Difference between revisions of "Google Summer of Code"

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#* Korey has one he did at MIPS, I don't know about it's features, but it's SE only  as well
 
#* Korey has one he did at MIPS, I don't know about it's features, but it's SE only  as well
 
# Write a PLI interface to connect Verilog CPUs to the memory system.
 
# Write a PLI interface to connect Verilog CPUs to the memory system.
# Sampling/fast-forwarding techniques (making sure ours works, maybe adding in some new ones)
+
# Sampling/fast-forwarding techniques
# Flash memory device model? (seems popular nowadays)
+
#* This would have the most impact if it was coupled with (1)
 +
# Flash memory device model (seems popular nowadays)

Revision as of 14:24, 11 March 2008

All the ideas listed here will require some familiarity with Python and a good grasp of advanced C++ concepts.

  1. Build a direct execution CPU model based on the Linux Kernel Virtual Machine
  2. Parallelize M5
    • Use the Wisconsin Wind Tunnel as a guide
    • This actually isn't as bad as it sounds as all objects schedule their own events and there are limited ways they can interact with other objects in the system.
  3. Memory network models
    • (e.g. Crossbar or Mesh)
  4. Directory Protocol
  5. Real In-order core model
    • Kevin has one that works to some degree in SE, it doesn't have functional units yet, but it does have variable latency stages and such
    • Korey has one he did at MIPS, I don't know about it's features, but it's SE only as well
  6. Write a PLI interface to connect Verilog CPUs to the memory system.
  7. Sampling/fast-forwarding techniques
    • This would have the most impact if it was coupled with (1)
  8. Flash memory device model (seems popular nowadays)