Bobcat - Family 14h | |
Produced-Start: | early 2011 |
Produced-End: | present |
Size-From: | 40 nm |
Manuf1: | AMD |
Core1: | AMD APU |
Successor: | Jaguar - Family 16h |
Sock1: | Socket FT1 (BGA-413) |
Arch: | AMD64 (x86-64) |
The AMD Bobcat Family 14h is a microarchitecture created by AMD for its AMD APUs, aimed at a low-power/low-cost market.[1]
It was revealed during a speech from AMD executive vice-president Henri Richard in Computex 2007 and was put into production Q1 2011.[2] One of the major supporters was executive vice-president Mario A. Rivas who felt it was difficult to compete in the x86 market with a single core optimized for the 10–100 W range and actively promoted the development of the simpler core with a target range of 1–10 W. In addition, it was believed that the core could migrate into the hand-held space if the power consumption can be reduced to less than 1 W.
Bobcat cores are used together with GPU cores in accelerated processing units (APUs) under the "Fusion" brand.[3] A simplified architecture diagram was released at AMD's Analyst Day in November 2009. This is similar in concept with earlier AMD research in 2003,[4] detailing the specifications and advantages of extending x86 "everywhere".
The Bobcat x86 CPU core design has since been completed and implemented in AMD APU processor products with a TDP of 18 W or less. The core is targeted at low-power markets like netbooks/nettops, ultra-portable laptops, consumer electronics and the embedded market. Since its launch, Bobcat-based CPUs have also been used by OEMs on larger laptops. Architecture specifics:
In February 2013, AMD detailed plans for a successor to Bobcat codenamed Jaguar.
APU features table
See also: List of AMD processors with 3D graphics and List of AMD mobile processors. In January 2011 AMD introduced several processors that have implemented the Bobcat core. This core is in the following AMD Accelerated Processors:
Series ^ | Model | CPU clock (MHz) | CPU cores | TDP (W) | L2 cache (KiB) | Radeon cores | GPU clock (MHz) | DirectX version | UVD | DDR3 speed |
---|---|---|---|---|---|---|---|---|---|---|
C-Series | C-30 | 1000 | 1 | 9 | 512 | 80 | 277 | 11 | UVD 3 | 1066 |
C-50 | 2 | 2*512 | 276 | |||||||
C-60 | 1000/1333 (turbo) | 276/400 (turbo) | ||||||||
C-70 | ||||||||||
E-Series | E-240 | 1500 | 1 | 18 | 512 | 500 | ||||
E-300 | 1300 | 2 | 2*512 | |||||||
E-350 | 1600 | 492 | ||||||||
E-450 | 1650 | 508/600 (turbo) | 1333 | |||||||
E1-1200 | 1400 | 500 | 1066 | |||||||
E1-1500[5] | 1480 | 529 | ||||||||
E2-1800 | 1700 | 523/680 | 1333 | |||||||
E2-2000 | 1750 | 538/700 | ||||||||
G-Series | T-24L | 800 | 1 | 5 | 512 | ? | 1066 | |||
T-30L | 1400 | 18 | 1333 | |||||||
T-40N | 1000 | 2 | 9 | 2*512 | 276 | 11 | UVD 3 | 1066 | ||
T-44R | 1200 | 1 | 512 | |||||||
T-48E | 1400 | 2 | 18 | 2*512 | 280 | |||||
T-48L | ? | |||||||||
T-48N | 492 | 11 | UVD 3 | |||||||
T-52R | 1500 | 1 | 512 | |||||||
T-56N | 1600 | 2 | 2*512 | |||||||
Z-Series | Z-01 | 1000 | 5.9 | 276 | ||||||
Z-60[6] | 4.5 | 275 |