Your go-to destination for cutting-edge server products

9/9

Lenovo SN37A28472 Xilinx Alveo U25 25GbE SFP28 2-Port PCIe FPGA Adapter (Model: ThinkSystem)

SN37A28472
Hover on image to enlarge

Brief Overview of SN37A28472

Lenovo Xilinx Alveo U25 25GbE SFP28 2-Port PCIe FPGA Adapter for ThinkSystem with Universal Kernel Bypass SN37A28472. Factory-Sealed New in Original Box (FSB)

with 3-Year Replacement Warranty
QR Code of Lenovo SN37A28472 Xilinx Alveo U25 25GbE SFP28 2-Port PCIe FPGA Adapter (Model: ThinkSystem)
$1,207.60
$800.00
You save: $407.60 (34%)
Ask a question
+
Quote
Additional 7% discount at checkout
SKU/MPNSN37A28472Availability✅ In StockProcessing TimeUsually ships same day ManufacturerLenovo Product/Item ConditionFactory-Sealed New in Original Box (FSB) ServerOrbit Replacement WarrantySix-Month (180 Days)
Our Advantages
  • Free Ground Shipping 
  • — Min. 6-month Replacement Warranty
  • — Genuine/Authentic Products  
  • — Easy Return and Exchange
  • — Different Payment Methods
  • — Best Price
  • — We Guarantee Price Matching
  • — Tax-Exempt Facilities
  • — 24/7 Live Chat, Phone Support 
Payment Options
  • — Visa, MasterCard, Discover, and Amex
  • — JCB, Diners Club, UnionPay
  • — PayPal, ACH/Wire Transfer
  • — Apple Pay, Amazon Pay, Google Pay
  • — Buy Now, Pay Later - Affirm, Afterpay
  • — GOV/EDU/Institutions PO's Accepted 
  • — Invoices
Delivery
  • — Deliver Anywhere
  • — Express Delivery in the USA and Worldwide
  • — Ship to -APO -FPO
  • For USA - Free Ground Shipping
  • — Worldwide - from $30
Description

Product Overview

Lenovo SN37A28472 Xilinx Alveo U25

25GbE SFP28 Dual-Port PCIe FPGA Adapter for ThinkSystem

Key Features

The Xilinx Alveo U25 25GbE SFP28 dual-port PCIe FPGA adapter presents an array of remarkable features:

  • High-Performance SmartNIC: The U25 provides exceptional throughput, optimal small packet handling, and minimal latency. Its host interface is compatible with standard NIC drivers, offering onload kernel bypass for both TCP and packet-based APIs, thus facilitating accelerated network applications. The IEEE 1588v2 Precision Timing Protocol (PTP) ensures synchronized timestamping of packets with single-digit nanosecond precision.
  • Flexible Programmable Fabric: The U25 SmartNIC includes a programmable FPGA capable of managing all network flows. Each flow can be directed to the host or processed in hardware, enabling network acceleration functions and application processing through dedicated compute kernels.
  • Cloud Acceleration Platform: Cloud service providers utilize SmartNIC fabrics for implementing virtual switching and micro-segmentation, scaling seamlessly with CPU cores and network connections.

Technical Specifications

Adapter Hardware Components

  • Xtremescale Ethernet Controller
  • Zynq Ultrascale+ XCU25 FPGA
  • Dual PCIe Gen 3 x8 (x16 connector in bifurcated mode)
  • Two 10/25 GbE SFP28 cages, compatible with DAC cables or optical transceivers
  • 2GB x 40 DDR4-2400
  • 4GB x 72 DDR4-2400

Acceleration Capabilities

  • SDx Compute Acceleration
  • Universal Kernel Bypass
  • DPDK Poll Mode Driver for Packet (Cloud, Telco)
  • Onload – TCP (Cloud, Telco, Enterprise)
  • Onload/TcpDirect - TCP/UDP (Fintech)

