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7962a8d5a4
This is a cleaned up version set_pll() from Allwinner's boot0 source (bootloader/basic_loader/bsp/bsp_for_a80/common/common.c). [wens@csie.org: Added commit message; style cleanup] Signed-off-by: Chen-Yu Tsai <wens@csie.org> Acked-by: Hans de Goede <hdegoede@redhat.com> Signed-off-by: Hans de Goede <hdegoede@redhat.com>
210 lines
5.5 KiB
C
210 lines
5.5 KiB
C
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/*
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* sun9i specific clock code
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*
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* (C) Copyright 2015 Hans de Goede <hdegoede@redhat.com>
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*
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* (C) Copyright 2016 Theobroma Systems Design und Consulting GmbH
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* Philipp Tomsich <philipp.tomsich@theobroma-systems.com>
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*
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* SPDX-License-Identifier: GPL-2.0+
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*/
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#include <common.h>
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#include <asm/io.h>
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#include <asm/arch/clock.h>
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#include <asm/arch/prcm.h>
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#include <asm/arch/sys_proto.h>
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#ifdef CONFIG_SPL_BUILD
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void clock_init_safe(void)
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{
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struct sunxi_ccm_reg * const ccm =
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(struct sunxi_ccm_reg *)SUNXI_CCM_BASE;
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/* Set up PLL12 (peripheral 1) */
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clock_set_pll12(1200000000);
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/* Set up PLL1 (cluster 0) and PLL2 (cluster 1) */
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clock_set_pll1(408000000);
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clock_set_pll2(408000000);
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/* Set up PLL4 (peripheral 0) */
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clock_set_pll4(960000000);
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/* Set up dividers for AXI0 and APB0 on cluster 0: PLL1 / 2 = 204MHz */
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writel(C0_CFG_AXI0_CLK_DIV_RATIO(2) |
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C0_CFG_APB0_CLK_DIV_RATIO(2), &ccm->c0_cfg);
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/* AHB0: 120 MHz (PLL_PERIPH0 / 8) */
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writel(AHBx_SRC_PLL_PERIPH0 | AHBx_CLK_DIV_RATIO(8),
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&ccm->ahb0_cfg);
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/* AHB1: 240 MHz (PLL_PERIPH0 / 4) */
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writel(AHBx_SRC_PLL_PERIPH0 | AHBx_CLK_DIV_RATIO(4),
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&ccm->ahb1_cfg);
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/* AHB2: 120 MHz (PLL_PERIPH0 / 8) */
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writel(AHBx_SRC_PLL_PERIPH0 | AHBx_CLK_DIV_RATIO(8),
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&ccm->ahb2_cfg);
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/* APB0: 120 MHz (PLL_PERIPH0 / 8) */
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writel(APB0_SRC_PLL_PERIPH0 | APB0_CLK_DIV_RATIO(8),
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&ccm->apb0_cfg);
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/* GTBUS: 400MHz (PERIPH0 div 3) */
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writel(GTBUS_SRC_PLL_PERIPH1 | GTBUS_CLK_DIV_RATIO(3),
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&ccm->gtbus_cfg);
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/* CCI400: 480MHz (PERIPH1 div 2) */
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writel(CCI400_SRC_PLL_PERIPH0 | CCI400_CLK_DIV_RATIO(2),
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&ccm->cci400_cfg);
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/* Deassert DMA reset and open clock gating for DMA */
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setbits_le32(&ccm->ahb_reset1_cfg, (1 << 24));
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setbits_le32(&ccm->apb1_gate, (1 << 24));
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/* set enable-bit in TSTAMP_CTRL_REG */
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writel(1, 0x01720000);
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}
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#endif
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void clock_init_uart(void)
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{
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struct sunxi_ccm_reg *const ccm =
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(struct sunxi_ccm_reg *)SUNXI_CCM_BASE;
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/* open the clock for uart */
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setbits_le32(&ccm->apb1_gate,
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CLK_GATE_OPEN << (APB1_GATE_UART_SHIFT +
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CONFIG_CONS_INDEX - 1));
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/* deassert uart reset */
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setbits_le32(&ccm->apb1_reset_cfg,
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1 << (APB1_RESET_UART_SHIFT +
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CONFIG_CONS_INDEX - 1));
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}
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#ifdef CONFIG_SPL_BUILD
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void clock_set_pll1(unsigned int clk)
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{
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struct sunxi_ccm_reg * const ccm =
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(struct sunxi_ccm_reg *)SUNXI_CCM_BASE;
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const int p = 0;
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/* Switch cluster 0 to 24MHz clock while changing PLL1 */
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clrsetbits_le32(&ccm->cpu_clk_source, C0_CPUX_CLK_SRC_MASK,
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C0_CPUX_CLK_SRC_OSC24M);
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writel(CCM_PLL1_CTRL_EN | CCM_PLL1_CTRL_P(p) |
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CCM_PLL1_CLOCK_TIME_2 |
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CCM_PLL1_CTRL_N(clk / 24000000),
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&ccm->pll1_c0_cfg);
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/*
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* Don't bother with the stable-time registers, as it doesn't
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* wait until the PLL is stable. Note, that even Allwinner
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* just uses a delay loop (or rather the AVS timer) for this
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* instead of the PLL_STABLE_STATUS register.
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*/
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sdelay(2000);
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/* Switch cluster 0 back to PLL1 */
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clrsetbits_le32(&ccm->cpu_clk_source, C0_CPUX_CLK_SRC_MASK,
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C0_CPUX_CLK_SRC_PLL1);
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}
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void clock_set_pll2(unsigned int clk)
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{
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struct sunxi_ccm_reg * const ccm =
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(struct sunxi_ccm_reg *)SUNXI_CCM_BASE;
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const int p = 0;
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/* Switch cluster 1 to 24MHz clock while changing PLL2 */
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clrsetbits_le32(&ccm->cpu_clk_source, C1_CPUX_CLK_SRC_MASK,
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C1_CPUX_CLK_SRC_OSC24M);
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writel(CCM_PLL2_CTRL_EN | CCM_PLL2_CTRL_P(p) |
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CCM_PLL2_CLOCK_TIME_2 | CCM_PLL2_CTRL_N(clk / 24000000),
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&ccm->pll2_c1_cfg);
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sdelay(2000);
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/* Switch cluster 1 back to PLL2 */
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clrsetbits_le32(&ccm->cpu_clk_source, C1_CPUX_CLK_SRC_MASK,
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C1_CPUX_CLK_SRC_PLL2);
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}
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void clock_set_pll6(unsigned int clk)
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{
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struct sunxi_ccm_reg * const ccm =
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(struct sunxi_ccm_reg *)SUNXI_CCM_BASE;
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const int p = 0;
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writel(CCM_PLL6_CTRL_EN | CCM_PLL6_CFG_UPDATE | CCM_PLL6_CTRL_P(p)
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| CCM_PLL6_CTRL_N(clk / 24000000),
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&ccm->pll6_ddr_cfg);
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do { } while (!(readl(&ccm->pll_stable_status) & PLL_DDR_STATUS));
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sdelay(2000);
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}
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void clock_set_pll12(unsigned int clk)
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{
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struct sunxi_ccm_reg * const ccm =
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(struct sunxi_ccm_reg *)SUNXI_CCM_BASE;
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if (readl(&ccm->pll12_periph1_cfg) & CCM_PLL12_CTRL_EN)
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return;
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writel(CCM_PLL12_CTRL_EN | CCM_PLL12_CTRL_N(clk / 24000000),
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&ccm->pll12_periph1_cfg);
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sdelay(2000);
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}
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void clock_set_pll4(unsigned int clk)
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{
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struct sunxi_ccm_reg * const ccm =
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(struct sunxi_ccm_reg *)SUNXI_CCM_BASE;
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writel(CCM_PLL4_CTRL_EN | CCM_PLL4_CTRL_N(clk / 24000000),
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&ccm->pll4_periph0_cfg);
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sdelay(2000);
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}
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#endif
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int clock_twi_onoff(int port, int state)
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{
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struct sunxi_ccm_reg *const ccm =
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(struct sunxi_ccm_reg *)SUNXI_CCM_BASE;
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if (port > 4)
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return -1;
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/* set the apb reset and clock gate for twi */
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if (state) {
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setbits_le32(&ccm->apb1_gate,
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CLK_GATE_OPEN << (APB1_GATE_TWI_SHIFT + port));
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setbits_le32(&ccm->apb1_reset_cfg,
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1 << (APB1_RESET_TWI_SHIFT + port));
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} else {
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clrbits_le32(&ccm->apb1_reset_cfg,
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1 << (APB1_RESET_TWI_SHIFT + port));
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clrbits_le32(&ccm->apb1_gate,
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CLK_GATE_OPEN << (APB1_GATE_TWI_SHIFT + port));
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}
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return 0;
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}
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unsigned int clock_get_pll4_periph0(void)
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{
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struct sunxi_ccm_reg *const ccm =
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(struct sunxi_ccm_reg *)SUNXI_CCM_BASE;
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uint32_t rval = readl(&ccm->pll4_periph0_cfg);
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int n = ((rval & CCM_PLL4_CTRL_N_MASK) >> CCM_PLL4_CTRL_N_SHIFT);
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int p = ((rval & CCM_PLL4_CTRL_P_MASK) >> CCM_PLL4_CTRL_P_SHIFT);
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int m = ((rval & CCM_PLL4_CTRL_M_MASK) >> CCM_PLL4_CTRL_M_SHIFT) + 1;
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const int k = 1;
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return ((24000000 * n * k) >> p) / m;
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}
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