AMD Embedded Solutions
AMD Embedded Solutions
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legal form | Division of AMD (Corporation) |
founding | AMD: 1969 |
Seat | AMD: Sunnyvale , USA |
management | EMEA: Aurelius Wosylus (since October 2005) |
Website | www.amd.com/embedded |
AMD Embedded Solutions is a division of Advanced Micro Devices, Inc. (AMD) that focuses on embedded products for embedded systems . The product portfolio includes processors , Accelerated Processing Units (APUs) , chipsets and discrete graphics cards as well as developer boards and RDKs (Reference Design Kits). In line with the product life cycles of embedded systems, AMD embedded products are planned to be available for at least five years. In addition, the company fulfills “ End of Life ” obligations for a further two years for some products . The company keeps products in high demand available beyond the planned minimum availability. One example is the AMD Geode LX processor family, which is planned to be available for ten years.
Historical development and product history
From 1991
With the introduction of the Am386 and Am486 processors , their integration into embedded designs begins. In 1995 the Am5x86 processor was introduced, which served as a compatible upgrade path for users of Am486 systems. In the late 1990s, AMD expanded its E86 (Embedded x86) product family with the introduction of the Élan ™ SC520 microcontroller for the data communications, telecommunications and information equipment markets.
From 2000
In early 2000, AMD expanded its embedded business with the acquisition of Alchemy Semiconductor and its Alchemy line of MIPS processors for handhelds and portable media players. In addition, in August 2003, AMD acquired the AMD Geode division, which was originally part of National Semiconductor. In the second quarter of 2004, AMD expanded its Geode families to include low-power processors under the name Geode NX, which are based on the AMD K7 Thoroughbred architecture.
From 2005
In mid-2005, AMD added 64-bit processors to its embedded product line for the first time with the AMD Opteron processor.
Since 2006
In July 2006, AMD announced the acquisition of ATI Technologies, Inc. , thereby expanding its embedded portfolio with technologies for chipsets and discrete graphics cards.
In 2006, AMD Embedded also added the AMD Athlon , AMD Turion and AMD Sempron Mobile processors to its embedded product line .
From 2007
From 2007 until 2008, AMD Embedded added more single and dual core processors to its embedded product line. Including the 64-bit single-core processor AMD Athlon 64 2000+ with 8 W TDP and multi-core AMD Opteron processors.
In February 2007, AMD also announced the launch of the integrated graphics chipset series AMD 690 and shortly thereafter the M690T for embedded designs. The M690T was followed by the M690E, specially designed for embedded applications.
Since 2008
In 2008 and 2009, AMD Embedded expanded its range of integrated chipsets to include the AMD 780E and SB710 embedded chipsets.
In addition, the ATI Radeon E2400 graphics card was announced in 2008 . It was the first discrete ATI Radeon graphics card that was specially developed for the embedded market with a planned availability of five years.
From 2009 on
In 2009 AMD Embedded launched the ASB1 processor family. The ASB1 processors make AMD Embedded available as single-core and dual-core options in an 812-ball BGA package . In mid-2009, AMD also launched the SR5690 and SP5100 chipsets for enterprise-level embedded applications.
In 2009 the discrete ATI Radeon E4690 graphics card followed. The discrete graphics solutions from AMD Embedded are made available not only as graphics processors with integrated memory, but also as MXM modules .
From 2010
In June 2010, AMD demonstrated its first Accelerated Processing Unit (APU) with AMD Fusion technology at Computex and will announce availability from the beginning of 2011.
In September 2010, the first details about the embedded variants of the Fusion APUs will be made public.
In November 2010, AMD Embedded announced that the embedded variants of the AMD Fusion APUs will be available in the first quarter of 2011 under the name AMD Embedded G-Series .
Also in November 2010, AMD joins the MeeGo Linux Open Source Project. As part of this, AMD states that it will provide development resources with which the technical foundation for the next generation of mobile platforms and embedded devices will be established.
As of 2011
In January 2011, AMD announced the availability of the AMD Embedded G-Series processors, which it claims to be the world's first and only APUs for embedded systems.
In March 2011, AMD Embedded presented new CPUs for the AMD Embedded G-Series platform at the Embedded World in Nuremberg. The CPUs characterized as "headless" do without the graphics unit integrated in the APUs. Target applications are therefore deeply embedded systems that are operated without a screen.
In May 2011, AMD Embedded presented the embedded graphics processor AMD Radeon E6760 at the Embedded Systems Conference Silicon Valley 2011, which can supply six monitors with one image.
Also in May 2011, AMD Embedded announced the availability of two new variants of the AMD Embedded G series with reduced power requirements. One or two low-power x86 "Bobcat" processor cores form the basis for this. In September 2011, AMD Embedded presented the discrete AMD Radeon E6460 graphics processor for the embedded markets of casino gaming, digital signage and industrial measurement technology at the Embedded Systems Conference.
From 2012
In May, APUs of the R series based on Trinity with 2 or 4 CPU cores and integrated GPU were presented.
In June the Embedded G-series was supplemented by the particularly economical T16R with only 4.5W TDP, the guaranteed availability of the existing G-series chips was extended to 2017.
From 2013
In April, AMD presented the new system-on-chip of the G series with Kabini technology, built-in graphics unit, ECC support and a TDP from 9W.
The SOC of the G series was expanded in July to include a model with only 6W TDP.
The AMD Embedded R-Series range was expanded to include three models without a GPU in August.
Since 2014
In May, the second generation of the Kaveri-based embedded APUs and CPUs of the R series was presented. The processors are equipped with an ECC-capable memory controller and four displays can be controlled. Production takes place in 28 nm, the TDP can be specified by the system manufacturer (configurable TDP).
Products
Embedded Processors
AMD Athlon
model | OPN | base | Processor cores | Clock frequency | Cache | TDP | Memory interface | HyperTransport Interface | Launch |
---|---|---|---|---|---|---|---|---|---|
AMD Athlon ™ X2 3400+ | ADD3400IAA5CUE | ON 2 | 2 | 1.8 GHz | L2 512KB x2 | 35W | DDR3-800, 2-ch Unbuffered ECC | 1 HT link with 16 lanes at 1.0 GHz full duplex | 2008 |
AMD Athlon ™ X2 3400e | ADJ3400IAA5DOE | ON 2 | 2 | 1.8 / 1.0 GHz | L2 512KB x2 | 22 / 10.8W | DDR3-800, 2-ch Unbuffered ECC | 1 HT link with 16 lanes at 1.0 GHz full duplex | 2008 |
AMD Athlon ™ X2 3600+ | ADD3600IAA5DOE | ON 2 | 2 | 1.9 GHz | L2 512KB x2 | 35W | DDR3-800, 2-ch Unbuffered ECC | 1 HT link with 16 lanes at 1.0 GHz full duplex | 2008 |
AMD Athlon ™ X2 4200+ | ADD4200IAA5DOE | ON 2 | 2 | 2.2 GHz | L2 512KB x2 | 35W | DDR3-800, 2-ch Unbuffered ECC | 1 HT link with 16 lanes at 1.0 GHz full duplex | 2008 |
AMD Athlon ™ 2000+ | ADF2000IAV4DRE | ON 2 | 1 | 1.0 GHz | L2 512KB | 8W | DDR3-667, 2-ch Unbuffered ECC | 1 HT link with 16 lanes at 1.0 GHz full duplex | 2007 |
AMD Athlon ™ 2600+ | ADG2600IAV4DRE | ON 2 | 1 | 1.6 GHz | L2 512KB | 15W | DDR3-667, 2-ch Unbuffered ECC | 1 HT link with 16 lanes at 800 MHz full duplex | 2007 |
AMD Athlon ™ 3000+ | ADD3000IAA4CNE | ON 2 | 1 | 1.8 GHz | L2 512KB | 35W | DDR3-667, 2-ch Unbuffered ECC | 1 HT link with 16 lanes at 1.0 GHz full duplex | 2007 |
AMD Athlon ™ 3100+ | ADS3100IAR4DRE | ON 2 | 1 | 2.0 GHz | L2 512KB | 25W | DDR3-667, 2-ch Unbuffered ECC | 1 HT link with 16 lanes at 1.0 GHz full duplex | 2007 |
AMD Athlon ™ II XL - V66C | AEV66CHDK23GME | AT 3 | 2 | 2.8 GHz | L2 1MB x2 | 45W | DDR3-1333, 2-ch Unbuffered ECC | 1 HT link with 16 lanes at 2.0 GHz full duplex | 2010 |
AMD Athlon ™ II XLT - V50L | AEV50LSFK23GME | AT 3 | 2 | 2.2 / 0.8 GHz | L2 1MB x2 | 25 / 13.8W | DDR3-1066, 2-ch Unbuffered ECC | 1 HT link with 16 lanes at 2.0 GHz full duplex | 2010 |
AMD Athlon ™ II XLT - V64L | AEV64LHFK23GME | AT 3 | 2 | 2.7 GHz | L2 1MB x2 | 45W | DDR3-1066, 2-ch Unbuffered ECC | 1 HT link with 16 lanes at 2.0 GHz full duplex | 2010 |
AMD Athlon ™ Neo X2 L325 | AMZL325OAX5DYE | ASB1 BGA | 2 | 1.5 GHz | L2 512KB x2 | 18W1 | DDR2-667, 2-ch Unbuffered ECC | 1 HT link with 16 lanes at 800 MHz full duplex | 2009 |
AMD Athlon ™ II Neo - N36L | AEN36LLAV23GME | ASB2 BGA | 2 | 1.3 / 0.8 GHz | L2 1MB x2 | 12 / 8W | DDR3-800, 2-ch Unbuffered ECC | 1 HT link with 16 lanes at 1.0 GHz full duplex | 2010 |
AMD Athlon ™ II Neo - R34L | AER34LFCV13GME | ASB2 BGA | 1 | 1.0 GHz | L2 1MB | 8W | DDR3-800, 2-ch Unbuffered ECC | 1 HT link with 16 lanes at 1.0 GHz full duplex | 2010 |
AMD Athlon ™ II Neo - R44L | AER44LLAV13GME | ASB2 BGA | 1 | 1.7 GHz | L2 1MB | 12W | DDR3-800, 2-ch Unbuffered ECC | 1 HT link with 16 lanes at 1.0 GHz full duplex | 2010 |
model | OPN | base | Processor cores | Clock frequency | Cache | TDP | Memory interface | HyperTransport Interface | Launch |
AMD Embedded G-Series
model | OPN | base | Processor cores | Clock frequency | Cache | TDP | Memory interface | graphic | Launch |
---|---|---|---|---|---|---|---|---|---|
AMD Embedded G-Series T16R | GET16RFWB12GVE | 19mm FCBGA | 1 | 615 MHz | L2 512KB | 4.5W | LVDDR3-1066 | AMD Radeon ™ HD 6250 | 2012 |
AMD Embedded G-Series T24L | GET24LFQB12GVE | 19mm FCBGA | 1 | 1.0 GHz | L2 512KB | 5W | DDR3-1066, Unbuffered | 2011 | |