Security Features

  • Tamper-resistant design with digitally signed firmware

Time Synchronization & Hardware Timestamping

  • Hardware timestamping for all packets
  • On-board Stratum 3 stable oscillator
  • Solarflare Software PTP daemon for improved stability and clock synchronization
  • Capability to sync adapter clock with external time sources

Stateless Offloads

  • TCP/UDP Checksum Offload (CSO)
  • TCP Segmentation Offload (TSO)
  • Giant Send Offload (GSO)
  • Large Send Offload (LSO)
  • Large Receive Offload (LRO)
  • Receive Side Scaling (RSS)
  • Receive Segment Coalescing (RSC)

Manageability & Remote Boot Options

  • PXE and UEFI support
  • NC-SI over MCTP SMBus
  • PLDM over MCTP SMBus
  • MCTP PCIe VDM management utilities
  • Solarflare Boot Manager for streamlined management

Traffic Engineering Capabilities

  • Xtremepacket Engine for enhanced parsing, filtering, and flow steering
  • TCP/UDP/IP, MAC, VLAN, RSS filtering
  • Accelerated Receive Flow Steering (ARFS)
  • Transmit Packet Steering

Virtualization Support

  • Linux Multiqueue
  • SR-IOV: 16 Physical Functions, 240 Virtual Functions, and 2048 Guest OS protected vNICs
  • VXLAN and tunneling offload adaptable to custom overlays
  • VLAN and VLAN Q-in-Q insertion/stripping

Ethernet Standards Compliance

  • IEEE 802.3-2018 Ethernet Base Standard
  • IEEE 802.3by 25 Gigabit Ethernet Consortium
  • IEEE 802.3ad/802.1ax Link Aggregation
  • IEEE 802.1q/802.1p VLAN tags and priority
  • IEEE 1588-2008 PTPv2
  • Support for Jumbo Frames (9000 Bytes)

Physical Specifications

  • Length: 168 mm (6.6 inches)
  • Width: 64 mm (2.54 inches)

Operating Environment

Temperature Conditions

  • Operating: 0°C to 55°C (32°F to 131°F)
  • Storage: -40°C to 65°C (-40°F to 149°F)

Humidity Levels

  • Operating: 10% to 80%
  • Storage: 5% to 90%

Interface: PCIe

The Lenovo ThinkSystem FPGA Adapter is equipped with the PCIe interface, which stands for Peripheral Component Interconnect Express. This high-speed serial computer expansion bus standard offers numerous benefits and plays a crucial role in enhancing the performance and functionality of the adapter.

Benefits of PCIe Interface

The PCIe interface offers several advantages over other interfaces, making it an ideal choice for the Lenovo ThinkSystem FPGA Adapter:

1. High Throughput

With its high data transfer rate, the PCIe interface allows for seamless communication between the adapter and the host system. This results in improved overall system performance and reduced latency.

2. Scalability

One of the key benefits of PCIe is its scalability. The interface supports multiple lanes, allowing for higher bandwidth and accommodating future expansion needs. This means that as technology advances and demands increase, users can easily upgrade their systems without having to replace the entire adapter.

3. Compatibility

PCIe is a widely adopted industry standard, ensuring compatibility across various devices and systems. This means that you can seamlessly integrate the Lenovo ThinkSystem FPGA Adapter with your existing infrastructure, minimizing compatibility issues and simplifying deployment.

4. Hot-Plugging

The hot-plugging capability of PCIe allows you to connect or disconnect devices while the system is powered on without causing any disruption. This feature is particularly useful in scenarios where flexibility and quick reconfiguration are required.

Importance of PCIe Interface

The PCIe interface is of paramount importance in the Lenovo ThinkSystem FPGA Adapter due to the following reasons:

1. Enhanced Performance

The high-speed data transfer capabilities of PCIe ensure that the Lenovo ThinkSystem FPGA Adapter can deliver exceptional performance. This is particularly crucial when dealing with computationally intensive tasks or data-intensive applications, such as machine learning, artificial intelligence, and high-frequency trading.

