Searched hist:11420 (Results 1 - 17 of 17) sorted by relevance
| /gem5/src/sim/ | ||
| H A D | linear_solver.cc | 11420:b48c0ba4f524 Tue May 12 05:26:00 EDT 2015 David Guillen Fandos <david.guillen@arm.com> sim: Adding thermal model support This patch adds basic thermal support to gem5. It models energy dissipation through a circuital equivalent, which allows us to use RC networks. This lays down the basic infrastructure to do so, but it does not "work" due to the lack of power models. For now some hardcoded number is used as a PoC. The solver is embedded in the patch. |
| H A D | linear_solver.hh | 11420:b48c0ba4f524 Tue May 12 05:26:00 EDT 2015 David Guillen Fandos <david.guillen@arm.com> sim: Adding thermal model support This patch adds basic thermal support to gem5. It models energy dissipation through a circuital equivalent, which allows us to use RC networks. This lays down the basic infrastructure to do so, but it does not "work" due to the lack of power models. For now some hardcoded number is used as a PoC. The solver is embedded in the patch. |
| H A D | SubSystem.py | 11420:b48c0ba4f524 Tue May 12 05:26:00 EDT 2015 David Guillen Fandos <david.guillen@arm.com> sim: Adding thermal model support This patch adds basic thermal support to gem5. It models energy dissipation through a circuital equivalent, which allows us to use RC networks. This lays down the basic infrastructure to do so, but it does not "work" due to the lack of power models. For now some hardcoded number is used as a PoC. The solver is embedded in the patch. |
| H A D | sub_system.cc | 11420:b48c0ba4f524 Tue May 12 05:26:00 EDT 2015 David Guillen Fandos <david.guillen@arm.com> sim: Adding thermal model support This patch adds basic thermal support to gem5. It models energy dissipation through a circuital equivalent, which allows us to use RC networks. This lays down the basic infrastructure to do so, but it does not "work" due to the lack of power models. For now some hardcoded number is used as a PoC. The solver is embedded in the patch. |
| H A D | sub_system.hh | 11420:b48c0ba4f524 Tue May 12 05:26:00 EDT 2015 David Guillen Fandos <david.guillen@arm.com> sim: Adding thermal model support This patch adds basic thermal support to gem5. It models energy dissipation through a circuital equivalent, which allows us to use RC networks. This lays down the basic infrastructure to do so, but it does not "work" due to the lack of power models. For now some hardcoded number is used as a PoC. The solver is embedded in the patch. |
| H A D | System.py | 11420:b48c0ba4f524 Tue May 12 05:26:00 EDT 2015 David Guillen Fandos <david.guillen@arm.com> sim: Adding thermal model support This patch adds basic thermal support to gem5. It models energy dissipation through a circuital equivalent, which allows us to use RC networks. This lays down the basic infrastructure to do so, but it does not "work" due to the lack of power models. For now some hardcoded number is used as a PoC. The solver is embedded in the patch. |
| H A D | SConscript | 11420:b48c0ba4f524 Tue May 12 05:26:00 EDT 2015 David Guillen Fandos <david.guillen@arm.com> sim: Adding thermal model support This patch adds basic thermal support to gem5. It models energy dissipation through a circuital equivalent, which allows us to use RC networks. This lays down the basic infrastructure to do so, but it does not "work" due to the lack of power models. For now some hardcoded number is used as a PoC. The solver is embedded in the patch. |
| H A D | system.hh | 11420:b48c0ba4f524 Tue May 12 05:26:00 EDT 2015 David Guillen Fandos <david.guillen@arm.com> sim: Adding thermal model support This patch adds basic thermal support to gem5. It models energy dissipation through a circuital equivalent, which allows us to use RC networks. This lays down the basic infrastructure to do so, but it does not "work" due to the lack of power models. For now some hardcoded number is used as a PoC. The solver is embedded in the patch. |
| H A D | system.cc | 11420:b48c0ba4f524 Tue May 12 05:26:00 EDT 2015 David Guillen Fandos <david.guillen@arm.com> sim: Adding thermal model support This patch adds basic thermal support to gem5. It models energy dissipation through a circuital equivalent, which allows us to use RC networks. This lays down the basic infrastructure to do so, but it does not "work" due to the lack of power models. For now some hardcoded number is used as a PoC. The solver is embedded in the patch. |
| /gem5/src/sim/power/ | ||
| H A D | thermal_entity.hh | 11420:b48c0ba4f524 Tue May 12 05:26:00 EDT 2015 David Guillen Fandos <david.guillen@arm.com> sim: Adding thermal model support This patch adds basic thermal support to gem5. It models energy dissipation through a circuital equivalent, which allows us to use RC networks. This lays down the basic infrastructure to do so, but it does not "work" due to the lack of power models. For now some hardcoded number is used as a PoC. The solver is embedded in the patch. |
| H A D | thermal_domain.hh | 11420:b48c0ba4f524 Tue May 12 05:26:00 EDT 2015 David Guillen Fandos <david.guillen@arm.com> sim: Adding thermal model support This patch adds basic thermal support to gem5. It models energy dissipation through a circuital equivalent, which allows us to use RC networks. This lays down the basic infrastructure to do so, but it does not "work" due to the lack of power models. For now some hardcoded number is used as a PoC. The solver is embedded in the patch. |
| H A D | ThermalDomain.py | 11420:b48c0ba4f524 Tue May 12 05:26:00 EDT 2015 David Guillen Fandos <david.guillen@arm.com> sim: Adding thermal model support This patch adds basic thermal support to gem5. It models energy dissipation through a circuital equivalent, which allows us to use RC networks. This lays down the basic infrastructure to do so, but it does not "work" due to the lack of power models. For now some hardcoded number is used as a PoC. The solver is embedded in the patch. |
| H A D | thermal_model.cc | 11420:b48c0ba4f524 Tue May 12 05:26:00 EDT 2015 David Guillen Fandos <david.guillen@arm.com> sim: Adding thermal model support This patch adds basic thermal support to gem5. It models energy dissipation through a circuital equivalent, which allows us to use RC networks. This lays down the basic infrastructure to do so, but it does not "work" due to the lack of power models. For now some hardcoded number is used as a PoC. The solver is embedded in the patch. |
| H A D | thermal_domain.cc | 11420:b48c0ba4f524 Tue May 12 05:26:00 EDT 2015 David Guillen Fandos <david.guillen@arm.com> sim: Adding thermal model support This patch adds basic thermal support to gem5. It models energy dissipation through a circuital equivalent, which allows us to use RC networks. This lays down the basic infrastructure to do so, but it does not "work" due to the lack of power models. For now some hardcoded number is used as a PoC. The solver is embedded in the patch. |
| H A D | SConscript | 11420:b48c0ba4f524 Tue May 12 05:26:00 EDT 2015 David Guillen Fandos <david.guillen@arm.com> sim: Adding thermal model support This patch adds basic thermal support to gem5. It models energy dissipation through a circuital equivalent, which allows us to use RC networks. This lays down the basic infrastructure to do so, but it does not "work" due to the lack of power models. For now some hardcoded number is used as a PoC. The solver is embedded in the patch. |
| H A D | thermal_model.hh | 11420:b48c0ba4f524 Tue May 12 05:26:00 EDT 2015 David Guillen Fandos <david.guillen@arm.com> sim: Adding thermal model support This patch adds basic thermal support to gem5. It models energy dissipation through a circuital equivalent, which allows us to use RC networks. This lays down the basic infrastructure to do so, but it does not "work" due to the lack of power models. For now some hardcoded number is used as a PoC. The solver is embedded in the patch. |
| H A D | ThermalModel.py | 11420:b48c0ba4f524 Tue May 12 05:26:00 EDT 2015 David Guillen Fandos <david.guillen@arm.com> sim: Adding thermal model support This patch adds basic thermal support to gem5. It models energy dissipation through a circuital equivalent, which allows us to use RC networks. This lays down the basic infrastructure to do so, but it does not "work" due to the lack of power models. For now some hardcoded number is used as a PoC. The solver is embedded in the patch. |
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