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From: Thierry Reding <thierry.reding@gmail.com>
To: Thierry Reding <thierry.reding@gmail.com>
Cc: Jon Hunter <jonathanh@nvidia.com>,
        Dmitry Osipenko <digetx@gmail.com>,
        Rob Herring <robh+dt@kernel.org>,
        Mark Rutland <mark.rutland@arm.com>,
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        Stephen Boyd <sboyd@kernel.org>,
        Joseph Lo <josephl@nvidia.com>, devicetree@vger.kernel.org,
        linux-tegra@vger.kernel.org, linux-clk@vger.kernel.org,
        linux-arm-kernel@lists.infradead.org
Subject: [PATCH v5 1/8] clk: tegra: Add PLLP_UD and PLLMB_UD for Tegra210
Date: Tue, 10 Mar 2020 16:19:56 +0100
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From: Joseph Lo <josephl@nvidia.com>

Introduce the low jitter path of PLLP and PLLMB which can be used as EMC
clock source.

Signed-off-by: Joseph Lo <josephl@nvidia.com>
Signed-off-by: Thierry Reding <treding@nvidia.com>
---
 drivers/clk/tegra/clk-tegra210.c         | 11 +++++++++++
 include/dt-bindings/clock/tegra210-car.h |  4 ++--
 2 files changed, 13 insertions(+), 2 deletions(-)

diff --git a/drivers/clk/tegra/clk-tegra210.c b/drivers/clk/tegra/clk-tegra210.c
index 45d54ead30bc..f99647b4a71f 100644
--- a/drivers/clk/tegra/clk-tegra210.c
+++ b/drivers/clk/tegra/clk-tegra210.c
@@ -3161,6 +3161,17 @@ static void __init tegra210_pll_init(void __iomem *clk_base,
 	clk_register_clkdev(clk, "pll_m_ud", NULL);
 	clks[TEGRA210_CLK_PLL_M_UD] = clk;
 
+	/* PLLMB_UD */
+	clk = clk_register_fixed_factor(NULL, "pll_mb_ud", "pll_mb",
+					CLK_SET_RATE_PARENT, 1, 1);
+	clk_register_clkdev(clk, "pll_mb_ud", NULL);
+	clks[TEGRA210_CLK_PLL_MB_UD] = clk;
+
+	/* PLLP_UD */
+	clk = clk_register_fixed_factor(NULL, "pll_p_ud", "pll_p",
+					0, 1, 1);
+	clks[TEGRA210_CLK_PLL_P_UD] = clk;
+
 	/* PLLU_VCO */
 	if (!tegra210_init_pllu()) {
 		clk = clk_register_fixed_rate(NULL, "pll_u_vco", "pll_ref", 0,
diff --git a/include/dt-bindings/clock/tegra210-car.h b/include/dt-bindings/clock/tegra210-car.h
index 7a8f10b9a66d..5c93b01156d4 100644
--- a/include/dt-bindings/clock/tegra210-car.h
+++ b/include/dt-bindings/clock/tegra210-car.h
@@ -351,8 +351,8 @@
 #define TEGRA210_CLK_PLL_P_OUT_XUSB 317
 #define TEGRA210_CLK_XUSB_SSP_SRC 318
 #define TEGRA210_CLK_PLL_RE_OUT1 319
-/* 320 */
-/* 321 */
+#define TEGRA210_CLK_PLL_MB_UD 320
+#define TEGRA210_CLK_PLL_P_UD 321
 #define TEGRA210_CLK_ISP 322
 #define TEGRA210_CLK_PLL_A_OUT_ADSP 323
 #define TEGRA210_CLK_PLL_A_OUT0_OUT_ADSP 324

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From: Thierry Reding <thierry.reding@gmail.com>
To: Thierry Reding <thierry.reding@gmail.com>
Cc: Jon Hunter <jonathanh@nvidia.com>,
        Dmitry Osipenko <digetx@gmail.com>,
        Rob Herring <robh+dt@kernel.org>,
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        linux-arm-kernel@lists.infradead.org
Subject: [PATCH v5 2/8] clk: tegra: Export functions for EMC clock scaling
Date: Tue, 10 Mar 2020 16:19:57 +0100
Message-Id: <20200310152003.2945170-3-thierry.reding@gmail.com>
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From: Joseph Lo <josephl@nvidia.com>

Export functions to allow accessing the CAR register required by EMC
clock scaling. These functions will be used to access the CAR register
as part of the scaling sequence.

Signed-off-by: Joseph Lo <josephl@nvidia.com>
Signed-off-by: Thierry Reding <treding@nvidia.com>
---
Changes in v5:
- remove tegra210_clk_emc_update_setting() which is no longer needed

 drivers/clk/tegra/clk-tegra210.c | 26 ++++++++++++++++++++++++++
 include/linux/clk/tegra.h        |  3 +++
 2 files changed, 29 insertions(+)

diff --git a/drivers/clk/tegra/clk-tegra210.c b/drivers/clk/tegra/clk-tegra210.c
index f99647b4a71f..0a5be781da60 100644
--- a/drivers/clk/tegra/clk-tegra210.c
+++ b/drivers/clk/tegra/clk-tegra210.c
@@ -37,6 +37,7 @@
 #define CLK_SOURCE_LA 0x1f8
 #define CLK_SOURCE_SDMMC2 0x154
 #define CLK_SOURCE_SDMMC4 0x164
+#define CLK_SOURCE_EMC_DLL 0x664
 
 #define PLLC_BASE 0x80
 #define PLLC_OUT 0x84
@@ -227,6 +228,10 @@
 #define RST_DFLL_DVCO 0x2f4
 #define DVFS_DFLL_RESET_SHIFT 0
 
+#define CLK_RST_CONTROLLER_CLK_OUT_ENB_X_SET	0x284
+#define CLK_RST_CONTROLLER_CLK_OUT_ENB_X_CLR	0x288
+#define CLK_OUT_ENB_X_CLK_ENB_EMC_DLL		BIT(14)
+
 #define CLK_RST_CONTROLLER_RST_DEV_Y_SET 0x2a8
 #define CLK_RST_CONTROLLER_RST_DEV_Y_CLR 0x2ac
 #define CPU_SOFTRST_CTRL 0x380
@@ -555,6 +560,27 @@ void tegra210_set_sata_pll_seq_sw(bool state)
 }
 EXPORT_SYMBOL_GPL(tegra210_set_sata_pll_seq_sw);
 
+void tegra210_clk_emc_dll_enable(bool flag)
+{
+	u32 offset = flag ? CLK_RST_CONTROLLER_CLK_OUT_ENB_X_SET :
+		     CLK_RST_CONTROLLER_CLK_OUT_ENB_X_CLR;
+
+	writel_relaxed(CLK_OUT_ENB_X_CLK_ENB_EMC_DLL, clk_base + offset);
+}
+EXPORT_SYMBOL_GPL(tegra210_clk_emc_dll_enable);
+
+void tegra210_clk_emc_dll_update_setting(u32 emc_dll_src_value)
+{
+	writel_relaxed(emc_dll_src_value, clk_base + CLK_SOURCE_EMC_DLL);
+}
+EXPORT_SYMBOL_GPL(tegra210_clk_emc_dll_update_setting);
+
+void tegra210_clk_emc_update_setting(u32 emc_src_value)
+{
+	writel_relaxed(emc_src_value, clk_base + CLK_SOURCE_EMC);
+}
+EXPORT_SYMBOL_GPL(tegra210_clk_emc_update_setting);
+
 static void tegra210_generic_mbist_war(struct tegra210_domain_mbist_war *mbist)
 {
 	u32 val;
diff --git a/include/linux/clk/tegra.h b/include/linux/clk/tegra.h
index 2b1b35240074..5b0bdb413460 100644
--- a/include/linux/clk/tegra.h
+++ b/include/linux/clk/tegra.h
@@ -131,6 +131,9 @@ extern void tegra210_set_sata_pll_seq_sw(bool state);
 extern void tegra210_put_utmipll_in_iddq(void);
 extern void tegra210_put_utmipll_out_iddq(void);
 extern int tegra210_clk_handle_mbist_war(unsigned int id);
+extern void tegra210_clk_emc_dll_enable(bool flag);
+extern void tegra210_clk_emc_dll_update_setting(u32 emc_dll_src_value);
+extern void tegra210_clk_emc_update_setting(u32 emc_src_value);
 
 struct clk;
 

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From: Thierry Reding <thierry.reding@gmail.com>
To: Thierry Reding <thierry.reding@gmail.com>
Cc: Jon Hunter <jonathanh@nvidia.com>,
        Dmitry Osipenko <digetx@gmail.com>,
        Rob Herring <robh+dt@kernel.org>,
        Mark Rutland <mark.rutland@arm.com>,
        Michael Turquette <mturquette@baylibre.com>,
        Stephen Boyd <sboyd@kernel.org>,
        Joseph Lo <josephl@nvidia.com>, devicetree@vger.kernel.org,
        linux-tegra@vger.kernel.org, linux-clk@vger.kernel.org,
        linux-arm-kernel@lists.infradead.org
Subject: [PATCH v5 3/8] clk: tegra: Implement Tegra210 EMC clock
Date: Tue, 10 Mar 2020 16:19:58 +0100
Message-Id: <20200310152003.2945170-4-thierry.reding@gmail.com>
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From: Joseph Lo <josephl@nvidia.com>

The EMC clock needs to carefully coordinate with the EMC controller
programming to make sure external memory can be properly clocked. Do so
by hooking up the EMC clock with an EMC provider that will specify which
rates are supported by the EMC and provide a callback to use for setting
the clock rate at the EMC.

Based on work by Peter De Schrijver <pdeschrijver@nvidia.com>.

Signed-off-by: Joseph Lo <josephl@nvidia.com>
Signed-off-by: Thierry Reding <treding@nvidia.com>
---
Changes in v5:
- major rework and cleanup

 drivers/clk/tegra/Makefile           |   1 +
 drivers/clk/tegra/clk-tegra210-emc.c | 352 ++++++++++++++
 drivers/clk/tegra/clk.h              |   3 +
 drivers/memory/tegra/Kconfig         |  10 +
 drivers/memory/tegra/Makefile        |   1 +
 drivers/memory/tegra/tegra210-emc.c  | 671 +++++++++++++++++++++++++++
 drivers/memory/tegra/tegra210-emc.h  | 156 +++++++
 include/linux/clk/tegra.h            |  23 +
 8 files changed, 1217 insertions(+)
 create mode 100644 drivers/clk/tegra/clk-tegra210-emc.c
 create mode 100644 drivers/memory/tegra/tegra210-emc.c
 create mode 100644 drivers/memory/tegra/tegra210-emc.h

