In this CPU comparison, we compare the Intel Core i5-1035G1 and the AMD Ryzen 5 5500U and use benchmarks to check which processor is faster.
We compare the Intel Core i5-1035G1 4 core processor released in Q3/2019 with the AMD Ryzen 5 5500U which has 6 CPU cores and was introduced in Q1/2021.
The Intel Core i5-1035G1 is a 4 core processor with a clock frequency of 1.00 GHz (3.60 GHz). The processor can compute 8 threads at the same time. The AMD Ryzen 5 5500U clocks with 2.10 GHz (4.00 GHz), has 6 CPU cores and can calculate 12 threads in parallel.
Processors with the support of artificial intelligence (AI) and machine learning (ML) can process many calculations, especially audio, image and video processing, much faster than classic processors. Algorithms for ML improve their performance the more data they have collected via software. ML tasks can be processed up to 10,000 times faster than with a classic processor.
Graphics (iGPU) integrated into the processor not only enable image output without having to rely on a dedicated graphics solution, but can also efficiently accelerate video playback.
A photo or video codec that is accelerated in hardware can greatly accelerate the working speed of a processor and extend the battery life of notebooks or smartphones when playing videos.
Up to 64 GB of memory in a maximum of 2 memory channels is supported by the Intel Core i5-1035G1, while the AMD Ryzen 5 5500U supports a maximum of 32 GB of memory with a maximum memory bandwidth of 51.2 GB/s enabled.
The Intel Core i5-1035G1 has a TDP of 15 W. The TDP of the AMD Ryzen 5 5500U is 15 W. System integrators use the TDP of the processor as a guide when dimensioning the cooling solution.
The Intel Core i5-1035G1 has 6.00 MB cache and is manufactured in 10 nm. The cache of AMD Ryzen 5 5500U is at 8.00 MB. The processor is manufactured in 7 nm.
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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 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.
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 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.
Geekbench 6 is a benchmark for modern computers, notebooks and smartphones. What is new is an optimized utilization of newer CPU architectures, e.g. based on the big.LITTLE concept and combining CPU cores of different sizes. The single-core benchmark only evaluates the performance of the fastest CPU core, the number of CPU cores in a processor is irrelevant here.
Geekbench 6 is a benchmark for modern computers, notebooks and smartphones. What is new is an optimized utilization of newer CPU architectures, e.g. based on the big.LITTLE concept and combining CPU cores of different sizes. The multi-core benchmark evaluates the performance of all of the processor's CPU cores. Virtual thread improvements such as AMD SMT or Intel's Hyper-Threading have a positive impact on the benchmark result.
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 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.
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.
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.
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.
The CPU-Z benchmark measures a processor's performance by measuring the time it takes the system to complete all benchmark calculations. The faster the benchmark is completed, the higher the score.
The CPU-Z benchmark measures a processor's performance by measuring the time it takes the system to complete all benchmark calculations. The faster the benchmark is completed, the higher the score.
The Cinebench 2024 benchmark is based on the Redshift rendering engine, which is also used in Maxon's 3D program Cinema 4D. The benchmark runs are each 10 minutes long to test whether the processor is limited by its heat generation.
The Multi-Core test of the Cinebench 2024 benchmark uses all cpu cores to render using the Redshift rendering engine, which is also used in Maxons Cinema 4D. The benchmark run is 10 minutes long to test whether the processor is limited by its heat generation.
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 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.
The processors from this comparison are models for use in the mobile segment, so they are mainly used in notebooks. The Intel Core i5-1035G1 has 4 physical cores and supports hyperthreading technology, with which the 4 physical cores become 8 logical cores. The AMD Ryzen 5 5500U comes with 6 physical cores and also supports hyperthreading technology. The Intel Core i5-1035G1 clocks at 1.00 gigahertz, but can increase this clock frequency up to 3.60 gigahertz if necessary. The AMD Ryzen 5 5500U has a significantly higher base clock of 2.10 gigahertz and the maximum turbo clock frequency is also higher than the Intel processor at 4.00 gigahertz.
According to our benchmarks, the AMD processor is around 10% faster than the Intel CPU at single core load. In the multi-core benchmarks, the advantage of the AMD processor, also due to the 2 additional cores, is even clearer. The speed advantage here is around 30-40 percent.
Like all processors from the mobile sector, these two also have an internal graphics unit (iGPU). The Intel UHD Graphics "Ice Lake G1" is used in the Intel Core i5-1035G1. This iGPU is equipped with 64 execution units and 512 shaders. It clocks at up to 1.05 gigahertz and supports DirectX version 12. The AMD Ryzen 5 5500U has the AMD Radeon 7 Graphics (Renoir) integrated. This graphics unit has 7 execution units with 448 shader units. The maximum clock rate is 1.80 gigahertz and DirectX 12 is also supported.
The Intel Core i5-1035G1 is manufactured using the 10 nanometer process and came onto the market in the third quarter of 2019. The AMD Ryzen 5 5500U is already manufactured using the 7 nanometer process and is 1.5 years younger; it was released in the first quarter of 2021.