What makes Versal™ different from traditional FPGAs?

Versal™ devices are more advanced than traditional FPGAs because they combine multiple processing engines in a single platform. They integrate CPUs, programmable logic, AI engines, and DSP blocks to handle different types of workloads efficiently. Key benefits include: Heterogeneous compute architecture for flexible processing Software-programmable acceleration for faster development High-bandwidth and deterministic data movement Integrated high-speed transceivers for multi-gigabit connectivity Scalable platform for AI, networking, and embedded applications

Versal™ Premium VP1802 System on module

iG-G81M®

Versal^TMPremium SoC with VSVA5601 package
Compatible with VP1802, VP2502, VP1702 & VP2802 devices
Three 64Bit, 8GB LPDDR4
12 Channels of GTYP Transceivers up to 32.75Gbps
16 Channels of GTYP Transceivers for PCI CPM5
140 GTM Transceivers up to 112Gbps PAM4
98 LVDS or 196 SE IOs from PL

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Documents

Brochure
Versal eBook
SOM Datasheet
DevKit User Guide
Quick Start Guide
FPGA User Guide
Fansink Datasheet

Software

Linux User Manual
Linux - BSP

Features	Details
Versal™ Premium SoC	Compatible with VP1802, VP2502, VP1702 & VP2802 Devices Dual-core Arm Cortex-A72 @1.7GHz Dual-core Arm Cortex-R5F @800MHz Up to 7,352K Logic cells and 3,360K LUTs 472 AI Engines Tiles and 118Mb AI Engine Data Memory supported in VP2502 & VP2802
Memory	64bit, 8GB LPDDR4 RAM from PS Dual 64bit, 8GB LPDDR4 RAM from PL
Storage	256MB QSPI flash 32GB eMMC Flash 4Kbit EEPROM
Board to Board Connector Interfaces	PL GTYP Transceiver x14 up to 32.75Gbps PL GTYP Transceiver x16 for PCI CPM5 PL GTM Transceiver x140 up to 112Gbps PAM4 98 LVDS or 196 SE IOs from PL From PS Block USB2.0 x 1 1G Ethernet x 1 RGMII x 1 SD (4-bit) x 1 SPI (with 3CS) x 1 I2C x 1 Debug UART x 1 JTAG x 1 CAN x 1
Other On SoM Features	10/100/1000 Ethernet PHY with PTP USB Transceiver PHY Clock Synthesizer FAN Header
Software Features	Yocto / PetaLinux BSP with Vivado hardware support Linux driver support for PL (Programmable Logic) and DMA subsystems High-speed I/O and networking stack support (PCIe, Ethernet, etc.) RF data converter support (specific to Versal RF devices) Bare-metal and real-time low-latency application support Vitis development environment for acceleration
General Features	Power Input: 12V through B2B Connector Form Factor: 125mm x 82mm (BRYN+) BSP Support: Petalinux 2025 or above Operating Temperature: -40°C to +85°C Environment Specification: RoHS3 & REACH Compliant

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FAQs

The AMD Versal™ Adaptive SoC is a next-generation adaptive computing platform that combines CPUs, programmable logic (FPGA), AI engines, DSP engines, and high-bandwidth networking on a single device.

Unlike traditional SoCs or FPGAs, Versal™ devices integrate multiple compute engines connected through a high-speed Network-on-Chip (NoC). This architecture allows developers to run AI, signal processing, and embedded applications efficiently in a single platform.

Yes. Versal™ AI Edge devices integrate AI engines and programmable logic to accelerate machine learning inference, vision processing, and real-time analytics. This makes them ideal for edge AI applications where low latency and high performance are required.

Versal™ SoM platforms support multiple high-speed interfaces including PCIe Gen4 and Gen5, Ethernet connectivity, and multi-gigabit transceivers that can reach speeds up to 112 Gbps depending on the device family.

Yes. With support for high-speed transceivers, PCIe Gen5, and MAC interfaces up to 600G, Versal™ SOM platforms are well suited for networking, data processing, and communication infrastructure applications.

Versal™ devices are more advanced than traditional FPGAs because they combine multiple processing engines in a single platform. They integrate CPUs, programmable logic, AI engines, and DSP blocks to handle different types of workloads efficiently.

Key benefits include: