AMD A6-9500 vs Intel Core i5-4570
Summary
-
AMD A6-9500
100%
-
Intel Core i5-4570
267%
Relative performance
-
AMD A6-9500
100%
-
Intel Core i5-4570
181%
Relative performance
-
AMD A6-9500
100%
-
Intel Core i5-4570
353%
Relative performance
Reasons to consider AMD A6-9500 |
| This is a newer product, it might have better application compatibility/performance (check features chart below). |
Reasons to consider Intel Core i5-4570 |
| Much higher single threaded performance (around 81% higher), makes a noticeable performance difference in gaming and the majority of applications. |
| Much higher multi threaded performance (around 253% higher). This allows for higher performance in professional applications like encoding or heavy multitasking. |
| Around 167% higher average synthetic performance. |
Gaming
HWBench recommends Intel Core i5-4570
Based on game and synthetic benchmarks, and theoretical specifications.
Productivity
HWBench recommends Intel Core i5-4570
Based on productivity benchmarks, overall multithreaded performance and theoretical specifications.
Features
| AMD A6-9500 | Intel Core i5-4570 | |||
|---|---|---|---|---|
| MMX | ||||
| 3DNow! | ||||
| SSE | ||||
| SSE2 | ||||
| SSE3 | ||||
| SSE4A | ||||
| AMD64 | ||||
| CnQ | ||||
| NX bit | ||||
| AMD-V | ||||
| SSSE3 | ||||
SSE4. 2 |
||||
| AVX | ||||
| AVX2 | ||||
| EIST | ||||
| Intel 64 | ||||
| XD bit | ||||
| VT-x | ||||
| VT-d | ||||
| AES-NI | ||||
| TSX | ||||
| TXT | ||||
| CLMUL | ||||
| FMA3 | ||||
Architecture
| AMD A6-9500 | Intel Core i5-4570 | |||
|---|---|---|---|---|
| Architecture | AMD Excavator | vs | Intel_Haswell | |
| Market | Desktop | vs | Desktop | |
| Memory Support | DDR4 | vs | DDR3 | |
| Codename | Bristol Ridge | vs | Haswell | |
| Release Date | Sep 2016 | vs | Jun 2013 |
Cores
| AMD A6-9500 | Intel Core i5-4570 | |||
|---|---|---|---|---|
| Cores | 2 | vs | 4 | |
| Threads | 2 | vs | 4 | |
| SMPs | 1 | vs | 1 | |
| Integrated Graphics | Radeon R5 | vs | Intel HD 4600 |
Cache
| AMD A6-9500 | Intel Core i5-4570 | |||
|---|---|---|---|---|
| L1 Cache | 128 KB (per core) | vs | 64 KB (per core) | |
| L2 Cache | 512 KB (per core) | vs | 256 KB (per core) | |
| L3 Cache | 0 KB | vs | 6144 KB (shared) |
Physical
| AMD A6-9500 | Intel Core i5-4570 | |||
|---|---|---|---|---|
| Socket | AMD Socket AM4 | vs | Intel Socket 1150 | |
| Max Case Temp | unknown | vs | 72°C | |
| Package | uPGA | vs | FC-LGA12C | |
| Die Size | unknown | vs | 177mm² | |
| Process | 14 nm | vs | 22 nm |
Performance
| AMD A6-9500 | Intel Core i5-4570 | |||
|---|---|---|---|---|
| Cpu Frequency | 3500 MHz | vs | 3200 MHz | |
| Turbo Clock | 3800 MHz | vs | 3600 MHz | |
| Base Clock | 100 MHz | vs | 100 MHz | |
| Voltage | unknown | vs | unknown | |
| TDP | 65 W | vs | 84 W |
-
AMD A6-9500
2622 points
-
Intel Core i5-4570
4032 points
Points — higher is better
-
AMD A6-9500
4202 points
-
Intel Core i5-4570
14336 points
Points — higher is better
-
AMD A6-9500 (simulated)
80.
52 -
Intel Core i5-4570 (simulated)
146
points — higher is better
-
AMD A6-9500 (simulated)
146.91
-
Intel Core i5-4570 (simulated)
519.31
points — higher is better
AMD Vision A10 vs. Core i5
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While the A10 represents the top of AMD’s line of processors for business computers, the i5 represents Intel’s midrange processor. For most business computing applications, the two chips are interchangeable. Both can be used in Windows- and Linux-based computers and will run an office suite, handle email and Web browsing and allow for multitasking. However, they also have different design priorities that make a difference for more demanding tasks.
Processor Speeds
The Intel Core i5 3570’s four processing cores each run at 3.4GHz — the same as the A10-5700. However, the i5-3570 can only achieve 3.8GHz in short bursts, while the A10-5700’s clock can hit 4GHz in its «Turbo» mode.
When overclocked with air cooling, the two processors are still almost the same speed — 4.22GHz for the Intel and 4.24 for the AMD.
Embedded Graphics
Both processors include a graphics co-processor on their chip. The Intel chip has an HD 2500 processor that runs at 650 MHz and can drive a single display. AMD builds a Radeon 7660D processor into the A10. The 7660D runs at a base speed of 633MHz, but, in testing conducted by Notebook Check, achieves better performance than the Intel HD 4000 processor, which is the HD 2500’s faster cousin.
Cache Memory
AMD and Intel use different cache systems. The A10 features level one and level two cache, while the i5 has three levels of cache. Intel uses 256KB of the fastest level one memory, 1MB of level two cache and 6MB of level three. AMD, on the other hand, uses 192KB of level one cache and 4MB of level two cache. This means that while the AMD processor has more high-speed cache memory, the Intel can store more in its cache and spend less time accessing the much-slower system memory.
Product Ranges
As of June 2013, AMD’s A10 line of desktop processors is much more limited than Intel’s. In addition to the A10-5700, they also offer a slightly faster A10-5800K with a faster clock speed and more power consumption. Intel’s line includes 15 different processors, most of which are slower than the i5-3570. The i5 line even includes a few dual-core processors, which theoretically have half the processing capability of higher-end i5 or all AMD A10 chips.
Tech Disclaimer
The information in this piece is based on a comparison of the Intel Core i5 3570 and AMD A10-5700 CPUs. It may not apply to different variants of the two processor families.
References
- Toshiba: Intel and AMD Processor Guide
- Intel: 3rd Generation Intel Core i5 Processors (Desktop)
- Intel: Intel Processor Specifications — Intel Core i5-3570 Processor
- Notebook Check: AMD Radeon HD 7660D
Writer Bio
Steve Lander has been a writer since 1996, with experience in the fields of financial services, real estate and technology.
His work has appeared in trade publications such as the «Minnesota Real Estate Journal» and «Minnesota Multi-Housing Association Advocate.» Lander holds a Bachelor of Arts in political science from Columbia University.
Image Credit
Comstock/Comstock/Getty Images
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40 BALLLA
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9000 2 3210M
Why is AMD A6-4400M better than Intel Core i5-3210M?
- 8% higher CPU speed?
2 x 2.7GHz vs 2 x 2.5GHz - 0.5MB more L2 cache?
1MB vs 0.5MB - 0.25MB/core more L2 cache per core?
0.5MB/core vs 0.25MB/core - Supports 1 more displays?
4 vs 3 - 0.
1 newer version of OpenCL?
1.2 vs 1.1 - Has FMA4?
- Has FMA3?
Why is Intel Core i5-3210M better than AMD A6-4400M?
- 2 more CPU threads?
4 vs 2 - GPU frequency 154MHz higher?
650MHz vs 496MHz - Semiconductor size 10nm smaller?
22nm vs 32nm - 2.36x higher PassMark result?
3833 vs 1622 - 1 newer version of PCI Express (PCIe)?
3 vs 2 - 32KB more L1 cache?
128KB vs 96KB - 1.53x higher PassMark score (single)?
1525 vs 998 - Multithreaded?
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Users Reviews
General rating
AMD AMD A6000 AMD A6-400M /10
1 User reviews
Intel Core i5-3210M
1 User reviewsOl000 /10
1 votes
performance
10.
0 /10
1 Votes
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10.0 /10 9
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2 x 2.7GHz
2 x 2.5GHz
CPU speed indicates how many processing cycles per second a processor can perform, considering all its cores (processors). It is calculated by adding the clock speeds of each core or, in the case of multi-core processors, each group of cores.
2nd processor thread
More threads result in better performance and better multitasking.
3.speed turbo clock
3.2GHz
3.1GHz
When the processor is running below its limits, it can jump to a higher clock speed to increase performance.
4. Has unlocked multiplier
✖AMD A6-4400M
✖Intel Core i5-3210M
Some processors come with an unlocked multiplier and are easier to overclock, allowing for better performance in games and other applications.
5.L2 Cache
More L2 scratchpad memory results in faster results in CPU and system performance tuning.
6.L3 cache
Unknown. Help us offer a price. (AMD A6-4400M)
More L3 scratchpad memory results in faster results in CPU and system performance tuning.
7.L1 cache
More L1 cache results in faster results in CPU and system performance tuning.
8.core L2
0.5MB/core
0.25MB/core
More data can be stored in L2 scratchpad for access by each processor core.
9. L3 core
Unknown. Help us offer a price. (AMD A6-4400M)
1.5MB/core
More data can be stored in L3 scratchpad for access by each processor core.
Memory
1.RAM speed
1600MHz
1600MHz
Can support faster memory which speeds up system performance.
