Software: Difference between revisions
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== GitHUB page == | == GitHUB page == | ||
Drexel VANDAL GitHub: | Drexel VANDAL GitHub: https://github.com/VANDAL | ||
== SynchroTrace== | == SynchroTrace == | ||
[https://github.com/VANDAL/SynchroTrace-gem5 git.io/synchrotrace] | [https://github.com/VANDAL/SynchroTrace-gem5 git.io/synchrotrace] | ||
| Line 10: | Line 10: | ||
For details and download information see: [[SynchroTrace]] | For details and download information see: [[SynchroTrace]] | ||
== Prism == | |||
[https://github.com/VANDAL/prism] | |||
Prism is a super-cool™ framework for easily analyzing how an application runs. | |||
If you want to easily look at memory operations, function traces, IOPs/FLOPs, et al, check out Prism. | |||
We have used it internally for workload-guided EDA tool flows, on-chip routing, thread-mapping, and in the design of architectural simulators. | |||
== SLECTS == | == SLECTS == | ||
Revision as of 12:53, 11 March 2018
GitHUB page
Drexel VANDAL GitHub: https://github.com/VANDAL
SynchroTrace
SynchroTrace is a two-step trace-driven simulation methodology that enables efficient design space exploration of computing units (CMPs, MPSoCs, HPC, etc.).
For details and download information see: SynchroTrace
Prism
Prism is a super-cool™ framework for easily analyzing how an application runs. If you want to easily look at memory operations, function traces, IOPs/FLOPs, et al, check out Prism.
We have used it internally for workload-guided EDA tool flows, on-chip routing, thread-mapping, and in the design of architectural simulators.
SLECTS
Implementing a slew-driven clock tree synthesis methodology.
For details see: SLECTS
Rotary Resonant Clock Synthesizer
A rotary resonant clock synthesizer in Cadence.
For details see: RotaSyn
