1 /*
2 * Copyright 1993-2003 NVIDIA, Corporation
3 * Copyright 2007-2009 Stuart Bennett
4 *
5 * Permission is hereby granted, free of charge, to any person obtaining a
6 * copy of this software and associated documentation files (the "Software"),
7 * to deal in the Software without restriction, including without limitation
8 * the rights to use, copy, modify, merge, publish, distribute, sublicense,
9 * and/or sell copies of the Software, and to permit persons to whom the
10 * Software is furnished to do so, subject to the following conditions:
11 *
12 * The above copyright notice and this permission notice shall be included in
13 * all copies or substantial portions of the Software.
14 *
15 * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
16 * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
17 * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL
18 * THE AUTHORS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY,
19 * WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF
20 * OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
21 * SOFTWARE.
22 */
23 #include "pll.h"
24
25 #include <subdev/bios.h>
26 #include <subdev/bios/pll.h>
27
28 static int
getMNP_single(struct nvkm_subdev * subdev,struct nvbios_pll * info,int clk,int * pN,int * pM,int * pP)29 getMNP_single(struct nvkm_subdev *subdev, struct nvbios_pll *info, int clk,
30 int *pN, int *pM, int *pP)
31 {
32 /* Find M, N and P for a single stage PLL
33 *
34 * Note that some bioses (NV3x) have lookup tables of precomputed MNP
35 * values, but we're too lazy to use those atm
36 *
37 * "clk" parameter in kHz
38 * returns calculated clock
39 */
40 struct nvkm_bios *bios = subdev->device->bios;
41 int minvco = info->vco1.min_freq, maxvco = info->vco1.max_freq;
42 int minM = info->vco1.min_m, maxM = info->vco1.max_m;
43 int minN = info->vco1.min_n, maxN = info->vco1.max_n;
44 int minU = info->vco1.min_inputfreq;
45 int maxU = info->vco1.max_inputfreq;
46 int minP = info->min_p;
47 int maxP = info->max_p_usable;
48 int crystal = info->refclk;
49 int M, N, thisP, P;
50 int clkP, calcclk;
51 int delta, bestdelta = INT_MAX;
52 int bestclk = 0;
53
54 /* this division verified for nv20, nv18, nv28 (Haiku), and nv34 */
55 /* possibly correlated with introduction of 27MHz crystal */
56 if (bios->version.major < 0x60) {
57 int cv = bios->version.chip;
58 if (cv < 0x17 || cv == 0x1a || cv == 0x20) {
59 if (clk > 250000)
60 maxM = 6;
61 if (clk > 340000)
62 maxM = 2;
63 } else if (cv < 0x40) {
64 if (clk > 150000)
65 maxM = 6;
66 if (clk > 200000)
67 maxM = 4;
68 if (clk > 340000)
69 maxM = 2;
70 }
71 }
72
73 P = 1 << maxP;
74 if ((clk * P) < minvco) {
75 minvco = clk * maxP;
76 maxvco = minvco * 2;
77 }
78
79 if (clk + clk/200 > maxvco) /* +0.5% */
80 maxvco = clk + clk/200;
81
82 /* NV34 goes maxlog2P->0, NV20 goes 0->maxlog2P */
83 for (thisP = minP; thisP <= maxP; thisP++) {
84 P = 1 << thisP;
85 clkP = clk * P;
86
87 if (clkP < minvco)
88 continue;
89 if (clkP > maxvco)
90 return bestclk;
91
92 for (M = minM; M <= maxM; M++) {
93 if (crystal/M < minU)
94 return bestclk;
95 if (crystal/M > maxU)
96 continue;
97
98 /* add crystal/2 to round better */
99 N = (clkP * M + crystal/2) / crystal;
100
101 if (N < minN)
102 continue;
103 if (N > maxN)
104 break;
105
106 /* more rounding additions */
107 calcclk = ((N * crystal + P/2) / P + M/2) / M;
108 delta = abs(calcclk - clk);
109 /* we do an exhaustive search rather than terminating
110 * on an optimality condition...
