AMD A6-6400K vs Intel Core i5-650
Comparative analysis of AMD A6-6400K and Intel Core i5-650 processors for all known characteristics in the following categories: Essentials, Performance, Memory, Graphics, Graphics interfaces, Graphics API support, Compatibility, Peripherals, Advanced Technologies, Virtualization, Security & Reliability.
Benchmark processor performance analysis: PassMark — Single thread mark, PassMark — CPU mark, Geekbench 4 — Single Core, Geekbench 4 — Multi-Core, CompuBench 1.5 Desktop — Face Detection (mPixels/s), CompuBench 1.5 Desktop — Ocean Surface Simulation (Frames/s), CompuBench 1.5 Desktop — T-Rex (Frames/s), CompuBench 1.5 Desktop — Video Composition (Frames/s), CompuBench 1.5 Desktop — Bitcoin Mining (mHash/s), GFXBench 4.0 — Car Chase Offscreen (Frames), GFXBench 4.0 — Manhattan (Frames), GFXBench 4.0 — T-Rex (Frames), GFXBench 4.0 — Car Chase Offscreen (Fps), GFXBench 4.0 — Manhattan (Fps), GFXBench 4. 0 — T-Rex (Fps).
AMD A6-6400K
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vs
Intel Core i5-650
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Differences
Reasons to consider the AMD A6-6400K
- CPU is newer: launch date 3 year(s) 5 month(s) later
- Processor is unlocked, an unlocked multiplier allows for easier overclocking
- Around 18% higher clock speed: 4.1 GHz vs 3.46 GHz
- 2x more L2 cache, more data can be stored in the L2 cache for quick access later
- Around 12% lower typical power consumption: 65 Watt vs 73 Watt
- Around 4% better performance in PassMark — Single thread mark: 1426 vs 1377
| Launch date | 4 June 2013 vs January 2010 |
| Unlocked | Unlocked vs Locked |
| Maximum frequency | 4. 1 GHz vs 3.46 GHz |
| L2 cache | 1 MB vs 256 KB (per core) |
| Thermal Design Power (TDP) | 65 Watt vs 73 Watt |
| PassMark — Single thread mark | 1426 vs 1377 |
Reasons to consider the Intel Core i5-650
- 2 more threads: 4 vs 2
- Around 4% higher maximum core temperature: 72.6°C vs 70°C
- Around 33% more L1 cache; more data can be stored in the L1 cache for quick access later
- Around 54% better performance in PassMark — CPU mark: 2228 vs 1451
- Around 9% better performance in Geekbench 4 — Single Core: 520 vs 479
- Around 56% better performance in Geekbench 4 — Multi-Core: 1152 vs 737
- 2.9x better performance in CompuBench 1.5 Desktop — Face Detection (mPixels/s): 5.
924 vs 2.027 - 7.9x better performance in CompuBench 1.5 Desktop — Ocean Surface Simulation (Frames/s): 29.917 vs 3.797
- Around 44% better performance in CompuBench 1.5 Desktop — Bitcoin Mining (mHash/s): 2.394 vs 1.666
| Number of threads | 4 vs 2 |
| Maximum core temperature | 72.6°C vs 70°C |
| L1 cache | 64 KB (per core) vs 96 KB |
| PassMark — CPU mark | 2228 vs 1451 |
| Geekbench 4 — Single Core | 520 vs 479 |
| Geekbench 4 — Multi-Core | 1152 vs 737 |
CompuBench 1. 5 Desktop — Face Detection (mPixels/s) |
5.924 vs 2.027 |
| CompuBench 1.5 Desktop — Ocean Surface Simulation (Frames/s) | 29.917 vs 3.797 |
| CompuBench 1.5 Desktop — Bitcoin Mining (mHash/s) | 2.394 vs 1.666 |
Compare benchmarks
CPU 1: AMD A6-6400K
CPU 2: Intel Core i5-650
| PassMark — Single thread mark |
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| PassMark — CPU mark |
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| Geekbench 4 — Single Core |
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| Geekbench 4 — Multi-Core |
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CompuBench 1. 5 Desktop — Face Detection (mPixels/s) |
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| CompuBench 1.5 Desktop — Ocean Surface Simulation (Frames/s) |
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| CompuBench 1.5 Desktop — Bitcoin Mining (mHash/s) |
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| Name | AMD A6-6400K | Intel Core i5-650 |
|---|---|---|
| PassMark — Single thread mark | 1426 | 1377 |
| PassMark — CPU mark | 1451 | 2228 |
| Geekbench 4 — Single Core | 479 | 520 |
| Geekbench 4 — Multi-Core | 737 | 1152 |
CompuBench 1. 5 Desktop — Face Detection (mPixels/s) |
2.027 | 5.924 |
| CompuBench 1.5 Desktop — Ocean Surface Simulation (Frames/s) | 3.797 | 29.917 |
| CompuBench 1.5 Desktop — T-Rex (Frames/s) | 0.109 | |
| CompuBench 1.5 Desktop — Video Composition (Frames/s) | 9.883 | |
| CompuBench 1.5 Desktop — Bitcoin Mining (mHash/s) | 1.666 | 2.394 |
| GFXBench 4.0 — Car Chase Offscreen (Frames) | 643 | |
GFXBench 4. 0 — Manhattan (Frames) |
1741 | |
| GFXBench 4.0 — T-Rex (Frames) | 3943 | |
| GFXBench 4.0 — Car Chase Offscreen (Fps) | 643 | |
| GFXBench 4.0 — Manhattan (Fps) | 1741 | |
| GFXBench 4.0 — T-Rex (Fps) | 3943 |
Compare specifications (specs)
| AMD A6-6400K | Intel Core i5-650 | |
|---|---|---|
| Architecture codename | Richland | Clarkdale |
| Family | AMD A-Series Processors | |
| Launch date | 4 June 2013 | January 2010 |
| OPN PIB | AD640KOKHLBOX | |
| OPN Tray | AD640KOKA23HL | |
| Place in performance rating | 1793 | 2295 |
| Series | AMD A6-Series APU for Desktops | Legacy Intel® Core™ Processors |
| Vertical segment | Desktop | Desktop |
| Launch price (MSRP) | $35 | |
| Price now | $99. 99 |
|
| Processor Number | i5-650 | |
| Status | Discontinued | |
| Value for money (0-100) | 9.14 | |
| 64 bit support | ||
| Base frequency | 3.9 GHz | 3.20 GHz |
| Die size | 246 mm | 81 mm2 |
| L1 cache | 96 KB | 64 KB (per core) |
| L2 cache | 1 MB | 256 KB (per core) |
| Manufacturing process technology | 32 nm SOI | 32 nm |
| Maximum case temperature (TCase) | 70 °C | |
| Maximum core temperature | 70°C | 72. 6°C |
| Maximum frequency | 4.1 GHz | 3.46 GHz |
| Number of cores | 2 | 2 |
| Number of threads | 2 | 4 |
| Transistor count | 1303 Million | 382 million |
| Unlocked | ||
| Bus Speed | 2.5 GT/s DMI | |
| L3 cache | 4096 KB (shared) | |
| VID voltage range | 0. 6500V-1.4000V |
|
| Max memory channels | 2 | 2 |
| Supported memory frequency | 1866 MHz | |
| Supported memory types | DDR3 | DDR3 1066/1333 |
| Maximum memory bandwidth | 21 GB/s | |
| Maximum memory size | 16.38 GB | |
| Enduro | ||
| Graphics max frequency | 800 MHz | |
| iGPU core count | 192 | |
| Number of pipelines | 192 | |
| Processor graphics | AMD Radeon HD 8470D | Intel HD Graphics |
| Switchable graphics | ||
| Unified Video Decoder (UVD) | ||
| Video Codec Engine (VCE) | ||
| Graphics base frequency | 733 MHz | |
| Intel® Clear Video HD technology | ||
| Intel® Flexible Display Interface (Intel® FDI) | ||
| DisplayPort | ||
| HDMI | ||
| Number of displays supported | 2 | |
| DirectX | 11 | |
| Max number of CPUs in a configuration | 1 | 1 |
| Sockets supported | FM2 | FCLGA1156 |
| Thermal Design Power (TDP) | 65 Watt | 73 Watt |
| Low Halogen Options Available | ||
| Package Size | 37. 5mm x 37.5mm |
|
| PCI Express revision | 2.0 | 2.0 |
| Max number of PCIe lanes | 16 | |
| PCIe configurations | 1×16, 2×8 | |
| AMD App Acceleration | ||
| AMD Elite Experiences | ||
| AMD HD3D technology | ||
| Enhanced Virus Protection (EVP) | ||
| Fused Multiply-Add (FMA) | ||
| Fused Multiply-Add 4 (FMA4) | ||
| Intel® Advanced Vector Extensions (AVX) | ||
| Intel® AES New Instructions | ||
| PowerGating | ||
| PowerNow | ||
| VirusProtect | ||
| Enhanced Intel SpeedStep® technology | ||
| Flexible Display interface (FDI) | ||
| Idle States | ||
| Instruction set extensions | Intel® SSE4. 2 |
|
| Intel 64 | ||
| Intel® Demand Based Switching | ||
| Intel® Hyper-Threading technology | ||
| Intel® Turbo Boost technology | ||
| Intel® vPro™ Platform Eligibility | ||
| Physical Address Extensions (PAE) | 36-bit | |
| Thermal Monitoring | ||
| AMD Virtualization (AMD-V™) | ||
IOMMU 2. 0 |
||
| Intel® Virtualization Technology (VT-x) | ||
| Intel® Virtualization Technology for Directed I/O (VT-d) | ||
| Intel® VT-x with Extended Page Tables (EPT) | ||
| Execute Disable Bit (EDB) | ||
| Intel® Trusted Execution technology (TXT) |
Intel Core i5-4200U vs. AMD A6-5200
Intel Core i5-4200U
The Intel Core i5-4200U operates with 2 cores and 4 CPU threads.
It run at 2.60 GHz base 2.30 GHz all cores while the TDP is set at 15 W.The processor is attached to the BGA 1168 CPU socket. This version includes 3.00 MB of L3 cache on one chip, supports 2 memory channels to support DDR3L-1600 SO-DIMM RAM and features 2.0 PCIe Gen 12 lanes. Tjunction keeps below — degrees C. In particular, Haswell U Architecture is enhanced with 22 nm technology and supports VT-x, VT-x EPT, VT-d. The product was launched on Q3/2013
AMD A6-5200
The AMD A6-5200 operates with 4 cores and 4 CPU threads. It run at — base — all cores while the TDP is set at 25 W.The processor is attached to the N/A CPU socket. This version includes 2.00 MB of L3 cache on one chip, supports 2 memory channels to support DDR3L-1600 SO-DIMM RAM and features PCIe Gen lanes. Tjunction keeps below — degrees C. In particular, Kabini (Jaguar) Architecture is enhanced with 28 nm technology and supports AMD-V. The product was launched on Q3/2013
Intel Core i5-4200U
AMD A6-5200
Compare Detail
1. 60 GHz |
Frequency | 2.80 GHz |
| 2 | Cores | 4 |
| 2.60 GHz | Turbo (1 Core) | — |
| 2.30 GHz | Turbo (All Cores) | — |
| Yes | Hyperthreading | No |
| No | Overclocking | Yes |
| normal | Core Architecture | normal |
|
Intel HD Graphics 4400 |
GPU |
AMD Radeon HD 8400 |
| 1.00 GHz | GPU (Turbo) | No turbo |
| 22 nm | Technology | 28 nm |
| 1.00 GHz | GPU (Turbo) | No turbo |
| 11.1 | DirectX Version | 11.1 |
| 3 | Max. displays | 2 |
| DDR3L-1600 SO-DIMM | Memory | DDR3L-1600 SO-DIMM |
| 2 | Memory channels | 2 |
| Max memory | ||
| No | ECC | No |
| — | L2 Cache | — |
3. 00 MB |
L3 Cache | 2.00 MB |
| 2.0 | PCIe version | |
| 12 | PCIe lanes | |
| 22 nm | Technology | 28 nm |
| BGA 1168 | Socket | N/A |
| 15 W | TDP | 25 W |
| VT-x, VT-x EPT, VT-d | Virtualization | AMD-V |
| Q3/2013 | Release date | Q3/2013 |
|
Show more data |
Show more data |
Cinebench R20 (Single-Core)
Cinebench R20 is the successor of Cinebench R15 and is also based on the Cinema 4 Suite. Cinema 4 is a worldwide used software to create 3D forms. The single-core test only uses one CPU core, the amount of cores or hyperthreading ability doesn’t count.
Cinebench R20 (Multi-Core)
Cinebench R20 is the successor of Cinebench R15 and is also based on the Cinema 4 Suite. Cinema 4 is a worldwide used software to create 3D forms.
The multi-core test involves all CPU cores and taks a big advantage of hyperthreading.
Cinebench R15 (Single-Core)
Cinebench R15 is the successor of Cinebench 11.5 and is also based on the Cinema 4 Suite. Cinema 4 is a worldwide used software to create 3D forms. The single-core test only uses one CPU core, the amount of cores or hyperthreading ability doesn’t count.
Cinebench R15 (Multi-Core)
Cinebench R15 is the successor of Cinebench 11.5 and is also based on the Cinema 4 Suite. Cinema 4 is a worldwide used software to create 3D forms. The multi-core test involves all CPU cores and taks a big advantage of hyperthreading.
Geekbench 5, 64bit (Single-Core)
Geekbench 5 is a cross plattform benchmark that heavily uses the systems memory. A fast memory will push the result a lot. The single-core test only uses one CPU core, the amount of cores or hyperthreading ability doesn’t count.
Geekbench 5, 64bit (Multi-Core)
Geekbench 5 is a cross plattform benchmark that heavily uses the systems memory.
A fast memory will push the result a lot. The multi-core test involves all CPU cores and taks a big advantage of hyperthreading.
iGPU — FP32 Performance (Single-precision GFLOPS)
The theoretical computing performance of the internal graphics unit of the processor with simple accuracy (32 bit) in GFLOPS. GFLOPS indicates how many billion floating point operations the iGPU can perform per second.
Geekbench 3, 64bit (Single-Core)
Geekbench 3 is a cross plattform benchmark that heavily uses the systems memory. A fast memory will push the result a lot. The single-core test only uses one CPU core, the amount of cores or hyperthreading ability doesn’t count.
Geekbench 3, 64bit (Multi-Core)
Geekbench 3 is a cross plattform benchmark that heavily uses the systems memory. A fast memory will push the result a lot. The multi-core test involves all CPU cores and taks a big advantage of hyperthreading.
Cinebench R11.5, 64bit (Single-Core)
Cinebench 11.
5 is based on the Cinema 4D Suite, a software that is popular to generate forms and other stuff in 3D. The single-core test only uses one CPU core, the amount of cores or hyperthreading ability doesn’t count.
Cinebench R11.5, 64bit (Multi-Core)
Cinebench 11.5 is based on the Cinema 4D Suite, a software that is popular to generate forms and other stuff in 3D. The multi-core test involves all CPU cores and taks a big advantage of hyperthreading.
Cinebench R11.5, 64bit (iGPU, OpenGL)
Cinebench 11.5 is based on the Cinema 4D Suite, a software that is popular to generate forms and other stuff in 3D. The iGPU test uses the CPU internal graphic unit to execute OpenGL commands.
Estimated results for PassMark CPU Mark
Some of the CPUs listed below have been benchmarked by CPU-Comparison. However the majority of CPUs have not been tested and the results have been estimated by a CPU-Comparison’s secret proprietary formula. As such they do not accurately reflect the actual Passmark CPU mark values and are not endorsed by PassMark Software Pty Ltd.
Electric Usage Estimate
Average hours of use per day
Average CPU Utilization (0-100%)
Power cost, dollar per kWh
Electric Usage Estimate
Average hours of use per day
Average CPU Utilization (0-100%)
Power cost, dollar per kWh
| Intel Core i5-4200U | AMD A6-5200 | |
| 15 W | Max TDP | 25 W |
| NA | Power consumption per day (kWh) | NA |
| NA | Running cost per day | NA |
| NA | Power consumption per year (kWh) | NA |
| NA | Running cost per year | NA |
Popular Comparision
Comments
AMD A6-9225 vs Intel Core i5-450M: Comparison
Intel Core i5-450M
AMD A6-9225
VS
WINNER
Intel Core i5-450M
Rating: 4 points
AMD A6-9225
Rating: 3 points
Test results
Technology
Performance
Memory specification
Interfaces and communications
9000
Top specifications and features
- PassMark CPU score
- PassMark CPU score
- Heat dissipation (TDP)
- Technological process
- Number of transistors
PassMark CPU score
Intel Core i5-450M: 1148
AMD A6-9225: 1284
Cinebench21.
5 score (single) UBER
Intel Core i5-450M: 2
AMD A6-9225: 1
Thermal Dissipation (TDP)
Intel Core i5-450M: 35 W
AMD A6-9225: 15 W
Process technology
Intel Core i5-450M: 32 nm
AMD A6-9225: 28 nm
Number of transistors
Intel Core i5-450M: 382 million
AMD A6-9225: 1200 million
Description
Intel Core i5-450M processor running at 2.4 Hz, second AMD A6-9225 runs at 2.6Hz. Intel Core i5-450M is capable of overclocking up to 2.66 Hz, and the second up to 3.1 Hz. The maximum power consumption of the first processor is 35W, while that of AMD A6-9225 is 15W.
Regarding the architecture, the Intel Core i5-450M is built on 32 nm technology. AMD A6-9225 on 28 nm architecture.
Regarding processor memory. Intel Core i5-450M can support DDR3.
The maximum supported volume is 8 MB. It should be noted that the maximum memory bandwidth is 17.1. Second AMD A6-9 processor225 is capable of supporting DDR4. Throughput is No data. And the maximum amount of supported RAM is No data MB.
Graphics. The Intel Core i5-450M has an Intel HD Graphics graphics core. The frequency of which is — 500 MHz. AMD A6-9225 received the AMD Radeon R4 Graphics video core. Here the frequency is 686 MHz.
How processors perform in benchmarks. In the PassMark benchmark, the Intel Core i5-450M scored 1148. And the AMD A6-9225 scored 1284 points.
Why Intel Core i5-450M is better than AMD A6-9225
Comparison Intel Core i5-450M and AMD A6-9225: Main points
Intel Core i5-450M
AMD A6-9225
Passmark CPU
0 9000 9000 9000 9000 9000 write speed and seek time when testing SSD performance.
Show all
1148
max 89379
Average: 6033.
5
1284
max 89379
Average: 6033.5
3DMark06 score
2641
max 18628
Average: 3892.6
1993
max 18628
Average: 3892.6
Cinebench R11.5 /64bit test score (Multi-Core)
2.1208
max 45.3622
Average: 5.3
1.128
max 45.3622
Average: 5.3
AES
No
there is
Technologies of thermal control
No data
Function of the execution Bit 9000 There are 9000
Technology No data
N/A
N/A
Number of threads
The more threads, the higher the performance of the processor, and it will be able to perform several tasks at the same time.
Show all
4
max 256
Average: 10.7
max 256
Average: 10.7
L1 cache size
A large amount of L1 memory accelerates results in the CPU and system performance settings
Show all
128KB
max 4608
Average: 299.3 KB
KB
max 4608
Average: 299.3 KB
L2 cache size
An L2 cache with a large amount of scratchpad memory can increase processor speed and overall system performance.
Show all
0.512MB
max 512
Average: 4.
5 MB
1MB
max 512
Average: 4.5 MB
L3 cache size
A large amount of L3 memory accelerates results in the CPU and system performance settings
Show all
3MB
max 768
Average: 16.3 MB
MB
max 768
Average: 16.3 MB
Maximum clock speed in Turbo 9 mode0015
When the processor’s speed drops below its limit, it may jump to a higher clock speed to improve performance.
Show all
2.66GHz
max 5.5
Average: 3.2 GHz
3.1GHz
max 5.
5
Average: 3.2 GHz
Number of cores
2
max 72
Mean: 5.8
2
max 72
Mean: 5.8
Processor base clock speed
2.4GHz
max 4.7
Average: 2.5 GHz
2.6GHz
max 4.7
Average: 2.5 GHz
Max. number of PCI Express lanes
16
max 64
Average: 22.7
max 64
Average: 22.7
configurations PCI Express
1×16
No data
Statutes of downtime
There are
No data
TURBO BOOST
TURBO BOOOST, due maximum.
This increases its productivity (including when performing complex tasks)
Show all
1
Mean: 1.9
Mean: 1.9
Max. graphics system frequency
0.766GHz
max 1.55
Average: 1.1 GHz
GHz
max 1.55
Average: 1.1 GHz
Number of PCI-Express lanes
16
n/a
Max. number of processors in configuration
1
Mean: 1.3
Mean: 1.3
DDR version
3
Average: 3.5
4
Average: 3.
5
Max. memory bandwidth
This is the speed at which the device stores or reads information.
17.1GB/s
max 352
Average: 41.4 GB/s
GB/s
max 352
Average: 41.4 GB/s
Memory frequency
RAM can be faster to improve system performance.
Show all
1066MHz
max 4800
Average: 2106.2 MHz
2133MHz
max 4800
Average: 2106.2 MHz
Max. number of memory channels
The greater their number, the higher the data transfer rate from memory to processor
2
max 16
Mean: 2.
9
1
max 16
Mean: 2.9
Max. memory size
The largest amount of RAM memory.
8GB
max 6000
Average: 404.4 GB
GB
max 6000
Average: 404.4 GB
System bus frequency
Data between computer components and other devices is transferred via the bus.
Show all
2.5 GT/s
max 1600
Average: 156.1 GT/s
GT/s
max 1600
Average: 156.1 GT/s
ECC memory support
Memory error recovery code is used when it is necessary to avoid data corruption during scientific computing or server startup.
It finds possible errors and repairs data corruption.
Show completely
no
no data
Intel Flexible Display (Intel FDI)
is0009 N/A
Enhanced SpeedStep (EIST)
Yes
N/A
Hyper-Threading Technology
Thus, each processor core works simultaneously on two threads, which significantly increases performance. Most processors work on the principle: one thread per core, therefore, their performance is lower.
Show all
Yes
N/A
sse version
Allows you to speed up multimedia tasks (such as volume control). Each subsequent version has a number of improvements
Show all
4.2
max 4.2
Average: 4.1
4.2
max 4.
2
Average: 4.1
Socket
PGA988
N/A
Thermal Monitoring
is
36
max 46
Average: 39.5
max 46
Average: 39.5
TXT
N/A
N/A
EDB
is
No data
VT-D
No
No data
VT-X
There is 9000
Clear Video
Yes
n.a.0015
The small size of the semiconductor means it is a new generation chip.
32 nm
Average: 36.8 nm
28 nm
Average: 36.8 nm
Number of transistors
The higher their number, the more processor power it indicates
382 million
max 57000
Average: 1517.
3 million
1200 million
max 57000
Average: 1517.3 million
Heat dissipation (TDP)
Heat dissipation requirement (TDP) is the maximum amount of energy that can be dissipated by the cooling system. The lower the TDP, the less power will be consumed.
Show all
35W
Average: 67.6 W
15W
Average: 67.6 W
PCI Express Edition
2
Mean: 2.9
3
Mean: 2.9
condition
Discontinoud
No data 9000
rPGA 37.5mmx 37.5mm. BGA 34mmx28mm
n/a
GPU base clock
The graphics processing unit (GPU) has a high clock speed.
500MHz
max 2400
Average: 535.8 MHz
686MHz
max 2400
Average: 535.8 MHz
Supports 64-bit system
A 64-bit system, unlike a 32-bit system, can support more than 4 GB of RAM. This increases productivity. It also allows you to run 64-bit applications.
Show all
Yes
Yes
Maximum processor temperature
If the maximum temperature at which the processor operates is exceeded, a reset may occur.
Show all
105°C
max 110
Average value: 96 °C
90°C
max 110
Average value: 96 °C
Monitor support
Multiple monitors can be connected to the device, which makes it easier to work by increasing the working space.
Show all
2
Mean: 2.9
Mean: 2.9
Codename
Arrandale
Stoney Ridge
Destination
Mobile
Laptop
FAQ
Can Intel Core i5-450M and AMD A6-9225 work in 4K mode?
Intel Core i5-450M — Not available. AMD A6-9225 — No data available.
How many PCIe lanes
Intel Core i5-450M — 16. AMD A6-9225 — No data.
How much RAM is supported?
Intel Core i5-450M supports 8 GB. AMD A6-9225 supports N/AGB.
How fast are the processors?
Intel Core i5-450M operates at 2.4 GHz.6 GHz.
How many cores does the processor have?
Intel Core i5-450M has 2 cores. AMD A6-9225 has 2 cores.
Do the processors support ECC memory?
Intel Core i5-450M — no. AMD A6-9225 — No data available.
Does the Intel Core i5-450M have integrated graphics?
Intel Core i5-450M — Intel HD Graphics.
AMD A6-9225 — AMD Radeon R4 Graphics
What kind of RAM does
support? Intel Core i5-450M supports DDR3. AMD A6-9225 supports DDR4.
What is the socket of the processors?
PGA988 is used to install the Intel Core i5-450M. To install AMD A6-9225, No data is used.
What architecture is used?
The Intel Core i5-450M is based on the Arrandale architecture. AMD A6-9225 is built on Stoney Ridge architecture.
Is the multiplier unlocked on the Intel Core i5-450M processor?
Intel Core i5-450M — Not available. AMD A6-9225 — does not.
How do processors perform in benchmarks?
According to PassMark, the Intel Core i5-450M scored 1148 points. AMD A6-9225 scored 1284 points.
What is the maximum frequency of the processors?
The maximum frequency of the Intel Core i5-450M reaches 2.66 Hz. Maximum frequency for AMD A6-9225 reaches 3.1 Hz.
How much energy do they consume?
The power consumption of the Intel Core i5-450M can be up to 35 watts.