I’m not sure I understand your argument. Are you saying that the emulated processor executes instructions while the SoC doesn’t? Every instruction that goes to the x86 is broken down into several SoC instructions, which the SoC executes in order to emulate what an x86 would do. Saying that the emulated x86 is booting/running Linux, but the SoC is not is like saying that computers can’t run java code, they can only run jvm.
I’m saying it runs it because “running” is transitive, but doesn’t boot it because “booting” is not. Similarly to how you can carry your grandkid by carrying your kid who carries their kid (carrying is transitive), but you can’t give birth to your grandkid by giving birth to your kid who’d give birth to their kid (giving birth is not transitive).
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I’m not sure I understand your argument. Are you saying that the emulated processor executes instructions while the SoC doesn’t? Every instruction that goes to the x86 is broken down into several SoC instructions, which the SoC executes in order to emulate what an x86 would do. Saying that the emulated x86 is booting/running Linux, but the SoC is not is like saying that computers can’t run java code, they can only run jvm.
I’m saying it runs it because “running” is transitive, but doesn’t boot it because “booting” is not. Similarly to how you can carry your grandkid by carrying your kid who carries their kid (carrying is transitive), but you can’t give birth to your grandkid by giving birth to your kid who’d give birth to their kid (giving birth is not transitive).