2. Future-Proofing

By utilizing the PCIe interface, the Lenovo ThinkSystem FPGA Adapter is future-proofed to a significant extent. As technology evolves and demands increase, PCIe provides the necessary scalability to accommodate emerging requirements without requiring a complete hardware replacement.

3. Flexibility and Compatibility

Due to its widespread adoption and compatibility, the PCIe interface ensures that the Lenovo ThinkSystem FPGA Adapter can seamlessly integrate with a wide range of systems, allowing users to leverage its benefits without major infrastructure changes. This flexibility is particularly valuable in enterprise environments that rely on diverse hardware and software ecosystems.

Network Speed: 25GbE

The Lenovo ThinkSystem FPGA Adapter offers a blazing-fast network speed of 25GbE, which stands for 25 Gigabit Ethernet. This advanced networking capability provides significant advantages in terms of speed, bandwidth, and overall network performance.

Benefits of 25GbE Network Speed

The utilization of 25GbE network speed in the Lenovo ThinkSystem FPGA Adapter offers multiple benefits that cater to the needs of modern enterprises:

1. Increased Bandwidth

The adoption of 25GbE allows for a substantial increase in bandwidth compared to traditional Ethernet speeds. This results in improved data transfer rates, reduced network congestion, and enhanced overall network performance. The increased bandwidth is particularly beneficial in scenarios where large amounts of data need to be transferred quickly, such as data centers or high-performance computing environments.

2. Lower Latency

With its higher speed, 25GbE reduces network latency, ensuring a more responsive and efficient network infrastructure. This is crucial in applications where real-time data processing and low-latency communication are essential, such as financial trading, virtualization, and cloud computing.

3. Cost-Effective Solution

25GbE provides a cost-effective solution for organizations looking to upgrade their network infrastructure. It offers a significant performance boost over lower-speed Ethernet options like 10GbE while still being more affordable than higher-speed alternatives like 40GbE or 100GbE. This makes it an attractive choice for businesses aiming to strike the right balance between performance and cost.

Importance of 25GbE Network Speed

The inclusion of 25GbE network speed in the Lenovo ThinkSystem FPGA Adapter holds great importance for users due to the following reasons:

1. Future-Proof Networking

As technology advances and data demands continue to grow, having a network infrastructure capable of supporting higher speeds becomes increasingly critical. By incorporating 25GbE, the Lenovo ThinkSystem FPGA Adapter ensures that users can stay ahead of the curve and future-proof their network connectivity.

2. High-Performance Computing

The faster network speeds provided by 25GbE are especially advantageous for high-performance computing applications. Whether it's handling massive data transfers or facilitating real-time collaboration between multiple nodes, the increased bandwidth and reduced latency offered by 25GbE enable efficient and reliable computation.

3. Data-Intensive Workloads

In today's data-driven world, organizations are dealing with ever-increasing volumes of information. The 25GbE network speed ensures that the Lenovo ThinkSystem FPGA Adapter can handle data-intensive workloads with ease, enabling faster access to critical data and facilitating speedy analysis and decision-making.

Port Type: SFP28

The Lenovo ThinkSystem FPGA Adapter is equipped with SFP28 ports, which stands for Small Form-Factor Pluggable 28. This port type offers numerous benefits in terms of flexibility, compatibility, and performance, making it an ideal choice for the adapter.

Benefits of SFP28 Port Type

The utilization of SFP28 ports in the Lenovo ThinkSystem FPGA Adapter brings forth several advantages:

1. Flexibility and Interchangeability

The SFP28 port type allows for hot-swapping of optical and copper transceivers, providing unparalleled flexibility. This enables users to adapt their connectivity options based on specific requirements without having to replace the entire adapter. Whether it's connecting via fiber or copper cables, the SFP28 port type offers seamless interchangeability.

