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AMD A10-4600M specifications
| General information |
| Type |
CPU / Microprocessor |
| Market segment |
Mobile |
| Family |
AMD A10-Series for Notebooks |
| Model number ? |
A10-4600M |
| CPU part number |
- AM4600DEC44HJ is an OEM/tray microprocessor
|
| Frequency ? |
2300 MHz |
| Turbo frequency |
3200 MHz |
| Boosted P states [1] |
#1: 3200 MHz, 0.975V
#2: 2700 MHz, 0.75V |
| Package |
722-pin organic lidless micro Pin Grid Array (UOL722) |
| Socket |
Socket FS1 (FS1r2) |
| Size |
1.38" x 1.38" / 3.5cm x 3.5cm |
| Weight |
0.2oz / 6g |
| Introduction date |
May 15, 2012 |
| Architecture / Microarchitecture |
| Microarchitecture |
Piledriver |
| Platform |
Comal |
| Processor core ? |
Trinity |
| Core stepping ? |
TN-A1 |
| CPUID |
610F01 |
| Manufacturing process |
0.032 micron
1303 million transistors |
| Die size |
246mm2 |
| Data width |
64 bit |
| The number of CPU cores |
4 |
| The number of threads |
4 |
| Floating Point Unit |
Integrated (shared between two cores in each module) |
| Level 1 cache size ? |
2 x 64 KB 2-way set associative shared instruction caches
4 x 16 KB 4-way set associative data caches |
| Level 2 cache size ? |
2 x 2 MB 16-way set associative shared exclusive caches |
| Level 3 cache size |
None |
| Cache latency |
3 (L1 cache) |
| Multiprocessing |
Uniprocessor |
| Features |
- MMX instructions
- Extensions to MMX
- SSE / Streaming SIMD Extensions
- SSE2 / Streaming SIMD Extensions 2
- SSE3 / Streaming SIMD Extensions 3
- SSSE3 / Supplemental Streaming SIMD Extensions 3
- SSE4 / SSE4.1 + SSE4.2 / Streaming SIMD Extensions 4 ?
- SSE4a ?
- AES / Advanced Encryption Standard instructions
- AVX / Advanced Vector Extensions
- BMI1 / Bit Manipulation instructions 1
- F16C / 16-bit Floating-Point conversion instructions
- FMA3 / 3-operand Fused Multiply-Add instructions
- FMA4 / 4-operand Fused Multiply-Add instructions
- TBM / Trailing Bit Manipulation instructions
- XOP / eXtended Operations instructions
- AMD64 / AMD 64-bit technology ?
- AMD-V / AMD Virtualization technology
- EVP / Enhanced Virus Protection ?
- Turbo Core 3.0 technology
|
| Low power features |
- Core C1, C1E, C6 and CC6 states
- Package S3, S4 and S5 states
- PowerNow!
|
| Low power P states [1] |
#1: 2000 MHz, 0.425V
#2: 1800 MHz, 0.325V
#3: 1600 MHz, 0.275V
#4: 1400 MHz, 0.225V
#5: 900 MHz, 0.225V |
| Integrated peripherals / components |
| Integrated graphics |
GPU Type: Radeon HD 7660G
Shader cores: 384
Base frequency (MHz): 496
Maximum frequency (MHz): 685 |
| Memory controller |
The number of controllers: 1
Memory channels: 2
Supported memory: DDR3-1600, DDR3L-1600, DDR3U-1333
Maximum memory bandwidth (GB/s): 25.6 |
| Other peripherals |
- PCI Express 2.0
- Unified Video Decoder 3.2 ?
- DVI / DisplayPort / HDMI / VGA display controllers
|
| Electrical / Thermal parameters |
| V core ? |
0.8125V - 1.3V |
| Maximum operating temperature ? |
100°C |
| Thermal Design Power ? |
35 Watt |
| Notes on AMD A10-4600M |
[1] - These characteristics were measured on a single CPU, and they can vary slightly for other processors with the same model number
|
POPULAR A10-4600M COMPARISONS
Detailed side-by-side comparison
FAQ
Q: Does this CPU support the dual graphics feature?
A: Yes.
Q: Do you have a list of supported cards for dual-graphics?
A: Radeon HD 7450M, HD 7510M, HD 7550M, HD 7650M and HD 7670M discrete GPUs are recommended.
Q: I have an AMD A10-4600M processor. Is it possible to upgrade it?
A: Probably yes. CPU compatibility is determined by your motherboard. Please see CPU-Upgrade.com website for CPU support list for your board.
A10-4600M Overclocking
Sorry, we do not have overclocking data for this AMD A10-Series for Notebooks microprocessor at this time.
Related news stories
AMD debuts second-generation mobile APUs
May 16, 2012: AMD yesterday launched Comal mobile platform, accompanied by several mobile Accelerated Processing Units (APU). New processors use "Trinity" design, that combines 1 or 2 Piledriver modules (2 or 4 CPU cores), HD 7000M series graphics unit and HD Media Accelerator on a single die. "Trinity" chips feature many enhancements over previous generations of Bulldozer processors and Llano APUs. According to AMD, improved micro-architecture and higher operating frequencies result in up to 29% better CPU performance than previous generation of APUs. Furthermore, new HD 7000M series GPU provides up to 56% better performance in graphics applications.
AMD to launch Brazos 2.0 in June, desktop APUs in August
May 14, 2012: This and next quarter AMD plans to release new generation of Accelerated Processing Units (APUs). Soon to be available microprocessors will use enhanced microarchitecture, and feature significantly improved on-chip graphics, codenamed Graphics Core Next. There were a couple of reports in the past month, placing the launch of first mobile APUs in the middle of May. Release date for mobile APUs was confirmed last week by DigiTimes. They also revealed launch dates of desktop APUs, and ultra low voltage processors from Brazos 2.0 platform.
AMD readies R-series embedded APUs
May 10, 2012: Less than a week left before the launch of the next generation of AMD Accelerated Processing Units (APUs) with "Trinity" core. At first, AMD will introduce mainstream mobile processors, and later this and next quarters we will see new desktop and low-voltage mobile APUs. AMD also readies several embedded SKUs, based on "Trinity" core. The processors will be branded as "R-Series", and in many aspects they will be similar to mobile "Trinity" parts. Some characteristics of these products, such as model number, TDP and performance in graphics applications, relative to Intel Sandy Bridge CPUs, surfaced on AMD website.
AMD A10-4600M Benchmarks and Performance evaluation
For A10-4600M charts, comparing multi- and single-threaded performance of this microprocessor with other A10-Series for Notebooks processors and the fastest AMD and Intel x86 chips, please visit AMD A10-4600M multi-threaded and single-threaded performance pages.
For averaged performance in integer, floating-point, SIMD and memory-intensive applications please see the next section.
Integer, Floating-Point, SIMD and Memory performance
The graphs below show up to 10 microprocessors with approximately the same level of performance in integer (CPU), floating-point (FPU), SIMD and memory benchmarks. All processors were not overclocked, and were tested at a nominal frequency, with a stock heatsink and default BIOS settings. Click on the '?' mark next to each model name to see specifications of that model, and details of the test platform.
Benchmarked processor:
| CPU ID: |
610F01 |
| CPU vendor string: |
AuthenticAMD |
| CPU name string: |
AMD A10-4600M APU with Radeon(tm) HD Graphics |
Integer performance
| Model / Part number |
|
Result |
|
|
Intel Core i3-2330M (PGA)
|
|
109.2% |
? |
|
Intel Core i3-370M (PGA988)
|
|
108.8% |
? |
|
AMD Phenom II P920
|
|
108.7% |
? |
|
Intel Core i3-2310M (PGA)
|
|
104.6% |
? |
|
Intel Core i3-350M (PGA988)
|
|
103.3% |
? |
|
Intel Core i5-410M (PGA988)
|
|
103.3% |
? |
|
AMD A10-4600M
|
|
100% |
? |
|
Intel Core i3-330M (PGA988)
|
|
97% |
? |
|
Intel Core 2GHz CP80617003747AA
|
|
90.8% |
? |
|
Intel Core 1.867GHz CP80617004170AC
|
|
85.2% |
|
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