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™ RF
System on Module

iG-G80M®

Versal™ RF System on Module with VSVA2488 Package
Compatible with VR1952, VR1902, VR1652, and VR1602 devices
Up to 2,473.8K Logic Cells & 1,130.88K LUTs for FPGA processing
RF input/output support up to 18GHz for wideband applications
Up to 16 ADC channels (8/32GSPS) for high-speed acquisition
Up to 16 DAC channels (16GSPS) for signal generation
PCIe Gen5 x4 via GTM2 transceivers for ultra-fast data transfer

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Documents

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

Software

Linux User Manual
Linux - BSP

Features	Details
SoC	Processing System (PS) Dual Arm Cortex-A72 @1.65GHz, Dual Arm Cortex-R5F @800MHz Compatible with VR1952, VR1902, VR1652, and VR1602 devices Programming Logic (PL) Up to 2,473.8K Logic cells & 1,130.88K LUTs GTM2 High Speed Transceivers x 20/10 @112Gbps/56Gbps AI Engine (AIE) AI Engine Tiles up to 120 AI Data Memory up to 30Mb
Memory & Storage	Dual Channel (2x16bit) 4GB LPDDR5x from PS Dual Channel (2x16bit) 4GB LPDDR5x from PL 2 x 32bit, 4GB LPDDR5x from PL 32GB eMMC Flash Expandable up to 128GB 256MB (8bit) OSPI Flash or 256MB (4bit) QSPI flash from PS 2Kb EEPROM
Other Features	10/100/1000 Ethernet PHY with PTP 1 x USB Transceiver PHY 1 x Clock Generator for TXVR Banks 1 x Low Phase Noise Jitter Attenuating Clock Generator for RF ADC and DAC 1 x FAN Header 1 x SYNC IN & SYNC OUT 1 x PPS IN
Board to Board Connector1 Interfaces (400pin)	16/8 x ADC Channels up to 8/32Gsps 16 x DAC Channels up to 16Gsps X5IO Bank IOs – up to 62LVDS/125SE HD Bank IOs – up to 10DIFF/20SE
Board to Board Connector2 Interfaces (400pin)	From PL Block 20/10 GTM2 High Speed Transceivers (Up to 56Gbps/112Gbps) From PS Block: 1 x 10/100/1000Mbps Ethernet 1 x RGMII 1 x SD (4bit) 1 x USB2.0 1 x SPI with 3 CS (Optional) 1 x CAN FD 1 x I2C 1 x Debug UART 1 x JTAG 1 x SYSMON VP/VN 1 x Thermal Diode Out
Board to Board Connector3 Interfaces (128pin)	ADC: 16/8 x ADC Channels up to 8/32Gsps DAC: 16 x DAC Channels up to 16GspsGsps
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 Connector2 Form Factor : 82mm x 115mm (BRYNc ) BSP Support: Linux BSP: Yocto 2025.1 or higher Environment Spec.: REACH& RoHS3 Compliant* Compliance: CE*

*Under Progress

RF-ADC/DAC Customization

Tailor resolution, sampling rates, and channel configurations to match your signal processing and bandwidth needs.

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Interface Integration

Optimize JESD204B/C, high-speed serial links, and RF front-end connections for seamless system-level integration.

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Rugged & Military-Grade Designs

Develop 3U VPX conduction-cooled systems and RF connector layouts built for extreme conditions available in both industrial and MIL grade.

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End-to-End ODM Services

From carrier + SoM integration for SDR, EW, and radar to schematic, PCB layout, thermal, mechanical, and enclosure design, we provide complete product realization.

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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: