Commit 78eaf335 authored by Karol Herbst's avatar Karol Herbst Committed by Ben Skeggs

drm/nouveau/pll/gk104: fix PLL instability due to bad configuration with gddr5

This patch uses an approach closer to the nvidia driver to configure
both PLLs for high gddr5 memory clocks (usually above 2400MHz)

Previously nouveau used the one PLL as it was used for the lower clocks
and just adjusted the second PLL to get as close as possible to the
requested clock.  This means for my card, that I got a 4050 MHz clock
although 4008 MHz was requested.

Now the driver iterates over a list of PLL configuration also used by
the nvidia driver and then adjust the second PLL to get near the
requested clock.  Also it hold to some restriction I found while
analyzing the PLL configurations

This won't fix all gddr5 high clock issues itself, but it should be
fine on hybrid gpu systems as found on many laptops these days.  Also
switching while normal desktop usage should be a lot more stable than
before.

v2: move the pll code into ramgk104
Signed-off-by: default avatarKarol Herbst <nouveau@karolherbst.de>
Signed-off-by: default avatarBen Skeggs <bskeggs@redhat.com>
parent 0d42743d
......@@ -970,6 +970,67 @@ gk104_ram_calc_data(struct gk104_ram *ram, u32 khz, struct nvkm_ram_data *data)
return -EINVAL;
}
static int
gk104_calc_pll_output(int fN, int M, int N, int P, int clk)
{
return ((clk * N) + (((u16)(fN + 4096) * clk) >> 13)) / (M * P);
}
static int
gk104_pll_calc_hiclk(int target_khz, int crystal,
int *N1, int *fN1, int *M1, int *P1,
int *N2, int *M2, int *P2)
{
int best_clk = 0, best_err = target_khz, p_ref, n_ref;
bool upper = false;
*M1 = 1;
/* M has to be 1, otherwise it gets unstable */
*M2 = 1;
/* can be 1 or 2, sticking with 1 for simplicity */
*P2 = 1;
for (p_ref = 0x7; p_ref >= 0x5; --p_ref) {
for (n_ref = 0x25; n_ref <= 0x2b; ++n_ref) {
int cur_N, cur_clk, cur_err;
cur_clk = gk104_calc_pll_output(0, 1, n_ref, p_ref, crystal);
cur_N = target_khz / cur_clk;
cur_err = target_khz
- gk104_calc_pll_output(0xf000, 1, cur_N, 1, cur_clk);
/* we found a better combination */
if (cur_err < best_err) {
best_err = cur_err;
best_clk = cur_clk;
*N2 = cur_N;
*N1 = n_ref;
*P1 = p_ref;
upper = false;
}
cur_N += 1;
cur_err = gk104_calc_pll_output(0xf000, 1, cur_N, 1, cur_clk)
- target_khz;
if (cur_err < best_err) {
best_err = cur_err;
best_clk = cur_clk;
*N2 = cur_N;
*N1 = n_ref;
*P1 = p_ref;
upper = true;
}
}
}
/* adjust fN to get closer to the target clock */
*fN1 = (u16)((((best_err / *N2 * *P2) * (*P1 * *M1)) << 13) / crystal);
if (upper)
*fN1 = (u16)(1 - *fN1);
return gk104_calc_pll_output(*fN1, 1, *N1, *P1, crystal);
}
static int
gk104_ram_calc_xits(struct gk104_ram *ram, struct nvkm_ram_data *next)
{
......@@ -994,31 +1055,24 @@ gk104_ram_calc_xits(struct gk104_ram *ram, struct nvkm_ram_data *next)
* kepler boards, no idea how/why they're chosen.
*/
refclk = next->freq;
if (ram->mode == 2)
refclk = fuc->mempll.refclk;
/* calculate refpll coefficients */
ret = gt215_pll_calc(subdev, &fuc->refpll, refclk, &ram->N1,
&ram->fN1, &ram->M1, &ram->P1);
fuc->mempll.refclk = ret;
if (ret <= 0) {
nvkm_error(subdev, "unable to calc refpll\n");
return -EINVAL;
}
/* calculate mempll coefficients, if we're using it */
if (ram->mode == 2) {
/* post-divider doesn't work... the reg takes the values but
* appears to completely ignore it. there *is* a bit at
* bit 28 that appears to divide the clock by 2 if set.
*/
fuc->mempll.min_p = 1;
fuc->mempll.max_p = 2;
ret = gt215_pll_calc(subdev, &fuc->mempll, next->freq,
&ram->N2, NULL, &ram->M2, &ram->P2);
ret = gk104_pll_calc_hiclk(next->freq, subdev->device->crystal,
&ram->N1, &ram->fN1, &ram->M1, &ram->P1,
&ram->N2, &ram->M2, &ram->P2);
fuc->mempll.refclk = ret;
if (ret <= 0) {
nvkm_error(subdev, "unable to calc plls\n");
return -EINVAL;
}
nvkm_debug(subdev, "sucessfully calced PLLs for clock %i kHz"
" (refclock: %i kHz)\n", next->freq, ret);
} else {
/* calculate refpll coefficients */
ret = gt215_pll_calc(subdev, &fuc->refpll, refclk, &ram->N1,
&ram->fN1, &ram->M1, &ram->P1);
fuc->mempll.refclk = ret;
if (ret <= 0) {
nvkm_error(subdev, "unable to calc mempll\n");
nvkm_error(subdev, "unable to calc refpll\n");
return -EINVAL;
}
}
......
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