AMD Embedded G-Series T30L | GET30LGBB12GVE | 19mm FCBGA | 1 | 1.4 GHz | L2 512KB | 18W | DDR3-1066, Unbuffered | 2011 | |
AMD Embedded G-Series T40E | GET40EFSB22GVE | 19mm FCBGA | 2 | 1.0 GHz | L2 512KB x2 | 6.4W | DDR3-1066, Unbuffered | AMD Radeon ™ HD 6250 | 2011 |
AMD Embedded G-Series T40N | GET40NFPB22GVE | 19mm FCBGA | 2 | 1.0 GHz | L2 512KB x2 | 9W | DDR3-1066, Unbuffered | AMD Radeon ™ HD 6290 | 2011 |
AMD Embedded G-Series T40R | GET40RFSB12GVE | 19mm FCBGA | 1 | 1.0 GHz | L2 512KB | 5.5W | DDR3-1066, Unbuffered | AMD Radeon ™ HD 6250 | 2011 |
AMD Embedded G-Series T44R | GET44RFPB12GVE | 19mm FCBGA | 1 | 1.2 GHz | L2 512KB | 9W | DDR3-1066, Unbuffered | AMD Radeon ™ HD 6250 | 2011 |
AMD Embedded G-Series T48L | GET48LGBB22GVE | 19mm FCBGA | 2 | 1.4 GHz | L2 512KB x2 | 18W | DDR3-1066, Unbuffered | 2011 | |
AMD Embedded G-Series T48N | GET48NGBB22GVE | 19mm FCBGA | 2 | 1.4 GHz | L2 512KB x2 | 18W | DDR3-1066, Unbuffered | AMD Radeon ™ HD 6310 | 2011 |
AMD Embedded G-Series T48E | GET48EGBB22GVE | 19mm FCBGA | 2 | 1.4 GHz | L2 512KB x2 | 18W | DDR3-1066, Unbuffered | AMD Radeon ™ HD 6250 | 2012 |
AMD Embedded G-Series T52R | GET52RGBB12GVE | 19mm FCBGA | 1 | 1.5 GHz | L2 512KB | 18W | DDR3-1333, Unbuffered | AMD Radeon ™ HD 6310 | 2011 |
AMD Embedded G-Series T56N | GET56NGBB22GVE | 19mm FCBGA | 2 | 1.65 GHz | L2 512KB x2 | 18W | DDR3-1333, Unbuffered | AMD Radeon ™ HD 6320 | 2011 |
AMD Embedded G-Series T56E | GET56EGBB22GVE | 19mm FCBGA | 2 | 1.5 GHz | L2 512KB x2 | 18W | DDR3-1333, Unbuffered | AMD Radeon ™ HD 6250 | 2012 |
AMD Embedded R-Series
model | OPN | CPU | GPU | Storage interface |
TDP | base | Launch | |||||
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Cores | frequency | turbo | L2 cache | model | frequency | turbo | ||||||
R-252F | RE252FSHE23HJE | 2 | 1.9 GHz | 2.4 GHz | 1 MB | HD 7400G | 327 MHz | 424 MHz | DDR3-1333 | 17 W. | FP2 (BGA) | Q2 2012 |
R-260H | RE260HSHE24HJE | 2.1 GHz | 2.6 GHz | 2 MB | HD 7500G | 327 MHz | 424 MHz | DDR3-1333 | 17 W. | FP2 (BGA) | Q2 2012 | |
R-268D | RE268DDEC23HJE | 2.5 GHz | 3.0 GHz | 1 MB | HD 7420G | 480 MHz | 654 MHz | DDR3-1600 | 35 W | FS1r2 | Q2 2012 | |
R-272F | RE272FDEC23HJE | 2.7 GHz | 3.2 GHz | 1 MB | HD 7520G | 496 MHz | 685 MHz | DDR3-1600 | 35 W | FS1r2 | Q2 2012 | |
R-452L | RE452LSHE44HJE | 4th | 1.6 GHz | 2.4 GHz | 2 × 2 MB | HD 7600G | 327 MHz | 424 MHz | DDR3-1333 | 19 W | FP2 (BGA) | Q2 2012 |
R-460H | RE460HDEC44HJE | 1.9 GHz | 2.8 GHz | 2 × 2 MB | HD 7640G | 496 MHz | 654 MHz | DDR3-1600 | 35 W | FS1r2 | Q2 2012 | |
R-460H | RE460HDFE44HJE | 1.9 GHz | 2.8 GHz | 2 × 2 MB | HD 7640G | 496 MHz | 654 MHz | DDR3-1333 | 35 W | FP2 (BGA) | Q2 2012 | |
R-460L | RE460LSIE44HJE | 2.0 GHz | 2.8 GHz | 2 × 2 MB | HD 7620G | 360 MHz | 496 MHz | DDR3-1333 | 25 W | FP2 (BGA) | Q2 2012 | |
R-464L | RE464LDFE44HJE | 2.3 GHz | 3.2 GHz | 2 × 2 MB | HD 7660G | 496 MHz | 685 MHz | DDR3-1333 | 35 W | FP2 (BGA) | ||
R-464L | RE464LDEC44HJE | 2.3 GHz | 3.2 GHz | 2 × 2 MB | HD 7660G | 496 MHz | 685 MHz | DDR3-1600 | 35 W | FS1r2 | Q2 2012 | |
R-264X | RE264XSHE23HL | 2 | 2.2 GHz | 2.8 GHz | 1 MB | unavailable | DDR3-1333 | 17 W. | FP2 (BGA) | Q3 2013 | ||
R-272X | RE272XDEC23HJ | 2.7 GHz | 3.2 GHz | 1 MB | DDR3-1600 | 35 W | FS1r2 | Q3 2013 | ||||
R-464X | RE464XDEC44HJ | 4th | 2.3 GHz | 3.2 GHz | 2 × 2 MB | DDR3-1600 | 35 W | FS1r2 | Q3 2013 |
AMD Geode
model | OPN | base | Processor cores | Clock frequency | Cache | TDP | Memory interface | Launch |
---|---|---|---|---|---|---|---|---|
AMD Geode ™ LX600 | LX600@0.7W | Geode link | 1 | 366 MHz (600) | L2 128KB | 2.8W | DDR-266 | 2005 |
AMD Geode ™ LX700 | LX700@0.8W | Geode link | 1 | 433 MHz (700) | L2 128KB | 3.1W | DDR 333 | 2006 |
