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-rw-r--r--kernel/power/energy_model.c23
1 files changed, 8 insertions, 15 deletions
diff --git a/kernel/power/energy_model.c b/kernel/power/energy_model.c
index a332ccd829e2..97e62469a6b3 100644
--- a/kernel/power/energy_model.c
+++ b/kernel/power/energy_model.c
@@ -107,8 +107,7 @@ static void em_debug_remove_pd(struct device *dev) {}
static int em_create_perf_table(struct device *dev, struct em_perf_domain *pd,
int nr_states, struct em_data_callback *cb)
{
- unsigned long opp_eff, prev_opp_eff = ULONG_MAX;
- unsigned long power, freq, prev_freq = 0;
+ unsigned long power, freq, prev_freq = 0, prev_cost = ULONG_MAX;
struct em_perf_state *table;
int i, ret;
u64 fmax;
@@ -153,27 +152,21 @@ static int em_create_perf_table(struct device *dev, struct em_perf_domain *pd,
table[i].power = power;
table[i].frequency = prev_freq = freq;
-
- /*
- * The hertz/watts efficiency ratio should decrease as the
- * frequency grows on sane platforms. But this isn't always
- * true in practice so warn the user if a higher OPP is more
- * power efficient than a lower one.
- */
- opp_eff = freq / power;
- if (opp_eff >= prev_opp_eff)
- dev_dbg(dev, "EM: hertz/watts ratio non-monotonically decreasing: em_perf_state %d >= em_perf_state%d\n",
- i, i - 1);
- prev_opp_eff = opp_eff;
}
/* Compute the cost of each performance state. */
fmax = (u64) table[nr_states - 1].frequency;
- for (i = 0; i < nr_states; i++) {
+ for (i = nr_states - 1; i >= 0; i--) {
unsigned long power_res = em_scale_power(table[i].power);
table[i].cost = div64_u64(fmax * power_res,
table[i].frequency);
+ if (table[i].cost >= prev_cost) {
+ dev_dbg(dev, "EM: OPP:%lu is inefficient\n",
+ table[i].frequency);
+ } else {
+ prev_cost = table[i].cost;
+ }
}
pd->table = table;