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Merge branch 'clk-frac-divider' into clk-next
- Add power of two flag to fractional divider clk type * clk-frac-divider: clk: fractional-divider: Document the arithmetics used behind the code clk: fractional-divider: Introduce POWER_OF_TWO_PS flag clk: fractional-divider: Hide clk_fractional_divider_ops from wide audience clk: fractional-divider: Export approximation algorithm to the CCF users
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commit
1faa7cb2b0
@ -436,8 +436,8 @@ static int register_device_clock(struct acpi_device *adev,
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if (!clk_name)
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return -ENOMEM;
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clk = clk_register_fractional_divider(NULL, clk_name, parent,
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0, prv_base,
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1, 15, 16, 15, 0, NULL);
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CLK_FRAC_DIVIDER_POWER_OF_TWO_PS,
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prv_base, 1, 15, 16, 15, 0, NULL);
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parent = clk_name;
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clk_name = kasprintf(GFP_KERNEL, "%s-update", devname);
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@ -3,8 +3,39 @@
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* Copyright (C) 2014 Intel Corporation
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*
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* Adjustable fractional divider clock implementation.
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* Output rate = (m / n) * parent_rate.
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* Uses rational best approximation algorithm.
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*
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* Output is calculated as
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*
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* rate = (m / n) * parent_rate (1)
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*
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* This is useful when we have a prescaler block which asks for
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* m (numerator) and n (denominator) values to be provided to satisfy
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* the (1) as much as possible.
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*
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* Since m and n have the limitation by a range, e.g.
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*
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* n >= 1, n < N_width, where N_width = 2^nwidth (2)
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*
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* for some cases the output may be saturated. Hence, from (1) and (2),
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* assuming the worst case when m = 1, the inequality
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*
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* floor(log2(parent_rate / rate)) <= nwidth (3)
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*
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* may be derived. Thus, in cases when
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*
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* (parent_rate / rate) >> N_width (4)
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*
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* we might scale up the rate by 2^scale (see the description of
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* CLK_FRAC_DIVIDER_POWER_OF_TWO_PS for additional information), where
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*
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* scale = floor(log2(parent_rate / rate)) - nwidth (5)
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*
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* and assume that the IP, that needs m and n, has also its own
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* prescaler, which is capable to divide by 2^scale. In this way
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* we get the denominator to satisfy the desired range (2) and
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* at the same time much much better result of m and n than simple
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* saturated values.
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*/
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#include <linux/clk-provider.h>
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@ -14,6 +45,8 @@
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#include <linux/slab.h>
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#include <linux/rational.h>
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#include "clk-fractional-divider.h"
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static inline u32 clk_fd_readl(struct clk_fractional_divider *fd)
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{
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if (fd->flags & CLK_FRAC_DIVIDER_BIG_ENDIAN)
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@ -68,21 +101,26 @@ static unsigned long clk_fd_recalc_rate(struct clk_hw *hw,
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return ret;
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}
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static void clk_fd_general_approximation(struct clk_hw *hw, unsigned long rate,
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unsigned long *parent_rate,
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unsigned long *m, unsigned long *n)
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void clk_fractional_divider_general_approximation(struct clk_hw *hw,
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unsigned long rate,
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unsigned long *parent_rate,
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unsigned long *m, unsigned long *n)
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{
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struct clk_fractional_divider *fd = to_clk_fd(hw);
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unsigned long scale;
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/*
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* Get rate closer to *parent_rate to guarantee there is no overflow
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* for m and n. In the result it will be the nearest rate left shifted
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* by (scale - fd->nwidth) bits.
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*
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* For the detailed explanation see the top comment in this file.
