This source file includes following definitions.
- gk20a_pmu_dvfs_target
- gk20a_pmu_dvfs_get_cur_state
- gk20a_pmu_dvfs_get_target_state
- gk20a_pmu_dvfs_get_dev_status
- gk20a_pmu_dvfs_reset_dev_status
- gk20a_pmu_dvfs_work
- gk20a_pmu_fini
- gk20a_pmu_init
- gk20a_pmu_new
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21
22 #define gk20a_pmu(p) container_of((p), struct gk20a_pmu, base)
23 #include "priv.h"
24
25 #include <subdev/clk.h>
26 #include <subdev/timer.h>
27 #include <subdev/volt.h>
28
29 #define BUSY_SLOT 0
30 #define CLK_SLOT 7
31
32 struct gk20a_pmu_dvfs_data {
33 int p_load_target;
34 int p_load_max;
35 int p_smooth;
36 unsigned int avg_load;
37 };
38
39 struct gk20a_pmu {
40 struct nvkm_pmu base;
41 struct nvkm_alarm alarm;
42 struct gk20a_pmu_dvfs_data *data;
43 };
44
45 struct gk20a_pmu_dvfs_dev_status {
46 u32 total;
47 u32 busy;
48 };
49
50 static int
51 gk20a_pmu_dvfs_target(struct gk20a_pmu *pmu, int *state)
52 {
53 struct nvkm_clk *clk = pmu->base.subdev.device->clk;
54
55 return nvkm_clk_astate(clk, *state, 0, false);
56 }
57
58 static void
59 gk20a_pmu_dvfs_get_cur_state(struct gk20a_pmu *pmu, int *state)
60 {
61 struct nvkm_clk *clk = pmu->base.subdev.device->clk;
62
63 *state = clk->pstate;
64 }
65
66 static int
67 gk20a_pmu_dvfs_get_target_state(struct gk20a_pmu *pmu,
68 int *state, int load)
69 {
70 struct gk20a_pmu_dvfs_data *data = pmu->data;
71 struct nvkm_clk *clk = pmu->base.subdev.device->clk;
72 int cur_level, level;
73
74
75 level = cur_level = clk->pstate;
76
77 if (load > data->p_load_max) {
78 level = min(clk->state_nr - 1, level + (clk->state_nr / 3));
79 } else {
80 level += ((load - data->p_load_target) * 10 /
81 data->p_load_target) / 2;
82 level = max(0, level);
83 level = min(clk->state_nr - 1, level);
84 }
85
86 nvkm_trace(&pmu->base.subdev, "cur level = %d, new level = %d\n",
87 cur_level, level);
88
89 *state = level;
90
91 return (level != cur_level);
92 }
93
94 static void
95 gk20a_pmu_dvfs_get_dev_status(struct gk20a_pmu *pmu,
96 struct gk20a_pmu_dvfs_dev_status *status)
97 {
98 struct nvkm_falcon *falcon = pmu->base.falcon;
99
100 status->busy = nvkm_falcon_rd32(falcon, 0x508 + (BUSY_SLOT * 0x10));
101 status->total= nvkm_falcon_rd32(falcon, 0x508 + (CLK_SLOT * 0x10));
102 }
103
104 static void
105 gk20a_pmu_dvfs_reset_dev_status(struct gk20a_pmu *pmu)
106 {
107 struct nvkm_falcon *falcon = pmu->base.falcon;
108
109 nvkm_falcon_wr32(falcon, 0x508 + (BUSY_SLOT * 0x10), 0x80000000);
110 nvkm_falcon_wr32(falcon, 0x508 + (CLK_SLOT * 0x10), 0x80000000);
111 }
112
113 static void
114 gk20a_pmu_dvfs_work(struct nvkm_alarm *alarm)
115 {
116 struct gk20a_pmu *pmu =
117 container_of(alarm, struct gk20a_pmu, alarm);
118 struct gk20a_pmu_dvfs_data *data = pmu->data;