2. Compatibility

SFP28 ports are widely supported by various networking devices and systems, ensuring compatibility across different hardware configurations. This compatibility allows for easy integration of the Lenovo ThinkSystem FPGA Adapter into existing networks without the need for extensive infrastructure changes.

3. Higher Bandwidth

SFP28 ports provide higher bandwidth compared to their predecessors, such as SFP+ ports. This increased bandwidth allows for faster data transfer rates, making it suitable for applications that require high-speed and reliable connectivity, such as data centers, cloud environments, and high-performance computing clusters.

Importance of SFP28 Port Type

The inclusion of SFP28 port type in the Lenovo ThinkSystem FPGA Adapter holds significant importance for users due to the following reasons:

1. Versatile Connectivity Options

The SFP28 port type offers versatile connectivity options, allowing users to choose between fiber and copper cables based on their specific needs. This flexibility ensures that the Lenovo ThinkSystem FPGA Adapter can be seamlessly integrated into various networking environments, regardless of the existing infrastructure.

2. Investment Protection

By utilizing the SFP28 port type, the Lenovo ThinkSystem FPGA Adapter provides investment protection for users. The ability to hot-swap transceivers and easily switch between fiber and copper connectivity allows organizations to adapt and upgrade their networking infrastructure without requiring a complete hardware replacement.

3. Scalability

The scalability offered by SFP28 ports is vital for accommodating future growth and increasing bandwidth demands. As data requirements continue to rise, the ability to upgrade to higher-speed transceivers or switch to different cable types ensures that the Lenovo ThinkSystem FPGA Adapter can meet evolving business needs without any major infrastructure changes.

Port Number: 2

The Lenovo ThinkSystem FPGA Adapter features two ports, providing users with dual connectivity options. The inclusion of multiple ports enhances the versatility and reliability of the adapter, catering to a wide range of networking requirements.

Benefits of Dual Port Configuration

The dual port configuration in the Lenovo ThinkSystem FPGA Adapter offers several benefits:

1. Increased Network Flexibility

The presence of two ports allows for greater network flexibility, enabling users to connect to multiple network segments or devices simultaneously. This flexibility is particularly advantageous in scenarios where redundancy, load balancing, or segregation of network traffic is required.

2. Improved Network Resilience

The dual port configuration enhances network resilience by providing built-in redundancy. In the event of a port failure, the second port can seamlessly take over, ensuring uninterrupted network connectivity and minimizing the impact on critical business operations.

3. Enhanced Performance

With two ports available, the Lenovo ThinkSystem FPGA Adapter can provide increased bandwidth and improved overall network performance. The dual port configuration allows for parallel data transmission and load balancing, enabling faster data transfer rates and optimized network utilization.

Importance of Dual Port Configuration

The inclusion of two ports in the Lenovo ThinkSystem FPGA Adapter holds significant importance for users due to the following reasons:

1. Redundancy and High Availability

The dual port configuration ensures redundancy and high availability, minimizing the risk of network downtime. By providing failover capabilities, the adapter can maintain continuous network connectivity even in the event of a single port failure, resulting in enhanced reliability and uninterrupted access to critical resources.

2. Load Balancing and Performance Optimization

The availability of multiple ports enables load balancing across different network segments or devices. This load balancing ensures that network traffic is evenly distributed, preventing bottlenecks and optimizing overall performance. The dual port configuration is particularly valuable in high-bandwidth environments where efficient utilization of network resources is essential.

3. Future-Proof Networking

The inclusion of two ports future-proofs the Lenovo ThinkSystem FPGA Adapter to a significant extent. As network requirements evolve and grow, having multiple ports provides the flexibility to scale and adapt without requiring a complete hardware replacement. This ensures that the adapter can continue to meet the demands of future networking standards and technologies.

Features
Product/Item Condition:
Factory-Sealed New in Original Box (FSB)
ServerOrbit Replacement Warranty:
Six-Month (180 Days)