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*/
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scale = fls_long(*parent_rate / rate - 1);
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if (scale > fd->nwidth)
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rate <<= scale - fd->nwidth;
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if (fd->flags & CLK_FRAC_DIVIDER_POWER_OF_TWO_PS) {
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unsigned long scale = fls_long(*parent_rate / rate - 1);
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if (scale > fd->nwidth)
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rate <<= scale - fd->nwidth;
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}
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rational_best_approximation(rate, *parent_rate,
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GENMASK(fd->mwidth - 1, 0), GENMASK(fd->nwidth - 1, 0),
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@ -102,7 +140,7 @@ static long clk_fd_round_rate(struct clk_hw *hw, unsigned long rate,
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if (fd->approximation)
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fd->approximation(hw, rate, parent_rate, &m, &n);
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else
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clk_fd_general_approximation(hw, rate, parent_rate, &m, &n);
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clk_fractional_divider_general_approximation(hw, rate, parent_rate, &m, &n);
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ret = (u64)*parent_rate * m;
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do_div(ret, n);
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15
drivers/clk/clk-fractional-divider.h
Normal file
15
drivers/clk/clk-fractional-divider.h
Normal file
@ -0,0 +1,15 @@
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/* SPDX-License-Identifier: GPL-2.0 */
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#ifndef _CLK_FRACTIONAL_DIV_H
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#define _CLK_FRACTIONAL_DIV_H
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struct clk_hw;
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extern const struct clk_ops clk_fractional_divider_ops;
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void clk_fractional_divider_general_approximation(struct clk_hw *hw,
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unsigned long rate,
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unsigned long *parent_rate,
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unsigned long *m,
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unsigned long *n);
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#endif
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@ -10,6 +10,7 @@
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#include <linux/err.h>
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#include <linux/slab.h>
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#include "../clk-fractional-divider.h"
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#include "clk.h"
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#define PCG_PCS_SHIFT 24
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@ -22,6 +22,8 @@
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#include <linux/regmap.h>
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#include <linux/reboot.h>
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#include <linux/rational.h>
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#include "../clk-fractional-divider.h"
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#include "clk.h"
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/*
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@ -178,10 +180,8 @@ static void rockchip_fractional_approximation(struct clk_hw *hw,
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unsigned long rate, unsigned long *parent_rate,
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unsigned long *m, unsigned long *n)
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{
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struct clk_fractional_divider *fd = to_clk_fd(hw);
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unsigned long p_rate, p_parent_rate;
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struct clk_hw *p_parent;
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unsigned long scale;
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p_rate = clk_hw_get_rate(clk_hw_get_parent(hw));
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if ((rate * 20 > p_rate) && (p_rate % rate != 0)) {
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@ -190,18 +190,7 @@ static void rockchip_fractional_approximation(struct clk_hw *hw,
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*parent_rate = p_parent_rate;
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}
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/*
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* Get rate closer to *parent_rate to guarantee there is no overflow
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* for m and n. In the result it will be the nearest rate left shifted
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* by (scale - fd->nwidth) bits.
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*/
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scale = fls_long(*parent_rate / rate - 1);
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if (scale > fd->nwidth)
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rate <<= scale - fd->nwidth;
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rational_best_approximation(rate, *parent_rate,
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GENMASK(fd->mwidth - 1, 0), GENMASK(fd->nwidth - 1, 0),
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m, n);
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clk_fractional_divider_general_approximation(hw, rate, parent_rate, m, n);
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}
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static struct clk *rockchip_clk_register_frac_branch(
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@ -301,7 +301,8 @@ static int intel_lpss_register_clock_divider(struct intel_lpss *lpss,
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snprintf(name, sizeof(name), "%s-div", devname);
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tmp = clk_register_fractional_divider(NULL, name, __clk_get_name(tmp),
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0, lpss->priv, 1, 15, 16, 15, 0,
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CLK_FRAC_DIVIDER_POWER_OF_TWO_PS,
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lpss->priv, 1, 15, 16, 15, 0,
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NULL);
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if (IS_ERR(tmp))
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return PTR_ERR(tmp);
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@ -1001,6 +1001,12 @@ struct clk_hw *devm_clk_hw_register_fixed_factor(struct device *dev,
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* CLK_FRAC_DIVIDER_BIG_ENDIAN - By default little endian register accesses are
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* used for the divider register. Setting this flag makes the register
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* accesses big endian.
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* CLK_FRAC_DIVIDER_POWER_OF_TWO_PS - By default the resulting fraction might
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* be saturated and the caller will get quite far from the good enough
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* approximation. Instead the caller may require, by setting this flag,
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* to shift left by a few bits in case, when the asked one is quite small
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* to satisfy the desired range of denominator. It assumes that on the
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* caller's side the power-of-two capable prescaler exists.
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*/
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struct clk_fractional_divider {
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struct clk_hw hw;
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@ -1020,10 +1026,10 @@ struct clk_fractional_divider {
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#define to_clk_fd(_hw) container_of(_hw, struct clk_fractional_divider, hw)
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#define CLK_FRAC_DIVIDER_ZERO_BASED BIT(0)
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#define CLK_FRAC_DIVIDER_BIG_ENDIAN BIT(1)
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#define CLK_FRAC_DIVIDER_ZERO_BASED BIT(0)
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#define CLK_FRAC_DIVIDER_BIG_ENDIAN BIT(1)
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#define CLK_FRAC_DIVIDER_POWER_OF_TWO_PS BIT(2)
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extern const struct clk_ops clk_fractional_divider_ops;
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struct clk *clk_register_fractional_divider(struct device *dev,
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const char *name, const char *parent_name, unsigned long flags,
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void __iomem *reg, u8 mshift, u8 mwidth, u8 nshift, u8 nwidth,
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