119 struct gk20a_pmu_dvfs_dev_status status;
120 struct nvkm_subdev *subdev = &pmu->base.subdev;
121 struct nvkm_device *device = subdev->device;
122 struct nvkm_clk *clk = device->clk;
123 struct nvkm_timer *tmr = device->timer;
124 struct nvkm_volt *volt = device->volt;
125 u32 utilization = 0;
126 int state;
127
128
129
130
131
132 if (!clk || !volt)
133 goto resched;
134
135 gk20a_pmu_dvfs_get_dev_status(pmu, &status);
136
137 if (status.total)
138 utilization = div_u64((u64)status.busy * 100, status.total);
139
140 data->avg_load = (data->p_smooth * data->avg_load) + utilization;
141 data->avg_load /= data->p_smooth + 1;
142 nvkm_trace(subdev, "utilization = %d %%, avg_load = %d %%\n",
143 utilization, data->avg_load);
144
145 gk20a_pmu_dvfs_get_cur_state(pmu, &state);
146
147 if (gk20a_pmu_dvfs_get_target_state(pmu, &state, data->avg_load)) {
148 nvkm_trace(subdev, "set new state to %d\n", state);
149 gk20a_pmu_dvfs_target(pmu, &state);
150 }
151
152 resched:
153 gk20a_pmu_dvfs_reset_dev_status(pmu);
154 nvkm_timer_alarm(tmr, 100000000, alarm);
155 }
156
157 static void
158 gk20a_pmu_fini(struct nvkm_pmu *pmu)
159 {
160 struct gk20a_pmu *gpmu = gk20a_pmu(pmu);
161 nvkm_timer_alarm(pmu->subdev.device->timer, 0, &gpmu->alarm);
162
163 nvkm_falcon_put(pmu->falcon, &pmu->subdev);
164 }
165
166 static int
167 gk20a_pmu_init(struct nvkm_pmu *pmu)
168 {
169 struct gk20a_pmu *gpmu = gk20a_pmu(pmu);
170 struct nvkm_subdev *subdev = &pmu->subdev;
171 struct nvkm_device *device = pmu->subdev.device;
172 struct nvkm_falcon *falcon = pmu->falcon;
173 int ret;
174
175 ret = nvkm_falcon_get(falcon, subdev);
176 if (ret) {
177 nvkm_error(subdev, "cannot acquire %s falcon!\n", falcon->name);
178 return ret;
179 }
180
181
182 nvkm_falcon_wr32(falcon, 0x504 + (BUSY_SLOT * 0x10), 0x00200001);
183 nvkm_falcon_wr32(falcon, 0x50c + (BUSY_SLOT * 0x10), 0x00000002);
184 nvkm_falcon_wr32(falcon, 0x50c + (CLK_SLOT * 0x10), 0x00000003);
185
186 nvkm_timer_alarm(device->timer, 2000000000, &gpmu->alarm);
187 return 0;
188 }
189
190 static struct gk20a_pmu_dvfs_data
191 gk20a_dvfs_data= {
192 .p_load_target = 70,
193 .p_load_max = 90,
194 .p_smooth = 1,
195 };
196
197 static const struct nvkm_pmu_func
198 gk20a_pmu = {
199 .enabled = gf100_pmu_enabled,
200 .init = gk20a_pmu_init,
201 .fini = gk20a_pmu_fini,
202 .reset = gf100_pmu_reset,
203 };
204
205 int
206 gk20a_pmu_new(struct nvkm_device *device, int index, struct nvkm_pmu **ppmu)
207 {
208 struct gk20a_pmu *pmu;
209
210 if (!(pmu = kzalloc(sizeof(*pmu), GFP_KERNEL)))
211 return -ENOMEM;
212 *ppmu = &pmu->base;
213
214 nvkm_pmu_ctor(&gk20a_pmu, device, index, &pmu->base);
215
216 pmu->data = &gk20a_dvfs_data;
217 nvkm_alarm_init(&pmu->alarm, gk20a_pmu_dvfs_work);
218
219 return 0;
220 }