Jaguar (microarchitecture): Difference between revisions
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{{Short description|Computer processor microarchitecture by AMD}} |
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{{Infobox CPU |
{{Infobox CPU |
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| name = Jaguar - Family 16h |
| name = Jaguar - Family 16h |
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| Line 8: | Line 9: | ||
| publisher = AMD |
| publisher = AMD |
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| url = http://support.amd.com/TechDocs/52128_16h_Software_Opt_Guide.zip |
| url = http://support.amd.com/TechDocs/52128_16h_Software_Opt_Guide.zip |
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| |
| access-date= August 3, 2013 |
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}}</ref> |
}}</ref> |
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| l2cache = 1 MB to 2 MB shared |
| l2cache = 1 MB to 2 MB shared |
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| Line 18: | Line 19: | ||
| core5 = Athlon, Sempron, A4, A6, & E4 |
| core5 = Athlon, Sempron, A4, A6, & E4 |
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| predecessor = [[Bobcat (microarchitecture)|Bobcat - Family 14h]] |
| predecessor = [[Bobcat (microarchitecture)|Bobcat - Family 14h]] |
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| successor = [[Puma (microarchitecture)|Puma - Family 16h (2nd-gen)]] |
| successor = [[Puma (microarchitecture)|Puma - Family 16h (2nd-gen)]] <br/> CPU of [[Xbox One X]] |
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| arch = [[X86-64#AMD64|AMD64]] ([[x86-64]]) |
| arch = [[X86-64#AMD64|AMD64]] ([[x86-64]]) |
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| sock1 = [[Socket AM1]] |
| sock1 = [[Socket AM1]] |
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| sock2 = [[Socket FT3]] (BGA-769) |
| sock2 = [[Socket FT3]] (BGA-769) |
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}} |
}} |
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The '''AMD Jaguar Family 16h''' is a low-power microarchitecture designed by [[Advanced Micro Devices|AMD]] |
The '''AMD Jaguar Family 16h''' is a low-power [[microarchitecture]] designed by [[Advanced Micro Devices|AMD]]. It is used in [[AMD Accelerated Processing Unit|APUs]] succeeding the [[Bobcat (microarchitecture)|Bobcat Family]] microarchitecture in 2013 and being succeeded by AMD's [[Puma (microarchitecture)|Puma architecture]] in 2014. It is two-way [[superscalar]] and capable of [[out-of-order execution]]. It is used in AMD's Semi-Custom Business Unit as a design for custom processors and is used by AMD in four product families: ''Kabini'' aimed at notebooks and mini PCs, ''Temash'' aimed at tablets, ''Kyoto'' aimed at micro-servers, and the ''G-Series'' aimed at embedded applications. Both the [[PlayStation 4]] and the [[Xbox One]] use SoCs based on the Jaguar microarchitecture, with more powerful GPUs than AMD sells in its own commercially available Jaguar APUs.<ref>{{cite web|url=http://www.extremetech.com/gaming/156273-xbox-720-vs-ps4-vs-pc-how-the-hardware-specs-compare|publisher=ExtremeTech|title=Xbox One vs. PS4: How the final hardware specs compare|date=November 22, 2013|access-date=January 25, 2014}}</ref> |
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== Design == |
== Design == |
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[[File:AMD@16nm@Jaguar Polaris@Neo@Playstation 4 Pro@CXD90044GB Stack-DSC08867-DSC08882 - ZS-retouched (28006779559).jpg|thumb|A [[die shot]] of a Jaguar processor used in a Playstation 4 Pro]] |
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* 32 KiB instruction + 32 KiB data L1 [[CPU cache|cache]] per core, L1 cache includes parity error detection |
* 32 KiB instruction + 32 KiB data L1 [[CPU cache|cache]] per core, L1 cache includes parity error detection |
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* 16-way, 1–2 MiB unified L2 cache shared by two or four cores, L2 cache is protected from errors by the use of error correcting code |
* 16-way, 1–2 MiB unified L2 cache shared by two or four cores, L2 cache is protected from errors by the use of error correcting code |
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| Line 33: | Line 35: | ||
* Two-way 128-bit wide floating-point and packed integer execution |
* Two-way 128-bit wide floating-point and packed integer execution |
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* Integer hardware divider |
* Integer hardware divider |
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* Consumer processors support two DDR3L DIMMs in one channel at frequencies up to 1600 MHz<ref>{{cite web |title= AMD releases 5 Kabinis and 3 Temashes |url= http://semiaccurate.com/2013/05/22/amd-releases-5-kabinis-and-3-temashes/ |publisher= SemiAccurate | |
* Consumer processors support two DDR3L DIMMs in one channel at frequencies up to 1600 MHz<ref>{{cite web |title= AMD releases 5 Kabinis and 3 Temashes |date= 23 May 2013 |url= http://semiaccurate.com/2013/05/22/amd-releases-5-kabinis-and-3-temashes/ |publisher= SemiAccurate |access-date= July 16, 2013}}</ref> |
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* Server processors support two DDR3 |
* Server processors support two DDR3 DIMMs in one channel at frequencies up to 1600 MHz with ECC<ref>{{cite web |title= AMD launches Opteron X-Series, Moving Jaguar into Servers |date= 30 May 2013 |url= http://www.brightsideofnews.com/news/2013/5/30/amd-launches-opteron-x-series2c-moving-jaguar-into-servers.aspx |publisher= Bright Side Of News |access-date= July 16, 2013}}</ref> |
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* As a SoC (not just an APU) it integrates [[Fusion controller hub]] |
* As a SoC (not just an APU) it integrates [[Fusion controller hub]] |
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* Jaguar does ''not'' feature [[clustered multi-thread]] (CMT), meaning that execution resources are not shared between cores |
* Jaguar does ''not'' feature [[clustered multi-thread]] (CMT), meaning that execution resources are not shared between cores |
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=== Instruction |
=== Instruction-set support === |
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The ''Jaguar'' core has support for the following instruction sets and instructions: [[MMX (instruction set)|MMX]], [[Streaming SIMD Extensions|SSE]], [[SSE2]], [[SSE3]], [[SSSE3]], [[SSE4a]], [[SSE4.1]], [[SSE4.2]], [[Advanced Vector Extensions|AVX]], [[F16C]], CLMUL, [[AES instruction set|AES]], BMI1, MOVBE (Move Big-Endian instruction), XSAVE/XSAVEOPT, [[Bit Manipulation Instruction Sets|ABM]] (POPCNT/LZCNT), and [[AMD-V]].<ref name="opti guide" /> |
The ''Jaguar'' core has support for the following instruction sets and instructions: [[MMX (instruction set)|MMX]], [[Streaming SIMD Extensions|SSE]], [[SSE2]], [[SSE3]], [[SSSE3]], [[SSE4a]], [[SSE4.1]], [[SSE4.2]], [[Advanced Vector Extensions|AVX]], [[F16C]], CLMUL, [[AES instruction set|AES]], BMI1, MOVBE (Move Big-Endian instruction), XSAVE/XSAVEOPT, [[Bit Manipulation Instruction Sets|ABM]] (POPCNT/LZCNT), and [[AMD-V]].<ref name="opti guide" /> |
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== Improvements over |
== Improvements over Bobcat == |
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{{see also|Bobcat (microarchitecture)}} |
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* Over 10% increase in clock frequency<ref name="Slides">{{cite web |
* Over 10% increase in clock frequency<ref name="Slides">{{cite web |
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| title = Slide detailing improvements of Jaguar over Bobcat |
| title = Slide detailing improvements of Jaguar over Bobcat |
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| date = 29 August 2012 |
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| publisher = AMD |
| publisher = AMD |
