/* FIXME: need tegra11 step */
#define VDD_SAFE_STEP 100
+static int dvfs_temperatures[] = { 20, };
+
+static struct tegra_cooling_device cpu_dfll_cdev = {
+ .cdev_type = "cpu_dfll",
+ .trip_temperatures = dvfs_temperatures,
+ .trip_temperatures_num = ARRAY_SIZE(dvfs_temperatures),
+};
+
static struct dvfs_rail tegra11_dvfs_rail_vdd_cpu = {
.reg_id = "vdd_cpu",
.max_millivolts = 1400,
.min_millivolts = 800,
.step = VDD_SAFE_STEP,
.jmp_to_zero = true,
+ .min_millivolts_cold = 1000,
+ .dfll_mode_cdev = &cpu_dfll_cdev,
};
static struct dvfs_rail tegra11_dvfs_rail_vdd_core = {
}
/* CPU DVFS tables */
-/* FIXME: real data */
static struct cpu_cvb_dvfs cpu_cvb_dvfs_table[] = {
{
.speedo_id = 0,
+ .process_id = -1,
+ .dfll_tune_data = {
+ .tune0 = 0x00b0019d,
+ .tune0_high_mv = 0x00b0019d,
+ .tune1 = 0x0000001f,
+ .droop_rate_min = 1000000,
+ .min_millivolts = 1000,
+ },
.max_mv = 1250,
- .min_mv = 850,
- .margin = 112,
- .freqs_mult = MHZ,
+ .freqs_mult = KHZ,
.speedo_scale = 100,
.voltage_scale = 100,
.cvb_table = {
- /*f c0, c1, c2 */
- { 306, 9251, 12837, -570},
- { 408, 11737, 12957, -570},
- { 510, 14282, 13076, -570},
- { 612, 16887, 13196, -570},
- { 714, 19552, 13315, -570},
- { 816, 22277, 13435, -570},
- { 918, 25061, 13554, -570},
- {1020, 27905, 13674, -570},
- {1122, 30809, 13793, -570},
- {1224, 33773, 13913, -570},
- {1326, 36797, 14032, -570},
- {1428, 39880, 14152, -570},
- {1530, 43023, 14271, -570},
- {1632, 46226, 14391, -570},
- { 0, 0, 0, 0},
+ /*f dfll: c0, c1, c2 pll: c0, c1, c2 */
+ { 306000, { 107330, -1569, 0}, { 90000, 0, 0} },
+ { 408000, { 111250, -1666, 0}, { 90000, 0, 0} },
+ { 510000, { 110000, -1460, 0}, { 94000, 0, 0} },
+ { 612000, { 117290, -1745, 0}, { 94000, 0, 0} },
+ { 714000, { 122700, -1910, 0}, { 99000, 0, 0} },
+ { 816000, { 125620, -1945, 0}, { 99000, 0, 0} },
+ { 918000, { 130560, -2076, 0}, { 103000, 0, 0} },
+ {1020000, { 137280, -2303, 0}, { 103000, 0, 0} },
+ {1122000, { 146440, -2660, 0}, { 109000, 0, 0} },
+ {1224000, { 152190, -2825, 0}, { 109000, 0, 0} },
+ {1326000, { 157520, -2953, 0}, { 112000, 0, 0} },
+ {1428000, { 166100, -3261, 0}, { 140000, 0, 0} },
+ {1530000, { 176410, -3647, 0}, { 140000, 0, 0} },
+ {1632000, { 189620, -4186, 0}, { 140000, 0, 0} },
+ {1734000, { 203190, -4725, 0}, { 140000, 0, 0} },
+ {1836000, { 222670, -5573, 0}, { 140000, 0, 0} },
+ {1938000, { 256210, -7165, 0}, { 140000, 0, 0} },
+ {2040000, { 250050, -6544, 0}, { 140000, 0, 0} },
+ { 0, { 0, 0, 0}, { 0, 0, 0} },
},
- }
+ },
+ {
+ .speedo_id = 1,
+ .process_id = 0,
+ .dfll_tune_data = {
+ .tune0 = 0x00b0039d,
+ .tune0_high_mv = 0x00b0009d,
+ .tune1 = 0x0000001f,
+ .droop_rate_min = 1000000,
+ .tune_high_min_millivolts = 1000,
+ .min_millivolts = 900,
+ },
+ .max_mv = 1350,
+ .freqs_mult = KHZ,
+ .speedo_scale = 100,
+ .voltage_scale = 1000,
+ .cvb_table = {
+ /*f dfll: c0, c1, c2 pll: c0, c1, c2 */
+ { 306000, { 2190643, -141851, 3576}, { 900000, 0, 0} },
+ { 408000, { 2250968, -144331, 3576}, { 900000, 0, 0} },
+ { 510000, { 2313333, -146811, 3576}, { 940000, 0, 0} },
+ { 612000, { 2377738, -149291, 3576}, { 940000, 0, 0} },
+ { 714000, { 2444183, -151771, 3576}, { 990000, 0, 0} },
