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Ryzen 3 vs i3۸ |
||
| CPUͺ | Ryzen 3 2200G | Core i3-8100 |
| Ĵ | Raven Ridge | Coffee Lake |
| ӿ | AM4 | LGA1151 |
| ߳ | 4/4 | 4/4 |
| Ƴ̹ | GF 14nm | Intel 14nm+ |
| ǷƵ | ||
| Ƶ | 3. |
3.6GHz |
| ̬Ƶ | 3.7GHz | |
| 4MB | 6MB | |
| ڴ֧ | DDR4-2933 | DDR4-2400 |
| Vega 8 | UHD 630 | |
| TDP | 65W | 65W |
| Աۼ | 709Ԫ | 655Ԫ |
| װۼ | 779Ԫ | 899Ԫ |
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CineBench R15
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AMD Ryzen 3 3200G vs.
Intel Core i3-8100
AMD Ryzen 3 3200G
The AMD Ryzen 3 3200G operates with 4 cores and 4 CPU threads. It run at 4.00 GHz base 3.80 GHz all cores while the TDP is set at 65 W.The processor is attached to the AM4 (LGA 1331) CPU socket. This version includes 4.00 MB of L3 cache on one chip, supports 2 memory channels to support DDR4-2933 RAM and features 3.0 PCIe Gen 12 lanes. Tjunction keeps below 95 °C degrees C. In particular, Picasso (Zen+) Architecture is enhanced with 12 nm technology and supports AMD-V, SVM. The product was launched on Q2/2019
Intel Core i3-8100
The Intel Core i3-8100 operates with 4 cores and 4 CPU threads. It run at — base — all cores while the TDP is set at 65 W.The processor is attached to the LGA 1151-2 CPU socket. This version includes 6.00 MB of L3 cache on one chip, supports 2 memory channels to support DDR4-2400 RAM and features 3.0 PCIe Gen 16 lanes. Tjunction keeps below 100 °C degrees C. In particular, Coffee Lake S Architecture is enhanced with 14 nm technology and supports VT-x, VT-x EPT, VT-d.
The product was launched on Q4/2017
AMD Ryzen 3 3200G
Intel Core i3-8100
Compare Detail
| 3.60 GHz | Frequency | 3.60 GHz |
| 4 | Cores | 4 |
| 4.00 GHz | Turbo (1 Core) | — |
| 3.80 GHz | Turbo (All Cores) | — |
| No | Hyperthreading | No |
| Yes | Overclocking | No |
| normal | Core Architecture | normal |
|
AMD Radeon Vega 8 Graphics |
GPU |
Intel UHD Graphics 630 |
| No turbo | GPU (Turbo) | 1.10 GHz |
| 12 nm | Technology | 14 nm |
| No turbo | GPU (Turbo) | 1.10 GHz |
| 12 | DirectX Version | 12 |
| 3 | Max. displays | 3 |
| DDR4-2933 | Memory | DDR4-2400 |
| 2 | Memory channels | 2 |
| Max memory | ||
| Yes | ECC | Yes |
| — | L2 Cache | — |
4. 00 MB |
L3 Cache | 6.00 MB |
| 3.0 | PCIe version | 3.0 |
| 12 | PCIe lanes | 16 |
| 12 nm | Technology | 14 nm |
| AM4 (LGA 1331) | Socket | LGA 1151-2 |
| 65 W | TDP | 65 W |
| AMD-V, SVM | Virtualization | VT-x, VT-x EPT, VT-d |
| Q2/2019 | Release date | Q4/2017 |
|
Show more data |
Show more data |
Cinebench R23 (Single-Core)
Cinebench R23 is the successor of Cinebench R20 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 R23 (Multi-Core)
Cinebench R23 is the successor of Cinebench R20 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 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
| AMD Ryzen 3 3200G | Intel Core i3-8100 | |
| 65 W | Max TDP | 65 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
i3 8100 vs R3 2200G
video content
Rating: 4.
0; Votes: 1
i3 8100 vs R3 2200G — I DROPPED FPS!
Revived: That’s what kills me the most in all these comparisons of Intel with Ryzens, is that for some reason all these comparisons always forget to make a clear emphasis on the fact that Ryzen needs an expensive mother to support overclocking, and expensive memory, which can also be driven. And for Intel, all this is not necessary. Well, more precisely, the video shows that the hardware is overclocked, but it always runs in the background, like during tests we used this, that, and that, but in the conclusions no one ever says: REMEMBER! RYZEN SHOWS ALL THESE RESULTS ONLY UNDER THE CONDITION OF EXTREME OVERCLOCKING! nine0008 IN REAL LIFE, people who buy an almost entry-level processor, a mother with memory, also take the corresponding ones, and not for 100500 money.
