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/*
* Copyright (c) 2014-2016, NVIDIA CORPORATION. All rights reserved.
*
* Permission is hereby granted, free of charge, to any person obtaining a
* copy of this software and associated documentation files (the "Software"),
* to deal in the Software without restriction, including without limitation
* the rights to use, copy, modify, merge, publish, distribute, sublicense,
* and/or sell copies of the Software, and to permit persons to whom the
* Software is furnished to do so, subject to the following conditions:
*
* The above copyright notice and this permission notice shall be included in
* all copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL
* THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
* FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER
* DEALINGS IN THE SOFTWARE.
*/
#define gk20a_volt(p) container_of((p), struct gk20a_volt, base)
#include "priv.h"
#include <core/tegra.h>
#include "gk20a.h"
static const struct cvb_coef gk20a_cvb_coef[] = {
/* MHz, c0, c1, c2, c3, c4, c5 */
/* 72 */ { 1209886, -36468, 515, 417, -13123, 203},
/* 108 */ { 1130804, -27659, 296, 298, -10834, 221},
/* 180 */ { 1162871, -27110, 247, 238, -10681, 268},
/* 252 */ { 1220458, -28654, 247, 179, -10376, 298},
/* 324 */ { 1280953, -30204, 247, 119, -9766, 304},
/* 396 */ { 1344547, -31777, 247, 119, -8545, 292},
/* 468 */ { 1420168, -34227, 269, 60, -7172, 256},
/* 540 */ { 1490757, -35955, 274, 60, -5188, 197},
/* 612 */ { 1599112, -42583, 398, 0, -1831, 119},
/* 648 */ { 1366986, -16459, -274, 0, -3204, 72},
/* 684 */ { 1391884, -17078, -274, -60, -1526, 30},
/* 708 */ { 1415522, -17497, -274, -60, -458, 0},
/* 756 */ { 1464061, -18331, -274, -119, 1831, -72},
/* 804 */ { 1524225, -20064, -254, -119, 4272, -155},
/* 852 */ { 1608418, -21643, -269, 0, 763, -48},
};
/**
* cvb_mv = ((c2 * speedo / s_scale + c1) * speedo / s_scale + c0)
*/
static inline int
gk20a_volt_get_cvb_voltage(int speedo, int s_scale, const struct cvb_coef *coef)
{
int mv;
mv = DIV_ROUND_CLOSEST(coef->c2 * speedo, s_scale);
mv = DIV_ROUND_CLOSEST((mv + coef->c1) * speedo, s_scale) + coef->c0;
return mv;
}
/**
* cvb_t_mv =
* ((c2 * speedo / s_scale + c1) * speedo / s_scale + c0) +
* ((c3 * speedo / s_scale + c4 + c5 * T / t_scale) * T / t_scale)
*/
static inline int
gk20a_volt_get_cvb_t_voltage(int speedo, int temp, int s_scale, int t_scale,
const struct cvb_coef *coef)
{
int cvb_mv, mv;
cvb_mv = gk20a_volt_get_cvb_voltage(speedo, s_scale, coef);
mv = DIV_ROUND_CLOSEST(coef->c3 * speedo, s_scale) + coef->c4 +
DIV_ROUND_CLOSEST(coef->c5 * temp, t_scale);
mv = DIV_ROUND_CLOSEST(mv * temp, t_scale) + cvb_mv;
return mv;
}
static int
gk20a_volt_calc_voltage(const struct cvb_coef *coef, int speedo)
{
static const int v_scale = 1000;
int mv;
mv = gk20a_volt_get_cvb_t_voltage(speedo, -10, 100, 10, coef);
mv = DIV_ROUND_UP(mv, v_scale);
return mv * 1000;
}
static int
gk20a_volt_vid_get(struct nvkm_volt *base)
{
struct gk20a_volt *volt = gk20a_volt(base);
int i, uv;
uv = regulator_get_voltage(volt->vdd);
for (i = 0; i < volt->base.vid_nr; i++)
if (volt->base.vid[i].uv >= uv)
return i;
return -EINVAL;
}
static int
gk20a_volt_vid_set(struct nvkm_volt *base, u8 vid)
{
struct gk20a_volt *volt = gk20a_volt(base);
struct nvkm_subdev *subdev = &volt->base.subdev;
nvkm_debug(subdev, "set voltage as %duv\n", volt->base.vid[vid].uv);
return regulator_set_voltage(volt->vdd, volt->base.vid[vid].uv, 1200000);
}
static int
gk20a_volt_set_id(struct nvkm_volt *base, u8 id, int condition)
{
struct gk20a_volt *volt = gk20a_volt(base);
struct nvkm_subdev *subdev = &volt->base.subdev;
int prev_uv = regulator_get_voltage(volt->vdd);
int target_uv = volt->base.vid[id].uv;
int ret;
nvkm_debug(subdev, "prev=%d, target=%d, condition=%d\n",
prev_uv, target_uv, condition);
if (!condition ||
(condition < 0 && target_uv < prev_uv) ||
(condition > 0 && target_uv > prev_uv)) {
ret = gk20a_volt_vid_set(&volt->base, volt->base.vid[id].vid);
} else {
ret = 0;
}
return ret;
}
static const struct nvkm_volt_func
gk20a_volt = {
.vid_get = gk20a_volt_vid_get,
.vid_set = gk20a_volt_vid_set,
.set_id = gk20a_volt_set_id,
};
int
gk20a_volt_ctor(struct nvkm_device *device, enum nvkm_subdev_type type, int inst,
const struct cvb_coef *coefs, int nb_coefs,
int vmin, struct gk20a_volt *volt)
{
struct nvkm_device_tegra *tdev = device->func->tegra(device);
int i, uv;
nvkm_volt_ctor(&gk20a_volt, device, type, inst, &volt->base);
uv = regulator_get_voltage(tdev->vdd);
nvkm_debug(&volt->base.subdev, "the default voltage is %duV\n", uv);
volt->vdd = tdev->vdd;
volt->base.vid_nr = nb_coefs;
for (i = 0; i < volt->base.vid_nr; i++) {
volt->base.vid[i].vid = i;
volt->base.vid[i].uv = max(
gk20a_volt_calc_voltage(&coefs[i], tdev->gpu_speedo),
vmin);
nvkm_debug(&volt->base.subdev, "%2d: vid=%d, uv=%d\n", i,
volt->base.vid[i].vid, volt->base.vid[i].uv);
}
return 0;
}
int
gk20a_volt_new(struct nvkm_device *device, enum nvkm_subdev_type type, int inst, struct nvkm_volt **pvolt)
{
struct gk20a_volt *volt;
volt = kzalloc(sizeof(*volt), GFP_KERNEL);
if (!volt)
return -ENOMEM;
*pvolt = &volt->base;
return gk20a_volt_ctor(device, type, inst, gk20a_cvb_coef,
ARRAY_SIZE(gk20a_cvb_coef), 0, volt);
}
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