AMD Geode ™ LX800 | LX800@0.9W | Geode link | 1 | 500 MHz (800) | L2 128KB | 3.6W | DDR-400 | 2005 |
AMD Geode ™ LX900 | LX900@1.5W | Geode link | 1 | 600 MHz (900) | L2 128KB | 5.1W | DDR-400 | 2007 |
AMD Opteron
model | OPN | base | Processor cores | Clock frequency | Cache | TDP | Memory interface | HyperTransport Interface | Launch |
---|---|---|---|---|---|---|---|---|---|
AMD Opteron 41GL EE | OE41GLHKU6DGOE | C32 | 6th | 1.8 GHz | L2 512K x6; L3 6MB | 40W | DDR3-1333 2-ch Registered ECC & Chipkill | Two HT links with 16 lanes at up to 2.2 GHz full duplex | 2010 |
AMD Opteron 41KX HE | OE41KXOHU6DGOE | C32 | 6th | 2.2 GHz | L2 512K x6; L3 6MB | 65W | DDR3-1333 2-ch Registered ECC & Chipkill | Two HT links with 16 lanes at up to 2.2 GHz full duplex | 2010 |
AMD Opteron 41LE HE | OE41LEOHU4DGOE | C32 | 4th | 2.3 GHz | L2 512K x4; L3 6MB | 65W | DDR3-1333 2-ch Registered ECC & Chipkill | Two HT links with 16 lanes at up to 2.2 GHz full duplex | 2010 |
AMD Opteron 41QS HE | OE41QSOHU4DGOE | C32 | 4th | 2.5 GHz | L2 512K x4; L3 6MB | 65W | DDR3-1333 2-ch Registered ECC & Chipkill | Two HT links with 16 lanes at up to 2.2 GHz full duplex | 2010 |
AMD Opteron 61KS | OE61KSWKT8EGO | G34 | 8th | 2.0 GHz | L2 512KB x8; L3 12MB | 115W | DDR3-1333 4-ch Registered ECC & Chipkill |
Four HT links with 16 lanes at up to 3.2 GHz full duplex | 2010 |
AMD Opteron 61QS | OE61QSWKT8EGOE | G34 | 8th | 2.3 GHz | L2 512KB x8; L3 12MB | 115W | DDR3-1333 4-ch Registered ECC & Chipkill | Four HT links with 16 lanes at up to 3.2 GHz full duplex | 2010 |
AMD Opteron 1210 EE | OSH1210GAS6DGE | Socket F (1207) | 2 | 1.8 GHz | L2 1MB x2 | 45W | DDR2-667, 2-ch Registered ECC & Chipkill | Three HT links with 16 lanes at up to 1.0 GHz full duplex | 2006 |
AMD Opteron 1214 HE | OSP1214GAU6DGE | Socket F (1207) | 2 | 2.2 GHz | L2 1MB x2 | 68W | DDR2-667, 2-ch Registered ECC & Chipkill | Three HT links with 16 lanes at up to 1.0 GHz full duplex | 2006 |
AMD Opteron 13KS EE | OE13KSFLP4DGIE | Socket F (1207) | 4th | 2.0 GHz | L2 512KB x4; L3 6MB | 50W | DDR2-800, 2-ch Registered ECC & Chipkill | Three HT links with 16 lanes at up to 1.8 GHz full duplex | 2009 |
AMD Opteron 13QS HE | OE13QSMAP4DGIE | Socket F (1207) | 4th | 2.4 GHz | L2 512KB x4; L3 6MB | 71W | DDR2-800, 2-ch Registered ECC & Chipkill | Three HT links with 16 lanes at up to 2.0 GHz full duplex | 2009 |
AMD Opteron 14KS | OE14KSPDS6DGNE | Socket F (1207) | 6th | 2.0 GHz | L2 512KB x6; L3 6MB | 79W | DDR2-800, 2-ch Registered ECC & Chipkill | Three HT links with 16 lanes at up to 2.2 GHz full duplex | 2010 |
AMD Opteron 2208 HE | OSP2208GAA5CXE | Socket F (1207) | 2 | 1.8 GHz | L2 512KB x2 | 68W | DDR2-667, 2-ch Registered ECC & Chipkill | Three HT links with 16 lanes at up to 1.0 GHz full duplex | 2006 |
AMD Opteron 2210 EE | OSH2210GAS6CXE | Socket F (1207) | 2 | 1.8 GHz | L2 1MB x2 | 45W | DDR2-667, 2-ch Registered ECC & Chipkill | Three HT links with 16 lanes at up to 1.0 GHz full duplex | 2006 |
AMD Opteron 2214 HE | OSP2214GAU6CXE | Socket F (1207) | 2 | 2.2 GHz | L2 1MB x2 | 68W | DDR2-667, 2-ch Registered ECC & Chipkill | Three HT links with 16 lanes at up to 1.0 GHz full duplex | 2006 |
AMD Opteron 23KS EE | OE23KSFLP4DGIE | Socket F (1207) | 4th | 2.0 GHz | L2 512KB x4; L3 6MB | 50W | DDR2-800, 2-ch Registered ECC & Chipkill | Three HT links with 16 lanes at up to 1.8 GHz full duplex | 2009 |
AMD Opteron 23QS HE | OE23QSMAP4DGIE | Socket F (1207) | 4th | 2.4 GHz | L2 512KB x4; L3 6MB | 71W | DDR2-800, 2-ch Registered ECC & Chipkill | Three HT links with 16 lanes at up to 2.0 GHz full duplex | 2009 |
AMD Opteron 23VS | OE23VSWHP4DGIE | Socket F (1207) | 4th | 2.8 GHz | L2 512KB x4; L3 6MB | 115W | DDR2-800, 2-ch Registered ECC & Chipkill | Three HT links with 16 lanes at up to 2.2 GHz full duplex | 2009 |
AMD Opteron 24KS | OE24KSPDS6DGNE | Socket F (1207) | 6th | 2.0 GHz | L2 512KB x6; L3 6MB | 79W | DDR2-800, 2-ch Registered ECC & Chipkill | Three HT links with 16 lanes at up to 2.2 GHz full duplex | 2010 |
AMD Opteron 24QS | OE24QSWJS6DGNE | Socket F (1207) | 6th | 2.4 GHz | L2 512KB x6; L3 6MB | 115W | DDR2-800, 2-ch Registered ECC & Chipkill | Three HT links with 16 lanes at up to 2.2 GHz full duplex | 2010 |
AMD Opteron 8210 EE | OSH8210GAS6CYE | Socket F (1207) | 2 | 1.8 GHz | L2 1MB x2 | 45W | DDR2-667, 2-ch Registered ECC & Chipkill | Three HT links with 16 lanes at up to 1.0 GHz full duplex | 2006 |
AMD Opteron 8214 HE | OSP8214GAU6CYE | Socket F (1207) | 2 | 2.2 GHz | L2 1MB x2 | 68W | DDR2-667, 2-ch Registered ECC & Chipkill | Three HT links with 16 lanes at up to 1.0 GHz full duplex | 2006 |
AMD Opteron 83QS HE | OE83QSMAP4DGIE | Socket F (1207) | 4th | 2.4 GHz | L2 512KB x4; L3 6MB | 71W | DDR2-800, 2-ch Registered ECC & Chipkill | Three HT links with 16 lanes at up to 2.0 GHz full duplex | 2009 |
AMD Opteron 83VS | OE83VSWHP4DGIE | Socket F (1207) | 4th | 2.8 GHz | L2 512KB x4; L3 6MB | 115W | DDR2-800, 2-ch Registered ECC & Chipkill | Three HT links with 16 lanes at up to 2.2 GHz full duplex | 2009 |
AMD Opteron 84KS HE | OE84KSPDS6DGNE | Socket F (1207) | 6th | 2.0 GHz | L2 512KB x6; L3 6MB | 79W | DDR2-800, 2-ch Registered ECC & Chipkill | Three HT links with 16 lanes at up to 2.2 GHz full duplex | 2010 |
AMD Opteron 84QS | OE84QSWJS6DGNE | Socket F (1207) | 6th | 2.4 GHz | L2 512KB x6; L3 6MB | 115W | DDR2-800, 2-ch Registered ECC & Chipkill | Three HT links with 16 lanes at up to 2.2 GHz full duplex | 2010 |
AMD Phenom
model | OPN | base | Processor cores | Clock frequency | Cache | TDP | Memory interface | HyperTransport Interface | Launch |
---|---|---|---|---|---|---|---|---|---|
AMD Phenom ™ II XLT Q54L | HEQ54LOEK4DGME | AT 3 | 4th | 2.2 / 0.8 GHz | L2 512K x4; L3 6MB | 65 / 36.5W | DDR3-1333, 2-ch Unbuffered ECC | 1 HT link with 16 lanes at 1.8 GHz full duplex | 2010 |
AMD Sempron
model | OPN | base | Processor cores | Clock frequency | Cache | TDP | Memory interface | HyperTransport Interface | Launch |
---|---|---|---|---|---|---|---|---|---|
AMD Sempron ™ 200U | SMF200UOAX3DVE | ASB1 BGA | 1 | 1.0 GHz | L2 256KB | 8W | DDR2-400, Unbuffered | 1 HT link with 16 lanes at 800 MHz full duplex | 2008 |
AMD Sempron ™ 208U | SML208UOAX3DVE | ASB1 BGA | 1 | 1.4 GHz | L2 256KB | 12W | DDR2-400, Unbuffered | 1 HT link with 16 lanes at 800 MHz full duplex | 2008 |
AMD Sempron ™ 210U | SMG210UOAX3DVE | ASB1 BGA | 1 | 1.5 GHz | L2 256KB | 15W | DDR2-400, Unbuffered | 1 HT link with 16 lanes at 800 MHz full duplex | 2008 |
AMD Sempron ™ 2100+ | SMF2100HAX3DQE | S1 | 1 | 1.0 GHz | L2 256KB | 8W | DDR2-800, 2-ch Unbuffered | 1 HT link with 16 lanes at 800 MHz full duplex | 2007 |
AMD Sempron ™ 3700+ | SMS3700HAX4DQE | S1 | 1 | 2.0 GHz | L2 512KB | 25W | DDR2-800, 2-ch Unbuffered | 1 HT link with 16 lanes at 800 MHz full duplex | 2007 |
AMD Turion
model | OPN | base | Processor cores | Clock frequency | Cache | TDP | Memory interface | HyperTransport Interface | Launch |
---|---|---|---|---|---|---|---|---|---|
AMD Turion ™ Neo X2 L625 | TMZL625OAX5DYE | ASB1 BGA | 2 | 1.6 / 0.8GH | L2 512KB x2 | 18 / 10.1W | DDR2-667, 2-ch Unbuffered ECC | 1 HT link with 16 lanes at 800 MHz full duplex | 2009 |
AMD Turion ™ II Neo - N40L | TEN40LGAV23GME | ASB2 BGA | 2 | 1.5 GHz | L2 1MB x2 | 15W | DDR3-800, 2-ch Unbuffered ECC | 1 HT link with 16 lanes at 1.6 GHz full duplex | 2010 |
