Commit b521ae5d authored by Anirudh Mohan Kaushik's avatar Anirudh Mohan Kaushik


parent bedd7a27
# PMSI: Predictable MSI cache coherence protocol
This is the repository for the PMSI cache coherence protocol.
This is the gem5 code repository for Predictable MSI (PMSI) presented in our RTAS'17 paper: [Predictable Cache Coherence for Multi-core Real-time Systems] ().
# Getting started
* The Gem5 simulator has been modified to support predictable snoopy bus architecture, and trace based simulation.
* `$GEM5` refers to the top level directory where gem5 resides.
* File `$GEM5/build_opts/PMSI` contains information for building the PMSI system, and `$GEM5/configs/ruby/` provides information about the component (caches, network, DRAM) connections in the system. Note that these files do not need to be changed unless the cache hierarchy is extended.
* To build PMSI, execute `scons $GEM5/build/PMSI/gem5.opt -j8`. The `-j8` is to accelerate the build process.
# Memory trace simulation
* Gem5 has been extended to run memory trace based execution.
* The trace based simulation injects traces into the ruby memory model thereby bypassing the core/processor.
* Trace based simulation can be enabled by setting the `TRACE` flag in `src/cpu/testers/rubytest/Trace.hh`.
* The trace based simulation reads from a file `trace.trc` that consists of lines of requests of the form `Addr OP time`. OP is of type RD for read and WR for write, and time is a positive integer value that denotes the arrival time of the memory request to the memory hierarchy.
# Running PMSI
* To run PMSI, the following command line options need to be used for correct functioning: `--ruby, --cpu-type=timing, --topology=Crossbar --cpu-clock=xGHz --ruby-clock=yGHz`.
* Other options such as cache sizes, memory size, cache associativity, and number of cores can be configured accordingly.
* For binary/normal execution, supply the binary name and the associated arguments using the `-c` and `-o` flags respectively. For example, to run FFT of the Splash2 benchmark: `./build/X86_MSI_Snooping_One_Level_RT/gem5.opt --stats-file=FFT-pmsi-stats.out ./configs/example/ -I 50000000 --ruby -n4 --cpu-type=timing --l1d_size=16kB --l1i_size=16kB --l1d_assoc=1 --l1i_assoc=1 --mem-size=4194304kB --topology=Crossbar --cpu-clock=2GHz --ruby-clock=2GHz --mem-type=SimpleMemory -c $SPLASH/splash2/codes/kernels/fft/fft -o "-m 10 -p 4 -t"`
* For trace based execution, populate the `trace.trc` file with the necessary memory operations and execute: `./build/X86_MSI_Snooping_One_Level_RT/gem5.opt ./configs/example/ --ruby-clock=2GHz --ruby --cpu-clock=2GHz --topology=Crossbar --mem-type=SimpleMemory -n 4 --mem-size=4194304kB --wakeup_freq=1`.
# Predictable bus arbitration
* We extend Gem5 to support a snoopy bus with a predictable arbiter. The predictable aribiter operates in a time division multiplexed (TDM) manner.
* The `NPROC` and `SLOT_WIDTH` parameters in `src/cpu/testers/rubyTest/Trace.hh` control the number of requestors and the TDM slot width per requestor.
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