Jaguar (microarchitecture)

Jaguar - Family 16h

General information
Launched	Mid-2013
Discontinued	present
Common manufacturer(s)	AMD
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
Socket(s)	Socket AM1 Socket FT3 (BGA-769)
Products, models, variants
Core name(s)	Kabini Temash Kyoto G-series Athlon, Sempron, A4, A6, & E4
History
Predecessor(s)	Bobcat - Family 14h
Successor(s)	Puma - Family 16h (2nd-gen)

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

See also: List of AMD Accelerated Processing Unit microprocessors and List of AMD mobile microprocessors

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
	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)
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
	Cores	Frequency	L2 Cache	Model	Cores (unified shaders : texture mapping units : render output units)	Frequency
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
		Cores	Frequency	Max. Turbo	L2 Cache	Model	Config.	Frequency	Turbo
Notebooks /Mini-PCs[14]	A6-5200	4	2.0 GHz	—	2 MB	HD 8400	128:16:4[15]	600 MHz	—	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
Tablets	A6-1450	4		1.4 GHz	2 MB	HD 8250			400 MHz	08 W	DDR3L-1066	Yes
	A4-1350[16]			—		HD 8210			—		DDR3-1066	No
	A4-1250	2			1 MB	HD 8210					DDR3L-1333
	A4-1200[17]					HD 8180		225 MHz		03.9 W	DDR3L-1066

Server

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

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

Embedded

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

References

1. "Software Optimization Guide for Family 16h Processors". AMD. Retrieved August 3, 2013.
2. "Xbox One vs. PS4: How the final hardware specs compare". ExtremeTech. November 22, 2013. Retrieved January 25, 2014.
3. "AMD releases 5 Kabinis and 3 Temashes". SemiAccurate. Retrieved July 16, 2013.
4. "AMD launches Opteron X-Series, Moving Jaguar into Servers". Bright Side Of News. Retrieved July 16, 2013.
5. "Slide detailing improvements of Jaguar over Bobcat". AMD. Retrieved August 3, 2013.
6. "PlayStation 4 Xbox One Comparison Chart". Vgleaks. Retrieved 24 July 2014.
7. Walton, Mark (10 August 2016). "PS4 Neo: Sony confirms PlayStation event for September 7". Ars Technica. Retrieved 10 August 2016.
8. Walton, Mark (19 April 2016). "Sony PS4K is codenamed NEO, features upgraded CPU, GPU, RAM—report". Ars Technica. Retrieved 10 August 2016.
9. Smith, Ryan (8 September 2016). "Analyzing Sony's Playstation 4 Pro Hardware Reveal: What Lies Beneath". Anandtech. Retrieved 8 September 2016.
10. Kelly, Gordon (9 November 2016). "PS4 Pro Vs PS4 Slim Vs PS4: What's The Difference?". Forbes. Retrieved 16 November 2016.
11. 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.
12. AMD Radeon R3 5350 compare Nvidia GeForce GT 520 GPU
13. "AMD Introduces New Socketed AMD Sempron and AMD Athlon APU Products with AM1 Platform". AMD. Retrieved 9 April 2014.
14. "AMD introduces its Mini-PC based Kabini". Tech News Pedia. Retrieved July 16, 2013.
15. Shimpi, Anand. "AMD's Jaguar Architecture: The CPU Powering Xbox One, PlayStation 4, Kabini & Temash". AnandTech. Retrieved August 3, 2013.
16. "AMD Expands Elite Mobility APU Line-Up with New Quad-Core Processor". Amd.com. 2013-06-29. Retrieved 2013-10-23.
17. "AMD Quanta A4-1200 APU Tablet Prototype". YouTube. 2013-06-29. Retrieved 2013-10-23.
18. "AMD's Opteron X-series targets Intel Atom for the microserver CPU market". Engadget. Retrieved July 16, 2013.
19. "Archived copy" (PDF). Archived from the original (PDF) on June 16, 2013. Retrieved July 15, 2013. {{cite web}}: Unknown parameter |deadurl= ignored (|url-status= suggested) (help)
20. Shvets, Gennadiy. "AMD G-Series GX-416RA specifications". cpu-world.com. CPU-World. Retrieved 1 March 2015.
21. "AMD Embedded G-Series System-on-Chip (SOC)" (PDF). AMD. Retrieved 2013-11-10.
22. "Netboard A10". deciso.com. Deciso B.V. Retrieved 1 March 2015.
23. 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.
24. "PC Engines apu2c2 product file". pcengines.ch. Retrieved 2016-07-15.

External links

• Software Optimization Guide for Family 16h Processors
• Jaguar AMD’s Next Generation Low Power x86 Core at Hot Chips 24
• Slides about the design of jaguar presented at ISSCC 2013
• Jaguar presentation (video) at ISSCC 2013
• Discussion initiated on RWT forums by Jeff Rupley, Chief Architect of the Jaguar core
• Jaguar and Bobcat microarchitecture (7 page article).
• BKDG for Family 16h Models 00h-0Fh Processors
• Revision Guide for Family 16h Models 00h-0Fh Processors