Heterogeneous core microarchitecture

摘要

Embodiments relate to a heterogeneous core microarchitecture. An aspect includes binding, by an operating system that is executing on a processor comprising a core comprising a heterogeneous microarchitecture comprising two or more flows, a job that is being executed by the operating system to a flow of the two or more flows. Another aspect includes issuing an instruction corresponding to the job with a tag indicating the binding of the job to which the instruction corresponds. Yet another aspect includes executing the instruction by the flow in the core that is indicated by the tag.

主权项

1. A computer system for implementing a heterogeneous core microarchitecture, the system comprising:
a memory; and a processor, communicatively coupled to said memory, the processor comprising a core comprising a heterogeneous microarchitecture comprising two or more flows, the computer system configured to perform a method comprising: binding, by an operating system running on a virtual machine that is executing on a processor comprising a core comprising a heterogeneous core microarchitecture comprising two or more flows, a job that is being executed by the operating system to a flow of the two or more flows, wherein the two or more flows comprise an energy efficient flow and a high performance flow, wherein the energy efficient flow and the high performance flow comprise distinct hardware, wherein the hardware associated with the energy efficient flow comprises at least one local instruction cache, at least one instruction pipeline, and an L1 data cache, wherein the instruction pipeline is coupled to the at least one local instruction cache and the L1 data cache; wherein the hardware associated with the high performance flow comprises a dedicated L1 instruction cache coupled to two 3-way flow dispatching units, the two a-way dispatching units being coupled to a plurality of execution units and an L1 data cache; wherein at least one L2 instruction cache is shared between the high performance flow and the energy efficient flow, wherein the L2 instruction cache is coupled to the dedicated L1 instruction cache of the high performance flow and the L2 instruction cache is coupled to the at least one local instruction cache of the energy efficient flow; wherein the L1 data cache of the high performance flow is coupled to a first L2 data cache and the L1 data cache of the energy efficient flow is coupled to a second L2 data cache; issuing an instruction corresponding to the job with a tag, wherein the tag is set by the operating system, indicating the binding of the job to which the instruction corresponds; determining, via a tag module, the tag associated with a received instruction; responsive to the determining, dispatching the instruction to an appropriate hardware according to the tag; wherein the processor comprises a plurality of cores, and wherein each core in the processor comprises the same microarchitecture; wherein each flow comprises a respective cache, and wherein coherency is maintained in the caches in the core during operation; and responsive to the dispatching, executing the instruction by the flow in the core that is indicated by the tag.