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| url = http://www.slideshare.net/AMDPhil/bobcat-to-jaguarv2 |
| url = http://www.slideshare.net/AMDPhil/bobcat-to-jaguarv2 |
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| |
| access-date = August 3, 2013 |
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}}</ref> |
}}</ref> |
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* Over 15% improvement in [[instructions per clock]] (IPC)<ref name="Slides" /> |
* Over 15% improvement in [[instructions per clock]] (IPC)<ref name="Slides" /> |
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* Added support for [[SSE4.1]], [[SSE4.2]], [[AES instruction set|AES]], [[CLMUL]], MOVBE, [[Advanced Vector Extensions|AVX]], [[F16C]], |
* Added support for [[SSE4.1]], [[SSE4.2]], [[AES instruction set|AES]], [[CLMUL]], MOVBE, [[Advanced Vector Extensions|AVX]], [[F16C]], [[Bit Manipulation Instruction Sets|BMI1]]<ref name="Slides" /> |
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* Up to four CPU cores |
* Up to four CPU cores |
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* [[L2 cache]] is shared between cores |
* [[L2 cache]] is shared between cores |
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* [[Floating-point unit|FPU]] datapath width increased to 128-bit<ref name="Slides" /> |
* [[Floating-point unit|FPU]] datapath width increased to 128-bit<ref name="Slides" /> |
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* Added hardware integer divider |
* Added hardware integer divider |
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* Enhanced cache [[ |
* Enhanced cache [[instruction prefetch|prefetchers]] |
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* Doubled bandwidth of [[ |
* Doubled bandwidth of [[load–store unit]]s |
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* C6 and CC6 low power states with lower entry and exit latency<ref name="Slides" /> |
* C6 and CC6 low power states with lower entry and exit latency<ref name="Slides" /> |
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* Smaller, 3.1 mm<sup>2</sup> area per core |
* Smaller, 3.1 mm<sup>2</sup> area per core |
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* Integrated [[Fusion controller hub]] (FCH) |
* Integrated [[Fusion controller hub]] (FCH) |
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* [[Video Coding Engine]] |
* [[Video Coding Engine]] |
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== Features == |
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{{Main|Template:AMD APU features}} |
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== Processors == |
== Processors == |
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{{See also|List of AMD |
{{See also|List of AMD processors with 3D graphics|List of AMD mobile processors}} |
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=== Consoles === |
=== Consoles === |
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{| class="wikitable sortable" style="font-size:85%; text-align:center;" |
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{{AMD custom APU}} |
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! rowspan=2 | Chip<br />(device) |
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! rowspan=2 | Release date |
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! rowspan=2 | [[Semiconductor device fabrication|Fab]] |
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! rowspan=2 | Die area (mm2) |
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! colspan=4 | CPU |
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! colspan=7 | GPU |
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! colspan=3 | Memory |
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! rowspan=2 | Storage |
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! rowspan=2 | API support |
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! colspan=2 | Special features |
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|- |
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! Archi-<br />tecture |
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! Cores |
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! Clock ([[hertz|GHz]]) |
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! L2 cache |
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! Archi-<br />tecture |
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! Core config{{efn|name="cconfig"}} |
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! Clock ([[hertz|MHz]]) |
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! GFLOPS {{efn|name="FLOPS"}} |
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! Pixel fillrate ([[pixel|GP]]/s) {{efn|name="pixel fillrate"}} |
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! Texture fillrate ([[texel (graphics)|GT]]/s) {{efn|name="texture fill"}} |
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! Other |
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! Size |
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! Bus type & width |
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! Band-<br />width ([[gigabyte|GB]]/s) |
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! Audio |
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! Other |
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|- |
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! Liverpool<br />([[PlayStation 4|PS4]]) |
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| rowspan="3" | {{dts|2013|Nov|15|format=my|nowrap=off}} |
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| rowspan=3 | 28 nm |
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| 348 |
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| rowspan=8 | Jaguar |
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| rowspan=9 | 2 modules with 4 cores each |
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| 1.6 |
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| rowspan=9 | 2× 2 MiB |
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| rowspan=6 | [[Graphics Core Next#GCN2|GCN 2]] |
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| 1152:72:32<br />18 CU |
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| 800 |
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| 1843 |
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| 25.6 |
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| 57.6 |
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| 8 [[Graphics Core Next#Asynchronous Compute Engine|ACEs]] |
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| 8 GiB |
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| GDDR5<br />256-bit |
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| 176 |
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| [[Blu-ray|3DBD]]/[[DVD]]<br />1× 2.5" [[SATA]] hard drive<br />Easily replaceable hard drive<br />USB 3.0 |
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| OpenGL 4.2, [[PlayStation 4 system software#Technology|GNM, GNMX and PSSL]] |
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| [[Dolby Atmos]] (BD)<br />[[S/PDIF]] |
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| [[PlayStation VR|PS VR]]<br />[[PlayStation 4 technical specifications#Hardware modules|PS4 additional modules]]<br />[[HDR10]] (except discs){{efn|name="bdhdr"}}<br />[[Consumer Electronics Control|CEC]]<br />Optional [[Remote control|IR]] sensor |
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|- |
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! rowspan=2 | Durango<br />([[Xbox One]]) |
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| rowspan=2 | 363 |
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| rowspan=4 | 1.75 |
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| rowspan=4 | 768:48:16<br />12 CU |
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| rowspan=2 | 853 |
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| rowspan=2 | 1310 |
