|Design||manycore extended x86/x64 design|
|General purpose||Intel Architecture registers|
|Floating point||512-bit SIMD vector registers|
Intel Many Integrated Core Architecture or Intel MIC (pronounced Mick or Mike) is a coprocessor computer architecture developed by Intel incorporating earlier work on the Larrabee many core architecture, the Teraflops Research Chip multicore chip research project, and the Intel Single-chip Cloud Computer multicore microprocessor.
Prototype products codenamed Knights Ferry were announced and released to developers in 2010. The Knights Corner product was announced in 2011 and uses a 22 nm process. A second generation product codenamed Knights Landing using a 14 nm process was announced in June 2013.
In November 2012, Intel formally announced the first products citing claims of CPU-like versatile programmability, high performance and power efficiency. The Green 500 list placed a system using these new products as the most power efficient computer in the world.
In June 2013, the Tianhe-2 supercomputer at the National Supercomputing Center in Guangzhou (NSCC-GZ) was announced as the world's fastest supercomputer. It utilizes Intel Ivy Bridge-EP Xeon and Xeon Phi processors to achieve 33.86 petaFLOPS.
The Larrabee microarchitecture (in development since 2006) introduced very wide (512-bit) SIMD units to a x86 architecture based processor design, extended to a cache-coherent multiprocessor system connected via a ring bus to memory; each core was capable of four-way multithreading. Due to the design being intended for GPU as well as general purpose computing the Larrabee chips also included specialised hardware for texture sampling. The project to produce a retail GPU product directly from the Larrabee research project was terminated in May 2010.
Another contemporary Intel research project implementing x86 architecture on a many-multicore processor was the 'Single-chip Cloud Computer', (prototype introduced 2009.), a design mimicking a cloud computing computer datacentre on a single chip with multiple independent cores: the prototype design included 48 cores per chip with hardware support for selective frequency and voltage control of cores to maximize energy efficiency, and incorporated a mesh network for interchip messaging. The design lacked cache-coherent cores and focused on principles that would allow the design to scale to many more cores.
The Teraflops Research Chip (prototype unveiled 2007) is an experimental 80-core chip with two floating point units per core, implementing a 96-bit VLIW architecture instead of the x86 architecture. The project investigated intercore communication methods, per-chip power management, and achieved 1.01 TFLOPS at 3.16 GHz consuming 62 W of power.
Intel's MIC prototype board, named Knights Ferry, incorporating a processor codenamed Aubrey Isle was announced May 31, 2010. The product was stated to be a derivative of the Larrabee project and other Intel research including the Single-chip Cloud Computer.
The development product was offered as a PCIe card with 32 in-order cores at up to 1.2 GHz with four threads per core, 2 GB GDDR5 memory, and 8 MB coherent L2 cache (256 KB per core with 32 KB L1 cache), and a power requirement of ~300 W, built at a 45 nm process. In the Aubrey Isle core a 1,024-bit ring bus (512-bit bi-directional) connects processors to main memory. Single board performance has exceeded 750 GFLOPS. The prototype boards only support single precision floating point instructions.
Initial developers included CERN, Korea Institute of Science and Technology Information (KISTI) and Leibniz Supercomputing Centre. Hardware vendors for prototype boards included IBM, SGI, HP, Dell and others.
In June 2011, SGI announced a partnership with Intel to utilize the MIC architecture in its high performance computing products. In September 2011, it was announced that the Texas Advanced Computing Center (TACC) will use Knights Corner cards in their 10 petaFLOPS "Stampede" supercomputer, providing 8 petaFLOPS of the compute power. According to "Stampede: A Comprehensive Petascale Computing Environment" the "second generation Intel (Knights Landing) MICs will be added when they become available, increasing Stampede's aggregate peak performance to at least 15 PetaFLOPS."
On June 5, 2012, Intel released open source software and documentation regarding Knights Corner.
In June 2012, ScaleMP announced it will provide its virtualization software to allows using 'Knight's Corner' chips (branded as 'Xeon Phi') as main processor transparent extension. The virtualization software will allow 'Knight's Corner' to run legacy MMX/SSE code and access unlimited amount of (host) memory without need for code changes.