diff --git a/drivers/clk/tegra/Makefile b/drivers/clk/tegra/Makefile
index 6f6bc2f0aa43..6df344331bf1 100644
--- a/drivers/clk/tegra/Makefile
+++ b/drivers/clk/tegra/Makefile
@@ -26,5 +26,6 @@ obj-$(CONFIG_TEGRA_CLK_EMC)		+= clk-tegra124-emc.o
 obj-$(CONFIG_ARCH_TEGRA_132_SOC)	+= clk-tegra124.o
 obj-y					+= cvb.o
 obj-$(CONFIG_ARCH_TEGRA_210_SOC)	+= clk-tegra210.o
+obj-$(CONFIG_ARCH_TEGRA_210_SOC)	+= clk-tegra210-emc.o
 obj-$(CONFIG_CLK_TEGRA_BPMP)		+= clk-bpmp.o
 obj-y					+= clk-utils.o
diff --git a/drivers/clk/tegra/clk-tegra210-emc.c b/drivers/clk/tegra/clk-tegra210-emc.c
new file mode 100644
index 000000000000..3eb58c37d6c0
--- /dev/null
+++ b/drivers/clk/tegra/clk-tegra210-emc.c
@@ -0,0 +1,352 @@
+// SPDX-License-Identifier: GPL-2.0
+/*
+ * Copyright (c) 2015-2020, NVIDIA CORPORATION.  All rights reserved.
+ */
+
+#include <linux/clk.h>
+#include <linux/clk-provider.h>
+#include <linux/clk/tegra.h>
+#include <linux/device.h>
+#include <linux/io.h>
+#include <linux/slab.h>
+
+#define CLK_SOURCE_EMC 0x19c
+#define  CLK_SOURCE_EMC_2X_CLK_SRC_SHIFT 29
+#define  CLK_SOURCE_EMC_2X_CLK_SRC_MASK 0x7
+#define  CLK_SOURCE_EMC_MC_EMC_SAME_FREQ BIT(16)
+#define  CLK_SOURCE_EMC_2X_CLK_DIVISOR_SHIFT 0
+#define  CLK_SOURCE_EMC_2X_CLK_DIVISOR_MASK 0xff
+
+#define CLK_SRC_PLLM 0
+#define CLK_SRC_PLLC 1
+#define CLK_SRC_PLLP 2
+#define CLK_SRC_CLK_M 3
+#define CLK_SRC_PLLM_UD 4
+#define CLK_SRC_PLLMB_UD 5
+#define CLK_SRC_PLLMB 6
+#define CLK_SRC_PLLP_UD 7
+
+struct tegra210_clk_emc {
+	struct clk_hw hw;
+	void __iomem *regs;
+
+	struct tegra210_clk_emc_provider *provider;
+
+	struct clk *parents[8];
+};
+
+static inline struct tegra210_clk_emc *
+to_tegra210_clk_emc(struct clk_hw *hw)
+{
+	return container_of(hw, struct tegra210_clk_emc, hw);
+}
+
+static const char *tegra210_clk_emc_parents[] = {
+	"pll_m", "pll_c", "pll_p", "clk_m", "pll_m_ud", "pll_mb_ud",
+	"pll_mb", "pll_p_ud",
+};
+
+static u8 tegra210_clk_emc_get_parent(struct clk_hw *hw)
+{
+	struct tegra210_clk_emc *emc = to_tegra210_clk_emc(hw);
+	u32 value;
+	u8 src;
+
+	value = readl_relaxed(emc->regs + CLK_SOURCE_EMC);
+	src = (value >> CLK_SOURCE_EMC_2X_CLK_SRC_SHIFT) &
+			CLK_SOURCE_EMC_2X_CLK_SRC_MASK;
+
+	return src;
+}
+
+static unsigned long tegra210_clk_emc_recalc_rate(struct clk_hw *hw,
+						  unsigned long parent_rate)
+{
+	struct tegra210_clk_emc *emc = to_tegra210_clk_emc(hw);
+	u32 value, div;
+
+	value = readl_relaxed(emc->regs + CLK_SOURCE_EMC);
+
+	div = (value >> CLK_SOURCE_EMC_2X_CLK_DIVISOR_SHIFT) &
+			CLK_SOURCE_EMC_2X_CLK_DIVISOR_MASK;
+	div += 2;
+
+	return DIV_ROUND_UP(parent_rate * 2, div);
+}
+
+static long tegra210_clk_emc_round_rate(struct clk_hw *hw, unsigned long rate,
+					unsigned long *prate)
+{
+	struct tegra210_clk_emc *emc = to_tegra210_clk_emc(hw);
+	struct tegra210_clk_emc_provider *provider = emc->provider;
+	unsigned int i;
+
+	if (!provider || !provider->configs || provider->num_configs == 0)
+		return clk_hw_get_rate(hw);
+
+	for (i = 0; i < provider->num_configs; i++) {
+		if (provider->configs[i].rate >= rate)
+			return provider->configs[i].rate;
+	}
+
+	return provider->configs[i - 1].rate;
+}
+
+static struct clk *tegra210_clk_emc_find_parent(struct tegra210_clk_emc *emc,
+						u8 index)
+{
+	struct clk_hw *parent = clk_hw_get_parent_by_index(&emc->hw, index);
+	const char *name = clk_hw_get_name(parent);
+
+	/* XXX implement cache? */
+
+	return __clk_lookup(name);
+}
+
+static int tegra210_clk_emc_set_rate(struct clk_hw *hw, unsigned long rate,
+				     unsigned long parent_rate)
+{
+	struct tegra210_clk_emc *emc = to_tegra210_clk_emc(hw);
+	struct tegra210_clk_emc_provider *provider = emc->provider;
+	struct tegra210_clk_emc_config *config;
+	struct device *dev = provider->dev;
+	struct clk_hw *old, *new, *parent;
+	u8 old_idx, new_idx, index;
+	struct clk *clk;
+	unsigned int i;
+	int err;
+
+	if (!provider || !provider->configs || provider->num_configs == 0)
+		return -EINVAL;
+
+	for (i = 0; i < provider->num_configs; i++) {
+		if (provider->configs[i].rate >= rate) {
+			config = &provider->configs[i];
+			break;
+		}
+	}
+
+	if (i == provider->num_configs)
+		config = &provider->configs[i - 1];
+
+	old_idx = tegra210_clk_emc_get_parent(hw);
+	new_idx = (config->value >> CLK_SOURCE_EMC_2X_CLK_SRC_SHIFT) &
+				    CLK_SOURCE_EMC_2X_CLK_SRC_MASK;
+
+	old = clk_hw_get_parent_by_index(hw, old_idx);
+	new = clk_hw_get_parent_by_index(hw, new_idx);
+
+	/* if the rate has changed... */
+	if (config->parent_rate != clk_hw_get_rate(old)) {
+		/* ... but the clock source remains the same ... */
+		if (new_idx == old_idx) {
+			/* ... switch to the alternative clock source. */
+			switch (new_idx) {
+			case CLK_SRC_PLLM:
+				new_idx = CLK_SRC_PLLMB;
+				break;
+
+			case CLK_SRC_PLLM_UD:
+				new_idx = CLK_SRC_PLLMB_UD;
+				break;
+
+			case CLK_SRC_PLLMB_UD:
+				new_idx = CLK_SRC_PLLM_UD;
+				break;
+
+			case CLK_SRC_PLLMB:
+				new_idx = CLK_SRC_PLLM;
+				break;
+			}
+
+			/*
+			 * This should never happen because we can't deal with
+			 * it.
+			 */
+			if (WARN_ON(new_idx == old_idx))
+				return -EINVAL;
+
+			new = clk_hw_get_parent_by_index(hw, new_idx);
+		}
+
+		index = new_idx;
+		parent = new;
+	} else {
+		index = old_idx;
+		parent = old;
+	}
+
+	clk = tegra210_clk_emc_find_parent(emc, index);
+	if (IS_ERR(clk)) {
+		err = PTR_ERR(clk);
+		dev_err(dev, "failed to get parent clock for index %u: %d\n",
+			index, err);
+		return err;
+	}
+
+	/* set the new parent clock to the required rate */
+	if (clk_get_rate(clk) != config->parent_rate) {
+		err = clk_set_rate(clk, config->parent_rate);
+		if (err < 0) {
+			dev_err(dev, "failed to set rate %lu Hz for %pC: %d\n",
+				config->parent_rate, clk, err);
+			return err;
+		}
+	}
+
+	/* enable the new parent clock */
+	if (parent != old) {
+		err = clk_prepare_enable(clk);
+		if (err < 0) {
+			dev_err(dev, "failed to enable parent clock %pC: %d\n",
+				clk, err);
+			return err;
+		}
+	}
+
+	/* update the EMC source configuration to reflect the new parent */
+	config->value &= ~(CLK_SOURCE_EMC_2X_CLK_SRC_MASK <<
+			   CLK_SOURCE_EMC_2X_CLK_SRC_SHIFT);
+	config->value |= (index & CLK_SOURCE_EMC_2X_CLK_SRC_MASK) <<
+				  CLK_SOURCE_EMC_2X_CLK_SRC_SHIFT;
+
+	/*
+	 * Finally, switch the EMC programming with both old and new parent
+	 * clocks enabled.
+	 */
+	err = provider->set_rate(dev, config);
+	if (err < 0) {
+		dev_err(dev, "failed to set EMC rate to %lu Hz: %d\n", rate,
+			err);
+
+		/*
+		 * If we're unable to switch to the new EMC frequency, we no
+		 * longer need the new parent to be enabled.
+		 */
+		if (parent != old)
+			clk_disable_unprepare(clk);
+
+		return err;
+	}
+
+	/* reparent to new parent clock and disable the old parent clock */
+	if (parent != old) {
+		clk = tegra210_clk_emc_find_parent(emc, old_idx);
+		if (IS_ERR(clk)) {
+			err = PTR_ERR(clk);
+			dev_err(dev,
+				"failed to get parent clock for index %u: %d\n",
+				old_idx, err);
+			return err;
+		}
+
+		clk_hw_reparent(hw, parent);
+		clk_disable_unprepare(clk);
+	}
+
+	return err;
+}
+
+static const struct clk_ops tegra210_clk_emc_ops = {
+	.get_parent = tegra210_clk_emc_get_parent,
+	.recalc_rate = tegra210_clk_emc_recalc_rate,
+	.round_rate = tegra210_clk_emc_round_rate,
+	.set_rate = tegra210_clk_emc_set_rate,
+};
+
+struct clk *tegra210_clk_register_emc(struct device_node *np,
+				      void __iomem *regs)
+{
+	struct tegra210_clk_emc *emc;
+	struct clk_init_data init;
+	struct clk *clk;
+
+	emc = kzalloc(sizeof(*emc), GFP_KERNEL);
+	if (!emc)
+		return ERR_PTR(-ENOMEM);
+
+	emc->regs = regs;
+
+	init.name = "emc";
+	init.ops = &tegra210_clk_emc_ops;
+	init.flags = CLK_IS_CRITICAL | CLK_GET_RATE_NOCACHE;
+	init.parent_names = tegra210_clk_emc_parents;
+	init.num_parents = ARRAY_SIZE(tegra210_clk_emc_parents);
+	emc->hw.init = &init;
+
+	clk = clk_register(NULL, &emc->hw);
+	if (IS_ERR(clk)) {
+		kfree(emc);
+		return clk;
+	}
+
+	return clk;
+}
+
+int tegra210_clk_emc_attach(struct clk *clk,
+			    struct tegra210_clk_emc_provider *provider)
+{
+	struct clk_hw *hw = __clk_get_hw(clk);
+	struct tegra210_clk_emc *emc = to_tegra210_clk_emc(hw);
+	struct device *dev = provider->dev;
+	unsigned int i;
+
+	for (i = 0; i < provider->num_configs; i++) {
+		struct tegra210_clk_emc_config *config = &provider->configs[i];
+		struct clk_hw *parent;
+		bool same_freq;
+		u8 src, div;
+
+		src = (config->value >> CLK_SOURCE_EMC_2X_CLK_SRC_SHIFT) &
+					CLK_SOURCE_EMC_2X_CLK_SRC_MASK;
+		div = (config->value >> CLK_SOURCE_EMC_2X_CLK_DIVISOR_SHIFT) &
+					CLK_SOURCE_EMC_2X_CLK_DIVISOR_MASK;
+
+		/* do basic sanity checking on the EMC timings */
+		if (div & 0x1) {
+			dev_err(dev, "invalid odd divider %u for rate %lu Hz\n",
+				div, config->rate);
+			return -EINVAL;
+		}
+
+		same_freq = config->value & CLK_SOURCE_EMC_MC_EMC_SAME_FREQ;
+
+		if (same_freq != config->same_freq) {
+			dev_err(dev,
+				"ambiguous EMC to MC ratio for rate %lu Hz\n",
+				config->rate);
+			return -EINVAL;
+		}
+
+		parent = clk_hw_get_parent_by_index(hw, src);
+		config->parent = src;
+
+		if (src == CLK_SRC_PLLM || src == CLK_SRC_PLLM_UD) {
+			config->parent_rate = config->rate * (1 + div / 2);
+		} else {
+			unsigned long rate = config->rate * (1 + div / 2);
+
+			config->parent_rate = clk_hw_get_rate(parent);
+
+			if (config->parent_rate != rate) {
+				dev_err(dev,
+					"rate %lu Hz does not match input\n",
+					config->rate);
+				return -EINVAL;
+			}
+		}
+	}
+
+	emc->provider = provider;
+
+	return 0;
+}
+EXPORT_SYMBOL_GPL(tegra210_clk_emc_attach);
+
+void tegra210_clk_emc_detach(struct clk *clk)
+{
+	struct tegra210_clk_emc *emc = to_tegra210_clk_emc(__clk_get_hw(clk));
+
+	emc->provider = NULL;
+}
+EXPORT_SYMBOL_GPL(tegra210_clk_emc_detach);
diff --git a/drivers/clk/tegra/clk.h b/drivers/clk/tegra/clk.h
index 416a6b09f6a3..d196427d2cc0 100644
--- a/drivers/clk/tegra/clk.h
+++ b/drivers/clk/tegra/clk.h
@@ -908,4 +908,7 @@ void tegra_clk_periph_resume(void);
 bool tegra20_clk_emc_driver_available(struct clk_hw *emc_hw);
 struct clk *tegra20_clk_register_emc(void __iomem *ioaddr, bool low_jitter);
 