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| rowspan=2 | 13.6 |
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| rowspan=2 | 40.9 |
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| rowspan="4" | 2 ACEs |
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| style="border-bottom: none" | 32 MiB |
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| style="border-bottom: none" | ESRAM{{efn|name="ramcache"}} |
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| style="border-bottom: none" | 204 |
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| rowspan=2 | 3DBD/DVD/[[Compact Disc Digital Audio|CD]]<br />1× 2.5" SATA hard drive<br />USB 3.0 |
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| rowspan=4 | Direct3D 11.2 and 12 |
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| rowspan=2 | Fully Dolby Atmos, [[DTS:X]], and Windows Sonic<br />S/PDIF |
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| rowspan=2 | Xbox One additional modules<br />[[FreeSync]] (1)<br />[[HDMI]] 1.4 through<br />IR sensor and IR out port<br />[[Kensington lock]] |
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|- |
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| style="border-top: none" | 8 GiB |
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| style="border-top: none" | DDR3<br />256-bit |
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| style="border-top: none" | 68 |
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|- |
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! rowspan=2 | Edmonton<br />([[Xbox One#Xbox One S|Xbox One S]]) <ref>{{cite news|last1=MACHKOVECH|first1=SAM|title=Microsoft hid performance boosts for old games in Xbox One S, told no one|url=https://arstechnica.com/gaming/2016/08/surprise-new-xbox-one-s-gpu-smooths-out-some-older-games/|access-date=2 August 2016|publisher=Ars Technica|date=2 August 2016}}</ref> |
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| rowspan=2 | {{dts|2016|Jun|13|format=my|nowrap=off}} |
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| rowspan=6 | 16 nm |
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| rowspan=2 | 240 |
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| rowspan=2 | 914 |
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| rowspan=2 | 1404 |
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| rowspan=2 | 14.6 |
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| rowspan=2 | 43.9 |
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| style="border-bottom: none" | 32 MiB |
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| style="border-bottom: none" | ESRAM |
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| style="border-bottom: none" | 219 |
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| rowspan=2 | [[Ultra HD Blu-ray|4KBD]]/3DBD/DVD/CD{{efn|name="xboxdigital"}}<br />1× 2.5" SATA hard drive<br />USB 3.0 |
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| rowspan=2 | Fully Dolby Atmos, DTS:X, and Windows Sonic<br />S/PDIF |
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| rowspan=2 | Xbox One S additional modules<br />Fully HDR10<br />[[High-dynamic-range video#Dolby Vision|Dolby Vision]] (streaming)<br />FreeSync (1&2)<br />HDMI 1.4 through<br />IR sensor and IR out port<br />Kensington lock |
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|- |
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| style="border-top: none" | 8 GiB |
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| style="border-top: none" | DDR3<br />256-bit |
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| style="border-top: none" | 68 |
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|- |
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! Liverpool?<br />([[PlayStation 4|PS4 Slim]]) |
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| rowspan=1 | {{dts|2016|Sept|13|format=my|nowrap=off}} |
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| 208 |
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| 1.6 |
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| 1152:72:32<br />18 CU |
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| 800 |
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| 1843 |
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| 25.6 |
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| 57.6 |
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| 8 ACEs |
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| 8 GiB |
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| GDDR5<br />256-bit |
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| 176 |
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| 3DBD/DVD<br />1× 2.5" SATA hard drive<br />Easily replaceable hard drive<br />USB 3.0 |
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| OpenGL 4.2, [[PlayStation 4 system software#Technology|GNM, GNMX and PSSL]] |
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| Dolby Atmos (BD) |
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| PS VR<br />PS4 Slim additional modules<br />HDR10 (except discs)<br />CEC<br />Optional [[Remote control|IR]] sensor |
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|- |
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! rowspan=2 | Neo<br />([[PlayStation 4#PlayStation 4 Pro|PS4 Pro]]) <ref>{{cite news|last1=Walton|first1=Mark|title=PS4 Neo: Sony confirms PlayStation event for September 7|url=https://arstechnica.com/gaming/2016/08/sony-ps4-neo-event-details/|access-date=10 August 2016|publisher=Ars Technica|date=10 August 2016}}</ref><ref>{{cite news|last1=Walton|first1=Mark|title=Sony PS4K is codenamed NEO, features upgraded CPU, GPU, RAM—report|url=http://arstechnica.co.uk/gaming/2016/04/ps4k-neo-details-specs-revealed-rumours/|access-date=10 August 2016|publisher=Ars Technica|date=19 April 2016}}</ref><ref>{{cite news|last1=Smith|first1=Ryan|title=Analyzing Sony's Playstation 4 Pro Hardware Reveal: What Lies Beneath|url=http://www.anandtech.com/show/10663/analyzing-sonys-playstation-4-pro-announcement|access-date=8 September 2016|publisher=Anandtech|date=8 September 2016}}</ref> |
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| rowspan=2 | {{dts|2016|Nov|10|format=my|nowrap=off}} |
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| rowspan=2 | 325 |
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| rowspan=2 | 2.13 |
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| rowspan=3 | [[Graphics Core Next#GCN4|GCN 4<br />Polaris]]<ref>{{cite news|last1=Freedman|first1=Andrew|title=Xbox One X vs. PlayStation 4 Pro: Which Powerhouse Should You Get?|url=https://www.tomsguide.com/us/xbox-one-x-vs-ps4-pro,review-4436.html|access-date=3 November 2017|publisher=Tom's Guide|date=3 November 2017}}</ref> |
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| rowspan=2 | 2304:144:32<br />36 CU |
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| rowspan=2 | 911 |
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| rowspan=2 | 4198 |
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| rowspan=2 | 58.3 |
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| rowspan=2 | 131.2 |
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| rowspan=2 | 4 ACEs and 2 [[Graphics Core Next#Hardware schedulers|HWS]]<br />{{nowrap|Double-rate}} [[Half-precision floating-point format|FP16]]{{efn|name="Rapid Packed Math"}}<br />[[checkerboard rendering]] |
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| style="border-bottom: none" | 8 GiB<br /><ref>{{Cite news|url=https://www.polygon.com/2016/10/21/13358416/ps4-pro-extra-ram-memory|title=PS4 Pro's additional RAM frees up memory for game developers|work=Polygon|access-date=2018-11-23}}</ref> |
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| style="border-bottom: none" | GDDR5<br />256-bit |
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| style="border-bottom: none" | 218 |