+ { 816000, { 2512669, -154251, 3576}, { 990000, 0, 0} },
+ { 918000, { 2583194, -156731, 3576}, { 1030000, 0, 0} },
+ {1020000, { 2655759, -159211, 3576}, { 1030000, 0, 0} },
+ {1122000, { 2730365, -161691, 3576}, { 1090000, 0, 0} },
+ {1224000, { 2807010, -164171, 3576}, { 1090000, 0, 0} },
+ {1326000, { 2885696, -166651, 3576}, { 1120000, 0, 0} },
+ {1428000, { 2966422, -169131, 3576}, { 1400000, 0, 0} },
+ {1530000, { 3049183, -171601, 3576}, { 1400000, 0, 0} },
+ {1606500, { 3112179, -173451, 3576}, { 1400000, 0, 0} },
+ {1708500, { 3198504, -175931, 3576}, { 1400000, 0, 0} },
+ {1810500, { 3304747, -179126, 3576}, { 1400000, 0, 0} },
+ { 0, { 0, 0, 0}, { 0, 0, 0} },
+ },
+ },
+ {
+ .speedo_id = 1,
+ .process_id = 1,
+ .dfll_tune_data = {
+ .tune0 = 0x00b0039d,
+ .tune0_high_mv = 0x00b0009d,
+ .tune1 = 0x0000001f,
+ .droop_rate_min = 1000000,
+ .tune_high_min_millivolts = 1000,
+ .min_millivolts = 900,
+ },
+ .max_mv = 1350,
+ .freqs_mult = KHZ,
+ .speedo_scale = 100,
+ .voltage_scale = 1000,
+ .cvb_table = {
+ /*f dfll: c0, c1, c2 pll: c0, c1, c2 */
+ { 306000, { 2190643, -141851, 3576}, { 900000, 0, 0} },
+ { 408000, { 2250968, -144331, 3576}, { 900000, 0, 0} },
+ { 510000, { 2313333, -146811, 3576}, { 940000, 0, 0} },
+ { 612000, { 2377738, -149291, 3576}, { 940000, 0, 0} },
+ { 714000, { 2444183, -151771, 3576}, { 990000, 0, 0} },
+ { 816000, { 2512669, -154251, 3576}, { 990000, 0, 0} },
+ { 918000, { 2583194, -156731, 3576}, { 1030000, 0, 0} },
+ {1020000, { 2655759, -159211, 3576}, { 1030000, 0, 0} },
+ {1122000, { 2730365, -161691, 3576}, { 1090000, 0, 0} },
+ {1224000, { 2807010, -164171, 3576}, { 1090000, 0, 0} },
+ {1326000, { 2885696, -166651, 3576}, { 1120000, 0, 0} },
+ {1428000, { 2966422, -169131, 3576}, { 1400000, 0, 0} },
+ {1530000, { 3049183, -171601, 3576}, { 1400000, 0, 0} },
+ {1606500, { 3112179, -173451, 3576}, { 1400000, 0, 0} },
+ {1708500, { 3198504, -175931, 3576}, { 1400000, 0, 0} },
+ {1810500, { 3304747, -179126, 3576}, { 1400000, 0, 0} },
+ { 0, { 0, 0, 0}, { 0, 0, 0} },
+ },
+ },
+ {
+ .speedo_id = 2,
+ .process_id = -1,
+ .dfll_tune_data = {
+ .tune0 = 0x00b0039d,
+ .tune0_high_mv = 0x00b0009d,
+ .tune1 = 0x0000001f,
+ .droop_rate_min = 1000000,
+ .tune_high_min_millivolts = 1000,
+ .min_millivolts = 900,
+ },
+ .max_mv = 1350,
+ .freqs_mult = KHZ,
+ .speedo_scale = 100,
+ .voltage_scale = 1000,
+ .cvb_table = {
+ /*f dfll: c0, c1, c2 pll: c0, c1, c2 */
+ { 306000, { 2190643, -141851, 3576}, { 900000, 0, 0} },
+ { 408000, { 2250968, -144331, 3576}, { 900000, 0, 0} },
+ { 510000, { 2313333, -146811, 3576}, { 940000, 0, 0} },
+ { 612000, { 2377738, -149291, 3576}, { 940000, 0, 0} },
+ { 714000, { 2444183, -151771, 3576}, { 990000, 0, 0} },
+ { 816000, { 2512669, -154251, 3576}, { 990000, 0, 0} },
+ { 918000, { 2583194, -156731, 3576}, { 1030000, 0, 0} },
+ {1020000, { 2655759, -159211, 3576}, { 1030000, 0, 0} },
+ {1122000, { 2730365, -161691, 3576}, { 1090000, 0, 0} },
+ {1224000, { 2807010, -164171, 3576}, { 1090000, 0, 0} },
+ {1326000, { 2885696, -166651, 3576}, { 1120000, 0, 0} },
+ {1428000, { 2966422, -169131, 3576}, { 1400000, 0, 0} },
+ {1530000, { 3049183, -171601, 3576}, { 1400000, 0, 0} },
