Intel announces Stratix 10 TX 58Fbps FPGA enabling 400Gb Ethernet

Brink

Administrator
Staff member
Local time
8:22 PM
Messages
74,938
Location
Oklahoma
The Intel Stratix 10 TX FPGAs are the world’s first field programmable gate array with 58Gbps PAM4 transceiver technology enabling 400Gb Ethernet deployment. This technology doubles transceiver bandwidth performance when compared to traditional solutions. (Credit: Intel Corporation)

What’s New: At the Optical Fiber Communications (OFC) conference in San Diego this week, Intel’s Programmable Solutions Group is showcasing market-leading 58Gbps transceiver technology integrated on the Intel® Stratix® 10 TX FPGA — the world’s first field programmable gate array (FPGA) with 58Gbps PAM4 transceiver technology now shipping in volume production and enabling 400Gb Ethernet deployment.

“As we continue to deliver product innovations and capabilities that allow for higher data ingest and processing speeds critical for networking and data center applications, this is a powerful example of how Intel FPGAs bring real value to our customers.”
–Dan McNamara, Intel senior vice president and general manager of the Programmable Solutions Group​

Why It’s Important: This industry-leading technology doubles transceiver bandwidth performance when compared to traditional solutions. It is critical for applications where high bandwidth is paramount, including: networking, cloud and 5G applications, optical transport networks, enterprise networking, cloud service providers, and 5G. By supporting dual-mode modulation, 58Gbps PAM4 and 30Gbps NRZ, new infrastructure can reach 58Gbps data rates while staying backward-compatible with existing network infrastructure.

The Stratix 10 TX FPGA with 58Gbps PAM4 transceiver technology provides system architects with higher transceiver bandwidth and hardened IP to address the insatiable demand for faster and higher density connectivity.

“The 400Gb Ethernet and QSFP-DD market is evolving at a fast pace. And being first to market with a portable solution is instrumental to enable the transition from lab to the field. We were excited to work closely with Intel to deliver our next-generation test module with the only production FPGA technology supporting native 58Gbps PAM4,” says Ildefonso M. Polo, vice president of Product Marketing at VeEX.

What It Does: To facilitate the future of networking, Network Function Virtualization (NFV) and optical transport solutions, Intel Stratix 10 TX FPGAs provide up to 144 transceiver lanes with serial data rates of 1 to 58Gbps. This combination delivers a higher aggregate bandwidth than any current FPGA, enabling architects to scale to 100Gb, 200Gb and 400Gb delivery speeds.

A wide range of hardened intellectual property cores, including 100Gb MAC and FEC, deliver optimized performance, latency and power.

What It Delivers: Intel Stratix 10 FPGA 58Gbs transceivers are interoperable with 400G Ethernet FPGAs, using only eight channels to support new high-bandwidth requirements for routers, switches, active optical cables and direct attach cables, interconnects, and test and measurement equipment.

What the Future Holds: At Intel Architecture Day, Intel unveiled a 112G PAM4 high-speed transceiver test chip built on 10nm process technology. The chip will be incorporated into Intel’s next-generation FPGA product families, supporting the most demanding bandwidth requirements in next-generation data center, enterprise and networking environments.

More Context: Intel FPGAs and Programmable Devices | Programmable Solutions Group News


Source: Intel Announces First 58Gbps FPGA Transceiver in Volume Production Enabling 400G Ethernet Deployment | Intel Newsroom
 

My Computer My Computer

At a glance

64-bit Windows 11 Pro for WorkstationsIntel i7-8700K OC'd to 5 GHz64 GB (4x16GB) G.SKILL TridentZ RGB DDR4 3600...ASUS ROG-STRIX-GTX1080TI-O11G-GAMING
Computer type
PC/Desktop
Computer Manufacturer/Model Number
Self built custom
OS
64-bit Windows 11 Pro for Workstations
CPU
Intel i7-8700K OC'd to 5 GHz
Motherboard
ASUS ROG Maximus XI Formula Z390
Memory
64 GB (4x16GB) G.SKILL TridentZ RGB DDR4 3600 MHz
Graphics Card(s)
ASUS ROG-STRIX-GTX1080TI-O11G-GAMING
Sound Card
Integrated
Monitor(s) Displays
2 x Samsung Odyssey G7 27"
Screen Resolution
2560x1440
Hard Drives
1TB Samsung 990 PRO M.2,
4TB Samsung 990 PRO PRO M.2,
TerraMaster F8 SSD Plus NAS
PSU
Seasonic Prime Titanium 850W
Case
Thermaltake Core P3
Cooling
Corsair Hydro H115i
Keyboard
Logitech wireless K800
Mouse
Logitech MX Master 4
Internet Speed
2 Gb/s Download and 100 Mb/s Upload
Antivirus
Malwarebyte Anti-Malware Premium
Browser
Google Chrome
Other Info
Logitech Z625 speaker system,
Logitech BRIO 4K Pro webcam,
HP Color LaserJet Pro MFP M477fdn,
APC SMART-UPS RT 1000 XL - SURT1000XLI,
Galaxy S23 Plus phone
I went to the OFC website via the link, and I noted there that Xilinx are also promoting 112G PAM4, 400GE products at the same conference. So whether the Intel FPGA is based on the Xilinx FPGA?? Or should credit go to each manufacturer?
 

My Computer My Computer

At a glance

Windows 7 x64, Vista x64, 8.1 smartphoneIntel E8400 65W 64-bitDDR2 2 x 2GB, 1GB x 2XFX Radeon HD5750
Computer type
PC/Desktop
OS
Windows 7 x64, Vista x64, 8.1 smartphone
CPU
Intel E8400 65W 64-bit
Motherboard
Gigabyte EP45-UD3LR
Memory
DDR2 2 x 2GB, 1GB x 2
Graphics Card(s)
XFX Radeon HD5750
Sound Card
AMD High Definition Audio; Realtek High Definition Audio
Monitor(s) Displays
iiyama prolite X2377HDS
Screen Resolution
1920 x 1080
Hard Drives
500GB 7200 rpm Seagate ST3500413AS 16MB, 500GB 5400 rpm Toshiba MQ02ABF050H 32MB, 200GB 7200 rpm Seagate ST3200820AS 8MB, 2TB 7200 rpm Western Digital WD20EZRX 64MB
PSU
Enermax Liberty Modular
Case
Antec P193 Midi Tower
Keyboard
Mionix ZIBAL 60
Mouse
Razer USB 2.0 Diamondback Mouse or Huion Graphics Tablet
Browser
Internet Explorer, Lunascape, Firefox, Opera, Avast Safezone
Back
Top