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| rowspan=2 | 3DBD/DVD<br />1× 2.5" SATA hard drive<br />Easily replaceable hard drive<br />USB 3.0 |
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| rowspan=2 | OpenGL 4.2 (4.5), [[PlayStation 4 system software#Technology|GNM, GNMX and PSSL]] |
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| rowspan=2 | Dolby Atmos (BD)<br />S/PDIF |
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| rowspan=2 | PS VR<br />PS4 Pro additional modules<br />HDR10 (except discs)<br />Up to [[4K resolution#3840×2160|4K]]@60 Hz<br />CEC<br />Optional [[Remote control|IR]] sensor |
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|- |
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| style="border-top: none" | 1 GiB |
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| style="border-top: none" | DDR3{{efn|name="ramswap"}} |
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| style="border-top: none" | ? |
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|- |
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! Scorpio<br />([[Xbox One X]]) <ref>{{cite web| url = http://www.anandtech.com/show/11536/microsofts-project-scorpio-get-a-launch-date-xbox-one-x-499-november-7th| title = Microsoft's Project Scorpio Gets a Launch Date: Xbox One X, $499, November 7th}} </ref><ref>{{Cite web|url=https://arstechnica.com/gaming/2017/04/xbox-scorpio-hardware-specs/|title = Xbox One Project Scorpio specs: 12GB GDDR5, 6 teraflops, native 4K at 60FPS|date = 6 April 2017}}</ref><ref>{{cite news|last1=Cutress|first1=Ian|title=Hot Chips: Microsoft Xbox One X Scoprio Engine Live Blog|url=http://www.anandtech.com/show/11740/hot-chips-microsoft-xbox-one-x-scorpio-engine-live-blog-930am-pt-430pm-utc|access-date=21 August 2017|publisher=Anandtech|date=21 August 2017}}</ref> |
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| {{dts|2017|Nov|07|format=my|nowrap=off}} |
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| 359 |
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|[[Jaguar (microarchitecture)#Jaguar derivative and successor|Customized<br />Jaguar]] |
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| 2.3 |
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| 2560:160:32<br />40 CU |
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| 1172 |
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| 6001 |
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| 37.5 |
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| 187.5 |
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| 4 ACEs and 2 HWS |
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| 12 GiB |
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| GDDR5<br />384-bit |
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| 326 |
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| 4KBD/3DBD/DVD/CD<br />1× 2.5" SATA hard drive<br />USB 3.0 |
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| Direct3D 11.2 and 12 |
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| Fully Dolby Atmos, DTS:X, and Windows Sonic<br />S/PDIF |
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| Xbox One X additional modules<br />Fully HDR10<br />[[Dolby Vision]] (streaming)<br />FreeSync (1&2)<br />Up to 4K@60 Hz<br />HDMI 1.4b through<br />IR sensor and IR out port |
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|- |
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|} |
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{{notelist|refs= |
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{{efn|name="cconfig"|[[Unified shader model|Unified Shaders]] : [[Texture mapping unit|Texture Mapping Units]] : [[Render output unit|Render Output Units]]}} |
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{{efn|name="pixel fillrate"|Pixel fillrate is calculated as the number of '''ROP'''s multiplied by the base (or boost) core clock speed.}} |
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{{efn|name="texture fill"|Texture fillrate is calculated as the number of '''TMU'''s multiplied by the base (or boost) core clock speed.}} |
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{{efn|name="FLOPS"|Precision performance is calculated from the base (or boost) core clock speed based on a [[multiply–accumulate operation#Fused multiply–add|FMA]] operation.}} |
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{{efn|name="Rapid Packed Math"|Feature preview of Rapid Packed Math, introduced in [[Graphics Core Next#GCN5|GCN 5 Vega]].}} |
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{{efn|name="ramcache"|Cache}} |
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{{efn|name="ramswap"|Swap}} |
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{{efn|name="xboxdigital"|"Digital" version does not have an optical drive.}} |
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{{efn|name="bdhdr"|UHD BD is the only video disc format supporting HDR.}} |
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}} |
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=== Desktop === |
=== Desktop === |
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| Line 75: | Line 245: | ||
! colspan="3" | GPU |
! colspan="3" | GPU |
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! rowspan="2" | TDP |
! rowspan="2" | TDP |
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(W) |
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! rowspan="2" | Memory |
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! rowspan="2" | DDR3 |
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Memory |
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Speed |
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! rowspan="2" | Socket |
! rowspan="2" | Socket |
||
|- |
|- |
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! Cores |
! Cores |
||
! Freq. |
|||
! Frequency |
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(GHz) |
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! L2 Cache |
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! L2 |
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Cache |
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(MB) |
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! Model |
! Model |
||
! Cores ([[Unified shader model|unified shaders]] :<br> [[texture mapping unit]]s :<br> [[render output unit]]s) |
! Cores ([[Unified shader model|unified shaders]] :<br /> [[texture mapping unit]]s :<br /> [[render output unit]]s) |
||
! Freq. |
|||
! Frequency |
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(MHz) |
|||
|- |
|- |
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| Athlon 5370 |
| Athlon 5370 |
||
| rowspan="4" | 4 |
| rowspan="4" | 4 |
||
| 2.2 |
| 2.2 |
||
| rowspan="4" | 2 |
| rowspan="4" | 2 |
||
| rowspan="5" | Radeon R3 |
| rowspan="5" | Radeon R3 |
||
| rowspan="5" | 128:8:4<ref>[http://www.game-debate.com/gpu/index.php?gid=2202&gid2=517&compare=radeon-r3-5350-vs-geforce-gt-520 AMD Radeon R3 5350 compare Nvidia GeForce GT 520 GPU]</ref> |
| rowspan="5" | 128:8:4<ref>[http://www.game-debate.com/gpu/index.php?gid=2202&gid2=517&compare=radeon-r3-5350-vs-geforce-gt-520 AMD Radeon R3 5350 compare Nvidia GeForce GT 520 GPU]</ref> |
||
| rowspan="3" | 600 |
| rowspan="3" | 600 |
||
| rowspan="5" | 25 |
| rowspan="5" | 25 |
||
| rowspan="4" | |
| rowspan="4" | 1600 |
||
| rowspan="5" | [[Socket AM1|AM1]] |
| rowspan="5" | [[Socket AM1|AM1]] |
||
|- |
|- |
||
| Athlon 5350<ref>{{cite web|title=AMD Introduces New Socketed AMD Sempron and AMD Athlon APU Products with AM1 Platform|url=https://www.amd.com/en-us/press-releases/Pages/amd-introduces-2014apr9.aspx|publisher=AMD| |
| Athlon 5350<ref>{{cite web|title=AMD Introduces New Socketed AMD Sempron and AMD Athlon APU Products with AM1 Platform|url=https://www.amd.com/en-us/press-releases/Pages/amd-introduces-2014apr9.aspx|publisher=AMD|access-date=9 April 2014}}</ref> |
||
| 2.05 |
| 2.05 |
||
|- |
|- |
||
| Athlon 5150 |
| Athlon 5150 |
||
| 1.6 |
| 1.6 |
||
|- |
|- |
||