+ {1606500, { 3112179, -173451, 3576}, { 1400000, 0, 0} },
+ {1708500, { 3198504, -175931, 3576}, { 1400000, 0, 0} },
+ {1810500, { 3304747, -179126, 3576}, { 1400000, 0, 0} },
+ {1912500, { 3395401, -181606, 3576}, { 1400000, 0, 0} },
+ { 0, { 0, 0, 0}, { 0, 0, 0} },
+ },
+ },
};
static int cpu_millivolts[MAX_DVFS_FREQS];
static struct dvfs cpu_dvfs = {
.clk_name = "cpu_g",
- .process_id = -1,
.millivolts = cpu_millivolts,
.dfll_millivolts = cpu_dfll_millivolts,
.auto_dvfs = true,
.dvfs_rail = &tegra11_dvfs_rail_vdd_cpu,
- .dfll_data = {
- .tune0 = 0x000B0380,
- .tune1 = 0x000005e0,
- .droop_rate_min = 1000000,
- },
};
/* Core DVFS tables */
/* FIXME: real data */
static const int core_millivolts[MAX_DVFS_FREQS] = {
- 837, 900, 950, 1000, 1050, 1100, 1125};
+ 900, 950, 1000, 1050, 1100, 1120, 1170, 1250};
-#define CORE_DVFS(_clk_name, _speedo_id, _auto, _mult, _freqs...) \
+#define CORE_DVFS(_clk_name, _speedo_id, _process_id, _auto, _mult, _freqs...) \
{ \
.clk_name = _clk_name, \
.speedo_id = _speedo_id, \
- .process_id = -1, \
+ .process_id = _process_id, \
.freqs = {_freqs}, \
.freqs_mult = _mult, \
.millivolts = core_millivolts, \
}
static struct dvfs core_dvfs_table[] = {
- /* Core voltages (mV): 837, 900, 950, 1000, 1050, 1100, 1125, */
+ /* Core voltages (mV): 900, 950, 1000, 1050, 1100, 1120, 1170, 1250 */
/* Clock limits for internal blocks, PLLs */
#ifndef CONFIG_TEGRA_SIMULATION_PLATFORM
- CORE_DVFS("cpu_lp", -1, 1, KHZ, 1, 144000, 252000, 288000, 372000, 468000, 468000),
- CORE_DVFS("emc", -1, 1, KHZ, 1, 264000, 348000, 384000, 528000, 666000, 666000),
- CORE_DVFS("sbus", -1, 1, KHZ, 1, 81600, 102000, 136000, 204000, 204000, 204000),
+ CORE_DVFS("cpu_lp", -1, -1, 1, KHZ, 228000, 306000, 396000, 528000, 648000, 696000, 696000, 696000),
+ CORE_DVFS("emc", -1, -1, 1, KHZ, 1, 1, 1, 1, 800000, 800000, 933000, 1066000),
+ CORE_DVFS("sbus", -1, -1, 1, KHZ, 1, 204000, 240000, 276000, 324000, 336000, 336000, 336000),
+
+ CORE_DVFS("vi", -1, -1, 1, KHZ, 144000, 216000, 240000, 312000, 372000, 408000, 408000, 408000),
- CORE_DVFS("vi", -1, 1, KHZ, 1, 102000, 144000, 144000, 192000, 240000, 240000),
+ CORE_DVFS("2d", -1, 0, 1, KHZ, 192000, 228000, 300000, 396000, 492000, 516000, 516000, 612000),
+ CORE_DVFS("3d", -1, 0, 1, KHZ, 192000, 228000, 300000, 396000, 492000, 516000, 516000, 612000),
+ CORE_DVFS("epp", -1, 0, 1, KHZ, 192000, 228000, 300000, 396000, 492000, 516000, 516000, 612000),
- CORE_DVFS("2d", -1, 1, KHZ, 1, 132000, 180000, 204000, 264000, 336000, 336000),
- CORE_DVFS("3d", -1, 1, KHZ, 1, 132000, 180000, 204000, 264000, 336000, 336000),
+ CORE_DVFS("2d", -1, 1, 1, KHZ, 192000, 228000, 300000, 396000, 492000, 516000, 612000, 672000),
+ CORE_DVFS("3d", -1, 1, 1, KHZ, 192000, 228000, 300000, 396000, 492000, 516000, 612000, 672000),
+ CORE_DVFS("epp", -1, 1, 1, KHZ, 192000, 228000, 300000, 396000, 492000, 516000, 612000, 672000),
- CORE_DVFS("epp", -1, 1, KHZ, 1, 120000, 144000, 168000, 216000, 276000, 276000),
- CORE_DVFS("msenc", -1, 1, KHZ, 1, 120000, 144000, 168000, 216000, 276000, 276000),
- CORE_DVFS("se", -1, 1, KHZ, 1, 120000, 144000, 168000, 216000, 276000, 276000),
- CORE_DVFS("tsec", -1, 1, KHZ, 1, 120000, 144000, 168000, 216000, 276000, 276000),