111 */
112 if (delta < bestdelta) {
113 bestdelta = delta;
114 bestclk = calcclk;
115 *pN = N;
116 *pM = M;
117 *pP = thisP;
118 if (delta == 0) /* except this one */
119 return bestclk;
120 }
121 }
122 }
123
124 return bestclk;
125 }
126
127 static int
getMNP_double(struct nvkm_subdev * subdev,struct nvbios_pll * info,int clk,int * pN1,int * pM1,int * pN2,int * pM2,int * pP)128 getMNP_double(struct nvkm_subdev *subdev, struct nvbios_pll *info, int clk,
129 int *pN1, int *pM1, int *pN2, int *pM2, int *pP)
130 {
131 /* Find M, N and P for a two stage PLL
132 *
133 * Note that some bioses (NV30+) have lookup tables of precomputed MNP
134 * values, but we're too lazy to use those atm
135 *
136 * "clk" parameter in kHz
137 * returns calculated clock
138 */
139 int chip_version = subdev->device->bios->version.chip;
140 int minvco1 = info->vco1.min_freq, maxvco1 = info->vco1.max_freq;
141 int minvco2 = info->vco2.min_freq, maxvco2 = info->vco2.max_freq;
142 int minU1 = info->vco1.min_inputfreq, minU2 = info->vco2.min_inputfreq;
143 int maxU1 = info->vco1.max_inputfreq, maxU2 = info->vco2.max_inputfreq;
144 int minM1 = info->vco1.min_m, maxM1 = info->vco1.max_m;
145 int minN1 = info->vco1.min_n, maxN1 = info->vco1.max_n;
146 int minM2 = info->vco2.min_m, maxM2 = info->vco2.max_m;
147 int minN2 = info->vco2.min_n, maxN2 = info->vco2.max_n;
148 int maxlog2P = info->max_p_usable;
149 int crystal = info->refclk;
150 bool fixedgain2 = (minM2 == maxM2 && minN2 == maxN2);
151 int M1, N1, M2, N2, log2P;
152 int clkP, calcclk1, calcclk2, calcclkout;
153 int delta, bestdelta = INT_MAX;
154 int bestclk = 0;
155
156 int vco2 = (maxvco2 - maxvco2/200) / 2;
157 for (log2P = 0; clk && log2P < maxlog2P && clk <= (vco2 >> log2P); log2P++)
158 ;
159 clkP = clk << log2P;
160
161 if (maxvco2 < clk + clk/200) /* +0.5% */
162 maxvco2 = clk + clk/200;
163
164 for (M1 = minM1; M1 <= maxM1; M1++) {
165 if (crystal/M1 < minU1)
166 return bestclk;
167 if (crystal/M1 > maxU1)
168 continue;
169
170 for (N1 = minN1; N1 <= maxN1; N1++) {
171 calcclk1 = crystal * N1 / M1;
172 if (calcclk1 < minvco1)
173 continue;
174 if (calcclk1 > maxvco1)
175 break;
176
177 for (M2 = minM2; M2 <= maxM2; M2++) {
178 if (calcclk1/M2 < minU2)
179 break;
180 if (calcclk1/M2 > maxU2)
181 continue;
182
183 /* add calcclk1/2 to round better */
184 N2 = (clkP * M2 + calcclk1/2) / calcclk1;
185 if (N2 < minN2)
186 continue;
187 if (N2 > maxN2)
188 break;
189
190 if (!fixedgain2) {
191 if (chip_version < 0x60)
192 if (N2/M2 < 4 || N2/M2 > 10)
193 continue;
194
195 calcclk2 = calcclk1 * N2 / M2;
196 if (calcclk2 < minvco2)
197 break;
198 if (calcclk2 > maxvco2)
199 continue;
200 } else
201 calcclk2 = calcclk1;
202
203 calcclkout = calcclk2 >> log2P;
204 delta = abs(calcclkout - clk);
205 /* we do an exhaustive search rather than terminating
206 * on an optimality condition...
207 */
208 if (delta < bestdelta) {
209 bestdelta = delta;
210 bestclk = calcclkout;
211 *pN1 = N1;
212 *pM1 = M1;
213 *pN2 = N2;
214 *pM2 = M2;
215 *pP = log2P;
216 if (delta == 0) /* except this one */
217 return bestclk;
218 }
219 }
220 }
221 }
222
223 return bestclk;
224 }
225
226 int
nv04_pll_calc(struct nvkm_subdev * subdev,struct nvbios_pll * info,u32 freq,int * N1,int * M1,int * N2,int * M2,int * P)227 nv04_pll_calc(struct nvkm_subdev *subdev, struct nvbios_pll *info, u32 freq,
228 int *N1, int *M1, int *N2, int *M2, int *P)
229 {
230 int ret;
231
232 if (!info->vco2.max_freq || !N2) {
233 ret = getMNP_single(subdev, info, freq, N1, M1, P);
234 if (N2) {
235 *N2 = 1;
236 *M2 = 1;
237 }
238 } else {
239 ret = getMNP_double(subdev, info, freq, N1, M1, N2, M2, P);
240 }
241
242 if (!ret)
243 nvkm_error(subdev, "unable to compute acceptable pll values\n");
244 return ret;
245 }
246