We previously reported that developer Alexander Graf was able to get Windows 10 ARM by running it on a patch virtual machine on his Apple Pul M1 powered mbookbook, which addresses the ARM processor directly. This allowed him to bypass any driver issues and there are still very rendered solutions.
Graph created its patches to make the open source QEMU virtualized freely available, and its work has now been replicated by others, meaning that some benchmarks have become available to evaluate the performance of solutions.
The news once again confirms that Apple Paul’s M1 processor has surpassed Coopcom’s best.
First, Apple offers the original GeekBench 5 performance on the OS Cos running the Pull M1 Sinj-core score of 1737 And 7549’s multi-core.
For Windows 10 on ARM running in a virtual machine on a 10PL M1 processor, Single-core score of 1288 And Multi-core of 5449.
Finally, for Windows 10 on ARM running on a microSFT SQ2 processor, Single-core score of 799 And 3089’s multi-core
This advantage is also true for x86 applications running on Surface Pro X and bookbook.
While running the x86 version of GeekBench 4, the Surface Pro XA scored 2019 single-core And 6646 multi-core Vs. 2553 single-core And 8917 multi-core ARM is running its own x86 translator for virtualized Windows 10.
The main conclusion that can be drawn from this demo is that Apple’s M1 processor replaces MacOS 14 optimized optimization which is responsible for the good performance of Apple’s new Mbook book series, and it remains to be seen whether other ARM chip vendors can catch up.
Another thing is that if the virtualized Windows 10 optimization on ARM can be optimized for this OS cause, then the new Mac Macbook may still be the best way to run Windows.
Read more about the QEMU patch of the graph here.