+struct clk *tegra210_clk_register_emc(struct device_node *np,
+				      void __iomem *regs);
+
 #endif /* TEGRA_CLK_H */
diff --git a/drivers/memory/tegra/Kconfig b/drivers/memory/tegra/Kconfig
index fbfbaada61a2..a319f4df6126 100644
--- a/drivers/memory/tegra/Kconfig
+++ b/drivers/memory/tegra/Kconfig
@@ -36,3 +36,13 @@ config TEGRA124_EMC
 	  Tegra124 chips. The EMC controls the external DRAM on the board.
 	  This driver is required to change memory timings / clock rate for
 	  external memory.
+
+config TEGRA210_EMC
+	bool "NVIDIA Tegra210 External Memory Controller driver"
+	default y
+	depends on TEGRA_MC && ARCH_TEGRA_210_SOC
+	help
+	  This driver is for the External Memory Controller (EMC) found on
+	  Tegra210 chips. The EMC controls the external DRAM on the board.
+	  This driver is required to change memory timings / clock rate for
+	  external memory.
diff --git a/drivers/memory/tegra/Makefile b/drivers/memory/tegra/Makefile
index 529d10bc5650..1c59150ccf58 100644
--- a/drivers/memory/tegra/Makefile
+++ b/drivers/memory/tegra/Makefile
@@ -13,5 +13,6 @@ obj-$(CONFIG_TEGRA_MC) += tegra-mc.o
 obj-$(CONFIG_TEGRA20_EMC)  += tegra20-emc.o
 obj-$(CONFIG_TEGRA30_EMC)  += tegra30-emc.o
 obj-$(CONFIG_TEGRA124_EMC) += tegra124-emc.o
+obj-$(CONFIG_TEGRA210_EMC) += tegra210-emc.o
 obj-$(CONFIG_ARCH_TEGRA_186_SOC) += tegra186.o tegra186-emc.o
 obj-$(CONFIG_ARCH_TEGRA_194_SOC) += tegra186.o tegra186-emc.o
diff --git a/drivers/memory/tegra/tegra210-emc.c b/drivers/memory/tegra/tegra210-emc.c
new file mode 100644
index 000000000000..80ea14d1e6ce
--- /dev/null
+++ b/drivers/memory/tegra/tegra210-emc.c
@@ -0,0 +1,671 @@
+// SPDX-License-Identifier: GPL-2.0
+/*
+ * Copyright (c) 2015-2019, NVIDIA CORPORATION.  All rights reserved.
+ */
+
+#include <linux/clk.h>
+#include <linux/clk/tegra.h>
+#include <linux/clk-provider.h>
+#include <linux/debugfs.h>
+#include <linux/delay.h>
+#include <linux/kernel.h>
+#include <linux/of_address.h>
+#include <linux/of_platform.h>
+#include <linux/slab.h>
+#include <soc/tegra/fuse.h>
+#include <soc/tegra/mc.h>
+
+#include "mc.h"
+#include "tegra210-emc.h"
+
+#define CLK_RST_CONTROLLER_CLK_SOURCE_EMC		0x19c
+#define EMC_CLK_EMC_2X_CLK_SRC_SHIFT			29
+#define EMC_CLK_EMC_2X_CLK_SRC_MASK			\
+	(0x7 << EMC_CLK_EMC_2X_CLK_SRC_SHIFT)
+#define EMC_CLK_MC_EMC_SAME_FREQ			BIT(16)
+#define EMC_CLK_EMC_2X_CLK_DIVISOR_SHIFT		0
+#define EMC_CLK_EMC_2X_CLK_DIVISOR_MASK			\
+	(0xff << EMC_CLK_EMC_2X_CLK_DIVISOR_SHIFT)
+
+#define MC_EMEM_ARB_MISC0_EMC_SAME_FREQ			BIT(27)
+
+#define TEGRA_EMC_MAX_FREQS		16
+#define TEGRA210_EMC_SUSPEND_RATE	204000000
+
+#define CLK_CHANGE_DELAY 100
+#define TRAINING_TIME 100
+
+enum {
+	TEGRA_EMC_SRC_PLLM,
+	TEGRA_EMC_SRC_PLLC,
+	TEGRA_EMC_SRC_PLLP,
+	TEGRA_EMC_SRC_CLKM,
+	TEGRA_EMC_SRC_PLLM_UD,
+	TEGRA_EMC_SRC_PLLMB_UD,
+	TEGRA_EMC_SRC_PLLMB,
+	TEGRA_EMC_SRC_PLLP_UD,
+	TEGRA_EMC_SRC_COUNT,
+};
+
+struct emc_sel {
+	struct clk *input;
+	u32 value;
+	unsigned long input_rate;
+
+	struct clk *input_b;		// second source of PLLM: PLLMB
+	u32 value_b;
+	unsigned long input_rate_b;
+};
+
+static struct emc_sel *emc_clk_sel;
+static struct clk *emc_src[TEGRA_EMC_SRC_COUNT];
+static const char *emc_src_names[TEGRA_EMC_SRC_COUNT] = {
+	[TEGRA_EMC_SRC_PLLM] = "pll_m",
+	[TEGRA_EMC_SRC_PLLC] = "pll_c",
+	[TEGRA_EMC_SRC_PLLP] = "pll_p",
+	[TEGRA_EMC_SRC_CLKM] = "clk_m",
+	[TEGRA_EMC_SRC_PLLM_UD] = "pll_m_ud",
+	[TEGRA_EMC_SRC_PLLMB_UD] = "pll_mb_ud",
+	[TEGRA_EMC_SRC_PLLMB] = "pll_mb",
+	[TEGRA_EMC_SRC_PLLP_UD] = "pll_p_ud",
+};
+
+static const struct supported_sequence supported_seqs[] = {
+	{
+		0,
+		NULL,
+		NULL,
+		NULL
+	}
+};
+static const struct supported_sequence *seq = supported_seqs;
+static DEFINE_SPINLOCK(emc_access_lock);
+
+static inline struct tegra_emc *clk_hw_to_emc(struct clk_hw *hw)
+{
+	return container_of(hw, struct tegra_emc, hw);
+}
+
+u32 emc_readl(struct tegra_emc *emc, unsigned long offset)
+{
+	return readl_relaxed(emc->emc_base[REG_EMC] + offset);
+}
+
+u32 emc_readl_per_ch(struct tegra_emc *emc, int type,
+			    unsigned long offset)
+{
+	u32 val = 0;
+
+	switch (type) {
+	case REG_EMC:
+	case REG_EMC0:
+		val = readl_relaxed(emc->emc_base[REG_EMC] + offset);
+		break;
+	case REG_EMC1:
+		val = readl_relaxed(emc->emc_base[REG_EMC1] + offset);
+		break;
+	}
+
+	return val;
+}
+
+static inline u32 emc_src_val(u32 val)
+{
+	return (val & EMC_CLK_EMC_2X_CLK_SRC_MASK) >>
+		EMC_CLK_EMC_2X_CLK_SRC_SHIFT;
+}
+
+static inline u32 emc_div_val(u32 val)
+{
+	return (val & EMC_CLK_EMC_2X_CLK_DIVISOR_MASK) >>
+		EMC_CLK_EMC_2X_CLK_DIVISOR_SHIFT;
+}
+
+static void emc_train_func(struct timer_list *tmr)
+{
+	unsigned long flags;
+	struct tegra_emc *emc = from_timer(emc, tmr, training_timer);
+
+	if (!emc->current_timing)
+		return;
+
+	spin_lock_irqsave(&emc_access_lock, flags);
+	if (seq->periodic_compensation)
+		seq->periodic_compensation(emc);
+	spin_unlock_irqrestore(&emc_access_lock, flags);
+
+	mod_timer(&emc->training_timer,
+		  jiffies + msecs_to_jiffies(emc->timer_period_training));
+}
+
+static void emc_training_timer_start(struct tegra_emc *emc)
+{
+	mod_timer(&emc->training_timer,
+		  jiffies + msecs_to_jiffies(emc->timer_period_training));
+}
+
+static void emc_training_timer_stop(struct tegra_emc *emc)
+{
+	del_timer(&emc->training_timer);
+}
+
+static void emc_set_clock(struct tegra_emc *emc, u32 clksrc)
+{
+	seq->set_clock(emc, clksrc);
+
+	if (emc->next_timing->periodic_training)
+		emc_training_timer_start(emc);
+	else
+		emc_training_timer_stop(emc);
+}
+
+static inline unsigned long emc_get_src_clk_rate(void)
+{
+	int div;
+	u32 val;
+	unsigned long rate;
+
+	val = tegra210_clk_emc_get_setting();
+	rate = clk_get_rate(emc_src[emc_src_val(val)]);
+	div = emc_div_val(val);
+	div += 2;
+	rate *= 2;
+	rate += div - 1;
+	do_div(rate, div);
+
+	return rate;
+}
+
+static int emc_table_lookup(struct tegra_emc *emc, unsigned long rate)
+{
+	int i;
+
+	for (i = 0; i < emc->emc_table_size; i++) {
+		if (emc_clk_sel[i].input == NULL)
+			continue;
+
+		if (emc->emc_table[i].rate == rate)
+			return i;
+	}
+
+	return -EINVAL;
+}
+
+static struct clk *emc_predict_parent(struct tegra_emc *emc,
+				      unsigned long rate)
+{
+	struct clk *old_parent, *new_parent;
+	unsigned long parent_rate;
+	int idx;
+
+	idx = emc_table_lookup(emc, rate / 1000);
+	if (idx < 0)
+		return ERR_PTR(-EINVAL);
+
+	parent_rate = emc_clk_sel[idx].input_rate * 1000;
+	new_parent = emc_clk_sel[idx].input;
+	old_parent = clk_get_parent(emc->emc_clk);
+
+	if (parent_rate == clk_get_rate(old_parent))
+		return old_parent;
+
+	if (clk_is_match(new_parent, old_parent))
+		new_parent = emc_clk_sel[idx].input_b;
+
+	if (parent_rate != clk_get_rate(new_parent))
+		clk_set_rate(new_parent, parent_rate);
+
+	return new_parent;
+}
+
+static int emc_set_rate(struct tegra_emc *emc, unsigned long rate)
+{
+	int i;
+	unsigned long flags;
+	s64 last_change_delay;
+	struct clk *parent;
+
+	if (emc->emc_suspend)
+		rate = TEGRA210_EMC_SUSPEND_RATE;
+
+	if (rate == emc->current_timing->rate)
+		return 0;
+
+	i = emc_table_lookup(emc, rate / 1000);
+
+	if (i < 0)
+		return i;
+
+	if (rate > 204000000 && !emc->emc_table[i].trained)
+		return -EINVAL;
+
+	parent = emc_predict_parent(emc, rate);
+	if (clk_is_match(parent, emc_clk_sel[i].input))
+		emc->clk_setting = emc_clk_sel[i].value;
+	else
+		emc->clk_setting = emc_clk_sel[i].value_b;
+
+	emc->next_timing = &emc->emc_table[i];
+	last_change_delay = ktime_us_delta(ktime_get(), emc->clkchange_time);
+	if ((last_change_delay >= 0) &&
+	    (last_change_delay < emc->clkchange_delay))
+		udelay(emc->clkchange_delay - (int)last_change_delay);
+
+	spin_lock_irqsave(&emc_access_lock, flags);
+	emc_set_clock(emc, emc->clk_setting);
+	emc->clkchange_time = ktime_get();
+	emc->current_timing = &emc->emc_table[i];
+	spin_unlock_irqrestore(&emc_access_lock, flags);
+
+	return 0;
+}
+
+#ifdef CONFIG_DEBUG_FS
+static int debug_emc_get_rate(void *data, u64 *val)
+{
+	struct clk *c = data;
+
+	*val = clk_get_rate(c);
+
+	return 0;
+}
+
+static int debug_emc_set_rate(void *data, u64 val)
+{
+	struct clk *c = data;
+
+	return clk_set_rate(c, val);
+}
+DEFINE_SIMPLE_ATTRIBUTE(emc_rate_fops, debug_emc_get_rate,
+			debug_emc_set_rate, "%llu\n");
+
+static int tegra_emc_debug_init(struct tegra_emc *emc)
+{
+	struct dentry *emc_debugfs_root;
+
+	emc_debugfs_root = debugfs_create_dir("tegra_emc", NULL);
+	if (!emc_debugfs_root)
+		return -ENOMEM;
+
+	if (!debugfs_create_file("rate", 0644, emc_debugfs_root, emc->emc_clk,
+				 &emc_rate_fops))
+		goto err_out;
+
+	return 0;
+
+err_out:
+	debugfs_remove_recursive(emc_debugfs_root);
+	return -ENOMEM;
+}
+#endif /* CONFIG_DEBUG_FS */
+
+static u8 clk_emc_get_parent(struct clk_hw *hw)
+{
+	struct tegra_emc *emc = clk_hw_to_emc(hw);
+
+	if (!emc->clk_setting)
+		emc->clk_setting = tegra210_clk_emc_get_setting();
+
+	return emc_src_val(emc->clk_setting);
+}
+
+static unsigned long clk_emc_recalc_rate(struct clk_hw *hw,
+					 unsigned long parent_rate)
+{
+	struct tegra_emc *emc = clk_hw_to_emc(hw);
+
+	if (!emc->emc_table_size || !seq) {
+		u32 emc_setting = tegra210_clk_emc_get_setting();
+
+		return clk_get_rate(emc_src[emc_src_val(emc_setting)]);
+	}
+
+	return emc->current_timing->rate * 1000;
+}
+
+static long clk_emc_round_rate(struct clk_hw *hw, unsigned long rate,
+			       unsigned long *prate)
+{
+	struct tegra_emc *emc = clk_hw_to_emc(hw);
+	int i;
+
+	if (!emc->emc_table_size || !seq) {
+		u32 emc_setting = tegra210_clk_emc_get_setting();
+		return clk_get_rate(emc_src[emc_src_val(emc_setting)]);
+	}
+
+	if (emc->emc_suspend)
+		return TEGRA210_EMC_SUSPEND_RATE;
+
+	rate /= 1000;
+
+	for (i = 0; i < emc->emc_table_size; i++) {
+		if (emc->emc_table[i].rate >= rate)
+			return emc->emc_table[i].rate * 1000;
+	}
+
+	return emc->emc_table[i - 1].rate * 1000;
+}
+
+static int clk_emc_set_rate(struct clk_hw *hw, unsigned long rate,
+			    unsigned long parent_rate)
+{
+	struct tegra_emc *emc = clk_hw_to_emc(hw);
+	struct clk *old_parent, *new_parent;
+	int ret = -EINVAL;
+
+	if (!emc->emc_table_size || !seq)
+		return ret;
+
+	if (emc->emc_suspend)
+		rate = TEGRA210_EMC_SUSPEND_RATE;
+
+	old_parent = clk_get_parent(hw->clk);
+	new_parent = emc_predict_parent(emc, rate);
+	if (IS_ERR(new_parent))
+		goto out;
+
+	if (!clk_is_match(new_parent, old_parent))
+		clk_prepare_enable(new_parent);
+
+	ret = emc_set_rate(emc, rate);
+	if (ret) {
+		if (new_parent != old_parent)
+			clk_disable_unprepare(new_parent);
+		goto out;
+	}
+
+	if (!clk_is_match(new_parent, old_parent)) {
+		clk_hw_reparent(hw, __clk_get_hw(new_parent));
+		clk_disable_unprepare(old_parent);
+	}
+
+out:
+	return ret;
+}
+
+static const struct clk_ops tegra_clk_emc_ops = {
+	.get_parent = clk_emc_get_parent,
+	.recalc_rate = clk_emc_recalc_rate,
+	.round_rate = clk_emc_round_rate,
+	.set_rate = clk_emc_set_rate,
+};
+
+static int find_matching_input(struct emc_table *table, struct emc_sel *sel)
+{