| Sempron 3850 |
| Sempron 3850 |
||
| 1.3 |
| 1.3 |
||
| 450 |
| 450 |
||
|- |
|- |
||
| Sempron 2650 |
| Sempron 2650 |
||
| 2 |
| 2 |
||
| 1.45 |
| 1.45 |
||
| 1 |
| 1 |
||
| 400 |
| 400 |
||
| |
| 1333 |
||
|} |
|} |
||
=== Desktop/Mobile === |
=== Desktop/Mobile (28 nm) === |
||
{| class="wikitable" style="text-align:center" |
{| class="wikitable" style="text-align:center" |
||
! rowspan="2" | Target<br />segment |
! rowspan="2" | Target<br />segment |
||
| Line 121: | Line 300: | ||
! colspan="4" | GPU |
! colspan="4" | GPU |
||
! rowspan="2" | TDP |
! rowspan="2" | TDP |
||
(W) |
|||
! rowspan="2" | Memory |
|||
! rowspan="2" | |
! rowspan="2" | DDR3 |
||
Memory |
|||
! rowspan="2" | [[AMD Turbo Core|Turbo]] |
|||
[[AMD Turbo Core|Core]] |
|||
|- |
|- |
||
! Cores |
! Cores |
||
! Freq. |
|||
! Frequency |
|||
(GHz) |
|||
! Max. Turbo |
|||
! Turbo |
|||
! L2 Cache |
|||
(GHz) |
|||
! L2 |
|||
Cache |
|||
(MB) |
|||
! Model |
! Model |
||
! Config. |
! Config. |
||
! Freq. |
|||
! Frequency |
|||
(MHz) |
|||
! Turbo |
! Turbo |
||
(MHz) |
|||
|- |
|- |
||
| rowspan="3" | Notebooks<br />/Mini-PCs<ref>{{cite web | url = http://technewspedia.com/amd-introduces-its-mini-pc-based-kabini-ctx2013/ | publisher = Tech News Pedia | |
| rowspan="3" | Notebooks<br />/Mini-PCs<ref>{{cite web | url = http://technewspedia.com/amd-introduces-its-mini-pc-based-kabini-ctx2013/ | publisher = Tech News Pedia | access-date = July 16, 2013 | title = AMD introduces its Mini-PC based Kabini}}</ref> |
||
| A6-5200 |
| A6-5200 |
||
| rowspan="3" | 4 |
| rowspan="3" | 4 |
||
| 2.0 |
| 2.0 |
||
| rowspan="6" {{N/A}} |
| rowspan="6" {{N/A}} |
||
| rowspan="3" | 2 |
| rowspan="3" | 2 |
||
| HD 8400 |
| HD 8400 |
||
| rowspan="10" | 128:8:4<ref>{{cite web | last = Shimpi | first = Anand | title = |
| rowspan="10" | 128:8:4<ref>{{cite web | last = Shimpi | first = Anand | title = AMD's Jaguar Architecture: The CPU Powering Xbox One, PlayStation 4, Kabini & Temash | url = http://www.anandtech.com/show/6976/amds-jaguar-architecture-the-cpu-powering-xbox-one-playstation-4-kabini-temash/4 | publisher = AnandTech | access-date = August 3, 2013}}</ref> |
||
| 600 |
| 600 |
||
| rowspan="6" {{N/A}} |
| rowspan="6" {{N/A}} |
||
| 25 |
| 25 |
||
| rowspan="4" | |
| rowspan="4" | (L)1600 |
||
| rowspan="6" | No |
| rowspan="6" | No |
||
|- |
|- |
||
| A4-5100 |
| A4-5100 |
||
| 1.55 |
| 1.55 |
||
| HD 8330 |
| rowspan="2" | HD 8330 |
||
| rowspan="2" | 500 |
|||
| 500 MHz |
|||
| rowspan="4" | 15 |
| rowspan="4" | 15 |
||
|- |
|- |
||
| A4-5000 |
| A4-5000 |
||
| 1. |
| 1.50 |
||
| HD 8330 |
|||
| 500 MHz |
|||
|- |
|- |
||
| rowspan="3" | Notebooks |
| rowspan="3" | Notebooks |
||
| E2-3000 |
| E2-3000 |
||
| rowspan="3" | 2 |
| rowspan="3" | 2 |
||
| 1.65 |
| 1.65 |
||
| rowspan="3" | 1 |
| rowspan="3" | 1 |
||
| HD 8280 |
| HD 8280 |
||
| 450 |
| 450 |
||
|- |
|- |
||
| E1-2500 |
| E1-2500 |
||
| 1.4 |
| 1.4 |
||
| HD 8240 |
| HD 8240 |
||
| 400 |
| 400 |
||
| rowspan="2" | |
| rowspan="2" | (L)1333 |
||
|- |
|- |
||
| E1-2100 |
| E1-2100 |
||
| rowspan="5" | 1.0 |
| rowspan="5" | 1.0 |
||
| HD 8210 |
| HD 8210 |
||
| rowspan="4" | 300 |
| rowspan="4" | 300 |
||
| 9 |
|||
| {{0}}9 W |
|||
|- |
|- |
||
| rowspan="4" | Tablets |
| rowspan="4" | Tablets |
||
| A6-1450 |
| A6-1450 |
||
| rowspan="2" | 4 |
| rowspan="2" | 4 |
||
| 1.4 |
| 1.4 |
||
| rowspan="2" | 2 |
| rowspan="2" | 2 |
||
| HD 8250 |
| HD 8250 |
||
| 400 |
| 400 |
||
| rowspan="3" | |
| rowspan="3" | 8 |
||
| |
| (L)1066 |
||
| Yes |
| Yes |
||
|- |
|- |
||
| A4-1350<ref>{{cite web |url=https://www.amd.com/us/press-releases/Pages/amd-expands-elite-2013sept11.aspx |title=AMD Expands Elite Mobility APU Line-Up with New Quad-Core Processor |publisher=Amd.com |date=2013-06-29 | |
| A4-1350<ref>{{cite web |url=https://www.amd.com/us/press-releases/Pages/amd-expands-elite-2013sept11.aspx |title=AMD Expands Elite Mobility APU Line-Up with New Quad-Core Processor |publisher=Amd.com |date=2013-06-29 |access-date=2013-10-23}}</ref> |
||
| rowspan="3" {{N/A}} |
| rowspan="3" {{N/A}} |
||
| HD 8210 |
| rowspan="2" | HD 8210 |
||
| rowspan="3" {{N/A}} |
| rowspan="3" {{N/A}} |
||
| |
| 1066 |
||
| rowspan="3" | No |
| rowspan="3" | No |
||
|- |
|- |
||
| A4-1250 |
| A4-1250 |
||
| rowspan="2" | 2 |
| rowspan="2" | 2 |
||
| rowspan="2" | 1 |
| rowspan="2" | 1 |
||
| |
| (L)1333 |
||
| DDR3L-1333 |
|||
|- |
|- |
||
| A4-1200<ref>{{cite web |url=https://www.youtube.com/watch?v=tLGj3_246LA |title=AMD Quanta A4-1200 APU Tablet Prototype |publisher=YouTube |date=2013-06-29 | |
| A4-1200<ref>{{cite web |url=https://www.youtube.com/watch?v=tLGj3_246LA |title=AMD Quanta A4-1200 APU Tablet Prototype |publisher=YouTube |date=2013-06-29 |access-date=2013-10-23}}</ref> |
||
| HD 8180 |
| HD 8180 |
||
| 225 |
| 225 |
||
| |
| 3.9 |
||
| |
| (L)1066 |
||
|} |
|} |
||
| Line 213: | Line 399: | ||
==== Opteron X1100-series "Kyoto" (28 nm) ==== |
==== Opteron X1100-series "Kyoto" (28 nm) ==== |
||
{| class="wikitable" style="text-align: center" |
{| class="wikitable" style="text-align: center" |
||
! rowspan="2" | Model !! rowspan="2" | |
! rowspan="2" | Model !! rowspan="2" | Step. !! colspan="6" | CPU !! rowspan="2" | Memory<br />support !! rowspan="2" | TDP |
||
(W) |
|||
! rowspan="2" | Released !! rowspan="2" | Part number || rowspan="2" | Release |
|||
price |
|||
([[United States dollar|USD]]) |
|||
|- |
|- |
||
! Cores !! |
! Cores !! Freq. |
||
(GHz) |
|||
! Turbo !! L2 |
|||
Cache |
|||
(MB) |
|||
! Multi !! V<sub>core</sub> |
|||
|- |
|- |
||
! style="text-align: left" | [https://web.archive.org/web/20150621165634/http://products.amd.com/en-us/OpteronCPUDetail.aspx?id=839 X1150] |
! style="text-align: left" | [https://web.archive.org/web/20150621165634/http://products.amd.com/en-us/OpteronCPUDetail.aspx?id=839 X1150] |
||
| B0 || 4 || 2.0 |
| B0 || 4 || 2.0 || {{n/a}} || 2 || || || DDR3 || 17 || May 2013 || OX1150IPJ44HM || $64 |
||
|} |
|} |
||
==== Opteron X2100-series "Kyoto" (28 nm) ==== |
==== Opteron X2100-series "Kyoto" (28 nm) ==== |
||
{| class="wikitable" style="text-align: center" |
{| class="wikitable" style="text-align: center" |
||
! rowspan="2" | Model !! rowspan="2" | |
! rowspan="2" | Model !! rowspan="2" | Step. !! colspan="6" | CPU !! colspan="4" | GPU !! rowspan="2" | DDR3 |
||
Memory<br />support |
|||
! rowspan="2" | TDP |
|||
(W) |
|||
! rowspan="2" | Released !! rowspan="2" | Part number || rowspan="2" | Release |
|||
price |
|||
([[United States dollar|USD]]) |
|||
|- |
|- |
||
! Cores !! Freq. |
|||
! Cores !! Frequency !! Turbo !! L2 Cache !! Multi !! V<sub>core</sub> !! Model !! Config !! Frequency !! Turbo |
|||
(GHz) |
|||
! Turbo |
|||
(GHz) |
|||
! L2 Cache |
|||
(MB) |
|||
! Multi !! V<sub>core</sub> !! Model !! Config !! Freq. |
|||
(MHz) |
|||
! Turbo |
|||
|- |
|- |
||
! style="text-align: left" | [https://web.archive.org/web/20150621165854/http://products.amd.com/en-us/WorkstationAPUDetail.aspx?id=78 X2150] |
! style="text-align: left" | [https://web.archive.org/web/20150621165854/http://products.amd.com/en-us/WorkstationAPUDetail.aspx?id=78 X2150] |
||
| B0 || 4 || 1.9 |
| B0 || 4 || 1.9 || {{n/a}} || rowspan="2" | 2 || || || rowspan="2" | HD 8400 || || rowspan="2" | 800 || {{n/a}} || || 22 || May 2013 || OX2150IAJ44HM || $99 |
||
|- |
|- |
||
! style="text-align: left" | [https://www.amd.com/en-us/products/server/opteron-x/x2170 X2170] |
! style="text-align: left" | [https://www.amd.com/en-us/products/server/opteron-x/x2170 X2170] |
||
| || 4 || 2.4 |
| || 4 || 2.4 || {{n/a}} || || || || {{n/a}} || || 25 || September 2016 || OX2170IXJ44JB || |
||
|} |
|} |
||
| Line 240: | Line 453: | ||
! colspan="3" | GPU |
! colspan="3" | GPU |
||
! rowspan="2" | TDP |
! rowspan="2" | TDP |
||
(W) |
|||
! rowspan="2" | Memory |
|||
! rowspan="2" | DDR3 |
|||
ECC |
|||
Memory |
|||
Speed |
|||
|- |
|- |
||
! Cores |
! Cores |
||
! Freq. |
|||
! Frequency |
|||
(GHz) |
|||
! L2 Cache |
|||
! L2 |
|||
Cache |
|||
(MB) |
|||
