AMD's Compute Accelerator Alveo V80
Adaptable Memory Acceleration Memory-Bound Compute with Hardware-Adaptable Acceleration for Heavy Workloads.
Hardware-Based Memory-Bound Compute Acceleration
The AMD Alveo V80 computing accelerator provides massive memory bandwidth and processing parallelism for activities involving large data sets. The card has the highest memory bandwidth, network speed, and logic density of the AMD Alveo portfolio.The AMD Alveo V80 Compute Accelerator's advantages
hardware adaptability for workloads that are memory-bound
FPGA fabric to adapt the hardware to the application, and HBM2e for large data volumes and memory-intensive processing.
2X Logic Density and Memory Bandwidth
With double the logic density and memory bandwidth of the previous generation, the AMD Alveo V80 card is the most potent compute accelerator in the Alveo line.Known FPGA Design Process
The AMD Vivado Design Suite for traditional FPGA procedures enables the pairing of the Alveo V80 accelerator with a design example created especially for Alveo hardware for ease of setup.An Overview of the AMD Alveo V80 Compute Accelerator
Network-Attached Acceleration with Hardware Adaptability
Since the AMD Alveo V80 compute accelerator card is a production board in a PCIe form factor, it is a faster path to production than building your own PCIe card.PCIe Gen4 and Gen5 interfaces, DDR4 DIMM slots for memory expansion, four 200G networking ports, and Mini-Cool Edge I/O (MCIO) connections let the card to expand across compute and storage nodes at PCIe Gen5 speeds. It has an AMD Versal HBM processor that can process 820 GB of data per second.
Bandwidth and Density of Performance
1.8X Memory Bandwidth LUTs, or 2X Logic Density
Four times the network's PCIe bandwidth 2X Speeding Up Memory-Bound Programs
High-Efficiency Computers
The AMD Alveo V80 network-attached accelerator can manage hundreds of nodes and supports special data formats. Numerous HPC applications, including molecular dynamics, genomic sequencing, and sensor processing, may make advantage of it.Making connections
With built-in cryptography engines and hardware that can be adjusted for particular packet processing, the AMD Alveo V80 accelerator is ideal for firewall and packet monitoring applications. Because of its bespoke data transport, the card is also suitable for GPU clustering in data center networks.FinTech and Blockchain
The AMD Alveo V80 card is ideal for FinTech and blockchain applications that include large data sets and high parallelism, such as option pricing, algorithmic trading back-testing, and Web3 blockchain cryptography.Acceleration of Storage
For storage server nodes using SSD storage drives, the AMD Alveo V80 accelerator is ideal for compression, allowing for greater effective storage capacity per server.Hardware Emulation
Network connectivity and hardware flexibility for hardware emulation of ASIC designs are provided by the AMD Alveo V80 card, enabling IP validation for communication protocols and custom IP prior to silicon tapeout.Database Acceleration & Data Analytics
When paired with HBM for large data collections, the AMD Alveo V80 card's low-latency processing enables energy efficiency, scalability, and a rapid time to insights.Product: AMD Alveo Compute Accelerator
High-performance computing (HPC), data analytics, network security, storage acceleration, and memory-intensive workloads are all addressed by the AMD Versal HBM adaptive SoC-powered AMD Alveo V80 compute accelerator.Known Flows for FPGA Design
For traditional hardware developers, the AMD Alveo V80 card is fully enabled by the Alveo Versal Example Design (AVED), available on GitHub. AVED, which is based on the AMD Vivado Design Suite, uses traditional FPGA and RTL processes to speed up development and simplify hardware bring-up.Optimized for AMD Alveo hardware, the sample design effectively starts with the pre-built PCIe subsystem of the Versal HBM device. It includes a stress test synthetic workload (XBTEST) for easy setup and testing on your chosen server, as well as host software for the Alveo Management Interface (AMI) for control.
Improve memory-bound computation with a new AI and HPC accelerator
Due to massive data expansion and developments in computer technologies, the amount and complexity of today's workloads are increasing dramatically. Infrastructure requirements are rising as a result of advanced analytics and AI. Businesses in the life sciences, manufacturing, healthcare, and finance sectors may benefit from artificial intelligence (AI) by using it to extract more insightful information from their data.However, there may be significant challenges in incorporating data and AI into the core of these companies' operations. They must develop a computing environment that goes beyond the capabilities of traditional infrastructure in order to achieve more performance, flexibility, and adaptability. High performance computing (HPC) technology is the key to their success.
AMD has introduced a new technique that speeds up the most data-intensive tasks. The AMD Alveo V80 computing accelerator provides massive memory bandwidth and processing parallelism for activities involving large datasets. The target market for this flagship product is memory-bound applications that need hardware flexibility to handle different types of data and data mobility while scaling to handle large volumes at network line speeds. The card has the highest memory bandwidth, network speed, and logic density of the AMD Alveo portfolio.
AMD Alveo V80 compute accelerator Specs
| AMD Alveo V80 compute accelerator | |
|---|---|
| Device Resources | |
| Versal HBM XCV80 SoC | Adaptive SoC device |
| LUTs | 2.6M |
| DSP Slices | 10,848 |
| On-Chip Memory | 673 MB (132 MB Block RAM, 541 MB UltraRAM) |
| HBM Capacity | |
| HBM2e DRAM | 32 GB (2x 16 GB stacks) |
| Peak Bandwidth | 810 GB/s |
| Integrated Connectivity Cores | |
| High-Speed Crypto Engines | 3x 400G (bulk crypto, IPsec, MACsec) |
| Multirate Ethernet MAC | 6x 100G |
| Ethernet MAC | 3x 600G |
| Interlaken | 1x 600G |
| Processing Subsystem | |
| Application Processor | Dual-core Arm Cortex-A72 |
| Real-Time Processor | Dual-core Arm Cortex-R5F |
| Platform Management | Controller |
| Onboard Memory | 4 GB SDRAM |
| Supported Tools | |
| Design Suite | AMD Vivado Design Suite |
| Example Designs | AMD Alveo Versal Example Designs |
| PCIe Interface and Expansion | |
| MCIO Expansion | 2x MCIO x4, 1x MCIO x8 |
| Transceivers | |
| GTYP Transceivers | 32 (32.75 Gb/s) |
| GTM Transceivers | 16 (56 Gb/s) |
| Memory Expansion | |
| DDR4 Expansion | 32 GB DIMM |
| Network Interfaces | |
| QSFP56 Ports | 4 (2x 100G or 4x 10/25/40/50G per port) |
| Form Factor | |
| Size | Full-Height, ¾ Length (FH¾L) |
| Slots | Dual-slot |
| Power and Thermal | |
| TDP | 190W |
| Cooling | Passive |
| Product SKU | |
| Model | A-V80-P64G-PQ |
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