+	u32 div_value;
+	u32 src_value;
+	unsigned long input_rate = 0;
+	struct clk *input_clk;
+
+	div_value = emc_div_val(table->clk_src_emc);
+	src_value = emc_src_val(table->clk_src_emc);
+
+	if (div_value & 0x1) {
+		pr_warn("Tegra EMC: invalid odd divider for EMC rate %u\n",
+			table->rate);
+		return -EINVAL;
+	}
+
+	if (!(table->clk_src_emc & EMC_CLK_MC_EMC_SAME_FREQ) !=
+	    !(MC_EMEM_ARB_MISC0_EMC_SAME_FREQ &
+	    table->burst_mc_regs[MC_EMEM_ARB_MISC0_INDEX])) {
+		pr_warn("Tegra EMC: ambiguous EMC to MC ratio for rate %u\n",
+			table->rate);
+		return -EINVAL;
+	}
+
+	input_clk = emc_src[src_value];
+	if (input_clk == emc_src[TEGRA_EMC_SRC_PLLM]
+		|| input_clk == emc_src[TEGRA_EMC_SRC_PLLM_UD]) {
+		input_rate = table->rate * (1 + div_value / 2);
+	} else {
+		input_rate = clk_get_rate(input_clk) / 1000;
+		if (input_rate != (table->rate * (1 + div_value / 2))) {
+			pr_warn("Tegra EMC: rate %u doesn't match input\n",
+				table->rate);
+			return -EINVAL;
+		}
+	}
+
+	sel->input = input_clk;
+	sel->input_rate = input_rate;
+	sel->value = table->clk_src_emc;
+	sel->input_b = input_clk;
+	sel->input_rate_b = input_rate;
+	sel->value_b = table->clk_src_emc;
+
+	if (input_clk == emc_src[TEGRA_EMC_SRC_PLLM]) {
+		sel->input_b = emc_src[TEGRA_EMC_SRC_PLLMB];
+		sel->value_b = table->clk_src_emc &
+			       ~EMC_CLK_EMC_2X_CLK_SRC_MASK;
+		sel->value_b |= TEGRA_EMC_SRC_PLLMB <<
+				EMC_CLK_EMC_2X_CLK_SRC_SHIFT;
+	}
+
+	if (input_clk == emc_src[TEGRA_EMC_SRC_PLLM_UD]) {
+		sel->input_b = emc_src[TEGRA_EMC_SRC_PLLMB_UD];
+		sel->value_b = table->clk_src_emc &
+			       ~EMC_CLK_EMC_2X_CLK_SRC_MASK;
+		sel->value_b |= TEGRA_EMC_SRC_PLLMB_UD <<
+				EMC_CLK_EMC_2X_CLK_SRC_SHIFT;
+	}
+
+	return 0;
+}
+
+static int tegra210_emc_probe(struct platform_device *pdev)
+{
+	int i;
+	unsigned long table_rate;
+	unsigned long current_rate;
+	struct clk *emc_clk;
+	struct device_node *np;
+	struct platform_device *mc;
+	struct resource res;
+	struct tegra_emc *emc;
+	void *table_addr;
+
+	emc_clk = devm_clk_get(&pdev->dev, "emc");
+	if (IS_ERR(emc_clk))
+		return PTR_ERR(emc_clk);
+	emc = clk_hw_to_emc(__clk_get_hw(emc_clk));
+
+	np = of_parse_phandle(pdev->dev.of_node, "nvidia,memory-controller", 0);
+	if (!np) {
+		dev_err(&pdev->dev, "could not get memory controller\n");
+		return -ENOENT;
+	}
+
+	mc = of_find_device_by_node(np);
+	of_node_put(np);
+	if (!mc)
+		return -ENOENT;
+
+	emc->mc = platform_get_drvdata(mc);
+	if (!emc->mc)
+		return -EPROBE_DEFER;
+
+	emc->emc_base[REG_EMC] = devm_platform_ioremap_resource(pdev, 0);
+	emc->emc_base[REG_EMC0] = devm_platform_ioremap_resource(pdev, 1);
+	emc->emc_base[REG_EMC1] = devm_platform_ioremap_resource(pdev, 2);
+
+	for (i = 0; i < TEGRA_EMC_SRC_COUNT; i++) {
+		if (!IS_ERR(emc_src[i]))
+			clk_put(emc_src[i]);
+
+		emc_src[i] = devm_clk_get(&pdev->dev, emc_src_names[i]);
+		if (IS_ERR(emc_src[i])) {
+			dev_err(&pdev->dev, "Can not find EMC source clock\n");
+			return -ENODATA;
+		}
+	}
+
+	np = of_parse_phandle(pdev->dev.of_node, "memory-region", 0);
+	if (!np) {
+		dev_err(&pdev->dev, "could not find EMC table\n");
+		return -ENODATA;
+	}
+
+	if (!of_device_is_compatible(np, "nvidia,tegra210-emc-table") ||
+	    !of_device_is_available(np)) {
+		dev_err(&pdev->dev, "EMC table is invalid\n");
+		return -ENODATA;
+	}
+
+	of_address_to_resource(np, 0, &res);
+	table_addr = memremap(res.start, resource_size(&res), MEMREMAP_WB);
+	of_node_put(np);
+	if (!table_addr) {
+		dev_err(&pdev->dev, "could not map EMC table\n");
+		return -ENOMEM;
+	}
+	emc->emc_table = (struct emc_table *)table_addr;
+
+	for (i = 0; i < TEGRA_EMC_MAX_FREQS; i++)
+		if (emc->emc_table[i].rev != 0)
+			emc->emc_table_size++;
+		else
+			break;
+
+	/* check the supported sequence */
+	while (seq->table_rev) {
+		if (seq->table_rev == emc->emc_table[0].rev)
+			break;
+		seq++;
+	}
+	if (!seq->set_clock) {
+		seq = NULL;
+		dev_err(&pdev->dev, "Invalid EMC sequence for table Rev. %d\n",
+			emc->emc_table[0].rev);
+		return -ENODATA;
+	}
+
+	emc_clk_sel = devm_kcalloc(&pdev->dev,
+				   emc->emc_table_size,
+				   sizeof(struct emc_sel),
+				   GFP_KERNEL);
+
+	/* calculate the rate from source clock */
+	current_rate = emc_get_src_clk_rate() / 1000;
+
+	/* validate the table */
+	for (i = 0; i < emc->emc_table_size; i++) {
+		table_rate = emc->emc_table[i].rate;
+		if (!table_rate)
+			continue;
+
+		if (i && ((table_rate <= emc->emc_table[i-1].rate) ||
+		   (emc->emc_table[i].min_volt <
+		    emc->emc_table[i-1].min_volt)))
+			continue;
+
+		if (emc->emc_table[i].rev != emc->emc_table[0].rev)
+			continue;
+
+		if (find_matching_input(&emc->emc_table[i], &emc_clk_sel[i]))
+			continue;
+
+		if (table_rate == current_rate)
+			emc->current_timing = &emc->emc_table[i];
+	}
+
+	emc->clk_setting = tegra210_clk_emc_get_setting();
+	emc->clkchange_delay = CLK_CHANGE_DELAY;
+	emc->timer_period_training = TRAINING_TIME;
+	emc->dev = &pdev->dev;
+	dev_set_drvdata(emc->dev, emc);
+
+	/* EMC training timer */
+	timer_setup(&emc->training_timer, emc_train_func, 0);
+
+#ifdef CONFIG_DEBUG_FS
+	tegra_emc_debug_init(emc);
+#endif
+
+	return 0;
+}
+
+struct clk *tegra210_clk_register_emc(void)
+{
+	struct clk_init_data init;
+	struct clk *clk;
+	struct tegra_emc *emc;
+	int i;
+
+	emc = kzalloc(sizeof(*emc), GFP_KERNEL);
+	if (!emc)
+		return ERR_PTR(-ENOMEM);
+
+	for (i = 0; i < TEGRA_EMC_SRC_COUNT; i++)
+		emc_src[i] = clk_get_sys(NULL, emc_src_names[i]);
+
+	init.name = "emc";
+	init.ops = &tegra_clk_emc_ops;
+	init.flags = CLK_IS_CRITICAL | CLK_GET_RATE_NOCACHE;
+	init.parent_names = emc_src_names;
+	init.num_parents = ARRAY_SIZE(emc_src_names);
+	emc->hw.init = &init;
+
+	clk = clk_register(NULL, &emc->hw);
+	if (IS_ERR(clk)) {
+		kfree(emc);
+		return clk;
+	}
+	emc->emc_clk = clk;
+
+	return clk;
+}
+EXPORT_SYMBOL_GPL(tegra210_clk_register_emc);
+
+#ifdef CONFIG_PM_SLEEP
+static int tegra210_emc_suspend(struct device *dev)
+{
+	struct tegra_emc *emc = dev_get_drvdata(dev);
+
+	emc->emc_suspend = true;
+	emc->emc_resume_rate = clk_get_rate(emc->emc_clk);
+	clk_set_rate(emc->emc_clk, TEGRA210_EMC_SUSPEND_RATE);
+
+	pr_debug("%s at rate %lu\n", __func__, clk_get_rate(emc->emc_clk));
+
+	return 0;
+}
+
+static int tegra210_emc_resume(struct device *dev)
+{
+	struct tegra_emc *emc = dev_get_drvdata(dev);
+
+	emc->emc_suspend = false;
+	clk_set_rate(emc->emc_clk, emc->emc_resume_rate);
+
+	pr_debug("%s at rate %lu\n", __func__, clk_get_rate(emc->emc_clk));
+
+	return 0;
+}
+#endif
+
+static const struct dev_pm_ops tegra210_emc_pm_ops = {
+	SET_SYSTEM_SLEEP_PM_OPS(tegra210_emc_suspend, tegra210_emc_resume)
+};
+
+static const struct of_device_id tegra210_emc_of_match[] = {
+	{ .compatible = "nvidia,tegra210-emc", },
+	{ },
+};
+
+static struct platform_driver tegra210_emc_driver = {
+	.driver	= {
+		.name = "tegra210-emc",
+		.of_match_table = tegra210_emc_of_match,
+		.pm = &tegra210_emc_pm_ops,
+		.suppress_bind_attrs = true,
+	},
+	.probe = tegra210_emc_probe,
+};
+
+static int __init tegra210_emc_init(void)
+{
+	return platform_driver_register(&tegra210_emc_driver);
+}
+subsys_initcall(tegra210_emc_init);
diff --git a/drivers/memory/tegra/tegra210-emc.h b/drivers/memory/tegra/tegra210-emc.h
new file mode 100644
index 000000000000..029f8afb2d66
--- /dev/null
+++ b/drivers/memory/tegra/tegra210-emc.h
@@ -0,0 +1,156 @@
+/* SPDX-License-Identifier: GPL-2.0 */
+/*
+ * Copyright (c) 2015-2019, NVIDIA CORPORATION.  All rights reserved.
+ */
+
+#ifndef _TEGRA210_EMC_REG_H
+#define _TEGRA210_EMC_REG_H
+
+#include <linux/clk.h>
+#include <linux/clk-provider.h>
+#include <linux/platform_device.h>
+
+#include "mc.h"
+
+enum burst_mc_regs_list {
+	MC_EMEM_ARB_MISC0_INDEX = 20,
+};
+
+enum {
+	REG_EMC,
+	REG_EMC0,
+	REG_EMC1,
+	REG_TYPE_NUM,
+};
+
+enum {
+	C0D0U0,
+	C0D0U1,
+	C0D1U0,
+	C0D1U1,
+	C1D0U0,
+	C1D0U1,
+	C1D1U0,
+	C1D1U1,
+	DRAM_CLKTREE_NUM,
+};
+
+enum {
+	VREF_REGS_PER_CH_SIZE = 4,
+	DRAM_TIMINGS_NUM = 5,
+	BURST_REGS_PER_CH_SIZE = 8,
+	TRIM_REGS_PER_CH_SIZE = 10,
+	PTFV_ARRAY_SIZE = 12,
+	SAVE_RESTORE_MOD_REGS_SIZE = 12,
+	TRAINING_MOD_REGS_SIZE = 20,
+	BURST_UP_DOWN_REGS_SIZE = 24,
+	BURST_MC_REGS_SIZE = 33,
+	TRIM_REGS_SIZE = 138,
+	BURST_REGS_SIZE = 221,
+};
+
+struct emc_table {
+	u32 rev;
+	const char dvfs_ver[60];
+	u32 rate;
+	u32 min_volt;
+	u32 gpu_min_volt;
+	const char clock_src[32];
+	u32 clk_src_emc;
+	u32 needs_training;
+	u32 training_pattern;
+	u32 trained;
+
+	u32 periodic_training;
+	u32 trained_dram_clktree[DRAM_CLKTREE_NUM];
+	u32 current_dram_clktree[DRAM_CLKTREE_NUM];
+	u32 run_clocks;
+	u32 tree_margin;
+
+	u32 num_burst;
+	u32 num_burst_per_ch;
+	u32 num_trim;
+	u32 num_trim_per_ch;
+	u32 num_mc_regs;
+	u32 num_up_down;
+	u32 vref_num;
+	u32 training_mod_num;
+	u32 dram_timing_num;
+
+	u32 ptfv_list[PTFV_ARRAY_SIZE];
+
+	u32 burst_regs[BURST_REGS_SIZE];
+	u32 burst_reg_per_ch[BURST_REGS_PER_CH_SIZE];
+	u32 shadow_regs_ca_train[BURST_REGS_SIZE];
+	u32 shadow_regs_quse_train[BURST_REGS_SIZE];
+	u32 shadow_regs_rdwr_train[BURST_REGS_SIZE];
+
+	u32 trim_regs[TRIM_REGS_SIZE];
+	u32 trim_perch_regs[TRIM_REGS_PER_CH_SIZE];
+
+	u32 vref_perch_regs[VREF_REGS_PER_CH_SIZE];
+
+	u32 dram_timings[DRAM_TIMINGS_NUM];
+	u32 training_mod_regs[TRAINING_MOD_REGS_SIZE];
+	u32 save_restore_mod_regs[SAVE_RESTORE_MOD_REGS_SIZE];
+	u32 burst_mc_regs[BURST_MC_REGS_SIZE];
+	u32 la_scale_regs[BURST_UP_DOWN_REGS_SIZE];
+
+	u32 min_mrs_wait;
+	u32 emc_mrw;
+	u32 emc_mrw2;
+	u32 emc_mrw3;
+	u32 emc_mrw4;
+	u32 emc_mrw9;
+	u32 emc_mrs;
+	u32 emc_emrs;
+	u32 emc_emrs2;
+	u32 emc_auto_cal_config;
+	u32 emc_auto_cal_config2;
+	u32 emc_auto_cal_config3;
+	u32 emc_auto_cal_config4;
+	u32 emc_auto_cal_config5;
+	u32 emc_auto_cal_config6;
+	u32 emc_auto_cal_config7;
+	u32 emc_auto_cal_config8;
+	u32 emc_cfg_2;
+	u32 emc_sel_dpd_ctrl;
+	u32 emc_fdpd_ctrl_cmd_no_ramp;
+	u32 dll_clk_src;
+	u32 clk_out_enb_x_0_clk_enb_emc_dll;
+	u32 latency;
+};
+
+struct tegra_emc {
+	struct clk_hw hw;
+	struct clk *emc_clk;
+	struct device *dev;
+	struct timer_list training_timer;
+
+	struct tegra_mc *mc;
+
+	void __iomem *emc_base[REG_TYPE_NUM];
+
+	struct emc_table *current_timing;
+	struct emc_table *next_timing;
+
+	struct emc_table *emc_table;
+	unsigned int emc_table_size;
+
+	u32 clk_setting;
+	ktime_t clkchange_time;
+	int clkchange_delay;
+	u32 timer_period_training;
+
+	bool emc_suspend;
+	unsigned long emc_resume_rate;
+};
+
+struct supported_sequence {
+	u8 table_rev;
+	void (*set_clock)(struct tegra_emc *emc, u32 clksrc);
+	u32 (*periodic_compensation)(struct tegra_emc *emc);
+	char *seq_rev;
+};
+
+#endif
diff --git a/include/linux/clk/tegra.h b/include/linux/clk/tegra.h
index 5b0bdb413460..2ccb10eab4a8 100644
--- a/include/linux/clk/tegra.h
+++ b/include/linux/clk/tegra.h
@@ -146,4 +146,27 @@ void tegra20_clk_set_emc_round_callback(tegra20_clk_emc_round_cb *round_cb,
 					void *cb_arg);
 int tegra20_clk_prepare_emc_mc_same_freq(struct clk *emc_clk, bool same);
 
