Difference between revisions of "CPU Models"

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* [[SimpleCPU]] - A good place to start learning about how to fetch, decode, execute, and complete instructions in M5.
 
* [[SimpleCPU]] - A good place to start learning about how to fetch, decode, execute, and complete instructions in M5.
 
* [[O3CPU]] - Specific documentation on how all of the pipeline stages work, and how to modify and create new CPU models based on it.
 
* [[O3CPU]] - Specific documentation on how all of the pipeline stages work, and how to modify and create new CPU models based on it.
** [[O3CPU FAQ]] - In-depth questions about the O3CPU
 
 
* [[Checker]] - Details how to use it in your CPU model.
 
* [[Checker]] - Details how to use it in your CPU model.
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* [[InOrder | InOrderCPU]] - Specific documentation on how all of the pipeline stages work, and how to modify and create new CPU models based on it.
  
 
==Supporting classes==
 
==Supporting classes==
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==Interfaces==
 
==Interfaces==
 
* [[ThreadContext]] - The ThreadContext class.  Used to provide an interface for objects outside of the CPU to access the specific thread state.
 
* [[ThreadContext]] - The ThreadContext class.  Used to provide an interface for objects outside of the CPU to access the specific thread state.
* [[ExecContext]] - The ExecContext interface.  An implicit interface that is used by the ISA in order to access the CPU's architected state.
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* [[Execution_Basics#ExecContext|ExecContext]] - The ExecContext interface.  An implicit interface that is used by the ISA in order to access the CPU's architected state.
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==Miscellaneous==
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* [[Register Indexing]] - How the CPU models keep track of register indices between RISC and CISC ISAs.

Latest revision as of 19:36, 5 July 2011

  • SimpleCPU - A good place to start learning about how to fetch, decode, execute, and complete instructions in M5.
  • O3CPU - Specific documentation on how all of the pipeline stages work, and how to modify and create new CPU models based on it.
  • Checker - Details how to use it in your CPU model.
  • InOrderCPU - Specific documentation on how all of the pipeline stages work, and how to modify and create new CPU models based on it.

Supporting classes

  • StaticInst - Used to hold static information and methods about specific binary instructions, such as addq's or subq's.
  • DynInst - Used to hold dynamic information about instructions in the pipeline, such as the PC or predicted target.
  • ThreadState - Used to store thread information that is generic across CPU models.
  • SimpleThread - Used by simple CPU models to store architected state and provide the ThreadContext interface.

Interfaces

  • ThreadContext - The ThreadContext class. Used to provide an interface for objects outside of the CPU to access the specific thread state.
  • ExecContext - The ExecContext interface. An implicit interface that is used by the ISA in order to access the CPU's architected state.

Miscellaneous

  • Register Indexing - How the CPU models keep track of register indices between RISC and CISC ISAs.