/* * ARM JUNO specific energy cost model data. There are no unit requirements for * the data. Data can be normalized to any reference point, but the * normalization must be consistent. That is, one bogo-joule/watt must be the * same quantity for all data, but we don't care what it is. */ /* static struct idle_state idle_states_cluster_a53[] = { */ /* { .power = 56 }, /\* arch_cpu_idle() (active idle) = WFI *\/ */ /* { .power = 56 }, /\* WFI *\/ */ /* { .power = 56 }, /\* cpu-sleep-0 *\/ */ /* { .power = 17 }, /\* cluster-sleep-0 *\/ */ /* }; */ /* static struct idle_state idle_states_cluster_a57[] = { */ /* { .power = 65 }, /\* arch_cpu_idle() (active idle) = WFI *\/ */ /* { .power = 65 }, /\* WFI *\/ */ /* { .power = 65 }, /\* cpu-sleep-0 *\/ */ /* { .power = 24 }, /\* cluster-sleep-0 *\/ */ /* }; */ /* static struct capacity_state cap_states_cluster_a53[] = { */ /* /\* Power per cluster *\/ */ /* { .cap = 235, .power = 26, }, /\* 450 MHz *\/ */ /* { .cap = 303, .power = 30, }, /\* 575 MHz *\/ */ /* { .cap = 368, .power = 39, }, /\* 700 MHz *\/ */ /* { .cap = 406, .power = 47, }, /\* 775 MHz *\/ */ /* { .cap = 447, .power = 57, }, /\* 850 Mhz *\/ */ /* }; */ /* static struct capacity_state cap_states_cluster_a57[] = { */ /* /\* Power per cluster *\/ */ /* { .cap = 417, .power = 24, }, /\* 450 MHz *\/ */ /* { .cap = 579, .power = 32, }, /\* 625 MHz *\/ */ /* { .cap = 744, .power = 43, }, /\* 800 MHz *\/ */ /* { .cap = 883, .power = 49, }, /\* 950 MHz *\/ */ /* { .cap = 1024, .power = 64, }, /\* 1100 MHz *\/ */ /* }; */ /* static struct sched_group_energy energy_cluster_a53 = { */ /* .nr_idle_states = ARRAY_SIZE(idle_states_cluster_a53), */ /* .idle_states = idle_states_cluster_a53, */ /* .nr_cap_states = ARRAY_SIZE(cap_states_cluster_a53), */ /* .cap_states = cap_states_cluster_a53, */ /* }; */ /* static struct sched_group_energy energy_cluster_a57 = { */ /* .nr_idle_states = ARRAY_SIZE(idle_states_cluster_a57), */ /* .idle_states = idle_states_cluster_a57, */ /* .nr_cap_states = ARRAY_SIZE(cap_states_cluster_a57), */ /* .cap_states = cap_states_cluster_a57, */ /* }; */ /* static struct idle_state idle_states_core_a53[] = { */ /* { .power = 6 }, /\* arch_cpu_idle() (active idle) = WFI *\/ */ /* { .power = 6 }, /\* WFI *\/ */ /* { .power = 0 }, /\* cpu-sleep-0 *\/ */ /* { .power = 0 }, /\* cluster-sleep-0 *\/ */ /* }; */ /* static struct idle_state idle_states_core_a57[] = { */ /* { .power = 15 }, /\* arch_cpu_idle() (active idle) = WFI *\/ */ /* { .power = 15 }, /\* WFI *\/ */ /* { .power = 0 }, /\* cpu-sleep-0 *\/ */ /* { .power = 0 }, /\* cluster-sleep-0 *\/ */ /* }; */ /* static struct capacity_state cap_states_core_a53[] = { */ /* /\* Power per cpu *\/ */ /* { .cap = 235, .power = 33, }, /\* 450 MHz *\/ */ /* { .cap = 302, .power = 46, }, /\* 575 MHz *\/ */ /* { .cap = 368, .power = 61, }, /\* 700 MHz *\/ */ /* { .cap = 406, .power = 76, }, /\* 775 MHz *\/ */ /* { .cap = 447, .power = 93, }, /\* 850 Mhz *\/ */ /* }; */ /* static struct capacity_state cap_states_core_a57[] = { */ /* /\* Power per cpu *\/ */ /* { .cap = 417, .power = 168, }, /\* 450 MHz *\/ */ /* { .cap = 579, .power = 251, }, /\* 625 MHz *\/ */ /* { .cap = 744, .power = 359, }, /\* 800 MHz *\/ */ /* { .cap = 883, .power = 479, }, /\* 950 MHz *\/ */ /* { .cap = 1024, .power = 616, }, /\* 1100 MHz *\/ */ /* }; */ energy-costs { CPU_COST_A72: core-cost0 { busy-cost-data = < 501 174 849 344 1023 526 >; idle-cost-data = < 48 48 0 0 >; }; CPU_COST_A53: core-cost1 { busy-cost-data = < 276 37 501 59 593 117 >; idle-cost-data = < 33 33 0 0 >; }; CLUSTER_COST_A72: cluster-cost0 { busy-cost-data = < 501 48 849 73 1024 107 >; idle-cost-data = < 48 48 48 18 >; }; CLUSTER_COST_A53: cluster-cost1 { busy-cost-data = < 276 41 501 86 593 107 >; idle-cost-data = < 41 41 41 14 >; }; };