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Newer CPUs (Skylake, Family 6 Model 94; Cascade Lake, Model 85; Alder Lake, Model 151) produce similar strings, e.g.:
At first glance, it resembles a fragment of a broken database entry or a debug string left in a hurry. However, for system administrators, firmware engineers, and Linux power users, this string tells a complete story. It is a handshake between three critical components of modern computing: (Advanced Configuration and Power Interface), the CPUID instruction, and the Linux kernel’s x86 architecture code . acpi genuineintel---intel64-family-6-model-58
If you have ever peered into the depths of your Linux kernel logs, sifted through /var/log/dmesg , or troubleshooted a stubborn power management issue, you may have stumbled across a cryptic string that looks like this: Newer CPUs (Skylake, Family 6 Model 94; Cascade
For the average user, ignore it. For the system tuner or kernel developer, it is a valuable breadcrumb. It reminds us that under every sleek user interface, a silent conversation happens between firmware and kernel – one that speaks in families, models, and ACPI states. If you have ever peered into the depths
acpi genuineintel---intel64-family-6-model-[0-9]+ The string acpi genuineintel---intel64-family-6-model-58 is not a bug, not a warning, and certainly not a cause for alarm. It is a fingerprint – a piece of forensic evidence left by the Linux kernel to prove that the ACPI subsystem and the CPU driver have successfully identified and configured your Ivy Bridge server’s processor.
