Jaguar (microarchitecture)

Jaguar - Family 16h
Produced	From Mid-2013 to present
Common manufacturer(s)	AMD
Min. feature size	28 nm
Instruction set	AMD64 (x86-64)
L1 cache	64 KB per core^[1]
L2 cache	1 MB to 2 MB shared
Socket(s)	Socket AM1 Socket FT3 (BGA-769)
Predecessor	Bobcat - Family 14h
Successor	Puma - Family 16h (2nd-gen)
Core name(s)	Kabini Temash Kyoto G-series Athlon, Sempron, A4, A6, & E4

The AMD Jaguar Family 16h is a low-power microarchitecture designed by AMD, and 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 chips based on the Jaguar microarchitecture, with more powerful GPUs than AMD sells in its own commercially available Jaguar APUs.^[2]

Design

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 2 DDR3L DIMMs in one channel at frequencies up to 1600 MHz^[3]
Server processors support 2 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

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

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, and BMI1^[5]
Up to 4 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

Processors

Consoles

Xbox One S and PlayStation 4 Pro specs are for announced but unreleased hardware as currently reported, September 8, 2016.

² Pixel fillrate is calculated as the number of ROPs multiplied by the base core clock speed.
³ Texture fillrate is calculated as the number of TMUs multiplied by the base core clock speed.

Device	CPU			GPU					Memory				Special features
Device	Cores	Frequency	L2 Cache	Cores (unified shaders : texture mapping units : render output units)^[6]	Frequency	GFLOPS	Pixel Fillrate (GP/s)²	Texture Fillrate (GT/s)³	Amount	Bus Width (bit)	Bus Type	Bandwidth (GB/s)	Special features
Sony PS4	dual 4 core modules	1.6 GHz	2 x 2 MB	1152:72:32	800 MHz	1843	25.6	57.6	8 GB	256	GDDR5	176	8 ACEs in the GPU and additional modules
Sony PS4 Pro^[7]^[8]^[9]	8 core	2.1 GHz	2 x 2 MB	2304:?:?	911 MHz	4197	29.2	131.2	8 GB	256	GDDR5	218	1GB of DDR3 RAM for OS and Swapping^[10]
Microsoft Xbox One	dual 4 core modules	1.75 GHz	2 x 2 MB	768:48:16	853 MHz	1310	13.6	40.9	8 GB	256	DDR3	68	2 ACEs in the GPU and 32MB ESRAM 204 GB/s
Microsoft Xbox One S^[11]	dual 4 core modules	1.75 GHz	2 x 2 MB	768:48:16	914 MHz	1404	14.6	43.9	8 GB	256	DDR3	68	2 ACEs in the GPU and 32MB ESRAM 219 GB/s

Desktop

SoCs using Socket AM1:

Model	CPU			GPU			TDP	Memory	Socket
Model	Cores	Frequency	L2 Cache	Model	Cores (unified shaders : texture mapping units : render output units)	Frequency	TDP	Memory	Socket
Athlon 5370	4	2.2 GHz	2 MB	Radeon R3	128:24:8^[12]	600 MHz	25 W	DDR3-1600	AM1
Athlon 5350^[13]		2.05 GHz
Athlon 5150		1.6 GHz
Sempron 3850		1.3 GHz				450 MHz
Sempron 2650	2	1.45 GHz	1 MB			400 MHz		DDR3-1333

Desktop/Mobile

Target segment	Model	CPU				GPU				TDP	Memory	Turbo Core
Target segment	Model	Cores	Frequency	Max. Turbo	L2 Cache	Model	Config.	Frequency	Turbo	TDP	Memory	Turbo Core
Notebooks /Mini-PCs^[14]	A6-5200	4	2.0 GHz	N/A	2 MB	HD 8400	128:16:4^[15]	600 MHz	N/A	25 W	DDR3L-1600	No
	A4-5100		1.55 GHz			HD 8330		500 MHz		15 W
	A4-5000		1.5 GHz			HD 8330		500 MHz
Notebooks	E2-3000	2	1.65 GHz		1 MB	HD 8280		450 MHz
	E1-2500		1.4 GHz			HD 8240		400 MHz			DDR3L-1333
	E1-2100		1.0 GHz			HD 8210		300 MHz		09 W	DDR3L-1333
Tablets	A6-1450	4		1.4 GHz	2 MB	HD 8250			400 MHz	08 W	DDR3L-1066	Yes
	A4-1350^[16]	4		N/A	2 MB	HD 8210			N/A		DDR3-1066	No
	A4-1250	2			1 MB	HD 8210					DDR3L-1333
	A4-1200^[17]	2			1 MB	HD 8180		225 MHz		03.9 W	DDR3L-1066