Code name for the second generation MIC architecture product from Intel. Intel officially first revealed details of its second generation Intel Xeon Phi products on June 17, 2013. Intel said that the next generation of Intel MIC Architecture-based products will be available in two forms, as a coprocessor or a host processor (CPU), and be manufactured using Intel's 14nm process technology. Knights Landing products will include integrated on-package memory for significantly higher memory bandwidth.
Knights Landing will be built using up to 72 Airmont (Atom) cores with four threads per core, support for up to 384 GB of DDR4 RAM and 8–16 GB of stacked 3D MCDRAM. Each core will have two 512-bit vector units and will support AVX-512F (AVX3.1) SIMD instructions with Intel AVX-512 Conflict Detection Instructions (CDI), Intel AVX-512 Exponential and Reciprocal Instructions (ERI), and Intel AVX-512 Prefetch Instructions (PFI), along with Intel's full x86 instruction set except TSX. Knights Landing's TDP will range from 160 to 215 W.
Knights Hill is the codename for the third-generation MIC architecture, for which Intel announced the first details at SC14. It will be manufactured in a 10 nm process.
In April 2015, the United States Department of Energy announced that a supercomputer named Aurora will be deployed at Argonne National Laboratory based upon the "third-generation Intel Xeon Phi" processor.
On November 12, 2012, Intel announced two Xeon Phi coprocessor families which are the Xeon Phi 3100 and the Xeon Phi 5110P. The Xeon Phi 3100 will be capable of more than 1 teraFLOPS of double precision floating point instructions with 240 GB/sec memory bandwidth at 300 W. The Xeon Phi 5110P will be capable of 1.01 teraFLOPS of double precision floating point instructions with 320 GB/sec memory bandwidth at 225 W. The Xeon Phi 7120P will be capable of 1.2 teraFLOPS of double precision floating point instructions with 352 GB/sec memory bandwidth at 300 W.
The Xeon Phi uses the 22 nm process size. The Xeon Phi 3100 will be priced at under US$2,000 while the Xeon Phi 5110P will have a price of US$2,649 and Xeon Phi 7120 at US$4129. On June 17, 2013, the Tianhe-2 supercomputer was announced by TOP500 as the world's fastest. It uses Intel Ivy Bridge Xeon and Xeon Phi processors to achieve 33.86 petaFLOPS.
An empirical performance and programmability study has been performed by researchers. The authors claim that to achieve high performance Xeon Phi still needs help from programmers and that merely relying on compilers with traditional programming models is still far from reality.
The cores of Intel MIC are based on a modified version of P54C design, used in the original Pentium. The basis of the Intel MIC architecture is to leverage x86 legacy by creating a x86-compatible multiprocessor architecture that can utilize existing parallelization software tools. Programming tools include OpenMP, OpenCL, Cilk/Cilk Plus and specialised versions of Intel's Fortran, C++ and math libraries.
Design elements inherited from the Larrabee project include x86 ISA, 4-way SMT per core, 512-bit SIMD units, 32 KB L1 instruction cache, 32 KB L1 data cache, coherent L2 cache (512 KB per core), and ultra-wide ring bus connecting processors and memory.
- Nvidia Tesla, a direct competitor in the HPC market
- AMD FireStream, another direct competitor in the HPC market
- Timothy Prickett Morgan (June 18, 2012). "Intel slaps Xeon Phi brand on MIC coprocessors". theregister.co.uk. Retrieved July 6, 2014.
- Radek (June 18, 2012). "Chip Shot: Intel Names the Technology to Revolutionize the Future of HPC - Intel® Xeon® Phi™ Product Family". Intel. Retrieved December 12, 2012.
- "Intel Delivers New Architecture for Discovery with Intel® Xeon Phi™ Coprocessors". Intel. Retrieved June 21, 2013.
- "The Green500 List - November 2012". Green500. Retrieved June 21, 2013.
- "TOP500 - June 2013". TOP500 - June 2013. TOP500. Retrieved June 18, 2013.
- "Intel Powers the World's Fastest Supercomputer, Reveals New and Future High Performance Computing Technologies". Retrieved June 21, 2013.
