Friday, February 7, 2025

AMD Virtex UltraScale+ FPGAs: Best Performance & Integration

AMD Virtex UltraScale+ 32 Gigabit GTY, Transceiver with Power Optimization

The Virtex UltraScale+ FPGA with 32.75G backplane capability and power-optimized transceivers are demonstrated in this video. The transceiver exhibits third-generation, customer-proven auto-adaptive receiver equalization technology and the best transmit jitter in its class.

AMD Virtex UltraScale+ Product Advantages

The best performance and integration capabilities on a 14 nm/16 nm FinFET node are offered by AMD Virtex UltraScale+ devices. In order to overcome the constraints of Moore’s law and provide the maximum signal processing and serial I/O bandwidth to meet the most exacting design specifications, AMD 3rd generation 3D ICs employ stacked silicon interconnect (SSI) technology. Additionally, it offers ample and adjustable clocking to provide a virtual monolithic design experience, as well as registered inter-die routing connections that enable operation at frequencies higher than 600 MHz.

The devices are perfect for compute-intensive applications ranging from radar/early-warning systems to machine learning and 1+ Tb/s networking, as they are the most capable FPGA family in the industry.

Key Features and Benefits

3D-on-3D Integration

For virtual monolithic design, FinFET with 3D IC offers unprecedented density, bandwidth, and huge inter-die communication.

Enhanced DSP Cores

For both fixed and floating point computation, including INT8 for AI inference, up to 38 TOPs (22 TeraMACs) of DSP compute performance are optimized.

32.75 Gb/s Transceivers

Devices with up to 128 backplane, chip-to-optics, and chip-to-chip transceivers.

Integrated Block for PCI Express

PCIe block with Gen3x16 integration for 100G applications.

Memory

For improved efficiency and low latency, DDR4 supports up to 2,666 Mb/s and up to 500 Mb of on-chip memory caches.

ASIC-Class Networking IP

High-speed communication via 100G Ethernet MAC cores and 150G Interlaken.

Portfolio

  • Introducing the series of Virtex UltraScale+.
  • Terabit-Class Memory Band with Virtex UltraScale+ 58G: Facilitating Faster Interconnect and New Optics.
  • Virtex UltraScale+ VU19P: The Highest Capacity FPGA in the Industry.

Uses

Discover Untapped Potential with Virtex UltraScale+ FPGA.

Compute Acceleration

To dynamically alter the throughput, latency, and power needs from a variety of virtualized software applications, data centers must be workload optimized. A scalable, reconfigurable acceleration platform that can be tailored for demanding applications is provided by Virtex UltraScale+ FPGAs. For compute-intensive workloads in data center applications, Virtex UltraScale+ FPGAs’ enormous raw computing capacity and I/O flexibility make them ideal.

5G Broadband

In 5G baseband, high-speed switching capability, low latency operation, and flexible hardware acceleration are essential. Dynamic and scalable options for developing 5G infrastructure are provided by Virtex UltraScale+ FPGA.

Wired Communications

Nx100G networking processors with up to 128 power-optimized high-speed transceivers allow for the installation of 1 Tb line cards in a compact package. A versatile interface for coherent optics is offered by an integrated 100G Ethernet MAC with FEC and OTN modes, enabling the creation of reliable systems.

Radar

In a spectrum-contested environment, beamforming and other radar functionalities lead to high signal processing demands as well as precise tracking and/or guidance. RADAR designers can now pick between performance and SWaP-C to Virtex UltraScale+ FPGAs. Higher performance can be achieved using Virtex UltraScale+ FPGA because to improved DSP resources, on-chip memory, and high levels of interconnection. For greater parallel processing, FPGAs may be reconfigured to alter both waveforms and algorithms, unlike general-purpose computers.

Test & Measurement

Virtex UltraScale+ FPGA provide high-performance data handling and analysis for network/protocol analyzers, signal generators, and wired communication testers due to their large DSP bandwidth and high transceiver count. Large on-chip embedded memory is perfect for coefficient tables and FIFOs as well as data staging.

Get Started

Utilize the kit’s proven hardware, software support, tools, design examples, and documentation to accelerate your design cycle and achieve a quick time-to-market.

Virtex UltraScale+ FPGA VCU118 Evaluation Kit

The best development environment for assessing the state-of-the-art Virtex UltraScale+ FPGAs is the Virtex UltraScale+ FPGA VCU118 Evaluation Kit.

Virtex UltraScale+ FPGA Product Brief

By pushing the system performance-per-watt envelope, Virtex UltraScale+ FPGAs can achieve breakthrough speeds with high utilization. For compute-intensive applications, Virtex UltraScale+ FPGA are the obvious choice due to their high system performance and several power-saving improvements.

Product Table

 XCVU3PXCVU5PXCVU7PXCVU9PXCVU11PXCVU13P
System Logic Cells (K)8621,3141,7242,5862,8353,780
DSP Slices2,2803,4744,5606,8409,21612,288
Memory (Mb)115.3168.2230.6345.9341455
GTY/GTM Transceivers (32.75/58 Gb/s)40/080/080/0120/096/0128/0
I/O520832832832624832
agarapuramesh
agarapurameshhttps://govindhtech.com
Agarapu Ramesh was founder of the Govindhtech and Computer Hardware enthusiast. He interested in writing Technews articles. Working as an Editor of Govindhtech for one Year and previously working as a Computer Assembling Technician in G Traders from 2018 in India. His Education Qualification MSc.
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