AMD Turion ™ II Neo - N40H | TEN40HGAV23GME | ASB2 BGA | 2 | 1.5 GHz | L2 1MB x2 | 15W | DDR3-1333, 2-ch Unbuffered ECC | 1 HT link with 16 lanes at 1.6 GHz full duplex | 2010 |
AMD Turion ™ II Neo - N54H | TEN54HSDV23GME | ASB2 BGA | 2 | 2.2 GHz | L2 1MB x2 | 25W | DDR3-1333, 2-ch Unbuffered ECC | 1 HT link with 16 lanes at 1.6 GHz full duplex | 2010 |
AMD Turion ™ II Neo - N54L | TEN54LSDV23GME | ASB2 BGA | 2 | 2.2 GHz | L2 1MB x2 | 25W | DDR3-800, 2-ch Unbuffered ECC | 1 HT link with 16 lanes at 1.6 GHz full duplex | 2010 |
AMD Turion ™ 64 X2 TL-56 | TMDTL56HAX5DME | S1 | 2 | 1.8 / 0.8 GHz | L2 512KB x2 | 31 / 9.4W | DDR2-800, 2-ch Unbuffered | 1 HT link with 16 lanes at 800 MHz full duplex | 2007 |
AMD Turion ™ 64 X2 TL-62 | TMDTL62HAX5DME | S1 | 2 | 2.1 GHz | L2 512KB x2 | 35W | DDR2-800, 2-ch Unbuffered | 1 HT link with 16 lanes at 800 MHz full duplex | 2007 |
Embedded system-on-chip
AMD Embedded G-Series System-on-Chip (SOC)
model | OPN | Processor cores | Clock frequency CPU | Cache | TDP | Memory interface | GPU model | GPU clock frequency | USB 3.0 | Launch |
---|---|---|---|---|---|---|---|---|---|---|
AMD Embedded G-Series GX-210JA | GE210JIHJ23HM | 2 | 1 GHz | L2 1MB | 6W | DDR3-1066 | AMD Radeon ™ HD 8180 | 225 MHz | No | Q3 2013 |
AMD Embedded GX-210HA | GE210HICJ23HM | 2 | 1.0 GHz | L2 1MB | 9W | DDR3-1133 | AMD Radeon ™ HD 8210E | 300 MHz | Yes | Q2 2013 |
AMD Embedded GX-217GA | GE217GIBJ23HM | 2 | 1.65 GHz | L2 1MB | 15W | DDR3-1600 | AMD Radeon ™ HD 8280E | 450 MHz | Yes | Q2 2013 |
AMD Embedded GX-415GA | GE415GIBJ44HM | 4th | 1.5 GHz | L2 2MB | 15W | DDR3-1600 | AMD Radeon ™ HD 6330E | 500 MHz | Yes | Q2 2013 |
AMD Embedded GX-420CA | GE420CIAJ44HM | 4th | 2.0 GHz | L2 2MB | 25W | DDR3-1600 | AMD Radeon ™ HD 8400E | 600 MHz | Yes | Q2 2013 |
AMD Embedded GX-416RA | GE416RIBJ44HM | 4th | 1.6 GHz | L2 2MB | 15W | DDR3-1600 | unavailable | No | Q2 2013 |
Embedded graphics processors
model | process | Package | TDP | Shader units | interface | Storage | Memory clock | Operating system support | GPGPU support | Graphics support | Max. Displays | Launch |
---|---|---|---|---|---|---|---|---|---|---|---|---|
ATI Radeon ™ E2400 dGPU | 65 nm | GPU + memory, 31x31 mm BGA | 13W | 40 | PCIe® 1.1 (x1, x2, x4, x8, x16) | 64-bit, 128MB GDDR3 | 600/700 MHz | Windows® XP / XPe / 7, Windows Vista®, Linux® (x86 32/64) | Single-precision floating-point computing power: 48 GFLOPs | DirectX® 10, Shader Model 3.0, OpenGL 3.3 | 2 | |
ATI Radeon ™ E2400 MXM | 65 nm | MXM 2.1a type II module, 73x78 mm | 18W | 40 | PCIe® 1.1 (x1, x2, x4, x8, x16) | 64-bit, 256MB GDDR3 | 600/700 MHz | Windows® XP / XPe / 7, Windows Vista®, Linux® (x86 32/64) | Single-precision floating-point computing power: 48 GFLOPs | DirectX® 10, Shader Model 3.0, OpenGL 3.3 | 2 | |
ATI Radeon ™ E2400 PCIe® add-in board | 65 nm | PCIe® card, 16x11 cm | 18W | 40 | PCIe® 1.1 (x1, x2, x4, x8, x16) | 64-bit, 128MB GDDR3 | 600/700 MHz | Windows® XP / XPe / 7, Windows Vista®, Linux® (x86 32/64) | Single-precision floating-point computing power: 48 GFLOPs | DirectX® 10, Shader Model 3.0, OpenGL 3.3 | 2 | |
ATI Radeon ™ E4690 dGPU | 55 nm | GPU + memory, 35x35 mm BGA | 25W | 320 | PCIe® 2.0 (x1, x2, x4, x8, x16) | 128-bit, 512MB GDDR3 | 600/700 MHz | Windows® XP / XPe / 7, Windows Vista®, Linux® (x86 32/64) | Single-precision floating-point computing power: 384 GFLOPs | DirectX® 10.1, Shader Model 4.0, OpenGL 3.3 | 2 | |
ATI Radeon ™ E4690 MXM | 55 nm | MXM 3.0 type A module, 70x82 mm | 32W | 320 | PCIe® 2.0 (x1, x2, x4, x8, x16) | 128-bit, 512MB GDDR3 | 600/700 MHz | Windows® XP / XPe / 7, Windows Vista®, Linux® (x86 32/64) | Single-precision floating-point computing power: 384 GFLOPs | DirectX® 10.1, Shader Model 4.0, OpenGL 3.3 | 2 | |
