The many integrated core initiative is a key part of Intel's larger HPC strategy, and the chip giant will offer coprocessors that initially will have more than 50 x86-based cores.
Intel executives are shedding more light on their efforts in the high-performance computing (HPC) space, and their desire to reach exascale computing by 2018, which currently centers on the companys newest Xeon chips, an expanded interconnect push and new branding around Intels upcoming many integrated core (MIC) architecture.
Intel is two years into its MIC initiative, the chip makers play to address the growth of graphics chips in systems, which are being embraced for the parallel-processing capabilities that are making them increasingly popular in the HPC and supercomputer fields. Intel is wrapping the brand name Xeon Phi around the MIC effort, which initially will offer coprocessorswhich work with CPUs, such as Intels Xeon chipswith more than 50 cores, according to Intel officials.
Along with the core count, the Xeon Phi chips will offer greater performance for workloads that demand parallel-processing capabilities as well as greater energy efficiency.
Intel executives unveiled the Xeon Phi brand June 18 at the International Supercomputing Conference (SC) in Hamburg, Germany.
Intels x86-based processorsincluding the Xeon chipsare the dominant computing architecture, running the bulk of servers on the market. Intel also is a significant presence in the HPC space, a segment that is becoming increasingly important to the chip maker, according to Rajeeb Hazra, vice president of the Intel Architecture Group and general manager of technical computing at the company. HPC is one of three key target areascloud and networking being the other twoand promises 20 percent annual growth for Intel.
This projects to be a major growth segment for the business, Hazra said in a conference call with journalists before the ISC announcement.
In March, Intel unveiled its Xeon E5-2600 processors
, which offer up to eight cores, 80 percent better performance over the previous generation and 50 percent better energy efficiency. Officials said HPC and supercomputing would be key markets for the chips, which was confirmed at ISC with the release of the Top500 list
of the worlds fastest supercomputers. According to Intel, 44 supercomputers on the list
run on Xeon E5-2600 processors, including the fourth-fastest in the world.
Intel also has been building out its interconnect capabilities, both internally and through such acquisitions as QLogics InfiniBand products and Crays networking assets
The Xeon Phi push will be a key part of the initiative. Nvidia in recent years has made a push with its Tesla chips to bring graphics processing unit (GPU) capabilitieslong found in gaming systemsto mainstream systems and supercomputers. The Tesla chips offer hundreds of cores designed to process complex workloads in parallel. A growing number of supercomputers on the Top500 list are hybrids, which use both CPUs and GPUs. The fifth-fastest system on the list, the Tianhe-A1 in China, was built using Intel Xeon chips and Nvidia GPUs.
Intel had a project called Larrabee underway to use graphics technology for coprocessing, but shelved it in 2009. In 2010, the company unveiled Knights Corner, the x86-based foundation for the MIC architecture. At the Supercomputing Conference in November 2011, Intel demonstrated a system
running with MIC architecture inside.
Xeon Phi will be made via Intels 22-nanometer manufacturing process and go into production later this year. The coprocessors essentially will offer the capability of running a teraflop of performance on a PCIe card. It will support standard Intel programming models and software tools, and will be able to run whole applications.
Intels Hazra argued that having x86-based coprocessors offers an advantage over GPUs because of their ability to run more existing code. This is generally a lot of not just interest, but business interest, he said.
Cray announced June 18 that its next-generation supercomputer, called Cascade, will incorporate Xeon Phi coprocessors. Cray already uses GPUs as coprocessorsits XK6 hybrid supercomputer leverages both CPUs from Advanced Micro Devices and Nvidia Tesla GPUs. Speaking on the Intel call with journalists, Cray President and CEO Peter Ungaro said the Xeon Phi will help his company broaden its capabilities and will play a role in Crays adaptive supercomputing initiative. In addition, SGI officials said their new UV2 supercomputer, which also was announced June 18, will support the Intel MIC architecture.
Intel officials said a host of other vendorsincluding IBM, Hewlett-Packard, Dell, Appro and Bullalso have expressed support.