Intel® Stratix® 10 FPGAs and SoC FPGAs Applications

Delivering an unprecedented 2X performance, up to 70% lower power, up to 10.2 million LEs, and the highest level of system integration†, Intel® Stratix® 10 devices are uniquely positioned to address next-generation, high-performance systems in the most demanding applications including communications, data center acceleration, high-performance computing, radar processing, ASIC prototyping, and many more.

See also: Intel® Stratix® 10 FPGAs and SoC FPGAs Design SoftwareDesign StoreDocumentation, DownloadsCommunity, and Support

Data Center Acceleration

Cognitive Computing

High-Performance Accelerators

  • Up to 8.6 TFLOPS.
  • Up to 143 INT8 or 286 INT4 TOPS at ~1-2 TOPS/W2.
  • Highest fabric performance.
  • Highest memory bandwidth.

Algorithm Flexibility

  • OpenCL*1 platform.
  • Software front end for security and flow control with integrated ARM* Cortex*-A53 hard processor system.

Unique to Intel® Stratix® 10 Devices

  • First FPGA devices to support Intel® Ultra Path Interconnect (UPI) for direct coherent connection to Intel® Xeon® Scalable processor.
  • FPGA PCIe* hard IP with configuration up to Gen4 x16 at 16 Gbps.
  • Intel® Hyperflex™ FPGA Architecture delivers up to 1 GHz performance, enabling breakthroughs in computational throughput.
  • Hardened single-precision floating-point DSP block, compliant with IEEE 754 standard, delivers GPU-class floating performance at a fraction of the power.
  • Hardened AI Tensor Block tuned for common matrix-matrix or vector-matrix multiplications in AI acceleration applications resulting in up to 143 INT8 TOPS or 286 INT4 TOPS.2
  • Secure cloud solutions using the security features.


Bridging and Aggregation

Enabling New Network Infrastructure

High Throughput with Power Efficiency

  • Up to 10 TFLOPS 400G traffic manager with 600 million packet per second throughput.
  • Less than 1 watt per 10 Gbps.

Flexible, High-performance Interconnect

  • Adaptable, scalable, and optimized IP portolio including 400G Ethernet.
  • Integrated processor for system monitoring and management.

Unique to Intel® Stratix® 10 Devices

  • fMAX over 700 MHz using the Intel® HyperFlex™ FPGA Architecture enabling 400G Ethernet.
  • 512 bit wide datapath running at 2X performance enables half-size IP compared to conventional architectures.

OTN/Data Center Interconnect

400 Gbit/s Muxponder for Metro / DCI Features

Four OTU4 Line Side Interface

  • OTL4.4.
  • GFEC.
  • ODUk/flex – ODU4 multiplexer.

20 ‘Any Rate’ Client Interfaces

  • 16 interfaces from 1GE to 25GE/32GFC
  • Alternatively 4 x 100GE.
  • 4 interfaces of 1-14G.


  • Full add/drop connectivity between line-line and line-client.
  • Protection switching.

Optional Features

  • 128GFC client.
  • KP-FEC (544, 514) for clients.
  • PAM4 transceivers.

2.4 Tbit/s Switch/Muxponder for DCI

2.4 Tbit/s Cross-connect between Ethernet Flows.

1.2 Tbit/s FlexE Muxponder/Transponder.

(528,514,10) RS-FEC and (544,514,10) KP-FEC Support.

Optical interfaces: FlexE Server, 100GE, 25GE, 10GE.

FlexE Configurable as 400G/200G+200G/100G+300G.

Cross-connect Supports: 10/25/50/100GE Flows.

Low Power FEC Hard IP while Providing Fabric Flexibility.

Unique to Intel® Stratix® 10 Devices

  • Heterogeneous 3D System-in-Package (SiP) integration of transceiver tiles delivers 30G backplane support with a path to 58G data rates.
  • Intel® Hyperflex™ FPGA Architecture enables 2X performance resulting in significant IP size reduction.
  • Hardened single-precision floating-point DSP block, compliant with IEEE 754 standard, delivers GPU-class floating performance at a fraction of the power.
  • Secure cloud solutions using the security features.


Digitizing the Radar Front-End

Highest Performance per Watt

  • Up to 10 TFLOPS single-precision floating-point performance.
  • Up to 80 GFLOPS/Watt.

High-throughput Front End

  • High number of simultaneous beams with high bandwidth.
  • Beam former IP.

Unique to Intel® Stratix® 10 Devices

  • Up to 10 TFLOPS of IEEE 754 compliant single-precision floating-point performance delivers GPU class performance at a fraction of the power.
  • Cover fMAX up to 1 GHz enabling high throughput beam processing.

ASIC Prototyping and Emulation

Highest FPGA Fabric Capacity

Highest Density for Scalability

  • 10.2 million LE core fabric.

Debug Productivity

  • Readback and writeback IP.

Highest I/O Counts for Flexibility

  • 2,300+ I/Os.

Integration with Multiple Fabric and Transceiver Chiplets

  • Intel® Embedded Multi-Die Interconnect Bridge (EMIB) technology.

Unique to Intel® Stratix® 10 Devices

  • Highest density enable customers to scale prototyping and emulation solution.
  • Highest I/O counts provide flexibility for design partitioning across multiple FPGAs.
  • Readback and writeback IP enhances debug productivity.

Cyber Security

Network Intrusion Detection and Prevention

400G Throughput Bump-in-the-Wire

Line Rate Analysis of Data Traffic

  • From 1G to 400G
  • Implement Intrusion Prevention Systems (IPS) and Intrusion Detection Systems (IDS) on streaming traffic.


  • Security performed on traffic flows prior to entering network.
  • Continuous network monitoring or tagging of live traffic.

Unique to Intel® Stratix® 10 Devices

  • fMAX over 900 MHz allows monitoring of all supported protocols at line rates.
  • ARM* Cortex*-A53 processor enables direct interfacing with existing IT software.
  • Partial reconfiguration and OpenCL* platform allow for easy rules updates.


1OpenCL* and the OpenCL* logo are trademarks of Apple Inc. used by permission by Khronos.

อ้างอิงข้อมูลประมาณการภายในของ Intel
ประสิทธิภาพการวัดการทดสอบของส่วนประกอบของการทดสอบบางอย่างในบางระบบ ความแตกต่างในฮาร์ดแวร์ ซอฟต์แวร์ หรือการปรับตั้งค่าอาจมีผลกระทบต่อประสิทธิภาพที่แท้จริง ให้อ้างถึงแหล่งข้อมูลอื่น ๆ เพื่อประเมินประสิทธิภาพขณะที่คุณเลือกซื้อ สำหรับข้อมูลเพิ่มเติมเกี่ยวกับผลลัพธ์ประสิทธิภาพและการวัดประสิทธิภาพ โปรดดูที่
เทคโนโลยีต่างๆ ของ Intel® อาจต้องการฮาร์ดแวร์ ซอฟต์แวร์ หรือการเปิดใช้บริการที่รองรับ
มีการประเมินหรือจำลองผลลัพธ์แล้ว ค่าใช้จ่ายและผลลัพธ์ของคุณอาจแตกต่างกันไป
© Intel Corporation Intel, โลโก้ Intel และเครื่องหมาย Intel อื่น ๆ เป็นเครื่องหมายการค้าของบริษัท Intel Corporation หรือบริษัทในเครือ ชื่อและยี่ห้ออื่น ๆ อาจเป็นทรัพย์สินของผู้อื่น