- CORE_DVFS("vde", -1, 1, KHZ, 1, 120000, 144000, 168000, 216000, 276000, 276000),
+ CORE_DVFS("msenc", -1, -1, 1, KHZ, 144000, 182000, 240000, 312000, 384000, 408000, 408000, 408000),
+ CORE_DVFS("se", -1, -1, 1, KHZ, 144000, 182000, 240000, 312000, 384000, 408000, 408000, 408000),
+ CORE_DVFS("tsec", -1, -1, 1, KHZ, 144000, 182000, 240000, 312000, 384000, 408000, 408000, 408000),
+ CORE_DVFS("vde", -1, -1, 1, KHZ, 144000, 182000, 240000, 312000, 384000, 408000, 408000, 408000),
- CORE_DVFS("host1x", -1, 1, KHZ, 1, 81600, 102000, 136000, 163200, 204000, 204000),
+ CORE_DVFS("host1x", -1, -1, 1, KHZ, 144000, 204000, 240000, 276000, 324000, 336000, 336000, 336000),
#ifdef CONFIG_TEGRA_DUAL_CBUS
- CORE_DVFS("c2bus", -1, 1, KHZ, 1, 132000, 180000, 204000, 264000, 336000, 336000),
- CORE_DVFS("c3bus", -1, 1, KHZ, 1, 120000, 144000, 168000, 216000, 276000, 276000),
+ CORE_DVFS("c2bus", -1, 0, 1, KHZ, 192000, 228000, 300000, 396000, 492000, 516000, 516000, 612000),
+ CORE_DVFS("c2bus", -1, 1, 1, KHZ, 192000, 228000, 300000, 396000, 492000, 516000, 612000, 672000),
+ CORE_DVFS("c3bus", -1, -1, 1, KHZ, 144000, 182000, 240000, 312000, 384000, 408000, 408000, 408000),
#else
- CORE_DVFS("cbus", -1, 1, KHZ, 1, 120000, 144000, 168000, 216000, 276000, 276000),
+ CORE_DVFS("cbus", -1, -1, 1, KHZ, 144000, 182000, 240000, 312000, 384000, 408000, 408000, 408000),
#endif
- CORE_DVFS("pll_m", -1, 1, KHZ, 1, 480000, 588000, 660000, 792000, 936000, 936000),
- CORE_DVFS("pll_c", -1, 1, KHZ, 1, 480000, 588000, 660000, 792000, 936000, 936000),
- CORE_DVFS("pll_c2", -1, 1, KHZ, 1, 480000, 588000, 660000, 792000, 936000, 936000),
- CORE_DVFS("pll_c3", -1, 1, KHZ, 1, 480000, 588000, 660000, 792000, 936000, 936000),
- CORE_DVFS("pll_d_out0", -1, 1, KHZ, 1, 480000, 588000, 660000, 792000, 936000, 936000),
- CORE_DVFS("pll_d2_out0", -1, 1, KHZ, 1, 480000, 588000, 660000, 792000, 936000, 936000),
- CORE_DVFS("pll_re_out", -1, 1, KHZ, 1, 480000, 588000, 660000, 792000, 936000, 936000),
+ CORE_DVFS("pll_m", -1, -1, 1, KHZ, 1, 800000, 1066000, 1066000, 1066000, 1066000, 1066000, 1066000),
+ CORE_DVFS("pll_c", -1, -1, 1, KHZ, 1, 800000, 1066000, 1066000, 1066000, 1066000, 1066000, 1066000),
+ CORE_DVFS("pll_c2", -1, -1, 1, KHZ, 1, 800000, 1066000, 1066000, 1066000, 1066000, 1066000, 1066000),
+ CORE_DVFS("pll_c3", -1, -1, 1, KHZ, 1, 800000, 1066000, 1066000, 1066000, 1066000, 1066000, 1066000),
- /* Core voltages (mV): 837, 900, 950, 1000, 1050, 1100, 1125, */
+ /* Core voltages (mV): 900, 950, 1000, 1050, 1100, 1120, 1170, 1250 */
/* Clock limits for I/O peripherals */
- CORE_DVFS("i2c1", -1, 1, KHZ, 1, 58300, 68000, 81600, 102000, 136000, 136000),
- CORE_DVFS("i2c2", -1, 1, KHZ, 1, 58300, 68000, 81600, 102000, 136000, 136000),
- CORE_DVFS("i2c3", -1, 1, KHZ, 1, 58300, 68000, 81600, 102000, 136000, 136000),
- CORE_DVFS("i2c4", -1, 1, KHZ, 1, 58300, 68000, 81600, 102000, 136000, 136000),
-
- CORE_DVFS("sbc1", -1, 1, KHZ, 1, 24000, 24000, 48000, 48000, 48000, 48000),
- CORE_DVFS("sbc2", -1, 1, KHZ, 1, 24000, 24000, 48000, 48000, 48000, 48000),
- CORE_DVFS("sbc3", -1, 1, KHZ, 1, 24000, 24000, 48000, 48000, 48000, 48000),