- Charlie Demerjian (July 3, 2006), "New from Intel: It's Mini-Cores!", www.theinquirer.net (The Inquirer)
- Seiler, L.; Cavin, D.; Espasa, E.; Grochowski, T.; Juan, M.; Hanrahan, P.; Carmean, S.; Sprangle, A.; Forsyth, J.; Abrash, R.; Dubey, R.; Junkins, E.; Lake, T.; Sugerman, P. (August 2008). "Larrabee: A Many-Core x86 Architecture for Visual Computing" (PDF). ACM Transactions on Graphics. Proceedings of ACM SIGGRAPH 2008 27 (3): 18:11–18:11. ISSN 0730-0301. doi:10.1145/1360612.1360617. Retrieved 2008-08-06.
- Tom Forsyth, "SIMD Programming with Larrabee" (PDF), www.stanford.edu (Intel)
- Ryan Smith (May 25, 2010), "Intel Kills Larrabee GPU, Will Not Bring a Discrete Graphics Product to Market\", www.anandtech.com (AnandTech)
- Tony Bradley (December 3, 2009), "Intel 48-Core "Single-Chip Cloud Computer" Improves Power Efficiency", www.pcworld.com (PCWorld)
- "Intel Research : Single-Chip Cloud Computer", techresearch.intel.com (Intel)
- Ben Ames (February 11, 2007), "Intel Tests Chip Design With 80-Core Processor", www.pcworld.com (IDG News)
- "Intel’s Teraflops Research Chip" (PDF), download.intel.com (Intel)
- Anton Shilov (February 12, 2007), "Intel Details 80-Core Teraflops Research Chip", www.xbitlabs.com (Xbit laboratories)
- Rupert Goodwins (June 1, 2010), "Intel unveils many-core Knights platform for HPC", www.zdnet.co.uk (ZDNet)
- "Intel News Release : Intel Unveils New Product Plans dor High-Performance Computing", www.intel.com (Intel), May 31, 2010
- Mike Giles (June 24, 2010), "Runners and riders in GPU steeplechase" (PDF), people.maths.ox.ac.uk: 8–10
- Gareth Halfacree (June 20, 2011), "Intel pushes for HPC space with Knights Corner", www.thinq.co.uk (Net Communities Limited, UK)
- "Intel Many Integrated Core Architecture" (PDF), www.many-core.group.cam.ac.uk (Intel), December 2010
- Rick Merritt (June 20, 2011), "OEMs show systems with Intel MIC chips", www.eetimes.com (EE Times)
- Tom R. Halfhill (July 18, 2011), "Intel Shows MIC Progress", www.linleygroup.com (The Linley Group)
- Andrea Petrou (June 20, 2011), "SGI wants Intel for super supercomputer", news.techeye.net
- ""Stampede's" Comprehensive Capabilities to Bolster U.S. Open Science Computational Resources", www.tacc.utexas.edu (Texas Advanced Computing Center), September 22, 2011
- "Stampede: A Comprehensive Petascale Computing Environment" (PDF). IEEE Cluster 2011 Special Topic. Retrieved November 16, 2011.
- Yam, Marcus (November 16, 2011), "Intel's Knights Corner: 50+ Core 22nm Co-processor", www.tomshardware.com (Tom's Hardware), retrieved November 16, 2011
- Sylvie Barak (November 16, 2011), "Intel unveils 1 TFLOP/s Knights Corner", www.eetimes.com (EE Times), retrieved November 16, 2011
- James Reinders (June 5, 2012), Knights Corner: Open source software stack, Intel
- Merritt, Rick (June 8, 2012), "Cray will use Intel MIC, branded Xeon Phi", www.eetimes.com
- Latif, Lawrence (June 19, 2012), "Cray to support Intel's Xeon Phi in Cascade clusters", www.theinquirer.net
- "ScaleMP vSMP Foundation to Support Intel Xeon Phi", www.ScaleMP.com (ScaleMP), June 20, 2012
- Prickett Morgan, Timothy (June 18, 2012), "Intel slaps Xeon Phi brand on MIC coprocessors", 222.theregister.co.uk
- Intel Corporation (June 18, 2012), "Latest Intel(R) Xeon(R) Processors E5 Product Family Achieves Fastest Adoption of New Technology on Top500 List", www.marketwatch.com,
Intel(R) Xeon(R) Phi(TM) is the new brand name for all future Intel(R) Many Integrated Core Architecture based products targeted at HPC, enterprise, datacenters and workstations. The first Intel(R) Xeon(R) Phi(TM) product family member is scheduled for volume production by the end of 2012
- Sebastian Anthony (November 26, 2013), Intel unveils 72-core x86 Knights Landing CPU for exascale supercomputing, ExtremeTech
- James Reinders (July 23, 2013), AVX-512 Instructions, Intel
- Eric Gardner (November 25, 2014), What public disclosures has Intel made about Knights Landing?, Intel Corporation
- ALCF staff (April 9, 2015), Introducing Aurora
- ALCF staff (April 9, 2015), Aurora
- Raj Hazra (June 18, 2012). "Intel® Xeon® Phi™ coprocessors accelerate the pace of discovery and innovation". Intel. Retrieved December 12, 2012.