! Model |
! Model |
||
! Config. |
! Config. |
||
! Freq. |
|||
! Frequency |
|||
(MHz) |
|||
|- |
|- |
||
| GX-420CA |
| GX-420CA |
||
| rowspan="5" | 4 |
| rowspan="5" | 4 |
||
| 2.0 |
| 2.0 |
||
| rowspan="5" | 2 |
| rowspan="5" | 2 |
||
| HD 8400E |
| HD 8400E |
||
| 128:8:4{{Citation needed|date=August 2013}} |
| 128:8:4{{Citation needed|date=August 2013}} |
||
| 600 |
| 600 |
||
| 25 |
| 25 |
||
| rowspan="3" | |
| rowspan="3" | 1600 |
||
|- |
|- |
||
| GX-416RA<ref name=cpuworld-gx-416ra> |
| GX-416RA<ref name=cpuworld-gx-416ra> |
||
| Line 265: | Line 489: | ||
|url=http://www.cpu-world.com/CPUs/Jaguar/AMD-G-Series%20GX-416RA%20-%20GE416RIBJ44HM.html |
|url=http://www.cpu-world.com/CPUs/Jaguar/AMD-G-Series%20GX-416RA%20-%20GE416RIBJ44HM.html |
||
|website=cpu-world.com|publisher=CPU-World |
|website=cpu-world.com|publisher=CPU-World |
||
| |
|access-date=1 March 2015}}</ref><ref> |
||
{{cite web |
{{cite web |
||
|url=https://www.amd.com/Documents/AMDGSeriesSOCProductBrief.pdf |
|url=https://www.amd.com/Documents/AMDGSeriesSOCProductBrief.pdf |
||
|title=AMD Embedded G-Series System-on-Chip (SOC) |publisher=AMD |
|title=AMD Embedded G-Series System-on-Chip (SOC) |publisher=AMD |
||
|access-date=2013-11-10 |archive-url=https://web.archive.org/web/20180726035101/https://www.amd.com/Documents/AMDGSeriesSOCProductBrief.pdf |archive-date=2018-07-26 |url-status=dead}}</ref><ref name=NetboardA10> |
|||
|accessdate=2013-11-10}}</ref><ref name=NetboardA10> |
|||
{{cite web |
{{cite web |
||
|title=Netboard A10 |
|title=Netboard A10 |
||
|url=https://www.deciso.com/netboard-a10/#.VPMsvi5odQI |
|url=https://www.deciso.com/netboard-a10/#.VPMsvi5odQI |
||
|website=deciso.com|publisher=Deciso B.V. |
|website=deciso.com|publisher=Deciso B.V. |
||
| |
|access-date=1 March 2015}}</ref><ref name=AMD-NewFirewalls> |
||
{{cite web|last1=Schellevis|first1=Jos |
{{cite web|last1=Schellevis|first1=Jos |
||
|title=Under the Hood: AMD G-Series SOC Delivers the Horsepower for Next Generation Firewalls |
|title=Under the Hood: AMD G-Series SOC Delivers the Horsepower for Next Generation Firewalls |
||
|url=http://community.amd.com/community/amd-blogs/amd-business/blog/2015/02/11/under-the-hood-amd-g-series-soc-delivers-the-horsepower-for-next-generation-firewalls |
|url=http://community.amd.com/community/amd-blogs/amd-business/blog/2015/02/11/under-the-hood-amd-g-series-soc-delivers-the-horsepower-for-next-generation-firewalls |
||
|website=community.amd.com|publisher=Advanced Micro Devices, Inc. |
|website=community.amd.com|publisher=Advanced Micro Devices, Inc. |
||
| |
|access-date=1 March 2015}}</ref> |
||
| 1.6 |
| 1.6 |
||
| colspan="3" {{N/A}} |
| colspan="3" {{N/A}} |
||
| rowspan="2" | 15 |
| rowspan="2" | 15 |
||
|- |
|- |
||
| GX-415GA |
| GX-415GA |
||
| 1.5 |
| 1.5 |
||
| HD 8330E |
| HD 8330E |
||
| 128:8:4{{Citation needed|date=August 2013}} |
| 128:8:4{{Citation needed|date=August 2013}} |
||
| 500 |
| 500 |
||
|- |
|- |
||
| GX-412TC<ref>{{Cite web|url=http://pcengines.ch/apu2c2.htm|title=PC Engines apu2c2 product file|website=pcengines.ch|access-date=2016-07-15}}</ref> |
| GX-412TC<ref>{{Cite web|url=http://pcengines.ch/apu2c2.htm|title=PC Engines apu2c2 product file|website=pcengines.ch|access-date=2016-07-15}}</ref> |
||
| 1.0 |
| 1.0 |
||
| colspan="3" {{N/A}} |
| colspan="3" {{N/A}} |
||
| 6 |
| 6 |
||
| |
| 1333 |
||
|- |
|- |
||
| GX-411GA |
| GX-411GA |
||
| 1.1 |
| 1.1 |
||
| HD 8210E |
| HD 8210E |
||
| rowspan="4" |128:8:4{{Citation needed|date=August 2013}} |
| rowspan="4" |128:8:4{{Citation needed|date=August 2013}} |
||
| 300 |
| 300 |
||
| rowspan="2" | 15 |
| rowspan="2" | 15 |
||
| rowspan="2" | |
| rowspan="2" |1600 |
||
|- |
|- |
||
| GX-217GA |
| GX-217GA |
||
| rowspan="3" | 2 |
| rowspan="3" | 2 |
||
| 1.65 |
| 1.65 |
||
| rowspan="3" | 1 |
| rowspan="3" | 1 |
||
| HD 8280E |
| HD 8280E |
||
| 450 |
| 450 |
||
|- |
|- |
||
| GX-210HA |
| GX-210HA |
||
| rowspan="2" | 1.0 |
| rowspan="2" | 1.0 |
||
| HD 8210E |
| HD 8210E |
||
| 300 |
| 300 |
||
| 9 |
|||
| {{0}}9 W |
|||
| |
| 1333 |
||
|- |
|- |
||
| GX-210JA |
| GX-210JA |
||
| HD 8180E |
| HD 8180E |
||
| 225 |
| 225 |
||
| 6 |
|||
| {{0}}6 W |
|||
| |
| 1066 |
||
|} |
|} |
||
== Jaguar successors and derivatives == |
|||
There are two known successors or derivatives of the Jaguar microarchitecture. |
|||
== Jaguar derivative and successor == |
|||
The [[Puma (microarchitecture)|Puma]] successor to Jaguar was released in 2014 and targeting entry level notebooks and tablets.<ref>{{cite news|last1=Lal Shimpi|first1=Anand|title=AMD Beema/Mullins Architecture & Performance Preveiw|url=http://www.anandtech.com/show/7974/amd-beema-mullins-architecture-a10-micro-6700t-performance-preview|accessdate=17 April 2017|publisher=Anandtech|date=29 April 2014}}</ref> |
|||
In 2017, a derivative of the Jaguar microarchitecture was announced in the [[AMD Accelerated Processing Unit|APU]] of [[Microsoft]]'s [[Xbox One X|Xbox One X (Project Scorpio)]] revision to the [[Xbox One]].<ref>{{cite news|last1=Leadbetter|first1=Richard|title=Inside the next Xbox: Project Scorpio tech revealed|url=http://www.eurogamer.net/articles/digitalfoundry-2017-project-scorpio-tech-revealed|access-date=6 April 2017|publisher=EuroGamer|date=6 April 2017}}</ref> The Project Scorpio APU is described as a 'customized' derivative of the Jaguar microarchitecture, utilizing eight cores clocked at 2.3 GHz.<ref>{{cite news|last1=Howse|first1=Brett|title=The Xbox One X Review|url=https://www.anandtech.com/show/11992/the-xbox-one-x-review|access-date=18 May 2018|publisher=Anandtech|date=3 November 2017}}</ref><ref>{{cite news|last1=Carbotte|first1=Kevin|title=Microsoft Details Xbox One X Scorpio Engine SoC|url=https://www.tomshardware.com/news/xbox-scorpio-engine-soc-details,35282.html|access-date=18 May 2018|publisher=Tom's Hardware|date=21 August 2017}}</ref> |
|||
The [[Puma (microarchitecture)|Puma]] successor to Jaguar was released in 2014 and targeting entry level notebooks and tablets.<ref>{{cite news|last1=Lal Shimpi|first1=Anand|title=AMD Beema/Mullins Architecture & Performance Preview|url=http://www.anandtech.com/show/7974/amd-beema-mullins-architecture-a10-micro-6700t-performance-preview|access-date=17 April 2017|publisher=Anandtech|date=29 April 2014}}</ref> |
|||
In 2017 a derivative of as the Jaguar microarchitecture was announced in the [[AMD Accelerated Processing Unit|APU]] of [[Microsoft]]'s [[Xbox One#Xbox One X|Xbox One X (Project Scorpio)]] revision to the [[Xbox One]].<ref>{{cite news|last1=Leadbetter|first1=Richard|title=Inside the next Xbox: Project Scorpio tech revealed|url=http://www.eurogamer.net/articles/digitalfoundry-2017-project-scorpio-tech-revealed|accessdate=6 April 2017|publisher=EuroGamer|date=6 April 2017}}</ref> The Project Scorpio APU is described as a 'customized' derivative of the Jaguar microarchitecture, utilizing eight cores clocked at 2.3 GHz.<ref>{{cite news|last1=Howse|first1=Brett|title=The Xbox One X Review|url=https://www.anandtech.com/show/11992/the-xbox-one-x-review|accessdate=18 May 2018|publisher=Anandtech|date=3 November 2017}}</ref><ref>{{cite news|last1=Carbotte|first1=Kevin|title=Microsoft Details Xbox One X Scorpio Engine SoC|url=https://www.tomshardware.com/news/xbox-scorpio-engine-soc-details,35282.html|accessdate=18 May 2018|publisher=Tom's Hardware|date=21 August 2017}}</ref> |
|||
== References == |
== References == |
||
{{Reflist|30em}} |
{{Reflist|30em}} |
||
== External links == |
|||
* [http://support.amd.com/TechDocs/52128_16h_Software_Opt_Guide.zip Software Optimization Guide for Family 16h Processors] |
|||
* [http://www.hotchips.org/wp-content/uploads/hc_archives/hc24/HC24-1-Microprocessor/HC24.28.120-Jaguar-Rupley-AMD.pdf ''Jaguar'' AMD’s Next Generation Low Power x86 Core] at [[Hot Chips]] 24 |
|||
* [http://www.hardware.fr/marc/ISSCC2013-Final-v5.pdf Slides about the design of jaguar presented at ISSCC 2013] |
|||
