Difference between revisions of "Defining ISAs (as of M5 2.0 beta 3)"

From gem5
Jump to: navigation, search
Line 1: Line 1:
 
First, make sure you have basic understanding of the ISA description objects within the M5 framework. A good start is the [[The M5 ISA description language]] page.  
 
First, make sure you have basic understanding of the ISA description objects within the M5 framework. A good start is the [[The M5 ISA description language]] page.  
  
The easiest way is to derive a new C++ class of your CPU Model from M5 CPU Models that are already defined and the easiest model to start with is probably the 'AtomicSimpleCPU' located in the 'm5/src/cpu/simple' directory.
+
*Overview
 
+
Your new ISA description, MyISA, will need to generate correct instructions for the different CPU models. More specifically, your MyISA description is the primary generator for yoru
For example, one could copy the files from the 'm5/src/cpu/simple' and place them in their own CPU directory: m5/src/cpu/my_cpu.
 
 
 
'''After you create a separate directory for your code (e.g. 'm5/src/cpu/my_cpu'), there are a couple files that need to be updated:'''
 
*'''''m5/SConstruct''''': Add the name of your CPU model to the 'ALL_CPU_LIST'
 
 
 
*'''''m5/src/cpu/SConscript''''': Add your CPU model and the relevant files that need to be built in here
 
 
 
*'''''m5/src/cpu/static_inst.hh''''': Put a forward class declaration of your model in here
 
 
 
*'''''m5/src/cpu/cpu_models.py''''': Add in CPU Model-specific information for the ISA Parser. The ISA Parser will use this when referring to the "Execution Context" for executing instructions. For instance, the AtomicSimpleCPU's instructions get all of their information from the actual CPU (since it's a 1 CPI machine). Thus, instructions only need to know the current state or "Execution Context" of the 'AtomicSimpleCPU' object. However, the instructions in a O3CPU needed to know the register values (& other state) only known to that current instruction so it's "Execution Context" is the O3DynInst object. (check out the [[The M5 ISA description language | ISA Description Language documentation]] page for more details)
 
 
 
*'''''m5/src/python/objects/my_cpu.py''''': Create a python file (e.g. MyCPU.py) so that your CPU can be recognized as a simulation object. A good example to follow is the file 'O3CPU.py'.
 
 
 
*'''''m5/src/python/objects/__init__.py''''': Add the base name of your python file into the 'file_bases' list.
 
 
 
  
 
'''Now build your model:'''
 
'''Now build your model:'''

Revision as of 14:51, 17 May 2007

First, make sure you have basic understanding of the ISA description objects within the M5 framework. A good start is the The M5 ISA description language page.

  • Overview

Your new ISA description, MyISA, will need to generate correct instructions for the different CPU models. More specifically, your MyISA description is the primary generator for yoru

Now build your model:

scons build/ALPHA_SE/m5.debug CPU_MODELS=MY_CPU

If you have dual-core CPU use this to speed-up the compilation:

scons -j2 build/ALPHA_SE/m5.debug CPU_MODELS=MY_CPU


Create and edit configuration files for your model:

  • m5/configs/test/MyCPUConfig.py: Define a configuration class w/corresponding parameters for your model. Look to 'FullO3Config.py' in the same directory for an example of how to do this.
  • m5/configs/test/test.py: Import your model's configuration at the top of the file (i.e. 'import MyCPUConfig') and add in a parser option for your CPU model (e.g. '--my_cpu').


Test your model:

build/ALPHA_SE/m5.debug configs/example/se.py --my_cpu --cmd=<bin_path>