+struct tegra210_clk_emc_config {
+	unsigned long rate;
+	bool same_freq;
+	u32 value;
+
+	unsigned long parent_rate;
+	u8 parent;
+};
+
+struct tegra210_clk_emc_provider {
+	struct device *dev;
+
+	struct tegra210_clk_emc_config *configs;
+	unsigned int num_configs;
+
+	int (*set_rate)(struct device *dev,
+			const struct tegra210_clk_emc_config *config);
+};
+
+int tegra210_clk_emc_attach(struct clk *clk,
+			    struct tegra210_clk_emc_provider *provider);
+void tegra210_clk_emc_detach(struct clk *clk);
+
 #endif /* __LINUX_CLK_TEGRA_H_ */

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From: Thierry Reding <thierry.reding@gmail.com>
To: Thierry Reding <thierry.reding@gmail.com>
Cc: Jon Hunter <jonathanh@nvidia.com>,
        Dmitry Osipenko <digetx@gmail.com>,
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        linux-arm-kernel@lists.infradead.org
Subject: [PATCH v5 4/8] dt-bindings: memory: tegra: Add external memory
 controller binding for Tegra210
Date: Tue, 10 Mar 2020 16:19:59 +0100
Message-Id: <20200310152003.2945170-5-thierry.reding@gmail.com>
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From: Joseph Lo <josephl@nvidia.com>

Add the binding document for the external memory controller (EMC) which
communicates with external LPDDR4 devices. It includes the bindings of
the EMC node and a sub-node of EMC table which under the reserved memory
node. The EMC table contains the data of the rates that EMC supported.

Signed-off-by: Joseph Lo <josephl@nvidia.com>
Signed-off-by: Thierry Reding <treding@nvidia.com>
---
Changes in v5:
- convert to dt-schema

 .../nvidia,tegra210-emc.yaml                  | 83 +++++++++++++++++++
 1 file changed, 83 insertions(+)
 create mode 100644 Documentation/devicetree/bindings/memory-controllers/nvidia,tegra210-emc.yaml

diff --git a/Documentation/devicetree/bindings/memory-controllers/nvidia,tegra210-emc.yaml b/Documentation/devicetree/bindings/memory-controllers/nvidia,tegra210-emc.yaml
new file mode 100644
index 000000000000..caf21c08f9cc
--- /dev/null
+++ b/Documentation/devicetree/bindings/memory-controllers/nvidia,tegra210-emc.yaml
@@ -0,0 +1,83 @@
+# SPDX-License-Identifier: (GPL-2.0-only OR BSD-2-Clause)
+%YAML 1.2
+---
+$id: http://devicetree.org/schemas/memory-controllers/nvidia,tegra210-emc.yaml#
+$schema: http://devicetree.org/meta-schemas/core.yaml#
+
+title: NVIDIA Tegra210 SoC External Memory Controller
+
+maintainers:
+  - Thierry Reding <thierry.reding@gmail.com>
+  - Jon Hunter <jonathanh@nvidia.com>
+
+description: |
+  The EMC interfaces with the off-chip SDRAM to service the request stream
+  sent from the memory controller.
+
+properties:
+  compatible:
+    const: nvidia,tegra210-emc
+
+  reg:
+    maxItems: 3
+
+  clocks:
+    items:
+      - description: external memory clock
+
+  clock-names:
+    items:
+      - const: emc
+
+  interrupts:
+    items:
+      - description: EMC general interrupt
+
+  memory-region:
+    $ref: /schemas/types.yaml#/definitions/phandle
+    description:
+      phandle to a reserved memory region describing the table of EMC
+      frequencies trained by the firmware
+
+  nvidia,memory-controller:
+    $ref: /schemas/types.yaml#/definitions/phandle
+    description:
+      phandle of the memory controller node
+
+required:
+  - compatible
+  - reg
+  - clocks
+  - clock-names
+  - nvidia,memory-controller
+
+additionalProperties: false
+
+examples:
+  - |
+    #include <dt-bindings/clock/tegra210-car.h>
+    #include <dt-bindings/interrupt-controller/arm-gic.h>
+    #
+    reserved-memory {
+        #address-cells = <2>;
+        #size-cells = <2>;
+        ranges;
+
+        emc_table: emc-table@83400000 {
+            compatible = "nvidia,tegra210-emc-table";
+            reg = <0x0 0x83400000 0x0 0x10000>;
+            status = "okay";
+        };
+    };
+
+    external-memory-controller@7001b000 {
+        compatible = "nvidia,tegra210-emc";
+        reg = <0x0 0x7001b000 0x0 0x1000>,
+              <0x0 0x7001e000 0x0 0x1000>,
+              <0x0 0x7001f000 0x0 0x1000>;
+        clocks = <&tegra_car TEGRA210_CLK_EMC>;
+        clock-names = "emc";
+        interrupts = <GIC_SPI 78 IRQ_TYPE_LEVEL_HIGH>;
+        memory-region = <&emc_table>;
+        nvidia,memory-controller = <&mc>;
+    };

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From: Thierry Reding <thierry.reding@gmail.com>
To: Thierry Reding <thierry.reding@gmail.com>
Cc: Jon Hunter <jonathanh@nvidia.com>,
        Dmitry Osipenko <digetx@gmail.com>,
        Rob Herring <robh+dt@kernel.org>,
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        linux-tegra@vger.kernel.org, linux-clk@vger.kernel.org,
        linux-arm-kernel@lists.infradead.org
Subject: [PATCH v5 6/8] memory: tegra: Add EMC scaling sequence code for
 Tegra210
Date: Tue, 10 Mar 2020 16:20:01 +0100
Message-Id: <20200310152003.2945170-7-thierry.reding@gmail.com>
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From: Joseph Lo <josephl@nvidia.com>

This patch includes the sequence for clock tuning and the dynamic
training mechanism for the clock above 800MHz.

And historically there have been different sequences to change the EMC
clock. The sequence to be used is specified in the EMC table.
However, for the currently supported upstreaming platform, only the most
recent sequence is used. So only support that in this patch.

Based on the work of Peter De Schrijver <pdeschrijver@nvidia.com>.

Signed-off-by: Joseph Lo <josephl@nvidia.com>
Signed-off-by: Thierry Reding <treding@nvidia.com>
---
Changes in v5:
- major rework and cleanup

 drivers/memory/tegra/Makefile                 |    2 +-
 drivers/memory/tegra/tegra210-emc-cc-r21021.c | 1782 +++++++++++++++++
 drivers/memory/tegra/tegra210-emc.c           |    1 +
 drivers/memory/tegra/tegra210-emc.h           |  102 +
 4 files changed, 1886 insertions(+), 1 deletion(-)
 create mode 100644 drivers/memory/tegra/tegra210-emc-cc-r21021.c