- CORE_DVFS("sbc4", -1, 1, KHZ, 1, 24000, 24000, 48000, 48000, 48000, 48000),
- CORE_DVFS("sbc5", -1, 1, KHZ, 1, 24000, 24000, 48000, 48000, 48000, 48000),
- CORE_DVFS("sbc6", -1, 1, KHZ, 1, 24000, 24000, 48000, 48000, 48000, 48000),
-
- /* FIXME: re-enable after UART hs driver is updated */
-#if 0
- CORE_DVFS("uarta", -1, 1, KHZ, 1, 58300, 58300, 102000, 102000, 102000, 102000),
- CORE_DVFS("uartb", -1, 1, KHZ, 1, 58300, 58300, 102000, 102000, 102000, 102000),
- CORE_DVFS("uartc", -1, 1, KHZ, 1, 58300, 58300, 102000, 102000, 102000, 102000),
- CORE_DVFS("uartd", -1, 1, KHZ, 1, 58300, 58300, 102000, 102000, 102000, 102000),
- CORE_DVFS("uarte", -1, 1, KHZ, 1, 58300, 58300, 102000, 102000, 102000, 102000),
-#endif
- CORE_DVFS("sdmmc1", -1, 1, KHZ, 1, 102000, 102000, 163200, 163200, 163200, 163200),
- CORE_DVFS("sdmmc2", -1, 1, KHZ, 1, 102000, 102000, 163200, 163200, 163200, 163200),
- CORE_DVFS("sdmmc3", -1, 1, KHZ, 1, 102000, 102000, 163200, 163200, 163200, 163200),
- CORE_DVFS("sdmmc4", -1, 1, KHZ, 1, 102000, 102000, 163200, 163200, 163200, 163200),
-
- CORE_DVFS("pwm", -1, 1, KHZ, 1, 40800, 48000, 48000, 48000, 48000, 48000),
-
- CORE_DVFS("csi", -1, 1, KHZ, 1, 1, 1, 102000, 102000, 102000, 102000),
- CORE_DVFS("dsia", -1, 1, KHZ, 1, 100000, 125000, 125000, 125000, 125000, 125000),
- CORE_DVFS("dsib", -1, 1, KHZ, 1, 100000, 125000, 125000, 125000, 125000, 125000),
- CORE_DVFS("dsialp", -1, 1, KHZ, 1, 102000, 102000, 102000, 102000, 156000, 156000),
- CORE_DVFS("dsiblp", -1, 1, KHZ, 1, 102000, 102000, 102000, 102000, 156000, 156000),
- CORE_DVFS("hdmi", -1, 1, KHZ, 1, 99000, 118800, 148500, 198000, 198000, 198000),
+ CORE_DVFS("sbc1", -1, -1, 1, KHZ, 48000, 48000, 48000, 48000, 52000, 52000, 52000, 52000),
+ CORE_DVFS("sbc2", -1, -1, 1, KHZ, 48000, 48000, 48000, 48000, 52000, 52000, 52000, 52000),
+ CORE_DVFS("sbc3", -1, -1, 1, KHZ, 48000, 48000, 48000, 48000, 52000, 52000, 52000, 52000),
+ CORE_DVFS("sbc4", -1, -1, 1, KHZ, 48000, 48000, 48000, 48000, 52000, 52000, 52000, 52000),
+ CORE_DVFS("sbc5", -1, -1, 1, KHZ, 48000, 48000, 48000, 48000, 52000, 52000, 52000, 52000),
+ CORE_DVFS("sbc6", -1, -1, 1, KHZ, 48000, 48000, 48000, 48000, 52000, 52000, 52000, 52000),
+
+ CORE_DVFS("sdmmc1", -1, -1, 1, KHZ, 81600, 81600, 81600, 81600, 81600, 81600, 204000, 204000),
+ CORE_DVFS("sdmmc3", -1, -1, 1, KHZ, 81600, 81600, 81600, 81600, 204000, 204000, 204000, 204000),
+ CORE_DVFS("sdmmc4", -1, -1, 1, KHZ, 102000, 102000, 102000, 102000, 102000, 102000, 198000, 198000),
+
+ CORE_DVFS("csi", -1, -1, 1, KHZ, 1, 102000, 102000, 102000, 102000, 102000, 102000, 102000),
+ CORE_DVFS("cilab", -1, -1, 1, KHZ, 1, 102000, 102000, 102000, 102000, 102000, 102000, 102000),
+ CORE_DVFS("cilcd", -1, -1, 1, KHZ, 1, 102000, 102000, 102000, 102000, 102000, 102000, 102000),
+ CORE_DVFS("cile", -1, -1, 1, KHZ, 1, 102000, 102000, 102000, 102000, 102000, 102000, 102000),
+
+ CORE_DVFS("dsia", -1, -1, 1, KHZ, 1, 500000, 500000, 500000, 500000, 500000, 500000, 500000),
+ CORE_DVFS("dsib", -1, -1, 1, KHZ, 1, 500000, 500000, 500000, 500000, 500000, 500000, 500000),
+ CORE_DVFS("dsialp", -1, -1, 1, KHZ, 1, 102000, 102000, 102000, 102000, 102000, 102000, 102000),