2.max memory bandwidth
Unknown. Help us offer a price. (AMD A6-4400M)
25.6GB/s
This is the maximum rate at which data can be read from or stored in memory.
3rd DDR version
Unknown. Help us offer a price. (AMD A6-4400M)
DDR (Double Data Rate Synchronous Dynamic Random Access Memory) is the most common type of main memory. New versions of DDR memory support higher maximum speeds and are more energy efficient.
4.Memory channels
More memory channels increase the speed of data transfer between memory and processor.
5.max memory
Unknown. Help us offer a price. (AMD A6-4400M)
Maximum amount of memory (RAM).
6.bus baud rate
Unknown. Help us offer a price. (AMD A6-4400M)
The bus is responsible for transferring data between various components of a computer or device.
7. Supports Memory Error Code
✖AMD A6-4400M
✖Intel Core i5-3210M
Memory Error Code can detect and repair data corruption. It is used when necessary to avoid distortion, such as in scientific computing or when starting a server.
8.eMMC version
Unknown. Help us offer a price. (AMD A6-4400M)
Unknown. Help us offer a price. (Intel Core i5-3210M)
The newer version of eMMC — built-in flash memory card — speeds up the memory interface, has a positive effect on device performance, for example, when transferring files from a computer to internal memory via USB.
9.bus frequency
Unknown. Help us offer a price. (AMD A6-4400M)
Unknown. Help us offer a price. (Intel Core i5-3210M)
The bus is responsible for transferring data between various components of a computer or device
Geotagging
1.
PassMark result
This test measures processor performance using multi-threading.
2. PassMark result (single)
This test measures processor performance using a thread of execution.
3.Geekbench 5 result (multi-core)
Unknown. Help us offer a price. (AMD A6-4400M)
Unknown. Help us offer a price. (Intel Core i5-3210M)
Geekbench 5 is a cross-platform benchmark that measures the performance of a multi-core processor. (Source: Primate Labs, 2022)
4. Cinebench R20 result (multi-core)
Unknown. Help us offer a price. (AMD A6-4400M)
Unknown. Help us offer a price. (Intel Core i5-3210M)
Cinebench R20 is a benchmark that measures the performance of a multi-core processor by rendering a 3D scene.
5.Cinebench R20 result (single core)
Unknown. Help us offer a price. (AMD A6-4400M)
Unknown.
Help us offer a price. (Intel Core i5-3210M)
Cinebench R20 is a test to evaluate the performance of a single core processor when rendering a 3D scene.
6.Geekbench 5 result (single core)
Unknown. Help us offer a price. (AMD A6-4400M)
Unknown. Help us offer a price. (Intel Core i5-3210M)
Geekbench 5 is a cross-platform test that measures the single-core performance of a processor. (Source: Primate Labs, 2022)
7. Blender test result (bmw27)
Unknown. Help us offer a price. (AMD A6-4400M)
Unknown. Help us offer a price. (Intel Core i5-3210M)
Blender benchmark (bmw27) measures CPU performance by rendering a 3D scene. More powerful processors can render a scene in a shorter time.
8.Blender result (classroom)
Unknown. Help us offer a price. (AMD A6-4400M)
Unknown. Help us offer a price. (Intel Core i5-3210M)
The Blender (classroom) benchmark measures CPU performance by rendering a 3D scene.
More powerful processors can render a scene in a shorter time.
9.performance per watt
This means that the processor is more efficient, giving more performance per watt of power used.
Functions
1.uses multithreading
✖AMD A6-4400M
✔Intel Core i5-3210M
processor cores into logical cores, also known as threads. Thus, each core can run two instruction streams at the same time.
2. Has AES
✔AMD A6-4400M
✔Intel Core i5-3210M
AES is used to speed up encryption and decryption.
3. Has AVX
✔AMD A6-4400M
✔Intel Core i5-3210M
AVX is used to help speed up calculations in multimedia, scientific and financial applications, and to improve the performance of the Linux RAID program.
4.Version SSE
SSE is used to speed up multimedia tasks such as editing images or adjusting audio volume.
Each new version contains new instructions and improvements.
5. Has F16C
✔AMD A6-4400M
✔Intel Core i5-3210M
F16C is used to speed up tasks such as image contrast adjustment or volume control.
6.bits transmitted at the same time
Unknown. Help us offer a price. (AMD A6-4400M)
Unknown. Help us offer a price. (Intel Core i5-3210M)
NEON provides faster media processing such as MP3 listening.
7. Has MMX
✔AMD A6-4400M
✔Intel Core i5-3210M
MMX is used to speed up tasks such as adjusting image contrast or adjusting volume.
8.Has TrustZone
✖AMD A6-4400M
✖Intel Core i5-3210M
The technology is integrated into the processor to ensure device security when using features such as mobile payments and streaming video using Digital Rights Management (DRM) technology ).