AMD Ryzen 7 5700U vs Intel Core i5-1135G7
CPU comparison with benchmarks
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| AMD Ryzen 7 5700U | Intel Core i5-1135G7 | |
| AMD Ryzen 7 | Family | Intel Core i5 |
| AMD Ryzen 5000U | CPU group | Intel Core i 1100G/11000U |
| 4 | Generation | 11 |
| Lucienne (Zen 2) | Architecture | Tiger Lake U |
| Mobile | Segment | Mobile |
| -- | Predecessor | -- |
| AMD Ryzen 7 5825U | Successor | -- |
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| 8 | Cores | 4 |
| 16 | Threads | 8 |
| normal | Core architecture | normal |
| Yes | Hyperthreading | Yes |
| No | Overclocking ? | No |
| 1.80 GHz | Frequency | 2.40 GHz |
| 4.30 GHz | Turbo Frequency (1 Core) | 4.20 GHz |
| 3.30 GHz | Turbo Frequency (All Cores) | 3.80 GHz |
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| AMD Radeon 8 Graphics (Renoir) | GPU | Intel Iris Xe Graphics 80 (Tiger Lake G7) |
| 1.90 GHz | GPU frequency | 0.40 GHz |
| GPU (Turbo) | 1.30 GHz | |
| 9 | GPU Generation | 12 |
| 7 nm | Technology | 10 nm |
| 3 | Max. displays | 4 |
| 8 | Execution units | 80 |
| 512 | Shader | 640 |
| 2 GB | Max. GPU Memory | 16 GB |
| 12 | DirectX Version | 12 |
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| Decode / Encode | Codec h265 / HEVC (8 bit) | Decode / Encode |
| Decode / Encode | Codec h265 / HEVC (10 bit) | Decode / Encode |
| Decode / Encode | Codec h264 | Decode / Encode |
| Decode / Encode | Codec VP9 | Decode / Encode |
| Decode / Encode | Codec VP8 | Decode |
| No | Codec AV1 | Decode |
| Decode / Encode | Codec AVC | Decode / Encode |
| Decode | Codec VC-1 | Decode |
| Decode / Encode | Codec JPEG | Decode / Encode |
CPU Cores and Base Frequency
Internal Graphics
Hardware codec support
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| DDR4-3200 | Memory | DDR4-3200 |
| 32 GB | Max. Memory | 64 GB |
| 2 | Memory channels | 2 |
| 51.2 GB/s | Bandwidth | 51.2 GB/s |
| Yes | ECC | No |
| L2 Cache | ||
| 8.00 MB | L3 Cache | 8.00 MB |
| 3.0 | PCIe version | 4.0 |
| 12 | PCIe lanes | 4 |
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| 15 W | TDP (PL1) | 15 W |
| -- | TDP (PL2) | -- |
| 25 W | TDP up | 28 W |
| 10 W | TDP down | 12 W |
| 105 °C | Tjunction max. | 100 °C |
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| 7 nm | Technology | 10 nm |
| x86-64 (64 bit) | Instruction set (ISA) | x86-64 (64 bit) |
| SSE4a, SSE4.1, SSE4.2, AVX2, FMA3 | ISA extensions | SSE4.1, SSE4.2, AVX2, AVX-512 |
| FP6 | Socket | BGA 1526 |
| AMD-V, SVM | Virtualization | VT-x, VT-x EPT, VT-d |
| Yes | AES-NI | Yes |
| Q1/2021 | Release date | Q3/2020 |
| show more data | show more data | |
8C 16T @ 1.80 GHz (4.30 GHz) buy now on Amazon and save!
4C 8T @ 2.40 GHz (4.20 GHz) buy now on Amazon and save!
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Memory & PCIe
Thermal Management
Technical detailsCinebench 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.