Maybe, for HONEST results, it was worth comparing i3 and Ryzen as they are? On cheap mothers of the same level, and with cheap memory of the same level? Without any overclocking.
And then somehow it turns out smartly that Intel is taken in stock, and AMD is taken with an expensive mother and expensive memory, and even with the main condition that LUCKY with overclocking. Fuck the comparison! nine0011
Date: 2020-09-15
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Comments and reviews: 9
Andrey
I don’t understand how this happens! Here they put a good video, do they drive RAM for a budget assembly? I’ve assembled a computer for my nephew on 1300x ryzen, Asrok b350, RAM 4 GB 2400 and, most importantly, video geforce 770.
And, believe me, my nephew is very pleased. Everything suits me. After all, not everyone builds a computer for top games. Maybe someone in CS Go wants to fight or in Wot, and with the head of the 770th it will be enough. It’s just that a lot of people are all about money. And here the assembly on the Ryzen looks more promising. And it will justify every penny spent. Intel is very snickering with the price.
nine0003
Dima
Hello, I assembled a PC i3 8100 on h410 mom, 16 GB of RAM, a gtx 1070 video card. But the computer freezes in the Pubg game. Yes, I understand that the game is like that and so on. but, with 8 GB of RAM, I didn’t have such obvious problems, what could be the error, how to fix it? Lags begin when moving, when kneading. I’m waiting for your help
Klyaksa
Test on ultra and high settings, this is already a test of the video card, not the processor! For the processor test, the settings are set to a minimum! And on the motherboard under intel on the Z chipset, the operative is chasing one or two, and this gives an increase, both for the i3 8100 and for the i5 8400!
nine0003
Winner
Where the fps is higher, i3 9100f or R5 1600 or 2500x.
In all the tests I have reviewed, Intel wins in older games, and in battles and watch dogs on ryzens, FPS is 20 units higher. I can’t figure out what to take.
Victor
And so i-3 135 a 2200g 90 price difference 45 choice is ambiguous
Emelman331
Make one afterburner build for all test benches, otherwise the comparison is a muddy scribe. Informative lines are constantly jumping, then appear, then disappear.
Mitrich
meaning of comparison Ryzen costs 5900 and Intel 8300? 50 bucks is almost a difference, and ryzen is just a perversion! not fair! prices in dns!
Percival
now the i3 8100, although more powerful, is much more expensive, and even without normal graphics (built-in, which is important for some
Uncle
2019 March I3 cost 9000 Ryzen 6000 1/3 difference. difference in FPS from 0 to 20%. consumer will vote (ruble or hryvnia)
AMD Ryzen 3 2200G vs. Intel Core i3-8100
AMD Ryzen 3 2200G
AMD Ryzen 3 2200G runs with 4 and 4 CPU threads It runs at 3.
70 GHz base 3.65 GHz all cores while TDP is set to 65 W .CPU connects to CPU socket AM4 (LGA 1331) This version includes 4.00 MB of L3 cache on a single chip, supports 2 to support DDR4-2933 RAM and supports 3.0 PCIe Gen 12. Tjunction is kept below 95°C degrees C. In particular, the Raven Ridge (Zen) architecture is advanced beyond 14 nm and supports AMD-V, SVM . The product was launched Q1/2018
Intel Core i3-8100
Intel Core i3-8100 runs with 4 and 4 CPU threads It runs on — basic — all cores while TDP is set to 65 W . to LGA 1151-2 CPU socket This version includes 6.00 MB of L3 cache on a single die, supports 2 to support DDR4-2400 RAM, and supports 3.0 PCIe Gen 16 . Tjunction is kept below 100°C degrees C. In particular, the Coffee Lake S architecture is advanced beyond 14 nm and supports VT-x, VT-x EPT, VT-d . The product was launched Q4/2017
AMD Ryzen 3 2200G
Intel Core i3-8100
Compare Parts
| Frequency | 3. 60 GHz |
|
| 4 | Kernels | 4 |
| 3.70GHz | Turbo (1 core) | — |
| 3.65GHz | Turbo (all cores) | — |
| No. | No | |
| Yes | Acceleration | No |
| normal | Basic architecture | normal |
|
AMD Radeon Vega 8 Graphics |
GPU |
Intel UHD Graphics 630 |
| no turbo | GPU (Turbo) | 1.10 GHz |
| 14nm | Technology | 14nm |
| No turbo | GPU (Turbo) | 1.10 GHz |
| 12 | DirectX Version | 12 |
| 3 | Max. displays | 3 |
| DDR4-2933 | memory size | DDR4-2400 |
| 2 | Memory channels | 2 |
| Maximum memory | ||
No. |
Yes | |
| — | L2 Cache | — |
| 4.00MB | L3 Cache | 6.00 MB |
| 3.0 | PCIe version | 3.0 |
| 12 | PCIe lanes | 16 |
| 14nm | Technology | 14nm |
| AM4 (LGA 1331) | Connector | LGA 1151-2 |
| 65W | TDP | 65W |
| AMD-V, SVM | Virtualization | VT-x, VT-x EPT, VT-d |
| Q1/2018 | Release date | Q4/2017 |
|
Show more details |
Show more details |
Cinebench R23 (Single-Core)
Cinebench R23 is the successor to Cinebench R20 and is also based on Cinema 4 Suite. Cinema 4 is software used all over the world to create 3D shapes.