+ CORE_DVFS("dsiblp", -1, -1, 1, KHZ, 1, 102000, 102000, 102000, 102000, 102000, 102000, 102000),
+ CORE_DVFS("hdmi", -1, -1, 1, KHZ, 148500, 148500, 148500, 297000, 297000, 297000, 297000, 297000),
/*
* The clock rate for the display controllers that determines the
* to the display block. Disable auto-dvfs on the display clocks,
* and let the display driver call tegra_dvfs_set_rate manually
*/
- CORE_DVFS("disp1", -1, 0, KHZ, 1, 108000, 120000, 144000, 192000, 240000, 240000),
- CORE_DVFS("disp2", -1, 0, KHZ, 1, 108000, 120000, 144000, 192000, 240000, 240000),
-
- CORE_DVFS("xusb_falcon_src", -1, 1, KHZ, 1, 204000, 204000, 204000, 336000, 336000, 336000),
- CORE_DVFS("xusb_host_src", -1, 1, KHZ, 1, 58300, 58300, 58300, 112000, 112000, 112000),
- CORE_DVFS("xusb_dev_src", -1, 1, KHZ, 1, 58300, 58300, 58300, 112000, 112000, 112000),
- CORE_DVFS("xusb_ss_src", -1, 1, KHZ, 1, 60000, 60000, 60000, 120000, 120000, 120000),
- CORE_DVFS("xusb_fs_src", -1, 1, KHZ, 1, 1, 48000, 48000, 48000, 48000, 48000),
- CORE_DVFS("xusb_hs_src", -1, 1, KHZ, 1, 1, 60000, 60000, 60000, 60000, 60000),
+ CORE_DVFS("disp1", -1, -1, 0, KHZ, 148500, 166000, 166000, 297000, 297000, 297000, 297000, 297000),
+ CORE_DVFS("disp2", -1, -1, 0, KHZ, 148500, 166000, 166000, 297000, 297000, 297000, 297000, 297000),
+
+ /* xusb clocks */
+ CORE_DVFS("xusb_falcon_src", -1, -1, 1, KHZ, 1, 336000, 336000, 336000, 336000, 336000, 336000, 336000),
+ CORE_DVFS("xusb_host_src", -1, -1, 1, KHZ, 1, 112000, 112000, 112000, 112000, 112000, 112000, 112000),
+ CORE_DVFS("xusb_dev_src", -1, -1, 1, KHZ, 1, 58300, 58300, 112000, 112000, 112000, 112000, 112000),
+ CORE_DVFS("xusb_ss_src", -1, -1, 1, KHZ, 1, 120000, 120000, 120000, 120000, 120000, 120000, 120000),
+ CORE_DVFS("xusb_fs_src", -1, -1, 1, KHZ, 1, 48000, 48000, 48000, 48000, 48000, 48000, 48000),
+ CORE_DVFS("xusb_hs_src", -1, -1, 1, KHZ, 1, 60000, 60000, 60000, 60000, 60000, 60000, 60000),
#endif
};
return true;
}
+static bool __init match_cpu_cvb_one(struct cpu_cvb_dvfs *d,
+ int speedo_id, int process_id)
+{
+ if ((d->process_id != -1 && d->process_id != process_id) ||
+ (d->speedo_id != -1 && d->speedo_id != speedo_id)) {
+ pr_debug("tegra11_dvfs: rejected cpu cvb speedo %d,"
+ " process %d\n", d->speedo_id, d->process_id);
+ return false;
+ }
+ return true;
+}
/* cvb_mv = ((c2 * speedo / s_scale + c1) * speedo / s_scale + c0) / v_scale */
static inline int get_cvb_voltage(int speedo, int s_scale,
cvb_align_step_uv / 1000;
}
-static int __init set_cpu_dvfs_data(int speedo_id, struct dvfs *cpu_dvfs,
- int *max_freq_index)
+static int __init set_cpu_dvfs_data(
+ struct cpu_cvb_dvfs *d, struct dvfs *cpu_dvfs, int *max_freq_index)
{
- int i, j, mv, dfll_mv;
+ int i, j, mv, dfll_mv, min_dfll_mv;
unsigned long fmax_at_vmin = 0;
- struct cpu_cvb_dvfs *d = NULL;
- struct cpu_cvb_dvfs_parameters *cvb = NULL;
+ unsigned long fmax_pll_mode = 0;
+ unsigned long fmin_use_dfll = 0;
+ struct cpu_cvb_dvfs_table *table = NULL;
int speedo = tegra_cpu_speedo_value();
- /* Find matching cvb dvfs entry */
- for (i = 0; i < ARRAY_SIZE(cpu_cvb_dvfs_table); i++) {
- d = &cpu_cvb_dvfs_table[i];
- if (speedo_id == d->speedo_id)
- break;
- }
-
- if (!d) {