diff --git a/drivers/memory/tegra/Makefile b/drivers/memory/tegra/Makefile
index 1c59150ccf58..8a663bb3b263 100644
--- a/drivers/memory/tegra/Makefile
+++ b/drivers/memory/tegra/Makefile
@@ -13,6 +13,6 @@ obj-$(CONFIG_TEGRA_MC) += tegra-mc.o
 obj-$(CONFIG_TEGRA20_EMC)  += tegra20-emc.o
 obj-$(CONFIG_TEGRA30_EMC)  += tegra30-emc.o
 obj-$(CONFIG_TEGRA124_EMC) += tegra124-emc.o
-obj-$(CONFIG_TEGRA210_EMC) += tegra210-emc.o
+obj-$(CONFIG_TEGRA210_EMC) += tegra210-emc.o tegra210-emc-cc-r21021.o
 obj-$(CONFIG_ARCH_TEGRA_186_SOC) += tegra186.o tegra186-emc.o
 obj-$(CONFIG_ARCH_TEGRA_194_SOC) += tegra186.o tegra186-emc.o
diff --git a/drivers/memory/tegra/tegra210-emc-cc-r21021.c b/drivers/memory/tegra/tegra210-emc-cc-r21021.c
new file mode 100644
index 000000000000..042ac3127c15
--- /dev/null
+++ b/drivers/memory/tegra/tegra210-emc-cc-r21021.c
@@ -0,0 +1,1782 @@
+// SPDX-License-Identifier: GPL-2.0
+/*
+ * Copyright (c) 2014-2020, NVIDIA CORPORATION.  All rights reserved.
+ */
+
+#include <linux/kernel.h>
+#include <linux/io.h>
+#include <linux/clk.h>
+#include <linux/delay.h>
+#include <linux/of.h>
+
+#include <soc/tegra/mc.h>
+
+#include "mc.h"
+#include "tegra210-emc.h"
+
+/*
+ * Enable flags for specifying verbosity.
+ */
+#define INFO            (1 << 0)
+#define STEPS           (1 << 1)
+#define SUB_STEPS       (1 << 2)
+#define PRELOCK         (1 << 3)
+#define PRELOCK_STEPS   (1 << 4)
+#define ACTIVE_EN       (1 << 5)
+#define PRAMP_UP        (1 << 6)
+#define PRAMP_DN        (1 << 7)
+#define EMA_WRITES      (1 << 10)
+#define EMA_UPDATES     (1 << 11)
+#define PER_TRAIN       (1 << 16)
+#define CC_PRINT        (1 << 17)
+#define CCFIFO          (1 << 29)
+#define REGS            (1 << 30)
+#define REG_LISTS       (1 << 31)
+
+#define emc_dbg(emc, flags, ...) dev_dbg(emc->dev, __VA_ARGS__)
+
+#define DVFS_CLOCK_CHANGE_VERSION	21021
+#define EMC_PRELOCK_VERSION		2101
+
+enum {
+	DVFS_SEQUENCE = 1,
+	WRITE_TRAINING_SEQUENCE = 2,
+	PERIODIC_TRAINING_SEQUENCE = 3,
+	DVFS_PT1 = 10,
+	DVFS_UPDATE = 11,
+	TRAINING_PT1 = 12,
+	TRAINING_UPDATE = 13,
+	PERIODIC_TRAINING_UPDATE = 14
+};
+
+/*
+ * PTFV defines - basically just indexes into the per table PTFV array.
+ */
+#define PTFV_DQSOSC_MOVAVG_C0D0U0_INDEX		0
+#define PTFV_DQSOSC_MOVAVG_C0D0U1_INDEX		1
+#define PTFV_DQSOSC_MOVAVG_C0D1U0_INDEX		2
+#define PTFV_DQSOSC_MOVAVG_C0D1U1_INDEX		3
+#define PTFV_DQSOSC_MOVAVG_C1D0U0_INDEX		4
+#define PTFV_DQSOSC_MOVAVG_C1D0U1_INDEX		5
+#define PTFV_DQSOSC_MOVAVG_C1D1U0_INDEX		6
+#define PTFV_DQSOSC_MOVAVG_C1D1U1_INDEX		7
+#define PTFV_DVFS_SAMPLES_INDEX			9
+#define PTFV_MOVAVG_WEIGHT_INDEX		10
+#define PTFV_CONFIG_CTRL_INDEX			11
+
+#define PTFV_CONFIG_CTRL_USE_PREVIOUS_EMA	(1 << 0)
+
+/*
+ * Do arithmetic in fixed point.
+ */
+#define MOVAVG_PRECISION_FACTOR		100
+
+/*
+ * The division portion of the average operation.
+ */
+#define __AVERAGE_PTFV(dev)						\
+	({ next->ptfv_list[PTFV_DQSOSC_MOVAVG_ ## dev ## _INDEX] =	\
+	   next->ptfv_list[PTFV_DQSOSC_MOVAVG_ ## dev ## _INDEX] /	\
+	   next->ptfv_list[PTFV_DVFS_SAMPLES_INDEX]; })
+
+/*
+ * Convert val to fixed point and add it to the temporary average.
+ */
+#define __INCREMENT_PTFV(dev, val)					\
+	({ next->ptfv_list[PTFV_DQSOSC_MOVAVG_ ## dev ## _INDEX] +=	\
+	   ((val) * MOVAVG_PRECISION_FACTOR); })
+
+/*
+ * Convert a moving average back to integral form and return the value.
+ */
+#define __MOVAVG_AC(timing, dev)					\
+	((timing)->ptfv_list[PTFV_DQSOSC_MOVAVG_ ## dev ## _INDEX] /	\
+	 MOVAVG_PRECISION_FACTOR)
+
+/* Weighted update. */
+#define __WEIGHTED_UPDATE_PTFV(dev, nval)				\
+	do {								\
+		int w = PTFV_MOVAVG_WEIGHT_INDEX;			\
+		int dqs = PTFV_DQSOSC_MOVAVG_ ## dev ## _INDEX;		\
+									\
+		next->ptfv_list[dqs] =					\
+			((nval * MOVAVG_PRECISION_FACTOR) +		\
+			 (next->ptfv_list[dqs] *			\
+			  next->ptfv_list[w])) /			\
+			(next->ptfv_list[w] + 1);			\
+									\
+		emc_dbg(emc, EMA_UPDATES, "%s: (s=%lu) EMA: %u\n",	\
+			__stringify(dev), nval, next->ptfv_list[dqs]);	\
+	} while (0)
+
+/* Access a particular average. */
+#define __MOVAVG(timing, dev)                      \
+	((timing)->ptfv_list[PTFV_DQSOSC_MOVAVG_ ## dev ## _INDEX])
+
+static u32 tegra210_emc_mrr_read(struct tegra210_emc *emc, unsigned int chip,
+				 unsigned int address,
+				 unsigned int num_channels)
+{
+	u32 value, ret = 0;
+	unsigned int i;
+
+	value = (chip & EMC_MRR_DEV_SEL_MASK) << EMC_MRR_DEV_SEL_SHIFT |
+		(address & EMC_MRR_MA_MASK) << EMC_MRR_MA_SHIFT;
+	emc_writel(emc, value, EMC_MRR);
+
+	for (i = 0; i < num_channels; i++)
+		WARN(tegra210_emc_wait_for_update(emc, i, EMC_EMC_STATUS,
+						  EMC_EMC_STATUS_MRR_DIVLD, 1),
+			"Timed out waiting for MRR %u (ch=%u)\n", address, i);
+
+	for (i = 0; i < num_channels; i++) {
+		value = emc_channel_readl(emc, i, EMC_MRR);
+		value &= EMC_MRR_DATA_MASK;
+
+		ret = (ret << 16) | value;
+	}
+
+	return ret;
+}
+
+static u32 update_clock_tree_delay(struct tegra210_emc *emc,
+				   unsigned int num_channels, int type)
+{
+	bool periodic_training_update = type == PERIODIC_TRAINING_UPDATE;
+	struct tegra210_emc_timing *last = emc->last;
+	struct tegra210_emc_timing *next = emc->next;
+	u32 last_timing_rate_mhz = last->rate / 1000;
+	u32 next_timing_rate_mhz = next->rate / 1000;
+	bool dvfs_update = type == DVFS_UPDATE;
+	s32 tdel = 0, tmdel = 0, adel = 0;
+	bool dvfs_pt1 = type == DVFS_PT1;
+	unsigned long cval = 0;
+	u32 temp[2][2], value;
+	unsigned int i;
+
+	/*
+	 * Dev0 MSB.
+	 */
+	if (dvfs_pt1 || periodic_training_update) {
+		value = tegra210_emc_mrr_read(emc, 2, 19, num_channels);
+
+		for (i = 0; i < num_channels; i++) {
+			temp[i][0] = (value & 0x00ff) << 8;
+			temp[i][1] = (value & 0xff00) << 0;
+			value >>= 16;
+		}
+
+		/*
+		 * Dev0 LSB.
+		 */
+		value = tegra210_emc_mrr_read(emc, 2, 18, num_channels);
+
+		for (i = 0; i < num_channels; i++) {
+			temp[i][0] |= (value & 0x00ff) >> 0;
+			temp[i][1] |= (value & 0xff00) >> 8;
+			value >>= 16;
+		}
+	}
+
+	if (dvfs_pt1 || periodic_training_update) {
+		cval = tegra210_emc_actual_osc_clocks(last->run_clocks);
+		cval *= 1000000;
+		cval /= last_timing_rate_mhz * 2 * temp[0][0];
+	}
+
+	if (dvfs_pt1)
+		__INCREMENT_PTFV(C0D0U0, cval);
+	else if (dvfs_update)
+		__AVERAGE_PTFV(C0D0U0);
+	else if (periodic_training_update)
+		__WEIGHTED_UPDATE_PTFV(C0D0U0, cval);
+
+	if (dvfs_update || periodic_training_update) {
+		tdel = next->current_dram_clktree[C0D0U0] -
+				__MOVAVG_AC(next, C0D0U0);
+		tmdel = (tdel < 0) ? -1 * tdel : tdel;
+		adel = tmdel;
+
+		if (tmdel * 128 * next_timing_rate_mhz / 1000000 >
+		    next->tree_margin)
+			next->current_dram_clktree[C0D0U0] =
+				__MOVAVG_AC(next, C0D0U0);
+	}
+
+	if (dvfs_pt1 || periodic_training_update) {
+		cval = tegra210_emc_actual_osc_clocks(last->run_clocks);
+		cval *= 1000000;
+		cval /= last_timing_rate_mhz * 2 * temp[0][1];
+	}
+
+	if (dvfs_pt1)
+		__INCREMENT_PTFV(C0D0U1, cval);
+	else if (dvfs_update)
+		__AVERAGE_PTFV(C0D0U1);
+	else if (periodic_training_update)
+		__WEIGHTED_UPDATE_PTFV(C0D0U1, cval);
+
+	if (dvfs_update || periodic_training_update) {
+		tdel = next->current_dram_clktree[C0D0U1] -
+				__MOVAVG_AC(next, C0D0U1);
+		tmdel = (tdel < 0) ? -1 * tdel : tdel;
+
+		if (tmdel > adel)
+			adel = tmdel;
+
+		if (tmdel * 128 * next_timing_rate_mhz / 1000000 >
+		    next->tree_margin)
+			next->current_dram_clktree[C0D0U1] =
+				__MOVAVG_AC(next, C0D0U1);
+	}
+
+	if (num_channels > 1) {
+		if (dvfs_pt1 || periodic_training_update) {
+			cval = tegra210_emc_actual_osc_clocks(last->run_clocks);
+			cval *= 1000000;
+			cval /= last_timing_rate_mhz * 2 * temp[1][0];
+		}
+
+		if (dvfs_pt1)
+			__INCREMENT_PTFV(C1D0U0, cval);
+		else if (dvfs_update)
+			__AVERAGE_PTFV(C1D0U0);
+		else if (periodic_training_update)
+			__WEIGHTED_UPDATE_PTFV(C1D0U0, cval);
+
+		if (dvfs_update || periodic_training_update) {
+			tdel = next->current_dram_clktree[C1D0U0] -
+					__MOVAVG_AC(next, C1D0U0);
+			tmdel = (tdel < 0) ? -1 * tdel : tdel;
+
+			if (tmdel > adel)
+				adel = tmdel;
+
+			if (tmdel * 128 * next_timing_rate_mhz / 1000000 >
+			    next->tree_margin)
+				next->current_dram_clktree[C1D0U0] =
+					__MOVAVG_AC(next, C1D0U0);
+		}
+
+		if (dvfs_pt1 || periodic_training_update) {
+			cval = tegra210_emc_actual_osc_clocks(last->run_clocks);
+			cval *= 1000000;
+			cval /= last_timing_rate_mhz * 2 * temp[1][1];
+		}
+
+		if (dvfs_pt1)
+			__INCREMENT_PTFV(C1D0U1, cval);
+		else if (dvfs_update)
+			__AVERAGE_PTFV(C1D0U1);
+		else if (periodic_training_update)
+			__WEIGHTED_UPDATE_PTFV(C1D0U1, cval);
+
+		if (dvfs_update || periodic_training_update) {
+			tdel = next->current_dram_clktree[C1D0U1] -
+					__MOVAVG_AC(next, C1D0U1);
+			tmdel = (tdel < 0) ? -1 * tdel : tdel;
+
+			if (tmdel > adel)
+				adel = tmdel;
+
+			if (tmdel * 128 * next_timing_rate_mhz / 1000000 >
+			    next->tree_margin)
+				next->current_dram_clktree[C1D0U1] =
+					__MOVAVG_AC(next, C1D0U1);
+		}
+	}
+
+	if (emc->num_devices < 2)
+		goto done;
+
+	/*
+	 * Dev1 MSB.
+	 */
+	if (dvfs_pt1 || periodic_training_update) {
+		value = tegra210_emc_mrr_read(emc, 1, 19, num_channels);
