| /openbmc/linux/drivers/clk/sunxi/ |
| H A D | clk-factors.c | 46 struct clk_factors *factors = to_clk_factors(hw); in clk_factors_recalc_rate() local
47 const struct clk_factors_config *config = factors->config; in clk_factors_recalc_rate()
50 reg = readl(factors->reg); in clk_factors_recalc_rate()
62 if (factors->recalc) { in clk_factors_recalc_rate()
72 if (factors->mux) in clk_factors_recalc_rate()
74 (reg >> factors->mux->shift) & in clk_factors_recalc_rate()
75 factors->mux->mask; in clk_factors_recalc_rate()
77 factors->recalc(&factors_req); in clk_factors_recalc_rate()
91 struct clk_factors *factors = to_clk_factors(hw); in clk_factors_determine_rate() local
112 factors->get_factors(&factors_req); in clk_factors_determine_rate()
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| H A D | clk-sunxi.c | 874 const struct factors_data *factors; /* data for the factor clock */ member
902 .factors = &sun4i_pll5_data,
913 .factors = &sun4i_pll5_data,
924 .factors = &sun6i_a31_pll6_data,
955 struct factors_data factors = *data->factors; in sunxi_divs_clk_setup() local
969 i, &factors.name); in sunxi_divs_clk_setup()
974 if (factors.name == NULL) { in sunxi_divs_clk_setup()
985 factors.name = derived_name; in sunxi_divs_clk_setup()
987 factors.name = clk_name; in sunxi_divs_clk_setup()
992 pclk = sunxi_factors_clk_setup(node, &factors); in sunxi_divs_clk_setup()
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| H A D | Makefile | 6 obj-$(CONFIG_CLK_SUNXI) += clk-factors.o
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| /openbmc/linux/drivers/clk/ |
| H A D | clk-milbeaut.c | 498 static void m10v_reg_div_pre(const struct m10v_clk_div_factors *factors, in m10v_reg_div_pre() argument
509 if ((factors->offset == CLKSEL(9)) || (factors->offset == CLKSEL(10))) in m10v_reg_div_pre()
514 hw = m10v_clk_hw_register_divider(NULL, factors->name, in m10v_reg_div_pre()
515 factors->parent_name, in m10v_reg_div_pre()
517 base + factors->offset, in m10v_reg_div_pre()
518 factors->shift, in m10v_reg_div_pre()
519 factors->width, factors->div_flags, in m10v_reg_div_pre()
520 factors->table, in m10v_reg_div_pre()
523 if (factors->onecell_idx >= 0) in m10v_reg_div_pre()
524 clk_data->hws[factors->onecell_idx] = hw; in m10v_reg_div_pre()
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| /openbmc/linux/sound/soc/codecs/ |
| H A D | wm8400.c | 852 static int fll_factors(struct wm8400_priv *wm8400, struct fll_factors *factors, in fll_factors() argument
858 factors->outdiv = 2; in fll_factors()
859 while (Fout * factors->outdiv < 90000000 || in fll_factors()
860 Fout * factors->outdiv > 100000000) { in fll_factors()
861 factors->outdiv *= 2; in fll_factors()
862 if (factors->outdiv > 32) { in fll_factors()
869 target = Fout * factors->outdiv; in fll_factors()
870 factors->outdiv = factors->outdiv >> 2; in fll_factors()
873 factors->freq_ref = 1; in fll_factors()
875 factors->freq_ref = 0; in fll_factors()
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| H A D | wm2200.c | 1926 struct _fll_div factors; in wm2200_set_fll() local
1952 ret = fll_factors(&factors, Fref, Fout); in wm2200_set_fll()
1961 (factors.fll_outdiv << WM2200_FLL_OUTDIV_SHIFT) | in wm2200_set_fll()
1962 factors.fll_fratio); in wm2200_set_fll()
1963 if (factors.theta) { in wm2200_set_fll()
1978 factors.theta); in wm2200_set_fll()
1980 factors.n); in wm2200_set_fll()
1984 (factors.fll_refclk_div in wm2200_set_fll()
1987 WM2200_FLL_LAMBDA_MASK, factors.lambda); in wm2200_set_fll()
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| H A D | wm5100.c | 1759 struct _fll_div factors; in wm5100_set_fll() local
1803 ret = fll_factors(&factors, Fref, Fout); in wm5100_set_fll()
1812 (factors.fll_outdiv << WM5100_FLL1_OUTDIV_SHIFT) | in wm5100_set_fll()
1813 factors.fll_fratio); in wm5100_set_fll()
1815 factors.theta); in wm5100_set_fll()
1816 snd_soc_component_update_bits(component, base + 5, WM5100_FLL1_N_MASK, factors.n); in wm5100_set_fll()
1820 (factors.fll_refclk_div in wm5100_set_fll()
1823 factors.lambda); in wm5100_set_fll()
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| /openbmc/linux/drivers/staging/media/sunxi/cedrus/ |
| H A D | cedrus_h264.c | 296 const struct v4l2_h264_weight_factors *factors = in cedrus_write_pred_weight_table() local
299 for (j = 0; j < ARRAY_SIZE(factors->luma_weight); j++) { in cedrus_write_pred_weight_table()
302 val = (((u32)factors->luma_offset[j] & 0x1ff) << 16) | in cedrus_write_pred_weight_table()
303 (factors->luma_weight[j] & 0x1ff); in cedrus_write_pred_weight_table()
307 for (j = 0; j < ARRAY_SIZE(factors->chroma_weight); j++) { in cedrus_write_pred_weight_table()
308 for (k = 0; k < ARRAY_SIZE(factors->chroma_weight[0]); k++) { in cedrus_write_pred_weight_table()
311 val = (((u32)factors->chroma_offset[j][k] & 0x1ff) << 16) | in cedrus_write_pred_weight_table()
312 (factors->chroma_weight[j][k] & 0x1ff); in cedrus_write_pred_weight_table()
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| /openbmc/linux/Documentation/driver-api/thermal/ |
| H A D | cpu-cooling-api.rst | 70 The dynamic power consumption of a processor depends on many factors.