- pr_err("tegra11_dvfs: no cpu dvfs table for speedo_id %d\n",
- speedo_id);
- return -ENOENT;
- }
- BUG_ON(d->min_mv < tegra11_dvfs_rail_vdd_cpu.min_millivolts);
+ min_dfll_mv = d->dfll_tune_data.min_millivolts;
+ BUG_ON(min_dfll_mv < tegra11_dvfs_rail_vdd_cpu.min_millivolts);
/*
* Use CVB table to fill in CPU dvfs frequencies and voltages. Each
* CVB entry specifies CPU frequency and CVB coefficients to calculate
- * the respective voltage when DFLL is used as CPU clock source. Common
- * margin is applied to determine voltage requirements for PLL source.
+ * the respective voltage when either DFLL or PLL is used as CPU clock
+ * source.
+ *
+ * Minimum voltage limit is applied only to DFLL source. For PLL source
+ * voltage can go as low as table specifies. Maximum voltage limit is
+ * applied to both sources, but differently: directly clip voltage for
+ * DFLL, and limit maximum frequency for PLL.
*/
for (i = 0, j = 0; i < MAX_DVFS_FREQS; i++) {
- cvb = &d->cvb_table[i];
- if (!cvb->freq)
+ table = &d->cvb_table[i];
+ if (!table->freq)
break;
- mv = get_cvb_voltage(speedo, d->speedo_scale, cvb);
- dfll_mv = round_cvb_voltage(mv, d->voltage_scale);
- dfll_mv = max(dfll_mv, d->min_mv);
- if (dfll_mv > d->max_mv)
- break;
+ dfll_mv = get_cvb_voltage(
+ speedo, d->speedo_scale, &table->cvb_dfll_param);
+ dfll_mv = round_cvb_voltage(dfll_mv, d->voltage_scale);
+
+ mv = get_cvb_voltage(
+ speedo, d->speedo_scale, &table->cvb_pll_param);
+ mv = round_cvb_voltage(mv, d->voltage_scale);
- /* Check maximum frequency at minimum voltage */
- if (dfll_mv > d->min_mv) {
+ /* Check maximum frequency at minimum voltage for dfll source */
+ dfll_mv = max(dfll_mv, min_dfll_mv);
+ if (dfll_mv > min_dfll_mv) {
if (!j)
break; /* 1st entry already above Vmin */
if (!fmax_at_vmin)
fmax_at_vmin = cpu_dvfs->freqs[j - 1];
}
- /* dvfs tables with maximum frequency at any distinct voltage */
- if (!j || (dfll_mv > cpu_dfll_millivolts[j - 1])) {
- cpu_dvfs->freqs[j] = cvb->freq;
- cpu_dfll_millivolts[j] = dfll_mv;
- mv = mv * d->margin / 100;
- mv = round_cvb_voltage(mv, d->voltage_scale);
- cpu_millivolts[j] = max(mv, d->min_mv);
- j++;
- } else {
- cpu_dvfs->freqs[j - 1] = cvb->freq;
+ /* Clip maximum frequency at maximum voltage for pll source */
+ if (mv > d->max_mv) {
+ if (!j)
+ break; /* 1st entry already above Vmax */
+ if (!fmax_pll_mode)
+ fmax_pll_mode = cpu_dvfs->freqs[j - 1];
}
+ /* Minimum rate with pll source voltage above dfll Vmin */
+ if ((mv >= min_dfll_mv) && (!fmin_use_dfll))
+ fmin_use_dfll = table->freq;
+
+ /* fill in dvfs tables */
+ cpu_dvfs->freqs[j] = table->freq;
+ cpu_dfll_millivolts[j] = min(dfll_mv, d->max_mv);
+ cpu_millivolts[j] = mv;
+ j++;
+
+ /*
+ * "Round-up" frequency list cut-off (keep first entry that
+ * exceeds max voltage - the voltage limit will be enforced
+ * anyway, so when requested this frequency dfll will settle
+ * at whatever high frequency it can on the particular chip)
+ */
+ if (dfll_mv > d->max_mv)
+ break;
}
/* Table must not be empty and must have and at least one entry below,
and one entry above Vmin */
if (!i || !j || !fmax_at_vmin) {
- pr_err("tegra11_dvfs: invalid cpu dvfs table for speedo_id %d\n",