+
+		for (i = 0; i < num_channels; i++) {
+			temp[i][0] = (value & 0x00ff) << 8;
+			temp[i][1] = (value & 0xff00) << 0;
+			value >>= 16;
+		}
+
+		/*
+		 * Dev1 LSB.
+		 */
+		value = tegra210_emc_mrr_read(emc, 2, 18, num_channels);
+
+		for (i = 0; i < num_channels; i++) {
+			temp[i][0] |= (value & 0x00ff) >> 0;
+			temp[i][1] |= (value & 0xff00) >> 8;
+			value >>= 16;
+		}
+	}
+
+	if (dvfs_pt1 || periodic_training_update) {
+		cval = tegra210_emc_actual_osc_clocks(last->run_clocks);
+		cval *= 1000000;
+		cval /= last_timing_rate_mhz * 2 * temp[0][0];
+	}
+
+	if (dvfs_pt1)
+		__INCREMENT_PTFV(C0D1U0, cval);
+	else if (dvfs_update)
+		__AVERAGE_PTFV(C0D1U0);
+	else if (periodic_training_update)
+		__WEIGHTED_UPDATE_PTFV(C0D1U0, cval);
+
+	if (dvfs_update || periodic_training_update) {
+		tdel = next->current_dram_clktree[C0D1U0] -
+				__MOVAVG_AC(next, C0D1U0);
+		tmdel = (tdel < 0) ? -1 * tdel : tdel;
+
+		if (tmdel > adel)
+			adel = tmdel;
+
+		if (tmdel * 128 * next_timing_rate_mhz / 1000000 >
+		    next->tree_margin)
+			next->current_dram_clktree[C0D1U0] =
+				__MOVAVG_AC(next, C0D1U0);
+	}
+
+	if (dvfs_pt1 || periodic_training_update) {
+		cval = tegra210_emc_actual_osc_clocks(last->run_clocks);
+		cval *= 1000000;
+		cval /= last_timing_rate_mhz * 2 * temp[0][1];
+	}
+
+	if (dvfs_pt1)
+		__INCREMENT_PTFV(C0D1U1, cval);
+	else if (dvfs_update)
+		__AVERAGE_PTFV(C0D1U1);
+	else if (periodic_training_update)
+		__WEIGHTED_UPDATE_PTFV(C0D1U1, cval);
+
+	if (dvfs_update || periodic_training_update) {
+		tdel = next->current_dram_clktree[C0D1U1] -
+				__MOVAVG_AC(next, C0D1U1);
+		tmdel = (tdel < 0) ? -1 * tdel : tdel;
+
+		if (tmdel > adel)
+			adel = tmdel;
+
+		if (tmdel * 128 * next_timing_rate_mhz / 1000000 >
+		    next->tree_margin)
+			next->current_dram_clktree[C0D1U1] =
+				__MOVAVG_AC(next, C0D1U1);
+	}
+
+	if (num_channels > 1) {
+		if (dvfs_pt1 || periodic_training_update) {
+			cval = tegra210_emc_actual_osc_clocks(last->run_clocks);
+			cval *= 1000000;
+			cval /= last_timing_rate_mhz * 2 * temp[1][0];
+		}
+
+		if (dvfs_pt1)
+			__INCREMENT_PTFV(C1D1U0, cval);
+		else if (dvfs_update)
+			__AVERAGE_PTFV(C1D1U0);
+		else if (periodic_training_update)
+			__WEIGHTED_UPDATE_PTFV(C1D1U0, cval);
+
+		if (dvfs_update || periodic_training_update) {
+			tdel = next->current_dram_clktree[C1D1U0] -
+					__MOVAVG_AC(next, C1D1U0);
+			tmdel = (tdel < 0) ? -1 * tdel : tdel;
+
+			if (tmdel > adel)
+				adel = tmdel;
+
+			if (tmdel * 128 * next_timing_rate_mhz / 1000000 >
+			    next->tree_margin)
+				next->current_dram_clktree[C1D1U0] =
+					__MOVAVG_AC(next, C1D1U0);
+		}
+
+		if (dvfs_pt1 || periodic_training_update) {
+			cval = tegra210_emc_actual_osc_clocks(last->run_clocks);
+			cval *= 1000000;
+			cval /= last_timing_rate_mhz * 2 * temp[1][1];
+		}
+
+		if (dvfs_pt1)
+			__INCREMENT_PTFV(C1D1U1, cval);
+		else if (dvfs_update)
+			__AVERAGE_PTFV(C1D1U1);
+		else if (periodic_training_update)
+			__WEIGHTED_UPDATE_PTFV(C1D1U1, cval);
+
+		if (dvfs_update || periodic_training_update) {
+			tdel = next->current_dram_clktree[C1D1U1] -
+					__MOVAVG_AC(next, C1D1U1);
+			tmdel = (tdel < 0) ? -1 * tdel : tdel;
+
+			if (tmdel > adel)
+				adel = tmdel;
+
+			if (tmdel * 128 * next_timing_rate_mhz / 1000000 >
+			    next->tree_margin)
+				next->current_dram_clktree[C1D1U1] =
+					__MOVAVG_AC(next, C1D1U1);
+		}
+	}
+
+done:
+	return adel;
+}
+
+static u32 periodic_compensation_handler(struct tegra210_emc *emc, u32 type,
+					 unsigned int num_channels,
+					 struct tegra210_emc_timing *last,
+					 struct tegra210_emc_timing *next)
+{
+#define __COPY_EMA(nt, lt, dev)						\
+	({ __MOVAVG(nt, dev) = __MOVAVG(lt, dev) *			\
+	   (nt)->ptfv_list[PTFV_DVFS_SAMPLES_INDEX]; })
+
+	u32 i, adel = 0, samples = next->ptfv_list[PTFV_DVFS_SAMPLES_INDEX];
+	u32 delay;
+
+	delay = tegra210_emc_actual_osc_clocks(last->run_clocks);
+	delay *= 1000;
+	delay = 2 + (delay / last->rate);
+
+	if (!next->periodic_training)
+		return 0;
+
+	if (type == DVFS_SEQUENCE) {
+		if (last->periodic_training &&
+		    (next->ptfv_list[PTFV_CONFIG_CTRL_INDEX] &
+		     PTFV_CONFIG_CTRL_USE_PREVIOUS_EMA)) {
+			/*
+			 * If the previous frequency was using periodic
+			 * calibration then we can reuse the previous
+			 * frequencies EMA data.
+			 */
+			__COPY_EMA(next, last, C0D0U0);
+			__COPY_EMA(next, last, C0D0U1);
+			__COPY_EMA(next, last, C1D0U0);
+			__COPY_EMA(next, last, C1D0U1);
+			__COPY_EMA(next, last, C0D1U0);
+			__COPY_EMA(next, last, C0D1U1);
+			__COPY_EMA(next, last, C1D1U0);
+			__COPY_EMA(next, last, C1D1U1);
+		} else {
+			/* Reset the EMA.*/
+			__MOVAVG(next, C0D0U0) = 0;
+			__MOVAVG(next, C0D0U1) = 0;
+			__MOVAVG(next, C1D0U0) = 0;
+			__MOVAVG(next, C1D0U1) = 0;
+			__MOVAVG(next, C0D1U0) = 0;
+			__MOVAVG(next, C0D1U1) = 0;
+			__MOVAVG(next, C1D1U0) = 0;
+			__MOVAVG(next, C1D1U1) = 0;
+
+			for (i = 0; i < samples; i++) {
+				tegra210_emc_start_periodic_compensation(emc);
+				udelay(delay);
+
+				/*
+				 * Generate next sample of data.
+				 */
+				adel = update_clock_tree_delay(emc,
+							       num_channels,
+							       DVFS_PT1);
+			}
+		}
+
+		/*
+		 * Seems like it should be part of the
+		 * 'if (last_timing->periodic_training)' conditional
+		 * since is already done for the else clause.
+		 */
+		adel = update_clock_tree_delay(emc, num_channels, DVFS_UPDATE);
+	}
+
+	if (type == PERIODIC_TRAINING_SEQUENCE) {
+		tegra210_emc_start_periodic_compensation(emc);
+		udelay(delay);
+
+		adel = update_clock_tree_delay(emc, num_channels,
+					       PERIODIC_TRAINING_UPDATE);
+	}
+
+	return adel;
+}
+
+static u32 tegra210_emc_r21021_periodic_compensation(struct tegra210_emc *emc)
+{
+	u32 emc_cfg, emc_cfg_o, emc_cfg_update, del, value;
+	unsigned int num_channels = 1;
+	u32 list[] = {
+		EMC_PMACRO_OB_DDLL_LONG_DQ_RANK0_0,
+		EMC_PMACRO_OB_DDLL_LONG_DQ_RANK0_1,
+		EMC_PMACRO_OB_DDLL_LONG_DQ_RANK0_2,
+		EMC_PMACRO_OB_DDLL_LONG_DQ_RANK0_3,
+		EMC_PMACRO_OB_DDLL_LONG_DQ_RANK1_0,
+		EMC_PMACRO_OB_DDLL_LONG_DQ_RANK1_1,
+		EMC_PMACRO_OB_DDLL_LONG_DQ_RANK1_2,
+		EMC_PMACRO_OB_DDLL_LONG_DQ_RANK1_3,
+		EMC_DATA_BRLSHFT_0,
+		EMC_DATA_BRLSHFT_1
+	};
+	struct tegra210_emc_timing *last = emc->last;
+	unsigned int items = ARRAY_SIZE(list), i;
+	unsigned long delay;
+
+	if (last->periodic_training) {
+		if (last->burst_regs[EMC_FBIO_CFG7_INDEX] & (1 << 2))
+			num_channels = 2;
+
+		emc_dbg(emc, PER_TRAIN, "Periodic training starting\n");
+
+		value = emc_readl(emc, EMC_DBG);
+		emc_cfg_o = emc_readl(emc, EMC_CFG);
+		emc_cfg = emc_cfg_o & ~(EMC_CFG_DYN_SELF_REF |
+					EMC_CFG_DRAM_ACPD |
+					EMC_CFG_DRAM_CLKSTOP_PD |
+					EMC_CFG_DRAM_CLKSTOP_PD);
+
+
+		/*
+		 * 1. Power optimizations should be off.
+		 */
+		emc_writel(emc, emc_cfg, EMC_CFG);
+
+		/* Does emc_timing_update() for above changes. */
+		tegra210_emc_dll_disable(emc, num_channels);
+
+		for (i = 0; i < num_channels; i++)
+			tegra210_emc_wait_for_update(emc, i, EMC_EMC_STATUS,
+						     EMC_EMC_STATUS_DRAM_IN_POWERDOWN_MASK,
+						     0);
+
+		for (i = 0; i < num_channels; i++)
+			tegra210_emc_wait_for_update(emc, i, EMC_EMC_STATUS,
+						     EMC_EMC_STATUS_DRAM_IN_SELF_REFRESH_MASK,
+						     0);
+
+		emc_cfg_update = value = emc_readl(emc, EMC_CFG_UPDATE);
+		value &= ~EMC_CFG_UPDATE_UPDATE_DLL_IN_UPDATE_MASK;
+		value |= (2 << EMC_CFG_UPDATE_UPDATE_DLL_IN_UPDATE_SHIFT);
+		emc_writel(emc, value, EMC_CFG_UPDATE);
+
+		/*
+		 * 2. osc kick off - this assumes training and dvfs have set
+		 *    correct MR23.
+		 */
+		tegra210_emc_start_periodic_compensation(emc);
+
+		/*
+		 * 3. Let dram capture its clock tree delays.
+		 */
+		delay = tegra210_emc_actual_osc_clocks(last->run_clocks);
+		delay *= 1000;
+		delay /= last->rate + 1;
+		udelay(delay);
+
+		/*
+		 * 4. Check delta wrt previous values (save value if margin
+		 *    exceeds what is set in table).
+		 */
+		del = periodic_compensation_handler(emc,
+						    PERIODIC_TRAINING_SEQUENCE,
+						    num_channels, last, last);
+
+		/*
+		 * 5. Apply compensation w.r.t. trained values (if clock tree
+		 *    has drifted more than the set margin).
+		 */
+		if (last->tree_margin < ((del * 128 * (last->rate / 1000)) / 1000000)) {
+			for (i = 0; i < items; i++) {
+				value = tegra210_emc_compensate(last, list[i]);
+				emc_dbg(emc, EMA_WRITES, "0x%08x <= 0x%08x\n",
+					list[i], value);
+				emc_writel(emc, value, list[i]);
+			}
+		}
+
+		emc_writel(emc, emc_cfg_o, EMC_CFG);
+
+		/*
+		 * 6. Timing update actally applies the new trimmers.
+		 */
+		tegra210_emc_timing_update(emc, num_channels);
+
+		/* 6.1. Restore the UPDATE_DLL_IN_UPDATE field. */
+		emc_writel(emc, emc_cfg_update, EMC_CFG_UPDATE);
+
+		/* 6.2. Restore the DLL. */
+		tegra210_emc_dll_enable(emc, num_channels);
+	}
+
+	return 0;
+}
+
+/*
+ * Do the clock change sequence.
+ */
+static void tegra210_emc_r21021_set_clock(struct tegra210_emc *emc, u32 clksrc)
+{
+	/*
+	 * This is the timing table for the source frequency. It does _not_
+	 * necessarily correspond to the actual timing values in the EMC at the
