC +/- 5% Input from B2B Connector 2
  • Form Factor: 50mm X 60mm (REN)
  • BSP Support:
    • Linux BSP – Petalinux/Vivado 2024.2 or higher
    • Baremetal BSP – Vivado 2024.2 or higher
  • Operating Temperature: -40°C to +85°C (Industrial)
  • Environment Specification: RoHS & REACH Compliant
  • Compliance: CE*

Notes:*Under Progress
1 2 PL IOs can be used as PL PCIe reset functionality or PL DIFF/SE in Board-to-board connector.
2 CAN0 is available when feedback clock functionality in QSPI Flash is not using.
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  • FMC+ High Serial Pin Count (HSPC) Connector
  • Debug UART and JTAG through USB Type-C
  • Dual 1GBE Ethernet through RJ45
  • USB2.0 OTG interface through USB Type-C Connector
  • PCIe x1/x2/x4 Gen2 Connector
  • USB 3.0 Connector
  • DP & M.2 SATA Connector
  • Micro SD & PMOD Connector
  • RTC Coin Cell Holder
  • Header for UART, CAN, SPI and GPIOs
  • Form Factor: 120mm x 120mm

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Thermal design is crucial for highly integrated System on Modules. iWave offers a Fan Sink for MPSoC-based SoMs to ensure efficient cooling.

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Product Design Process

Our design process transforms your vision into reality with innovation, quality, and collaboration.

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Certification & Qualification

Ensuring Compliance, Quality, and Trust Through Certification & Qualification.

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Product Lifecycle Management

Ensuring Longevity, Reliability, and Seamless Product Evolution.

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Mechanical Services

Precision Engineering for Reliable, High-Performance Mechanical Solutions.

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FAQs

An MPSoC SoM provides a proven and reliable design with optimized signal integrity, DDR tuning, and power sequencing. It reduces development cost and risk while helping accelerate time to market.

Yes. MPSoC SOMs are designed to scale across different performance levels, allowing developers to choose devices within the Zynq UltraScale+ MPSoC family (from ZU1 to ZU19) based on their application needs. This makes it easier to upgrade or adapt designs without major hardware changes.
For long-term use, SoMs from iWave are supported throughout their lifecycle, ensuring availability, reliability, and ongoing support. This helps avoid supply chain issues and keeps production stable.

  • Heterogeneous Compute in One Chip
  • Real-Time High Performance on the Same Platform
  • High-Speed Connectivity & Deterministic I/O
  • Lower System Cost & Power Consumption
  • Flexibility & Future-Proofing Through Programmable Logic
  • Scalable for Multiple Use Cases

Yes. With scalable MIPI CSI-2 support, MPSoC SOMs can handle multiple cameras, making them suitable for vision and imaging systems.

MPSoC SOMs support a wide range of high-speed interfaces, including:

  • PCIe, USB, and Ethernet
  • QSPI, eMMC, SRAM, and EEPROM
  • LVDS for high-speed data transfer
  • MIPI CSI-2 for camera and vision applications

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