- speedo_id);
+ pr_err("tegra11_dvfs: invalid cpu dvfs table\n");
return -ENOENT;
}
+ /* Must have crossover between dfll and pll operating ranges */
+ if (!fmin_use_dfll || (fmin_use_dfll > fmax_at_vmin)) {
+ pr_err("tegra11_dvfs: no crossover of dfll and pll voltages\n");
+ return -EINVAL;
+ }
+
/* dvfs tables are successfully populated - fill in the rest */
- cpu_dvfs->speedo_id = speedo_id;
+ cpu_dvfs->speedo_id = d->speedo_id;
+ cpu_dvfs->process_id = d->process_id;
cpu_dvfs->freqs_mult = d->freqs_mult;
- cpu_dvfs->dvfs_rail->nominal_millivolts =
- min(cpu_millivolts[j - 1], d->max_mv);
+ cpu_dvfs->dvfs_rail->nominal_millivolts = min(d->max_mv,
+ max(cpu_millivolts[j - 1], cpu_dfll_millivolts[j - 1]));
*max_freq_index = j - 1;
+ cpu_dvfs->dfll_data = d->dfll_tune_data;
+ cpu_dvfs->dfll_data.max_rate_boost = fmax_pll_mode ?
+ (cpu_dvfs->freqs[j - 1] - fmax_pll_mode) * d->freqs_mult : 0;
cpu_dvfs->dfll_data.out_rate_min = fmax_at_vmin * d->freqs_mult;
- cpu_dvfs->min_millivolts = d->min_mv;
+ cpu_dvfs->dfll_data.use_dfll_rate_min = fmin_use_dfll * d->freqs_mult;
+ cpu_dvfs->dfll_data.min_millivolts = min_dfll_mv;
return 0;
}
{
int i;
int mv = tegra_core_speedo_mv();
- int core_edp_limit = get_core_edp();
+ int core_edp_voltage = get_core_edp();
/*
* Start with nominal level for the chips with this speedo_id. Then,
* make sure core nominal voltage is below edp limit for the board
* (if edp limit is set).
*/
- if (core_edp_limit)
- mv = min(mv, core_edp_limit);
+ if (!core_edp_voltage)
+ core_edp_voltage = 1100; /* default 1.1V EDP limit */
+
+ mv = min(mv, core_edp_voltage);
/* Round nominal level down to the nearest core scaling step */
for (i = 0; i < MAX_DVFS_FREQS; i++) {
return i - 1;
}
+int tegra_cpu_dvfs_alter(int edp_thermal_index, const cpumask_t *cpus,
+ bool before_clk_update, int cpu_event)
+{
+ /* empty definition for tegra11 */
+ return 0;
+}
+
void __init tegra11x_init_dvfs(void)
{
int cpu_speedo_id = tegra_cpu_speedo_id();
+ int cpu_process_id = tegra_cpu_process_id();
int soc_speedo_id = tegra_soc_speedo_id();
int core_process_id = tegra_core_process_id();
- int i;
+ int i, ret;
int core_nominal_mv_index;
- int cpu_max_freq_index;
+ int cpu_max_freq_index = 0;
#ifndef CONFIG_TEGRA_CORE_DVFS
tegra_dvfs_core_disabled = true;
#ifndef CONFIG_TEGRA_CPU_DVFS
tegra_dvfs_cpu_disabled = true;
#endif
+ /* Setup rail bins */
+ tegra11_dvfs_rail_vdd_cpu.stats.bin_uV = tegra_get_cvb_alignment_uV();
+ tegra11_dvfs_rail_vdd_core.stats.bin_uV = tegra_get_cvb_alignment_uV();
/*
* Find nominal voltages for core (1st) and cpu rails before rail
* voltage limit is not violated). Error when cpu dvfs table can not
* be constructed must never happen.
*/
- if (set_cpu_dvfs_data(cpu_speedo_id, &cpu_dvfs, &cpu_max_freq_index))
- BUG();
+ for (ret = 0, i = 0; i < ARRAY_SIZE(cpu_cvb_dvfs_table); i++) {
+ struct cpu_cvb_dvfs *d = &cpu_cvb_dvfs_table[i];
+ if (match_cpu_cvb_one(d, cpu_speedo_id, cpu_process_id)) {
+ ret = set_cpu_dvfs_data(
+ d, &cpu_dvfs, &cpu_max_freq_index);
+ break;
+ }
+ }
+ BUG_ON((i == ARRAY_SIZE(cpu_cvb_dvfs_table)) || ret);
/* Init rail structures and dependencies */
tegra_dvfs_init_rails(tegra11_dvfs_rails,