71 For a given processor implementation the primary factors are:
81 but typically it is of a much lesser impact than the factors above.
94 factors. Therefore, in initial implementation that contribution is
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| H A D | power_allocator.rst | 69 variations such as environmental conditions, and some factors related
242 depend on external factors that may change so this function should the
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| /openbmc/linux/Documentation/userspace-api/media/v4l/ |
| H A D | selection-api-examples.rst | 60 Example: Querying for scaling factors
82 /* computing scaling factors */
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| H A D | yuv-formats.rst | 28 While many combinations of subsampling factors in the horizontal and vertical
29 direction are possible, common factors are 1 (no subsampling), 2 and 4, with
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| H A D | ext-ctrls-jpeg.rst | 26 The chroma subsampling factors describe how each component of an
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| /openbmc/linux/drivers/clk/sprd/ |
| H A D | pll.h | 54 const struct clk_bit_field *factors; member
71 .factors = _factors, \
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| H A D | pll.c | 19 (pll->factors[member].shift / (8 * sizeof(pll->regs_num)))
22 (pll->factors[member].shift % (8 * sizeof(pll->regs_num)))
25 pll->factors[member].width
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| /openbmc/linux/drivers/thermal/ |
| H A D | k3_j72xx_bandgap.c | 51 static int compute_value(int index, const s64 *factors, int nr_factors, in compute_value() argument
58 value += factors[i] * int_pow(index, i); in compute_value()
63 static void init_table(int factors_size, int *table, const s64 *factors) in init_table() argument
68 table[i] = compute_value(i, factors, factors_size, in init_table()
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| /openbmc/linux/drivers/staging/media/atomisp/pci/isp/kernels/anr/anr_1.0/ |
| H A D | ia_css_anr_types.h | 33 s32 factors[3]; member
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| /openbmc/linux/drivers/net/wireless/microchip/wilc1000/ |
| H A D | wlan.c | 288 u8 factors[NQUEUES] = {1, 1, 1, 1}; in is_ac_q_limit() local
302 q->cnt[i] = AC_BUFFER_SIZE * factors[i] / NQUEUES; in is_ac_q_limit()
310 q->cnt[q->buffer[end_index]] -= factors[q->buffer[end_index]]; in is_ac_q_limit()
311 q->cnt[q_num] += factors[q_num]; in is_ac_q_limit()
312 q->sum += (factors[q_num] - factors[q->buffer[end_index]]); in is_ac_q_limit()
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| /openbmc/linux/Documentation/driver-api/serial/ |
| H A D | serial-iso7816.rst | 72 /* Set transmission factors: */
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| /openbmc/linux/Documentation/userspace-api/ |
| H A D | sysfs-platform_profile.rst | 24 performance may be limited by various factors such as: the heat generated
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| /openbmc/linux/drivers/soc/mediatek/ |
| H A D | Kconfig | 91 chip process corner, temperatures and other factors. Then DVFS
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| /openbmc/linux/Documentation/ABI/testing/ |
| H A D | sysfs-bus-event_source-devices-events | 82 Description: Perf event scaling factors
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| /openbmc/linux/Documentation/userspace-api/media/drivers/ |
| H A D | ccs.rst | 93 The ``linear`` and ``exponent`` factors can be set using the
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| /openbmc/docs/designs/ |
| H A D | virtual-sensors.md | 11 and non standard scale factors or some other algorithmic calculations. Some of
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| /openbmc/linux/Documentation/arch/x86/ |
| H A D | intel-hfi.rst | 29 operating conditions of the system or the action of external factors. The rate
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