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AMD Ryzen 7 5700U
8C 16T @ 1.80 GHz |
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Intel Core i5-1135G7
4C 8T @ 2.40 GHz |
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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.|
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AMD Ryzen 7 5700U
8C 16T @ 1.80 GHz |
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Intel Core i5-1135G7
4C 8T @ 2.40 GHz |
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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.|
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AMD Ryzen 7 5700U
8C 16T @ 1.80 GHz |
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Intel Core i5-1135G7
4C 8T @ 2.40 GHz |
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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.|
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AMD Ryzen 7 5700U
8C 16T @ 1.80 GHz |
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Intel Core i5-1135G7
4C 8T @ 2.40 GHz |
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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.|
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AMD Ryzen 7 5700U
8C 16T @ 1.80 GHz |
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Intel Core i5-1135G7
4C 8T @ 2.40 GHz |
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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.|
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AMD Ryzen 7 5700U
8C 16T @ 1.80 GHz |
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Intel Core i5-1135G7
4C 8T @ 2.40 GHz |
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V-Ray CPU-Render Benchmark
V-Ray is a 3D rendering software from the manufacturer Chaos for designers and artists. Unlike many other render engines, V-Ray is capable of so-called hybrid rendering, in which the CPU and GPU work together at the same time.However, the CPU benchmark we used (CPU Render Mode) only uses the system's processor. The working memory used plays a major role in the V-Ray benchmark. For our benchmarks we use the fastest RAM standard approved by the manufacturer (without overclocking).
Due to the high compatibility of V-Ray (including Autodesk 3ds Max, Maya, Cinema 4D, SketchUp, Unreal Engine and Blender), it is a frequently used software. With V-Ray, for example, photorealistic images can be rendered that laypeople cannot distinguish from normal photos.
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AMD Ryzen 7 5700U
8C 16T @ 1.80 GHz |
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Intel Core i5-1135G7
4C 8T @ 2.40 GHz |
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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.|
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AMD Ryzen 7 5700U
AMD Radeon 8 Graphics (Renoir) @ 1.90 GHz |
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Intel Core i5-1135G7
Intel Iris Xe Graphics 80 (Tiger Lake G7) @ 1.30 GHz |
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Blender 3.1 Benchmark
In the Blender Benchmark 3.1, the scenes "monster", "junkshop" and "classroom" are rendered and the time required by the system is measured. In our benchmark we test the CPU and not the graphics card. Blender 3.1 was presented as a standalone version in March 2022.|
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AMD Ryzen 7 5700U
8C 16T @ 1.80 GHz |
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Intel Core i5-1135G7
4C 8T @ 2.40 GHz |
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Estimated results for PassMark CPU Mark
Some of the CPUs listed below have been benchmarked by CPU-monkey. However the majority of CPUs have not been tested and the results have been estimated by a CPU-monkey’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.|
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AMD Ryzen 7 5700U
8C 16T @ 1.80 GHz |
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Intel Core i5-1135G7
4C 8T @ 2.40 GHz |
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| AMD Ryzen 7 5700U | Intel Core i5-1135G7 |
| Unknown | Unknown |
Devices using this processorThe AMD Ryzen 7 5700U is manufactured using the 7 nanometer process and is based on the Zen 2 architecture with the code name Lucienne. The processor has 8 cores and supports hyperthreading technology, which means that 16 logical cores are available if required. The basic clock rate of the processor is 1.80 gigahertz and can be increased up to 4.30 gigahertz in turbo mode. The Intel Core i5-1135G7 is based on the Tiger Lake U architecture and is still manufactured using the 10 nanometer process. With 4 cores, it only has half as many as the AMD CPU, but it also supports hyperthreading technology. The standard clock frequency of the Intel processor is 2.40 gigahertz and the maximum turbo clock is 4.20 gigahertz.
In the benchmarks, the AMD Ryzen 7 5700U is around 5-10 percent behind the Intel Core i5-1135G7 with single core load. With twice the number of cores, the AMD Ryzen 7 5700U naturally has the lead in the multicore benchmarks. Here, the AMD processor is between 25 and 50 percent ahead of the Intel Core i5-1135G7 in our various benchmarks.
Both processors have an internal graphics unit (iGPU) as standard. The AMD Radeon 8 Graphics (Renoir) is used in the AMD Ryzen 7 5700U. This iGPU is manufactured using the 7 nanometer process and clocks at 1.90 gigahertz. With its 8 execution units and 512 shader units, it achieves an FP32 computing power (single precision) of 1946 gigaflops. The Intel Iris Xe Graphics 80 (Tiger Lake G7) is built into the Intel Core i5-1135G7. This clocks at up to 1.30 gigahertz and thus achieves an FP32 computing line of 1611 gigaflops.
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