AMD Turion
AMD Turion is the brand name AMD applies to its x86-64 low-power consumption (mobile) processors codenamed K8L.[1] The Turion 64 and Turion 64 X2/Ultra processors compete with Intel's mobile processors, initially the Pentium M and the Intel Core and Intel Core 2 processors.
Features
Turion 64
Earliest Turion 64 processors are plugged into AMD's Socket 754. They are equipped with 512 or 1024 KiB of L2 cache, a 64-bit single channel on-die DDR-400 memory controller, and an 800 MHz HyperTransport bus. Battery saving features, like PowerNow!, are central to the marketing and usefulness of these CPUs. The newer "Richmond" models are designed for AMD's Socket S1 and have a double-channel DDR2 controller.
Turion 64 X2
Turion 64 X2 is AMD's 64-bit dual-core mobile CPU, intended to compete with Intel's Core and Core 2 CPUs. The Turion 64 X2 was launched on May 17, 2006,[2] after several delays. These processors use Socket S1, and feature DDR2 memory. They also include AMD Virtualization Technology and more power-saving features.
AMD first produced the Turion 64 X2 on IBM's 90 nm Silicon on insulator (SOI) process (cores with the Taylor codename). As of May 2007, they have switched to a 65 nm Silicon-Germanium stressed process, which was recently achieved through the combined effort of IBM and AMD, with 40% improvement over comparable 65 nm processes. The earlier 90 nm devices were codenamed Taylor and Trinidad, while the newer 65 nm cores have codename Tyler.
Turion X2 Ultra
Turion X2 Ultra (codenamed Griffin) is the first processor family from AMD solely for the mobile platform, based on the Athlon 64 (K8 Revision G) architecture with some specific architectural enhancements similar to current Phenom processors aimed at lower power consumption and longer battery life. The Turion Ultra processor was released as part of the "Puma" mobile platform in June 2008.
The Turion X2 Ultra is a dual-core processor fabricated on 65 nm technology using 300 mm SOI wafers. It supports DDR2-800 SO-DIMMs and features a DRAM prefetcher to improve performance and a mobile-enhanced northbridge (memory controller, HyperTransport controller, and crossbar switch). Each processor core comes with 1 MiB L2 cache for a total of 2 MiB L2 cache for the entire processor. This is double the L2 cache found on the Turion 64 X2 processor. Clock rates range from 2.0 GHz to 2.4 GHz, and thermal design power (TDP) range from 32 watts to 35 watts.[3]
The Turion X2 Ultra processor, unlike earlier Turions, implements three voltage planes: one for the northbridge and one for each core.[4] This, along with multiple phase-locked loops (PLL), allows one core to alter its voltage and operating frequency independently of the other core, and independently of the northbridge. Indeed, in a matter of microseconds, the processor can switch to one of 8 frequency levels and one of 5 voltage levels. By adjusting frequency and voltage during use, the processor can adapt to different workloads and help reduce power consumption. It can operate as low as 250 MHz to conserve power during light use.
Additionally, the processor features deep sleep state C3, deeper sleep state C4 (AltVID), and HyperTransport 3.0 up to 2.6 GHz, or up to 41.6 GB/s bandwidth per link at 16-bit link width and dynamic scaling of HT link width down to 0-bit ("disconnected") in both directions from and to the chipset for four different usage scenarios.[5] It also implements multiple on-die thermal sensors through integrated SMBUS (SB-TSI) interface (replaces and eliminates the thermal monitor circuit chip through SMBUS in its predecessors) with additional MEMHOT signal sent from embedded controller to the processor, and reduces memory temperature.
The Turion X2 Ultra processor uses the same socket S1 as its predecessor, Turion 64 X2, but the pinout is different.[6] It is designed to work with the RS780M chipset.
Given the above enhancements on the architecture, the cores were minimally modified and are based on the K8 instead of the K10 microarchitecture.[6] AMD Fellow Maurice Steinman has said the cores are almost transistor-for-transistor identical to those found in the 65 nm Turion 64 X2 processors .
Turion II Ultra
Turion II Ultra (codenamed Caspian) is the mobile version of the K10.5 architecture produced using 45 nm fabrication process, also known by its desktop variant Regor. It is a dual core processor, and features clock speeds of 2.5 GHz, 2 MB total L2 cache (1 MB per core), HyperTransport at 3.6 GT/s, and a 128 bit FPU. It maintains a TDP of 35W from its predecessor Turion X2 Ultra (codenamed Griffin).
