Difference between revisions of "Google Summer of Code"
From gem5
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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 ( | + | # Sampling/fast-forwarding techniques |
| − | # Flash memory device model | + | #* This would have the most impact if it was coupled with (1) |
| + | # Flash memory device model (seems popular nowadays) | ||
Revision as of 15:24, 11 March 2008
All the ideas listed here will require some familiarity with Python and a good grasp of advanced C++ concepts.
- Build a direct execution CPU model based on the Linux Kernel Virtual Machine
- 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.
- Memory network models
- (e.g. Crossbar or Mesh)
- Directory Protocol
- 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
- Write a PLI interface to connect Verilog CPUs to the memory system.
- Sampling/fast-forwarding techniques
- This would have the most impact if it was coupled with (1)
- Flash memory device model (seems popular nowadays)