The single-core test uses only one CPU core, the number of cores or hyper-threading capability is not taken into account. nine0003
Cinebench R23 (Multi-Core)
Cinebench R23 is the successor to Cinebench R20 and is also based on Cinema 4 Suite. Cinema 4 is software used all over the world to create 3D shapes. The multi-core test uses all the CPU cores and has a big advantage of hyper-threading.
Cinebench R20 (Single-Core)
Cinebench R20 is the successor to Cinebench R15 and is also based on the Cinema 4 Suite. Cinema 4 is software used all over the world to create 3D shapes. The single-core test uses only one CPU core, the number of cores or hyper-threading capability is not taken into account. nine0003
Cinebench R20 (Multi-Core)
Cinebench R20 is the successor to Cinebench R15 and is also based on Cinema 4 Suite. Cinema 4 is software used all over the world to create 3D shapes. The multi-core test uses all the CPU cores and has a big advantage of hyper-threading.
Cinebench R15 (Single-Core)
Cinebench R15 is the successor to Cinebench 11.5 and is also based on the Cinema 4 Suite. Cinema 4 is software used all over the world to create 3D shapes. The single-core test uses only one CPU core, the number of cores or hyper-threading capability is not taken into account. nine0003
Cinebench R15 (Multi-Core)
Cinebench R15 is the successor to Cinebench 11.5 and is also based on Cinema 4 Suite. Cinema 4 is software used all over the world to create 3D shapes. The multi-core test uses all the CPU cores and has a big advantage of hyper-threading.
Geekbench 5, 64bit (Single-Core)
Geekbench 5 is a memory-intensive, cross-platform benchmark. A fast memory will greatly push the result. The single-core test uses only one CPU core, the number of cores or hyper-threading capability is not taken into account. nine0003
Geekbench 5, 64bit (Multi-Core)
Geekbench 5 is a memory-intensive, cross-platform benchmark.
A fast memory will greatly push the result. The multi-core test uses all the CPU cores and has a big advantage of hyper-threading.
iGPU — FP32 Performance (Single-precision GFLOPS)
Theoretical processing performance of the processor’s internal graphics unit with simple precision (32 bits) in GFLOPS. GFLOPS specifies how many billions of floating point operations the iGPU can perform per second. nine0003
Blender 2.81 (bmw27)
Blender is a free 3D graphics software for rendering (creating) 3D bodies that can also be textured and animated in the program. The Blender test creates predefined scenes and measures the time(s) required for the entire scene. The less time it takes, the better. We chose the bmw27 as our reference scene.
Geekbench 3, 64bit (Single-Core)
Geekbench 3 is a cross-platform benchmark that is memory intensive. A fast memory will greatly push the result. The single-core test uses only one CPU core, the number of cores or hyper-threading capability is not taken into account.
nine0003
Geekbench 3, 64bit (Multi-Core)
Geekbench 3 is a cross-platform benchmark that is memory intensive. A fast memory will greatly push the result. The multi-core test uses all the CPU cores and has a big advantage of hyper-threading.
Cinebench R11.5, 64bit (Single-Core)
Cinebench 11.5 is based on the Cinema 4D Suite, a software that is popular for creating shapes and other things in 3D. The single-core test uses only one CPU core, the number of cores or hyper-threading capability is not taken into account. nine0003
Cinebench R11.5, 64bit (Multi-Core)
Cinebench 11.5 is based on the Cinema 4D Suite, a software that is popular for creating shapes and other things in 3D. The multi-core test uses all the CPU cores and has a big advantage of hyper-threading.
Cinebench R11.5, 64bit (iGPU, OpenGL)
Cinebench 11.5 is based on Cinema 4D Suite, a software that is popular for creating shapes and other things in 3D. The iGPU test uses the CPU’s internal graphics unit to execute OpenGL commands.