AMD Solutions

AMD develops highly flexible and adaptive processing platforms that enable rapid innovation across a variety of technologies—from the endpoint to the edge to the cloud. AMD continues to design FPGAs and adaptive SoCs, delivering the most dynamic processor technology in the industry.

AMD Versal™ adaptive SoC architecture was designed to enable all types of developers to accelerate their whole application with disruptive perfromance through optimized hardware and software, providing a solution that is adaptable faster than the pace of silicon design cycles.

The AMD UltraScale™ architecture delivers unprecedented levels of integration and capability while delivering ASIC-class system level performance for the most demanding applications requiring massive I/O & memory bandwidth, massive data flow, DSP, and packet processing performance. Our break-out portfolio also includes the industry's only hardware programmable homogeneous and heterogeneous 3D ICs with the highest bandwidth and system integration. In addition, our hardware, software, and I/O adaptive SoC platform offers the flexibility and scalability of an FPGA combined with ASIC-like performance and power and the ease of use of an ASSP.

Versal Adaptive SoC

Versal adaptive SoC is a fully software-programmable, heterogeneous compute platform that combines Scalar Engines, Adaptable Engines, and intelligent AI and DSP Engines to enable a disruptive increase in compute for applications in data center, wireless networking, automotive driver assist, and wired communications. This high-performance architecture is designed to enable all types of developers - software engineers, hardware engineers, and data scientists — to accelerate their entire application with optimized hardware and software.

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Industry Leading FPGAs

AMD offers a comprehensive multi-node portfolio to address requirements across a wide set of applications. Whether you are designing a state-of-the art, high-performance networking application requiring the highest capacity, bandwidth, and performance, or looking for a low-cost, small footprint FPGA to take your software-defined technology to the next level, AMD FPGAs and 3D ICs provide you with system integration while optimizing for performance/watt.

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Adaptive SoCs, MPSoCs, and RFSoCs

Unmatched Performance and Power

The AMD SoC portfolio integrates the software programmability of a processor with the hardware programmability of an FPGA, providing you with unrivaled levels of system performance, flexibility, and scalability. The portfolio gives your designs overall system benefits of power reduction and lower cost with fast time to market.

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Programmable 3D ICs

Highest Bandwidth and Integration

AMD homogeneous and heterogeneous 3D ICs deliver the highest logic density, bandwidth, and on-chip resources in the industry, breaking new ground in system-level integration. AMD UltraScale 3D ICs provide unprecedented levels of system integration, performance, bandwidth, and capability.

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Cost-Optimized Portfolio

The AMD cost-optimized portfolio is the broadest in the industry, comprising four families that are optimized for specific capabilities:

  • Spartan 6 FPGAs for I/O optimization
  • Spartan 7 FPGAs for I/O optimization with the highest performance-per-watt
  • Artix 7 FPGAs for transceiver optimization and highest DSP bandwidth
  • Zynq 7000 adaptive SoCs for system optimization with scalable processor integration
  • Artix UltraScale+; FPGAs for high I/O bandwidth and DSP compute
  • Spartan UltraScale+ FPGAs for high I/O bandwidth, low power and state-of-the-art security features
  • Zynq UltraScale+ adaptive SoCs for scalable processor with Dual & Quad-core Arm A53, Arm R5 and Mali processor integration
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Configuration Memory

Configuration Solutions

AMD also offers configuration memories optimized
for ease of use with Spartan 6 FPGAs
and earlier device architectures.

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AMD CPLDs offer High Performance and
Ultra-low Power Consumption

AMD has a CPLD solution to fit your design challenge,
whether you need low-power, high-performance or
a combination of the two.

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