* [http://player.vimeo.com/video/70360819 Jaguar presentation (video)] at [[ISSCC]] 2013 |
|||
* [http://www.realworldtech.com/forum/?threadid=132914 Discussion initiated on RWT forums by Jeff Rupley, Chief Architect of the Jaguar core] |
|||
* [http://www.realworldtech.com/jaguar/ Jaguar and Bobcat microarchitecture (7 page article)]. |
|||
* [http://support.amd.com/TechDocs/48751_16h_bkdg.pdf BKDG for Family 16h Models 00h-0Fh Processors] |
|||
* [http://support.amd.com/TechDocs/51810_16h_00h-0Fh_Rev_Guide.pdf Revision Guide for Family 16h Models 00h-0Fh Processors] |
|||
{{AMD processors}} |
{{AMD processors}} |
||
{{Single-board computer}} |
{{Single-board computer}} |
||
[[Category: |
[[Category:AMD x86 microprocessors]] |
||
[[Category: |
[[Category:AMD microarchitectures]] |
||
[[Category:X86 microarchitectures]] |
|||
Latest revision as of 21:32, 29 May 2024
| General information | |
|---|---|
| Launched | Mid-2013 |
| Discontinued | present |
| Common manufacturer | |
| Cache | |
| L1 cache | 64 KB per core[1] |
| L2 cache | 1 MB to 2 MB shared |
| Architecture and classification | |
| Technology node | 28 nm |
| Instruction set | AMD64 (x86-64) |
| Physical specifications | |
| Sockets |
|
| Products, models, variants | |
| Core names |
|
| History | |
| Predecessor | Bobcat - Family 14h |
| Successors | Puma - Family 16h (2nd-gen) CPU of Xbox One X |
The AMD Jaguar Family 16h is a low-power microarchitecture designed by AMD. It is used in APUs succeeding the Bobcat Family microarchitecture in 2013 and being succeeded by AMD's Puma architecture in 2014. It is two-way superscalar and capable of out-of-order execution. It is used in AMD's Semi-Custom Business Unit as a design for custom processors and is used by AMD in four product families: Kabini aimed at notebooks and mini PCs, Temash aimed at tablets, Kyoto aimed at micro-servers, and the G-Series aimed at embedded applications. Both the PlayStation 4 and the Xbox One use SoCs based on the Jaguar microarchitecture, with more powerful GPUs than AMD sells in its own commercially available Jaguar APUs.[2]
Design[edit]
- 32 KiB instruction + 32 KiB data L1 cache per core, L1 cache includes parity error detection
- 16-way, 1–2 MiB unified L2 cache shared by two or four cores, L2 cache is protected from errors by the use of error correcting code
- Out-of-order execution and speculative execution
- Integrated memory controller
- Two-way integer execution
- Two-way 128-bit wide floating-point and packed integer execution
- Integer hardware divider
- Consumer processors support two DDR3L DIMMs in one channel at frequencies up to 1600 MHz[3]
- Server processors support two DDR3 DIMMs in one channel at frequencies up to 1600 MHz with ECC[4]
- As a SoC (not just an APU) it integrates Fusion controller hub
- Jaguar does not feature clustered multi-thread (CMT), meaning that execution resources are not shared between cores
Instruction-set support[edit]
The Jaguar core has support for the following instruction sets and instructions: MMX, SSE, SSE2, SSE3, SSSE3, SSE4a, SSE4.1, SSE4.2, AVX, F16C, CLMUL, AES, BMI1, MOVBE (Move Big-Endian instruction), XSAVE/XSAVEOPT, ABM (POPCNT/LZCNT), and AMD-V.[1]
Improvements over Bobcat[edit]
- Over 10% increase in clock frequency[5]
- Over 15% improvement in instructions per clock (IPC)[5]
- Added support for SSE4.1, SSE4.2, AES, CLMUL, MOVBE, AVX, F16C, BMI1[5]
- Up to four CPU cores
- L2 cache is shared between cores
- FPU datapath width increased to 128-bit[5]
- Added hardware integer divider
- Enhanced cache prefetchers
- Doubled bandwidth of load–store units
- C6 and CC6 low power states with lower entry and exit latency[5]
- Smaller, 3.1 mm2 area per core
- Integrated Fusion controller hub (FCH)
- Video Coding Engine
Features[edit]
Processors[edit]
Consoles[edit]
| Chip (device) |
Release date | Fab | Die area (mm2) | CPU | GPU | Memory | Storage | API support | Special features | ||||||||||||
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| Archi- tecture |
Cores | Clock (GHz) | L2 cache | Archi- tecture |
Core config[a] | Clock (MHz) | GFLOPS [b] | Pixel fillrate (GP/s) [c] | Texture fillrate (GT/s) [d] | Other | Size | Bus type & width | Band- width (GB/s) |
Audio | Other | ||||||
| Liverpool (PS4) |
Nov 2013 | 28 nm | 348 | Jaguar | 2 modules with 4 cores each | 1.6 | 2× 2 MiB | GCN 2 | 1152:72:32 18 CU |
800 | 1843 | 25.6 | 57.6 | 8 ACEs | 8 GiB | GDDR5 256-bit |
176 | 3DBD/DVD 1× 2.5" SATA hard drive Easily replaceable hard drive USB 3.0 |
OpenGL 4.2, GNM, GNMX and PSSL | Dolby Atmos (BD) S/PDIF |
PS VR PS4 additional modules HDR10 (except discs)[e] CEC Optional IR sensor |
| Durango (Xbox One) |
363 | 1.75 | 768:48:16 12 CU |
853 | 1310 | 13.6 | 40.9 | 2 ACEs | 32 MiB | ESRAM[f] | 204 | 3DBD/DVD/CD 1× 2.5" SATA hard drive USB 3.0 |
Direct3D 11.2 and 12 | Fully Dolby Atmos, DTS:X, and Windows Sonic S/PDIF |
Xbox One additional modules FreeSync (1) HDMI 1.4 through IR sensor and IR out port Kensington lock | ||||||
| 8 GiB | DDR3 256-bit |
68 | |||||||||||||||||||
| Edmonton (Xbox One S) [6] |
Jun 2016 | 16 nm | 240 | 914 | 1404 | 14.6 | 43.9 | 32 MiB | ESRAM | 219 | 4KBD/3DBD/DVD/CD[g] 1× 2.5" SATA hard drive USB 3.0 |
Fully Dolby Atmos, DTS:X, and Windows Sonic S/PDIF |
Xbox One S additional modules Fully HDR10 Dolby Vision (streaming) FreeSync (1&2) HDMI 1.4 through IR sensor and IR out port Kensington lock | ||||||||
| 8 GiB | DDR3 256-bit |
68 | |||||||||||||||||||
| Liverpool? (PS4 Slim) |
Sep 2016 | 208 | 1.6 | 1152:72:32 18 CU |
800 | 1843 | 25.6 | 57.6 | 8 ACEs | 8 GiB | GDDR5 256-bit |
176 | 3DBD/DVD 1× 2.5" SATA hard drive Easily replaceable hard drive USB 3.0 |
OpenGL 4.2, GNM, GNMX and PSSL | Dolby Atmos (BD) | PS VR PS4 Slim additional modules HDR10 (except discs) CEC Optional IR sensor | |||||
| Neo (PS4 Pro) [7][8][9] |
Nov 2016 | 325 | 2.13 | GCN 4 Polaris[10] |
2304:144:32 36 CU |
911 | 4198 | 58.3 | 131.2 | 4 ACEs and 2 HWS Double-rate FP16[h] checkerboard rendering |
8 GiB [11] |
GDDR5 256-bit |
218 | 3DBD/DVD 1× 2.5" SATA hard drive Easily replaceable hard drive USB 3.0 |
OpenGL 4.2 (4.5), GNM, GNMX and PSSL | Dolby Atmos (BD) S/PDIF |
PS VR PS4 Pro additional modules HDR10 (except discs) Up to 4K@60 Hz CEC Optional IR sensor | ||||
| 1 GiB | DDR3[i] | ? | |||||||||||||||||||
| Scorpio (Xbox One X) [12][13][14] |
Nov 2017 | 359 | Customized Jaguar |
2.3 | 2560:160:32 40 CU |
1172 | 6001 | 37.5 | 187.5 | 4 ACEs and 2 HWS | 12 GiB | GDDR5 384-bit |
326 | 4KBD/3DBD/DVD/CD 1× 2.5" SATA hard drive USB 3.0 |
Direct3D 11.2 and 12 | Fully Dolby Atmos, DTS:X, and Windows Sonic S/PDIF |
Xbox One X additional modules Fully HDR10 Dolby Vision (streaming) FreeSync (1&2) Up to 4K@60 Hz HDMI 1.4b through IR sensor and IR out port | ||||
- ^ Unified Shaders : Texture Mapping Units : Render Output Units
- ^ Precision performance is calculated from the base (or boost) core clock speed based on a FMA operation.
- ^ Pixel fillrate is calculated as the number of ROPs multiplied by the base (or boost) core clock speed.
- ^ Texture fillrate is calculated as the number of TMUs multiplied by the base (or boost) core clock speed.
- ^ UHD BD is the only video disc format supporting HDR.
- ^ Cache
- ^ "Digital" version does not have an optical drive.
- ^ Feature preview of Rapid Packed Math, introduced in GCN 5 Vega.
- ^ Swap
Desktop[edit]
SoCs using Socket AM1:
| Model | CPU | GPU | TDP
(W) |
DDR3
Memory Speed |
Socket | ||||
|---|---|---|---|---|---|---|---|---|---|
| Cores | Freq.
(GHz) |
L2
Cache (MB) |
Model | Cores (unified shaders : texture mapping units : render output units) |
Freq.
(MHz) | ||||
| Athlon 5370 | 4 | 2.2 | 2 | Radeon R3 | 128:8:4[15] | 600 | 25 | 1600 | AM1 |
| Athlon 5350[16] | 2.05 | ||||||||
| Athlon 5150 | 1.6 | ||||||||
| Sempron 3850 | 1.3 | 450 | |||||||
| Sempron 2650 | 2 | 1.45 | 1 | 400 | 1333 | ||||
Desktop/Mobile (28 nm)[edit]
| Target segment |
Model | CPU | GPU | TDP
(W) |
DDR3
Memory |
Turbo | ||||||
|---|---|---|---|---|---|---|---|---|---|---|---|---|
| Cores | Freq.