Server

Model	CPU			GPU		TDP	Memory
Model	Cores	Frequency	L2 Cache	Cores	Frequency	TDP	Memory
Opteron X2150	4	1.1–1.9 GHz	2 MB	128^[18]	266–600 MHz	11–22 W	DDR3-1600 ECC
Opteron X1150	4	1.0–2.0 GHz	2 MB	N/A		09–17 W	DDR3-1600 ECC

^ CPU and GPU frequencies are adjustable in BIOS.^[19]

Embedded

Model	CPU			GPU			TDP	Memory
Model	Cores	Frequency	L2 Cache	Model	Config.	Frequency	TDP	Memory
GX-420CA	4	2.0 GHz	2 MB	HD 8400E	128:16:4	600 MHz	25 W	DDR3-1600 ECC
GX-416RA^[20]^[21]^[22]^[23]		1.6 GHz		N/A			15 W
GX-415GA		1.5 GHz		HD 8330E	128:16:4	500 MHz
GX-412TC^[24]		1.0 GHz		N/A				DDR3-1333 ECC
GX-411GA		1.1 GHz		HD 8210E	128:16:4	300 MHz		DDR3-1600 ECC
GX-217GA	2	1.65 GHz	1 MB	HD 8280E		450 MHz		DDR3-1600 ECC
GX-210HA		1.0 GHz		HD 8210E		300 MHz	09 W	DDR3-1333 ECC
GX-210JA		1.0 GHz		HD 8180E		225 MHz	06 W	DDR3-1066 ECC

References

1 2 "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. Retrieved July 16, 2013.
↑ "AMD launches Opteron X-Series, Moving Jaguar into Servers". Bright Side Of News. Retrieved July 16, 2013.
1 2 3 4 5 "Slide detailing improvements of Jaguar over Bobcat". AMD. Retrieved August 3, 2013.
↑ "PlayStation 4 Xbox One Comparison Chart". Vgleaks. Retrieved 24 July 2014.
↑ 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.
↑ Kelly, Gordon (9 November 2016). "PS4 Pro Vs PS4 Slim Vs PS4: What's The Difference?". Forbes. Retrieved 16 November 2016.
↑ 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.
↑ 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.
↑ "AMD's Opteron X-series targets Intel Atom for the microserver CPU market". Engadget. Retrieved July 16, 2013.
↑ "Archived copy" (PDF). Archived from the original (PDF) on June 16, 2013. Retrieved July 15, 2013.
↑ 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. 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.

External links

AMD processors

List of AMD microprocessors

Discontinued

pre-x86	Am9080 Am2900 list Am29000 Berkeley RISC Alchemy MIPS32

Early x86 (16-bit)	Am286

IA-32 (32-bit)	Am386 Am486 Am5x86 K5 K6 K6-2 K6-III Duron Athlon Athlon XP Athlon MP

x86-64 (64-bit)	Sempron Athlon 64 Athlon 64 X2 Athlon II Phenom Phenom II Turion

Current products

IA-32 (32-bit)	Geode

x86-64 (64-bit)	FX Athlon X4 Opteron APU Sempron Athlon

Lists

Microarchitectures

Single-board computer & Single-board microcontroller

Devices

SoCs

ARM	Allwinner Ax Exynos i.MX K3V3 MT Nomadik NovaThor OMAP Rockchip Qualcomm Snapdragon Tegra WonderMedia

MIPS	Jz

x86/x86-64	Atom Jaguar-based Puma-based Quark

Software

Comparison of single-board computers

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