Posts Tagged ‘Sub ID

System Topology Enumeration Using CPUID Extended Topology Leaf

The algorithm of system topology enumeration can be summarized as three phase of operation:

  1. Derive “mask width” constants that will be used to extract each Sub IDs.
  2. Gather the unique APIC IDs of each logical processor in the system, and extract/decompose each APIC ID into three sets of Sub IDs.
  3. Analyze the relationship of hierarchical Sub IDs to establish mapping tables between OS’s thread management services according to three hierarchical levels of processor topology.

Table 1 Modular Structure of Deriving System Topology Enumeration Information

Table 1 shows an example of the basic structure of the three phases of system wide topology as applied to processor topology and cache topology.  Figure 1 outlines the procedures of querying CPUID leaf 11 for the x2APIC ID and extracting sub IDs corresponding to the “SMT”, “Core”, “physical package” levels of the hierarchy.

Figure 1 Procedures to Extract Sub IDs from the x2APIC ID of Each Logical Processor

System topology enumeration at the application level using CPUID involves executing CPUID instruction on each logical processor in the system. This implies context switching using services provided by an OS. On-demand context switching by user code generally relies on a thread affinity management API provided by the OS. The capability and limitation of thread affinity API by different OS vary. For example, in some OS, the thread affinity API has a limit of 32 or 64 logical processors. It is expected that enhancement to thread affinity API to manage larger number of logical processor will be available in future versions.

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