(GHz) |
Turbo
(GHz) |
L2
Cache (MB) |
Model | Config. | Freq.
(MHz) |
Turbo
(MHz) | |||||
| Notebooks /Mini-PCs[17] |
A6-5200 | 4 | 2.0 | — | 2 | HD 8400 | 128:8:4[18] | 600 | — | 25 | (L)1600 | No |
| A4-5100 | 1.55 | HD 8330 | 500 | 15 | ||||||||
| A4-5000 | 1.50 | |||||||||||
| Notebooks | E2-3000 | 2 | 1.65 | 1 | HD 8280 | 450 | ||||||
| E1-2500 | 1.4 | HD 8240 | 400 | (L)1333 | ||||||||
| E1-2100 | 1.0 | HD 8210 | 300 | 9 | ||||||||
| Tablets | A6-1450 | 4 | 1.4 | 2 | HD 8250 | 400 | 8 | (L)1066 | Yes | |||
| A4-1350[19] | — | HD 8210 | — | 1066 | No | |||||||
| A4-1250 | 2 | 1 | (L)1333 | |||||||||
| A4-1200[20] | HD 8180 | 225 | 3.9 | (L)1066 | ||||||||
Server[edit]
Opteron X1100-series "Kyoto" (28 nm)[edit]
| Model | Step. | CPU | Memory support |
TDP
(W) |
Released | Part number | Release
price (USD) | |||||
|---|---|---|---|---|---|---|---|---|---|---|---|---|
| Cores | Freq.
(GHz) |
Turbo | L2
Cache (MB) |
Multi | Vcore | |||||||
| X1150 | B0 | 4 | 2.0 | — | 2 | DDR3 | 17 | May 2013 | OX1150IPJ44HM | $64 | ||
Opteron X2100-series "Kyoto" (28 nm)[edit]
| Model | Step. | CPU | GPU | DDR3
Memory |
TDP
(W) |
Released | Part number | Release
price (USD) | ||||||||
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| Cores | Freq.
(GHz) |
Turbo
(GHz) |
L2 Cache
(MB) |
Multi | Vcore | Model | Config | Freq.
(MHz) |
Turbo | |||||||
| X2150 | B0 | 4 | 1.9 | — | 2 | HD 8400 | 800 | — | 22 | May 2013 | OX2150IAJ44HM | $99 | ||||
| X2170 | 4 | 2.4 | — | — | 25 | September 2016 | OX2170IXJ44JB | |||||||||
Embedded[edit]
| Model | CPU | GPU | TDP
(W) |
DDR3
ECC Memory Speed | ||||
|---|---|---|---|---|---|---|---|---|
| Cores | Freq.
(GHz) |
L2
Cache (MB) |
Model | Config. | Freq.
(MHz) | |||
| GX-420CA | 4 | 2.0 | 2 | HD 8400E | 128:8:4[citation needed] | 600 | 25 | 1600 |
| GX-416RA[21][22][23][24] | 1.6 | — | 15 | |||||
| GX-415GA | 1.5 | HD 8330E | 128:8:4[citation needed] | 500 | ||||
| GX-412TC[25] | 1.0 | — | 6 | 1333 | ||||
| GX-411GA | 1.1 | HD 8210E | 128:8:4[citation needed] | 300 | 15 | 1600 | ||
| GX-217GA | 2 | 1.65 | 1 | HD 8280E | 450 | |||
| GX-210HA | 1.0 | HD 8210E | 300 | 9 | 1333 | |||
| GX-210JA | HD 8180E | 225 | 6 | 1066 | ||||
Jaguar derivative and successor[edit]
In 2017, a derivative of the Jaguar microarchitecture was announced in the APU of Microsoft's Xbox One X (Project Scorpio) revision to the Xbox One.[26] The Project Scorpio APU is described as a 'customized' derivative of the Jaguar microarchitecture, utilizing eight cores clocked at 2.3 GHz.[27][28]
The Puma successor to Jaguar was released in 2014 and targeting entry level notebooks and tablets.[29]
References[edit]
- ^ a b "Software Optimization Guide for Family 16h Processors". AMD. Retrieved August 3, 2013.
- ^ "Xbox One vs. PS4: How the final hardware specs compare". ExtremeTech. November 22, 2013. Retrieved January 25, 2014.
- ^ "AMD releases 5 Kabinis and 3 Temashes". SemiAccurate. 23 May 2013. Retrieved July 16, 2013.
- ^ "AMD launches Opteron X-Series, Moving Jaguar into Servers". Bright Side Of News. 30 May 2013. Retrieved July 16, 2013.
- ^ a b c d e "Slide detailing improvements of Jaguar over Bobcat". AMD. 29 August 2012. Retrieved August 3, 2013.
- ^ MACHKOVECH, SAM (2 August 2016). "Microsoft hid performance boosts for old games in Xbox One S, told no one". Ars Technica. Retrieved 2 August 2016.
- ^ Walton, Mark (10 August 2016). "PS4 Neo: Sony confirms PlayStation event for September 7". Ars Technica. Retrieved 10 August 2016.
- ^ Walton, Mark (19 April 2016). "Sony PS4K is codenamed NEO, features upgraded CPU, GPU, RAM—report". Ars Technica. Retrieved 10 August 2016.
- ^ Smith, Ryan (8 September 2016). "Analyzing Sony's Playstation 4 Pro Hardware Reveal: What Lies Beneath". Anandtech. Retrieved 8 September 2016.
- ^ Freedman, Andrew (3 November 2017). "Xbox One X vs. PlayStation 4 Pro: Which Powerhouse Should You Get?". Tom's Guide. Retrieved 3 November 2017.
- ^ "PS4 Pro's additional RAM frees up memory for game developers". Polygon. Retrieved 2018-11-23.
- ^ "Microsoft's Project Scorpio Gets a Launch Date: Xbox One X, $499, November 7th".
- ^ "Xbox One Project Scorpio specs: 12GB GDDR5, 6 teraflops, native 4K at 60FPS". 6 April 2017.
- ^ Cutress, Ian (21 August 2017). "Hot Chips: Microsoft Xbox One X Scoprio Engine Live Blog". Anandtech. Retrieved 21 August 2017.
- ^ AMD Radeon R3 5350 compare Nvidia GeForce GT 520 GPU
- ^ "AMD Introduces New Socketed AMD Sempron and AMD Athlon APU Products with AM1 Platform". AMD. Retrieved 9 April 2014.
- ^ "AMD introduces its Mini-PC based Kabini". Tech News Pedia. Retrieved July 16, 2013.
- ^ Shimpi, Anand. "AMD's Jaguar Architecture: The CPU Powering Xbox One, PlayStation 4, Kabini & Temash". AnandTech. Retrieved August 3, 2013.
- ^ "AMD Expands Elite Mobility APU Line-Up with New Quad-Core Processor". Amd.com. 2013-06-29. Retrieved 2013-10-23.
- ^ "AMD Quanta A4-1200 APU Tablet Prototype". YouTube. 2013-06-29. Retrieved 2013-10-23.
- ^ Shvets, Gennadiy. "AMD G-Series GX-416RA specifications". cpu-world.com. CPU-World. Retrieved 1 March 2015.
- ^ "AMD Embedded G-Series System-on-Chip (SOC)" (PDF). AMD. Archived from the original (PDF) on 2018-07-26. Retrieved 2013-11-10.
- ^ "Netboard A10". deciso.com. Deciso B.V. Retrieved 1 March 2015.
- ^ Schellevis, Jos. "Under the Hood: AMD G-Series SOC Delivers the Horsepower for Next Generation Firewalls". community.amd.com. Advanced Micro Devices, Inc. Retrieved 1 March 2015.
- ^ "PC Engines apu2c2 product file". pcengines.ch. Retrieved 2016-07-15.
- ^ Leadbetter, Richard (6 April 2017). "Inside the next Xbox: Project Scorpio tech revealed". EuroGamer. Retrieved 6 April 2017.
- ^ Howse, Brett (3 November 2017). "The Xbox One X Review". Anandtech. Retrieved 18 May 2018.
- ^ Carbotte, Kevin (21 August 2017). "Microsoft Details Xbox One X Scorpio Engine SoC". Tom's Hardware. Retrieved 18 May 2018.
- ^ Lal Shimpi, Anand (29 April 2014). "AMD Beema/Mullins Architecture & Performance Preview". Anandtech. Retrieved 17 April 2017.