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Difference between revisions of "chip multiprocessor"
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− | === Recent | + | === Recent high core-core chips === |
− | The following | + | The following is a select list of high core-count chips: |
+ | |||
+ | {{collist | ||
+ | | count = 2 | ||
+ | | | ||
+ | * '''[[28 cores]]:''' | ||
+ | ** [[Intel]] {{intel|Xeon Platinum 8180}} <small>(2017)</small> | ||
+ | ** [[Cavium]] {{cavium|ThunderX2 CN9975}} <small>(2018)</small> | ||
+ | * '''[[30 cores]]:''' | ||
+ | ** [[Cavium]] {{cavium|ThunderX2 CN9978}} <small>(2018)</small> | ||
+ | * '''[[32 cores]]:''' | ||
+ | ** [[AMD]] {{amd|EPYC 7601}} <small>(2017)</small> | ||
+ | ** [[Cavium]] {{cavium|ThunderX2 CN9980}} <small>(2018)</small> | ||
+ | ** [[Ampere Computing|Ampere]] {{ampere|eMAG 8180}} <small>(2018)</small> | ||
+ | * '''[[40 cores]]:''' | ||
+ | ** [[Qualcomm]] {{qualcomm|Centriq 2434}} <small>(2017)</small> | ||
+ | * '''[[46 cores]]:''' | ||
+ | ** [[Qualcomm]] {{qualcomm|Centriq 2452}} <small>(2017)</small> | ||
+ | * '''[[48 cores]]:''' | ||
+ | ** [[Qualcomm]] {{qualcomm|Centriq 2460}} <small>(2017)</small> | ||
+ | * '''[[64 cores]]:''' | ||
+ | ** [[Intel]] {{intel|Xeon Phi 7230}} <small>(2016)</small> | ||
+ | ** [[Phytium]] {{phytium|FT-2000}} <small>(2017)</small> | ||
+ | ** Phytium {{phytium|FT-2000+}} <small>(2019)</small> | ||
+ | * '''[[68 cores]]:''' | ||
+ | ** [[Intel]] {{intel|Xeon Phi 7250}} <small>(2016)</small> | ||
+ | * '''[[72 cores]]:''' | ||
+ | ** [[Intel]] {{intel|Xeon Phi 7290}} <small>(2016)</small> | ||
+ | * '''[[128 cores]]:''' | ||
+ | ** [[NUDT]] {{nudt|Matrix-2000}} <small>(2017)</small> | ||
+ | ** NUDT {{nudt|Matrix-2000+}} <small>(2019)</small> | ||
+ | }} | ||
== See also == | == See also == |
Revision as of 21:49, 16 March 2019
A chip multiprocessor (CMP) or multi-core architecture is a logic design architecture whereby multiple processing units (e.g., CPU cores) are integrated onto a single monolithic integrated circuit or onto multiple dies in a single package.
Contents
History
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Overview
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Heterogeneous multi-core architectures
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Single and Multi-ISA designs
This section is empty; you can help add the missing info by editing this page. |
Manycore
- Main article: Manycore Microprocessor
This section is empty; you can help add the missing info by editing this page. |
Multi-core chips
- 2 (dual-core)
- 3 (tri-Core)
- 4 (quad-core)
- 5 (penta-core)
- 6 (hexa-core)
- 7 (hepta-core)
- 8 (octa-core)
- 9 (nona-core)
- 10 (deca-core)
- 11 (undeca-core)
- 12 (dodeca-core)
- 13 (trideca-core)
- 14 (tetradeca-core)
- 15 (pentadeca-core)
- 16 (hexadeca-core)
- 17 (heptadeca-core)
- 18 (octadeca-core)
- 19 (nonadeca-core)
- 20 (icosa-core)
- 21 (henicosa-core)
- 22 (docosa-core)
- 23 (tricosa-core)
- 24 (tetracosa-core)
- 25 (pentacosa-core)
- 26 (hexacosa-core)
- 27 (heptacosa-core)
- 28 (octacosa-core)
- 29 (nonacosa-core)
- 30 (triaconta-core)
- 32 (dotriaconta-core)
- 40 (tetraconta-core)
- 46 (hexatetraconta-core)
- 48 (octatetraconta-core)
- 64 (tetrahexaconta-core)
- 128 (octacosahecta-core)
- 256 (hexapentacontadicta-core)
- 512 (dodecapentacta-core)
- 1000 (kilo-core)
- 1024 (tetracosakilia-core)
Recent high core-core chips
The following is a select list of high core-count chips:
- 28 cores:
- Intel Xeon Platinum 8180 (2017)
- Cavium ThunderX2 CN9975 (2018)
- 30 cores:
- Cavium ThunderX2 CN9978 (2018)
- 32 cores:
- 40 cores:
- Qualcomm Centriq 2434 (2017)
- 46 cores:
- Qualcomm Centriq 2452 (2017)
- 48 cores:
- Qualcomm Centriq 2460 (2017)
- 64 cores:
- Intel Xeon Phi 7230 (2016)
- Phytium FT-2000 (2017)
- Phytium FT-2000+ (2019)
- 68 cores:
- Intel Xeon Phi 7250 (2016)
- 72 cores:
- Intel Xeon Phi 7290 (2016)
- 128 cores:
- NUDT Matrix-2000 (2017)
- NUDT Matrix-2000+ (2019)
See also
This article is still a stub and needs your attention. You can help improve this article by editing this page and adding the missing information. |