Hi All, Technically, this is a broader question than just SPARC where I initially sent this. I'm sending this here and dropping the test patch as it was SPARC only and this is primarily a sysfs generic platform description question. Before SPARC M7, the notion of core_siblings on SPARC was both those CPUs that share a common highest level cache and the set of CPUs within a particular socket (share same package_id). This was also true on older x86 CPUs and perhaps most recent though my knowledge of x86 is dated. The idea of same package_id is stated in Documentation/cputopology.txt and programs such as lscpu have used this to find the number of sockets by counting the number of unique core_siblings_list entries. I suspect the reliance on that algorithm predates the ability to read package IDs directly which is simpler and preserves the platform assigned package ID versus an ID that is simply an incremented index based on order of discovery. The idea that it needs to represent shared common highest level cache comes from irqbalance, an important run-time performance enhancing daemon. irqbalance uses the following hierarchy of locality goodness: - shared common core (thread_siblings) - shared common cache (core_siblings) - shared common socket (CPUs with same physical_package_id) - shared common node (CPUS in same node) This layout perfectly describes the M7 and interestingly suggests that there are one or more other architectures that have reached the point where enough cores can be jammed into the same package that a shared high level cache is either not desirable or not worth the real estate/effort. Said differently, socket in the future will likely become less synonymous with shared cache and more synonymous with node. I'm still digging to see if and what those architectures are. The issue is that on newer SPARC HW both definitions can no longer be true and that choosing one versus the other will break differing sets of code. This can be illustrated as a choice between an unmodified lscpu spitting out nonsensical answers (although it currently can do that for different unrelated reasons) or an unmodified irqbalance incorrectly making cache-thrashing decisions. The number of important programs in each class is unknown, but either way some things will have to be fixed. As I believe the whole point of large SPARC servers is performance and the goal is to maximize linux performance, I would argue for not breaking what I would call the performance class of programs versus the topology description class. Rationale: - performance class breakage is harder to diagnose as it results in lost performance and tracing back to root cause is incredibly difficult. Topology description programs on the other hand spit out easily identified nonsense and can be modified in a manner that is actually more straight forward than the current algorithm while preserving architecturally neutral functional correctness (i.e. not hacks/workarounds). That is clearly a generalization and there are probably overlaps. It is all about trade-offs. Alternatively, new attributes could be added that represent collections of shared caches and programs such as irqbalance identified and fixed to parse the new hierarchy. -- To unsubscribe from this list: send the line "unsubscribe linux-arch" in the body of a message to majordomo@xxxxxxxxxxxxxxx More majordomo info at http://vger.kernel.org/majordomo-info.html