ATI Radeon ™ E4690 PCIe® add-in board | 55 nm | PCIe® card, 18x11 cm | 34W | 320 | PCIe® 2.0 (x1, x2, x4, x8, x16) | 128-bit, 512MB GDDR3 | 600/700 MHz | Windows® XP / XPe / 7, Windows Vista®, Linux® (x86 32/64) | Single-precision floating-point computing power: 384 GFLOPs | DirectX® 10.1, Shader Model 4.0, OpenGL 3.3 | 2 | |
AMD Radeon ™ E6460 Embedded GPU | 40 nm | GPU + memory, 33x33 mm BGA | ~ 20W | 160 | PCIe® 2.1 (x1, x2, x4, x8, x16) | 64-bit, 512MB GDDR5, 25.6GB / s | 600 MHz / 3.2Gbps | Windows®7, Windows® 7 Embedded, Linux® (x86 32/64) | Single-precision floating-point computing power: 192 GFLOPs AMD Accelerated Parallel Processing (APP) OpenCL ™ 1.1 DirectCompute 11 |
DirectX® 11, Shader Model 5.0, OpenGL 4.1, AMD HD3D Stereo 3D, AMD CrossFireX ™ Multi-GPU Technology | 4th | Q3-11 |
AMD Radeon ™ E6460 MXM | 40 nm | MXM 3.0 type A module, 70x82 mm | 160 | PCIe® 2.1 (x1, x2, x4, x8, x16) | 64-bit, 512MB GDDR5, 25.6GB / s | 600 MHz / 3.2Gbps | Windows®7, Windows® 7 Embedded, Linux® (x86 32/64) | Single-precision floating-point computing performance: 192 GFLOPs AMD Accelerated Parallel Processing (APP) OpenCL ™ 1.1 DirectCompute 12 |
DirectX® 11, Shader Model 5.0, OpenGL 4.1, AMD HD3D Stereo 3D | 4th | Q4-11 | |
AMD Radeon ™ E6460 PCIe® add-in board | 40 nm | PCIe® card | 160 | PCIe® 2.1 (x1, x2, x4, x8, x16) | 64-bit, 512MB GDDR5, 25.6GB / s | 600 MHz / 3.2Gbps | Windows®7, Windows® 7 Embedded, Linux® (x86 32/64) | Single-precision floating-point computing performance: 192 GFLOPs, AMD Accelerated Parallel Processing (APP) OpenCL ™ 1.1 DirectCompute 13 |
DirectX® 11, Shader Model 5.0, OpenGL 4.1, AMD HD3D Stereo 3D | 4th | Q4-11 | |
AMD Radeon ™ E6760 Embedded GPU | 40 nm | GPU + memory, 37.5x37.5 mm BGA | 35W | 480 | PCIe® 2.1 (x1, x2, x4, x8, x16) | 128-bit, 1GB GDDR5, 51.2GB / s | 600 MHz / 3.2Gbps | Windows®7, Windows® 7 Embedded, Linux® (x86 32/64) | Single-precision floating-point computing power: 576 GFLOPs AMD Accelerated Parallel Processing (APP) OpenCL ™ 1.1 DirectCompute 11 |
DirectX® 11, Shader Model 5.0, OpenGL 4.1, AMD HD3D Stereo 3D, AMD CrossFireX ™ Multi-GPU Technology | 6th | Q2-11 |
AMD Radeon ™ E6760 MXM | 40 nm | MXM 3.0 type A module, 70x82 mm | 480 | PCIe® 2.1 (x1, x2, x4, x8, x16) | 128-bit, 1GB GDDR5, 51.2GB / s | 600 MHz / 3.2Gbps | Windows®7, Windows® 7 Embedded, Linux® (x86 32/64) | Single-precision floating-point computing power: 576 GFLOPs AMD Accelerated Parallel Processing (APP) OpenCL ™ 1.1 DirectCompute 11 |
DirectX® 11, Shader Model 5.0, OpenGL 4.1, AMD HD3D Stereo 3D | 6th | Q3-11 | |
AMD Radeon ™ E6760 PCIe® add-in board | 40 nm | PCIe® card | 480 | PCIe® 2.1 (x1, x2, x4, x8, x16) | 128-bit, 1GB GDDR5, 51.2GB / s | 600 MHz / 3.2Gbps | Windows®7, Windows® 7 Embedded, Linux® (x86 32/64) | Single-precision floating-point computing power: 576 GFLOPs AMD Accelerated Parallel Processing (APP) OpenCL ™ 1.1 DirectCompute 11 |
DirectX® 11, Shader Model 5.0, OpenGL 4.1, AMD HD3D Stereo 3D | 6th | Q3-11 | |
ATI Radeon ™ HD 5770 Graphics Board | 40 nm | PCIe® card 23.5x11.2 cm | 108W | 800 | PCIe® 2.1 (x1, x2, x4, x8, x16) | 128-bit, 1GB GDDR5, 51.2GB / s | 850 MHz / 4.8Gbps | Windows® XP / XPe / 7, Windows Vista®, Linux® (x86 32/64) | Single-precision floating point computing power: 1.36 TFLOPs ATI Stream Technology OpenCL ™ 1.1 DirectCompute 11 |
DirectX® 11, Shader Model 5.0, OpenGL 3.2, OpenCL ™ 1.0 | 3 | Q2-10 |
AMD Radeon ™ HD 6970M MXM | 40 nm | MXM 3.0 Type B module, 105x82 mm | 95W | 960 | PCIe® 2.1 (x1, x2, x4, x8, x16) | 256-bit, 2GB GDDR5, 115.2GB / s | 680 MHz / 3.6Gbps | Windows®7, Windows® 7 Embedded, Linux® (x86 32/64) | Single-precision floating-point computing power: 1.3 TFLOPs AMD Accelerated Parallel Processing (APP) OpenCL ™ 1.1 DirectCompute 11 |