Turion II
Turion II is identical to Turion II Ultra, except that the Turion II features only 1 MB of L2 cache (512 KB per core), and lower clock speeds ranging from 2.2 GHz to 2.6 GHz.
Model naming methodology
The model naming scheme does not make it obvious how to compare one Turion with another, or even an Athlon 64. The model name is two letters, a dash, and a two digit number (for example, ML-34). The two letters together designate a processor class, while the number represents a performance rating (PR). The first letter is M for mono (single) core processors and T for twin (dual) core Turion 64 X2 processors. The later in the alphabet that the second letter appears, the more the model has been designed for mobility (frugal power consumption). Take for instance, an MT-30 and an ML-34. Since the T in the MT-30 is later in the alphabet than the L in ML-34, the MT-30 consumes less power than the ML-34. But since 34 is greater than 30, the ML-34 is faster than the MT-30.
The release of the Turion II Ultra and Turion II lineups have simplified name methodology; all newly released Turions have the letter "M" followed by a number designating relative performance. The higher the number, the higher the clock speed. For example, the Turion II M500 has a clock speed of 2.2 GHz while the Turion II M520 has a clock speed of 2.3 GHz.
Cores
Code-named | Core | Date released |
---|---|---|
Lancaster Richmond Sable |
solo (90 nm) solo (90 nm) solo (65 nm) |
Mar 2005 Sep 2006 Jun 2008 |
Taylor Trinidad Tyler Lion |
dual (90 nm) dual (90 nm) dual (65 nm) dual (65 nm) |
May 2006 May 2006 May 2007 Jun 2008 |
Griffin | dual (65 nm) | Jun 2008 |
Caspian | dual (45 nm) | Sep 2009 |
Champlain | dual (45 nm) | May 2010 |
Lancaster (90 nm SOI)
- Stepping E5
- L1 cache: 64 + 64 KiB (data + instructions)
- L2 cache: 512 or 1024 KiB, fullspeed
- MMX, Enhanced 3DNow!, SSE, SSE2, SSE3, AMD64, PowerNow!, NX Bit
- Socket 754, HyperTransport (800 MHz, HT800)
- VCore:
- 0.8 V - 1.2 V for ML chips
- 0.8 V - 1.35 V for MT chips
- Power consumption (TDP): 25/35 watt max
- First release: March 10, 2005
- Clock rate: 1600, 1800, 2000, 2200, 2400 MHz
- 25W TDP:
- 35W TDP:
- ML-28: 1600 MHz (512 KiB L2-Cache)
- ML-30: 1600 MHz (1024 KiB L2-Cache)
- ML-32: 1800 MHz (512 KiB L2-Cache)
- ML-34: 1800 MHz (1024 KiB L2-Cache)
- ML-37: 2000 MHz (1024 KiB L2-Cache)
- ML-40: 2200 MHz (1024 KiB L2-Cache)
- ML-42: 2400 MHz (512 KiB L2-Cache)
- ML-44: 2400 MHz (1024 KiB L2-Cache)
Richmond (90 nm SOI)
The models support the same features available in Lancaster, plus AMD-V.
- L1 cache: 64 + 64 KiB (data + instructions)
- L2 cache: 512 KiB, fullspeed
- MMX, Enhanced 3DNow!, SSE, SSE2, SSE3, AMD64, PowerNow!, NX Bit, AMD-V
- Socket S1, HyperTransport (800 MHz, HT800)
- Power consumption (TDP): 31 watt max
- First release: September 1, 2006
- Clock rate: 2000, 2200 MHz
- 31W TDP:
- MK-36: 2000 MHz (512 KiB L2-Cache)
- MK-38: 2200 MHz (512 KiB L2-Cache)
- 31W TDP:
Taylor & Trinidad (90 nm SOI)
- Dual AMD64 core
- Stepping F2
- L1 cache: 64 + 64 KiB (data + instructions) per core
- L2 cache: 256 KiB (Taylor) or 512 KiB (Trinidad) per core, fullspeed
- Memory controller: dual channel DDR2-667 MHz
- MMX, Extended 3DNow!, SSE, SSE2, SSE3, AMD64, PowerNow!, NX bit
- Socket S1, HyperTransport (800 MHz, 1600 MT/s, 10.7 GB/s CPU-RAM + 6.4 GB/s CPU-I/O transfer rate)
- Power consumption (TDP): 31, 33, 35 watt max
- First release: May 17, 2006
- Clock rate: 1600, 1800, 2000, 2200 MHz
Tyler (65 nm SOI)
- Dual AMD64 core
- Steppings G1, G2
- L1 cache: 64 + 64 KiB (data + instructions) per core
- L2 cache: 256 KiB per core (All Athlon & Turion TL-50) or 512 KiB per core (All Others), fullspeed
- Memory controller: dual channel DDR2-667 MHz (10.6 GB/s full-duplex CPU/RAM bandwidth)
- 100 MHz granularity (Dynamic P-state Transitions)
- MMX, Extended 3DNow!, SSE, SSE2, SSE3, AMD64, PowerNow!, NX Bit, AMD-V
- Socket S1, HyperTransport (800 MHz / 1600 MT/s)
- Power consumption (TDP): 31, 35 watt max.
- First release: 2007
- Clock rate: 1700, 1800, 1900, 2000, 2100, 2200, 2300, 2400 MHz
- 31W TDP:
- TK-53 1700 MHz (256 KiB L2-Cache per core) - ※Athlon 64 X2 Dual-Core for Notebooks
- TK-55 1800 MHz (256 KiB L2-Cache per core) - ※Athlon 64 X2 Dual-Core for Notebooks
- TL-56 1800 MHz (512 KiB L2-Cache per core)
- TK-57 1900 MHz (256 KiB L2-Cache per core) - ※Athlon 64 X2 Dual-Core for Notebooks
- TL-58 1900 MHz (512 KiB L2-Cache per core)
- TL-60 2000 MHz (512 KiB L2-Cache per core)
- 35W TDP:
- TL-62 2100 MHz (512 KiB L2-Cache per core)
- TL-64 2200 MHz (512 KiB L2-Cache per core)
- TL-66 2300 MHz (512 KiB L2-Cache per core)
- TL-68 2400 MHz (512 KiB L2-Cache per core)
- 31W TDP:
Lion (65 nm SOI)
- Dual AMD64 core
- B1 Stepping
- L1 cache: 64 + 64 KiB (data + instructions) per core
- Memory controller: dual channel DDR2-800 MHz
- MMX, Extended 3DNow!, SSE, SSE2, SSE3, AMD64, PowerNow!, NX bit, AMD-V
- Socket S1 (S1g2)
- HyperTransport (1800 MHz, 3600 MT/s, 12.8 GB/s CPU-RAM + 14.4 GB/s CPU-I/O transfer rate)
- HyperTransport (2200 MHz, 4400 MT/s on ZM-85 y ZM-87 only)
- Power consumption (TDP): 32, 35 watt max
- First release: June 4, 2008
- Clock rate: 2000, 2100, 2200 MHz (RM-7x, L2 cache: 1 MiB)
- Clock rate: 2100, 2200, 2300, 2400, 2500 MHz (ZM-8x, L2 cache: 2 MiB)
- 31W TDP:
- RM-70: 2000 MHz
- 32W TDP:
- ZM-80: 2100 MHz
- 35W TDP:
- RM-72: 2100 MHz
- RM-74: 2200 MHz
- ZM-82: 2200 MHz
- ZM-84: 2300 MHz
- ZM-85: 2300 MHz
- ZM-86: 2400 MHz
- ZM-87: 2400 MHz
- ZM-88: 2500 MHz
Caspian (45 nm SOI)
- Dual Stars core
- Memory controller: dual channel DDR2-800 MHz
- MMX, Extended 3DNow!, SSE, SSE2, SSE3, SSE4a, AMD64, PowerNow!, NX bit, AMD-V
- Socket S1g3
- HyperTransport (1800 MHz, 3600 MT/s on M6xx/M5xx models, 1600 MHz, 3200 MT/s for M3xx models)
- Power consumption (TDP): 35 watt max
- Clock rate: 2000 (M1xx, L2 cache 512 KiB)
- Clock rate: 2000, 2100, 2200 MHz (M3xx, L2 cache: 1 MiB)
- Clock rate: 2200, 2300, 2400 MHz (M5xx, L2 cache: 1 MiB)
- Clock rate: 2400, 2500, 2600, 2700 MHz (M6xx, L2 cache: 2 MiB)
- 25W TDP:
- M100: 2000 MHz - Sempron II Single-Core (only 64 bit FPU)
- M120: 2100 MHz - Sempron II Single-Core (only 64 bit FPU)
- 35W TDP:
- M300: 2000 MHz – Athlon II Dual-Core (only 64 bit FPU)
- M320: 2100 MHz – Athlon II Dual-Core (only 64 bit FPU)
- M340: 2200 MHz – Athlon II Dual-Core (only 64 bit FPU)
- M500: 2200 MHz – Turion II Dual-Core
- M520: 2300 MHz – Turion II Dual-Core
- M540: 2400 MHz – Turion II Dual-Core
- M600: 2400 MHz – Turion II Ultra Dual-Core
- M620: 2500 MHz – Turion II Ultra Dual-Core
- M640: 2600 MHz – Turion II Ultra Dual-Core
- M660: 2700 MHz – Turion II Ultra Dual-Core
Champlain
- Based on the AMD K10 microarchitecture
- All models support: MMX, SSE, SSE2, SSE3, SSE4a, Enhanced 3DNow!, NX bit, AMD64, Cool'n'Quiet, AMD-V
- Memory support: DDR3 SDRAM, DDR3L SDRAM
Model number | Frequency | L2 cache | FPU width | HT | Multiplier1 | Voltage | TDP | Socket | Release date | Order part number |
---|---|---|---|---|---|---|---|---|---|---|
Turion II P520 | 2.3 GHz | 2 × 1 MB | 128-bit | 1.8 GHz | 11.5× | 25 W | Socket S1g4 | May 12, 2010 | TMP520SGR23GM | |
Turion II P540 | 2.4 GHz | 2 × 1 MB | 128-bit | 1.8 GHz | 12× | 25 W | Socket S1g4 | October 4, 2010 | TMP540SGR23GM | |
Turion II P560 | 2.5 GHz | 2 × 1 MB | 128-bit | 1.8 GHz | 12.5× | 25 W | Socket S1g4 | October 19, 2010 | TMP560SGR23GM | |
Turion II N530 | 2.5 GHz | 2 × 1 MB | 128-bit | 1.8 GHz | 12.5× | 35 W | Socket S1g4 | May 12, 2010 | TMN530DCR23GM | |
Turion II N550 | 2.6 GHz | 2 × 1 MB | 128-bit | 1.8 GHz | 13× | 35 W | Socket S1g4 | October 4, 2010 | TMN550DCR23GM |
See also
References
- ↑ The Inquirer report
- ↑ "AMD Delivers Multi-Tasking Performance On-The-Go With First 64-Bit Dual-Core Mobile Processor". AMD. 2006-05-17. Archived from the original on 12 October 2008. Retrieved 2008-09-09.
- ↑ AMD mobile CPU roadmap at Engadget
- ↑ AnandTech review
- ↑ PC Watch image
- 1 2 The Inquirer report
External links
- AMD official website
- Reuters news report on the announcement of the chips
- Physorg report on the chip becoming available
- AMD Processor Roadmaps for 2007
- PCworld Turion based notebooks review
- Turion64 Inside Story from Mobility Guru
- Acer Aspire 5020 Series Review from www.notebookreview.com
- Detailed review at www.anandtech.com
- Detailed review at www.gamepc.com by Chris Connolly, 4 April 2005
- The Register : AMD, IBM "stress" silicon for 65nm process, by Tony Smith
- Silent PC Review: Turion 64 on the Desktop
- AMD Competitive Comparison
- List of desktop motherboards which support the Turion 64
- AMD Turion 64 X2 Mobile Technology Product Page
- Article from ExtremeTech: AMD Adds Second Core To Turion Notebook Chip
- Turion 64 X2 Press release
- http://support.amd.com/us/psearch/Pages/psearch.aspx?type=2.2%3b2.3&product=2.2.8&contentType=Tech+Doc+Embedded&ostype=&keywords=&items=20
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