- Rick Merritt (June 18, 2012). "Cray will use Intel MIC, branded Xeon Phi". EETimes. Retrieved December 12, 2012.
- Terrence O'Brien (June 18, 2012). "Intel christens its 'Many Integrated Core' products Xeon Phi, eyes exascale milestone". Engadget. Retrieved December 12, 2012.
- Jeffrey Burt (June 18, 2012). "Intel Wraps Xeon Phi Branding Around MIC Coprocessors". EWeek. Retrieved December 12, 2012.
- Johan De Gelas (September 11, 2012). "Intel's Xeon Phi in 10 Petaflops supercomputer". AnandTech. Retrieved December 12, 2012.
- IntelPR (November 12, 2012). "Intel Delivers New Architecture for Discovery with Intel® Xeon Phi™ Coprocessors". Intel. Retrieved December 12, 2012.
- Agam Shah (November 12, 2012). "Intel ships 60-core Xeon Phi processor". Computerworld. Retrieved December 12, 2012.
- Johan De Gelas (November 14, 2012). "The Xeon Phi at work at TACC". AnandTech. Retrieved December 12, 2012.
- Fang, Jianbin; Sips, Henk; Zhang, Lilun; Xu, Chuanfu; Yonggang, Che; Varbanescu, Ana Lucia (2014). "Test-Driving Intel Xeon Phi" (PDF). Retrieved December 30, 2013.
- Hruska, Joel (July 30, 2012). "Intel’s 50-core champion: In-depth on Xeon Phi". ExtremeTech. Ziff Davis, Inc. Retrieved December 2, 2012.
- Rick Merritt (June 20, 2011), "OEMs show systems with Intel MIC chips", www.eetimes.com (EE Times)
- Efficient Hybrid Execution of C++ Applications using Intel(R) Xeon Phi(TM) Coprocessor, arXiv:1211.5530 [cs.DC], November 23, 2012
- "News Fact Sheet: Intel Many Integrated Core (Intel MIC) Architecture ISC'11 Demos and Performance Description" (PDF), newsroom.intel.com (Intel), June 20, 2011
- Tesla vs. Xeon Phi vs. Radeon. A Compiler Writer’s Perspective // The Portland Group (PGI), CUG 2013 Proceedings
- "Intel® Many Integrated Core Architecture (Intel MIC Architecture) - RESOURCES (including downloads)". Intel. Retrieved January 6, 2014.
- "Intel Xeon Phi Coprocessor Instruction Set Architecture Reference Manual" (PDF). Intel. September 7, 2012. Retrieved January 6, 2014.
- "Intel® Developer Zone: Intel Xeon Phi Coprocessor". Intel. Retrieved January 6, 2014.
- Jon Stokes (June 20, 2011). "Intel takes wraps off 50-core supercomputing processor plans". Ars Technica.
|40x40px||Wikimedia Commons has media related to Intel MIC.|
- Intel pages: Xeon Phi Product Family
- Hazra, Raj (June 18, 2012), "Intel® Xeon® Phi™ coprocessors accelerate the pace of discovery and innovation", blogs.intel.com,
Today, with the announcement of Intel® Xeon® Phi™ coprocessors, we’re going to accelerate the pace of these discoveries and innovations. Intel® Xeon Phi products extend the Intel® Xeon® brand..
- Intel teaches Xeon Phi x86 coprocessor snappy new tricks