DirectX® 11, Shader Model 5.0, OpenGL 4.1 AMD HD3D Stereo 3D | 6th | Q2-11 |
swell
- AMD in Embedded: Proven Leadership and Solutions
- AMD Embedded Solutions: Product Selection Guide (PDF; 1.8 MB)
Individual evidence
- ↑ AMD and Embedded: Leading Solutions. (No longer available online.) AMD Embedded, archived from the original on November 12, 2011 ; Retrieved September 30, 2011 . Info: The archive link was inserted automatically and has not yet been checked. Please check the original and archive link according to the instructions and then remove this notice.
- ↑ Fusion: AMD shows demo and names date. heise.de, accessed on October 20, 2011 .
- ↑ Notes on model variants of AMD's "Ontario". computerbase.de, accessed on October 20, 2011 .
- ↑ AMD To Offer G Series Embedded Solutions Next Year. CRN.com, accessed October 20, 2011 .
- ↑ AMD Joins MeeGo Linux Open Source Project for Next-Generation Mobile, Embedded Platforms. AMD, accessed October 20, 2011 .
- ↑ AMD introduces APU for embedded systems. (No longer available online.) Tomshardware.de, archived from the original on October 12, 2011 ; Retrieved October 20, 2011 . Info: The archive link was inserted automatically and has not yet been checked. Please check the original and archive link according to the instructions and then remove this notice.
- ↑ AMD expands services for embedded customers: new products and extended support for sales, design and software. (No longer available online.) Pressebox.de, formerly in the original ; Retrieved October 20, 2011 . ( Page no longer available , search in web archives ) Info: The link was automatically marked as defective. Please check the link according to the instructions and then remove this notice.
- ↑ Radeon E6760: DirectX 11 for medical professionals. (No longer available online.) Chip.de, archived from the original on May 8, 2011 ; Retrieved October 20, 2011 . Info: The archive link was inserted automatically and has not yet been checked. Please check the original and archive link according to the instructions and then remove this notice.
- ↑ AMD processors: 39% less power consumption. (No longer available online.) Produktion.de, archived from the original on September 20, 2011 ; Retrieved October 20, 2011 . Info: The archive link was inserted automatically and has not yet been checked. Please check the original and archive link according to the instructions and then remove this notice.
- ↑ AMD Radeon E6460 GPU provides the performance and functionality of desktop graphics for the casino gaming, digital signage and industrial measurement technology markets. (No longer available online.) Pressebox.de, formerly in the original ; Retrieved October 20, 2011 . ( Page no longer available , search in web archives ) Info: The link was automatically marked as defective. Please check the link according to the instructions and then remove this notice.
- ↑ AMD APU Trinity is also available as an embedded version. heise.de, accessed on November 12, 2013 .
- ↑ AMD Introduces New Low-Power AMD Embedded G-Series APU and Extends Platform Availability through 2017. amd.com, accessed November 12, 2013 .
- ↑ On the prowl: AMD's Jaguar. heise.de, accessed on November 12, 2013 .
- ↑ AMD Extends Embedded SoC Leadership by Lowering G-Series Energy Consumption. amd.com, accessed November 12, 2013 .
- ↑ AMD Expands Embedded Computing Offerings with New Multi-Core R-Series CPUs and Discrete AMD Radeon GPU Bundle. amd.com, accessed November 12, 2013 .
- ↑ AMD Embeds Intelligent, Interactive and Immersive Experiences with 2nd Generation AMD Embedded R-Series APUs and CPUs. amd.com, accessed May 20, 2014 .