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Intel Xeon Phi SE10X

Intel Xeon Phi SE10X Image Intel Knights Corner Image
The Xeon Phi SE10X is a professional graphics card by Intel, launched in November 2012. Built on the 22 nm process, and based on the Knights Corner graphics processor, the card supports DirectX 11.1. The Knights Corner graphics processor is a large chip with a die area of 350 mm² and 5,000 million transistors. It features 244 shading units, 61 texture mapping units and 61 ROPs. Intel has placed 8,192 MB GDDR5 memory on the card, which are connected using a 512-bit memory interface. The GPU is operating at a frequency of 1100 MHz, memory is running at 1375 MHz.
We recommend the Intel Xeon Phi SE10X for gaming with highest details at resolutions up to, and including, 5760x1080.
Being a dual-slot card, its power draw is rated at 300 W maximum. Xeon Phi SE10X is connected to the rest of the system using a PCIe 3.0 x16 interface. The card measures 248 mm in length, and features a dual-slot cooling solution.

Graphics Processor

GPU Name: Knights Corner
Process Size: 22 nm
Transistors: 5,000 million
Die Size: 350 mm²

Graphics Card

Released: Nov 12th, 2012
Production Status: Active
Bus Interface: PCIe 3.0 x16

Clock Speeds

GPU Clock: 1100 MHz
Memory Clock: 1375 MHz
5500 MHz effective

Memory

Memory Size: 8192 MB
Memory Type: GDDR5
Memory Bus: 512 bit
Bandwidth: 352 GB/s

Render Config

Shading Units: 244
TMUs: 61
ROPs: 61
Pixel Rate: 67.1 GPixel/s
Texture Rate: 67.1 GTexel/s
Floating-point performance: 536.8 GFLOPS

Board Design

Slot Width: Dual-slot
Length: 9.76 inches
248 mm
TDP: 300 W

Graphics Features

DirectX: 11.1
OpenGL: 4.3
OpenCL: 1.2
Shader Model: 5.0

Reviews

Our review database contains 1 reviews of the Xeon Phi SE10X.

Card Notes

On November 15, 2011, Intel showed an early silicon version of a Knights Corner processor.

On June 5, 2012, Intel released open source software and documentation regarding Knights Corner.

In June 2012, Cray announced it would be offering 22nm 'Knight's Corner' chips (branded as 'Xeon Phi') as a co-processor in its 'Cascade' systems.