+	 * moment. If the boot BCT differs from the table then this can happen.
+	 * However, we need it for accessing the dram_timings (which are not
+	 * really registers) array for the current frequency.
+	 */
+	u32 tmp, cya_allow_ref_cc = 0, ref_b4_sref_en = 0, cya_issue_pc_ref = 0;
+	struct tegra210_emc_timing *fake, *last = emc->last, *next = emc->next;
+	u32 bg_regulator_switch_complete_wait_clks, bg_regulator_mode_change;
+	u32 opt_zcal_en_cc, opt_do_sw_qrst = 1, opt_dvfs_mode, opt_dll_mode;
+	u32 emc_zcal_wait_cnt_old, emc_zcal_wait_cnt_new, emc_dbg_active;
+	u32 opt_cc_short_zcal = 1, opt_short_zcal = 1, opt_war_200024907;
+	u32 tRTM, RP_war, R2P_war, TRPab_war, deltaTWATM, W2P_war, tRPST;
+	u32 adel = 0, compensate_trimmer_applicable = 0, mrw_req, value;
+	unsigned long next_timing_rate_mhz = next->rate / 1000, delay;
+	u32 tZQCAL_lpddr4 = 1000000, zq_wait_long, shared_zq_resistor;
+	s32 zq_latch_dvfs_wait_time, tZQCAL_lpddr4_fc_adj, nRTP;
+	u32 tFC_lpddr4 = 1000 * next->dram_timings[T_FC_LPDDR4];
+	u32 emc_auto_cal_config, auto_cal_en, mr13_catr_enable;
+	u32 zq_op, zcal_wait_time_clocks, zcal_wait_time_ps;
+	u32 emc_cfg, emc_sel_dpd_ctrl, emc_zcal_interval;
+	int next_push, next_dq_e_ivref, next_dqs_e_ivref;
+	u32 mr13_flip_fspwr, mr13_flip_fspop, is_lpddr3;
+	u32 enable_bglp_regulator, enable_bg_regulator;
+	u32 emc_dbg_o, emc_cfg_pipe_clk_o, emc_pin_o;
+	u32 ramp_up_wait = 0, ramp_down_wait = 0;
+	u32 save_restore_clkstop_pd = 1, dll_out;
+	u32 ref_delay_mult, ref_delay, dram_type;
+	unsigned int num_channels = 1, i;
+	static u32 fsp_for_next_freq;
+	/* In picoseconds. */
+	u32 source_clock_period, destination_clock_period;
+	u32 zqcal_before_cc_cutoff = 2400;
+
+	emc_dbg(emc, INFO, "Running clock change.\n");
+
+	/* XXX fake == last */
+	fake = tegra210_emc_find_timing(emc, last->rate * 1000UL);
+	fsp_for_next_freq = !fsp_for_next_freq;
+
+	dram_type = emc_readl(emc, EMC_FBIO_CFG5) &
+		    EMC_FBIO_CFG5_DRAM_TYPE_MASK >>
+		    EMC_FBIO_CFG5_DRAM_TYPE_SHIFT;
+	shared_zq_resistor = last->burst_regs[EMC_ZCAL_WAIT_CNT_INDEX] &
+			     1 << 31;
+	if (last->burst_regs[EMC_FBIO_CFG7_INDEX] & (1 << 2))
+		num_channels = 2;
+	opt_zcal_en_cc = (next->burst_regs[EMC_ZCAL_INTERVAL_INDEX] &&
+			  !last->burst_regs[EMC_ZCAL_INTERVAL_INDEX]) ||
+			  dram_type == DRAM_TYPE_LPDDR4;
+	opt_dll_mode = (dram_type == DRAM_TYPE_DDR3) ?
+		       tegra210_emc_get_dll_state(next) : 0;
+	is_lpddr3 = (dram_type == DRAM_TYPE_LPDDR2) &&
+		    next->burst_regs[EMC_FBIO_CFG5_INDEX] &
+		    1 << 25;
+	opt_war_200024907 = (dram_type == DRAM_TYPE_LPDDR4);
+	opt_dvfs_mode = MAN_SR;
+
+	emc_readl(emc, EMC_CFG);
+	emc_auto_cal_config = emc_readl(emc, EMC_AUTO_CAL_CONFIG);
+
+	source_clock_period = 1000000000 / last->rate;
+	destination_clock_period = 1000000000 / next->rate;
+
+	tZQCAL_lpddr4_fc_adj = (destination_clock_period >
+				zqcal_before_cc_cutoff) ?
+		tZQCAL_lpddr4 / destination_clock_period :
+		(tZQCAL_lpddr4 - tFC_lpddr4) / destination_clock_period;
+	emc_dbg_o = emc_readl(emc, EMC_DBG);
+	emc_pin_o = emc_readl(emc, EMC_PIN);
+	emc_cfg_pipe_clk_o = emc_readl(emc, EMC_CFG_PIPE_CLK);
+
+	emc_cfg = next->burst_regs[EMC_CFG_INDEX];
+	emc_cfg &= ~(EMC_CFG_DYN_SELF_REF | EMC_CFG_DRAM_ACPD |
+		     EMC_CFG_DRAM_CLKSTOP_SR | EMC_CFG_DRAM_CLKSTOP_PD);
+	emc_sel_dpd_ctrl = next->emc_sel_dpd_ctrl;
+	emc_sel_dpd_ctrl &= ~(EMC_SEL_DPD_CTRL_CLK_SEL_DPD_EN |
+			      EMC_SEL_DPD_CTRL_CA_SEL_DPD_EN |
+			      EMC_SEL_DPD_CTRL_RESET_SEL_DPD_EN |
+			      EMC_SEL_DPD_CTRL_ODT_SEL_DPD_EN |
+			      EMC_SEL_DPD_CTRL_DATA_SEL_DPD_EN);
+
+	emc_dbg(emc, INFO, "Clock change version: %d\n",
+		DVFS_CLOCK_CHANGE_VERSION);
+	emc_dbg(emc, INFO, "DRAM type = %d\n", dram_type);
+	emc_dbg(emc, INFO, "DRAM dev #: %u\n", emc->num_devices);
+	emc_dbg(emc, INFO, "Next EMC clksrc: 0x%08x\n", clksrc);
+	emc_dbg(emc, INFO, "DLL clksrc:      0x%08x\n", next->dll_clk_src);
+	emc_dbg(emc, INFO, "last rate: %u, next rate %u\n", last->rate,
+		next->rate);
+	emc_dbg(emc, INFO, "last period: %u, next period: %u\n",
+		source_clock_period, destination_clock_period);
+	emc_dbg(emc, INFO, "  shared_zq_resistor: %d\n", !!shared_zq_resistor);
+	emc_dbg(emc, INFO, "  num_channels: %u\n", num_channels);
+	emc_dbg(emc, INFO, "  opt_dll_mode: %d\n", opt_dll_mode);
+
+	/*
+	 * Step 1:
+	 *   Pre DVFS SW sequence.
+	 */
+	emc_dbg(emc, STEPS, "Step 1\n");
+	emc_dbg(emc, STEPS, "Step 1.1: Disable DLL temporarily.\n");
+	tmp = emc_readl(emc, EMC_CFG_DIG_DLL);
+	tmp &= ~EMC_CFG_DIG_DLL_CFG_DLL_EN;
+	emc_writel(emc, tmp, EMC_CFG_DIG_DLL);
+
+	tegra210_emc_timing_update(emc, num_channels);
+
+	for (i = 0; i < num_channels; i++)
+		tegra210_emc_wait_for_update(emc, i, EMC_CFG_DIG_DLL,
+					     EMC_CFG_DIG_DLL_CFG_DLL_EN, 0);
+
+	emc_dbg(emc, STEPS, "Step 1.2: Disable AUTOCAL temporarily.\n");
+	emc_auto_cal_config = next->emc_auto_cal_config;
+	auto_cal_en = emc_auto_cal_config & EMC_AUTO_CAL_CONFIG_AUTO_CAL_ENABLE;
+	emc_auto_cal_config &= ~EMC_AUTO_CAL_CONFIG_AUTO_CAL_START;
+	emc_auto_cal_config |=  EMC_AUTO_CAL_CONFIG_AUTO_CAL_MEASURE_STALL;
+	emc_auto_cal_config |=  EMC_AUTO_CAL_CONFIG_AUTO_CAL_UPDATE_STALL;
+	emc_auto_cal_config |=  auto_cal_en;
+	emc_writel(emc, emc_auto_cal_config, EMC_AUTO_CAL_CONFIG);
+	emc_readl(emc, EMC_AUTO_CAL_CONFIG); /* Flush write. */
+
+	emc_dbg(emc, STEPS, "Step 1.3: Disable other power features.\n");
+	tegra210_emc_set_shadow_bypass(emc, ACTIVE);
+	emc_writel(emc, emc_cfg, EMC_CFG);
+	emc_writel(emc, emc_sel_dpd_ctrl, EMC_SEL_DPD_CTRL);
+	tegra210_emc_set_shadow_bypass(emc, ASSEMBLY);
+
+	if (next->periodic_training) {
+		tegra210_emc_reset_dram_clktree_values(next);
+
+		for (i = 0; i < num_channels; i++)
+			tegra210_emc_wait_for_update(emc, i, EMC_EMC_STATUS,
+						     EMC_EMC_STATUS_DRAM_IN_POWERDOWN_MASK,
+						     0);
+
+		for (i = 0; i < num_channels; i++)
+			tegra210_emc_wait_for_update(emc, i, EMC_EMC_STATUS,
+						     EMC_EMC_STATUS_DRAM_IN_SELF_REFRESH_MASK,
+						     0);
+
+		tegra210_emc_start_periodic_compensation(emc);
+
+		delay = 1000 * tegra210_emc_actual_osc_clocks(last->run_clocks);
+		udelay((delay / last->rate) + 2);
+
+		adel = periodic_compensation_handler(emc, DVFS_SEQUENCE,
+						     num_channels, fake,
+						     next);
+		compensate_trimmer_applicable =
+			next->periodic_training &&
+			((adel * 128 * next_timing_rate_mhz) / 1000000) >
+			next->tree_margin;
+	}
+
+	emc_writel(emc, EMC_INTSTATUS_CLKCHANGE_COMPLETE, EMC_INTSTATUS);
+	tegra210_emc_set_shadow_bypass(emc, ACTIVE);
+	emc_writel(emc, emc_cfg, EMC_CFG);
+	emc_writel(emc, emc_sel_dpd_ctrl, EMC_SEL_DPD_CTRL);
+	emc_writel(emc, emc_cfg_pipe_clk_o | EMC_CFG_PIPE_CLK_CLK_ALWAYS_ON,
+		   EMC_CFG_PIPE_CLK);
+	emc_writel(emc, next->emc_fdpd_ctrl_cmd_no_ramp &
+			~EMC_FDPD_CTRL_CMD_NO_RAMP_CMD_DPD_NO_RAMP_ENABLE,
+		   EMC_FDPD_CTRL_CMD_NO_RAMP);
+
+	bg_regulator_mode_change =
+		((next->burst_regs[EMC_PMACRO_BG_BIAS_CTRL_0_INDEX] &
+		  EMC_PMACRO_BG_BIAS_CTRL_0_BGLP_E_PWRD) ^
+		 (last->burst_regs[EMC_PMACRO_BG_BIAS_CTRL_0_INDEX] &
+		  EMC_PMACRO_BG_BIAS_CTRL_0_BGLP_E_PWRD)) ||
+		((next->burst_regs[EMC_PMACRO_BG_BIAS_CTRL_0_INDEX] &
+		  EMC_PMACRO_BG_BIAS_CTRL_0_BG_E_PWRD) ^
+		 (last->burst_regs[EMC_PMACRO_BG_BIAS_CTRL_0_INDEX] &
+		  EMC_PMACRO_BG_BIAS_CTRL_0_BG_E_PWRD));
+	enable_bglp_regulator =
+		(next->burst_regs[EMC_PMACRO_BG_BIAS_CTRL_0_INDEX] &
+		 EMC_PMACRO_BG_BIAS_CTRL_0_BGLP_E_PWRD) == 0;
+	enable_bg_regulator =
+		(next->burst_regs[EMC_PMACRO_BG_BIAS_CTRL_0_INDEX] &
+		 EMC_PMACRO_BG_BIAS_CTRL_0_BG_E_PWRD) == 0;
+
+	if (bg_regulator_mode_change) {
+		if (enable_bg_regulator)
+			emc_writel(emc, last->burst_regs
+				   [EMC_PMACRO_BG_BIAS_CTRL_0_INDEX] &
+				   ~EMC_PMACRO_BG_BIAS_CTRL_0_BG_E_PWRD,
+				   EMC_PMACRO_BG_BIAS_CTRL_0);
+
+		if (enable_bglp_regulator)
+			emc_writel(emc, last->burst_regs
+				   [EMC_PMACRO_BG_BIAS_CTRL_0_INDEX] &
+				   ~EMC_PMACRO_BG_BIAS_CTRL_0_BGLP_E_PWRD,
+				   EMC_PMACRO_BG_BIAS_CTRL_0);
+	}
+
+	/* Check if we need to turn on VREF generator. */
+	if ((((last->burst_regs[EMC_PMACRO_DATA_PAD_TX_CTRL_INDEX] &
+	       EMC_PMACRO_DATA_PAD_TX_CTRL_DATA_DQ_E_IVREF) == 0) &&
+	     ((next->burst_regs[EMC_PMACRO_DATA_PAD_TX_CTRL_INDEX] &
+	       EMC_PMACRO_DATA_PAD_TX_CTRL_DATA_DQ_E_IVREF) == 1)) ||
+	    (((last->burst_regs[EMC_PMACRO_DATA_PAD_TX_CTRL_INDEX] &
+	       EMC_PMACRO_DATA_PAD_TX_CTRL_DATA_DQS_E_IVREF) == 0) &&
+	     ((next->burst_regs[EMC_PMACRO_DATA_PAD_TX_CTRL_INDEX] &
+	       EMC_PMACRO_DATA_PAD_TX_CTRL_DATA_DQS_E_IVREF) != 0))) {
+		u32 pad_tx_ctrl =
+		    next->burst_regs[EMC_PMACRO_DATA_PAD_TX_CTRL_INDEX];
+		u32 last_pad_tx_ctrl =
+		    last->burst_regs[EMC_PMACRO_DATA_PAD_TX_CTRL_INDEX];
+
+		next_dqs_e_ivref = pad_tx_ctrl &
+				   EMC_PMACRO_DATA_PAD_TX_CTRL_DATA_DQS_E_IVREF;
+		next_dq_e_ivref = pad_tx_ctrl &
+				  EMC_PMACRO_DATA_PAD_TX_CTRL_DATA_DQ_E_IVREF;
+		next_push = (last_pad_tx_ctrl &
+			     ~EMC_PMACRO_DATA_PAD_TX_CTRL_DATA_DQ_E_IVREF &
+			     ~EMC_PMACRO_DATA_PAD_TX_CTRL_DATA_DQS_E_IVREF) |
+			    next_dq_e_ivref | next_dqs_e_ivref;
+		emc_writel(emc, next_push, EMC_PMACRO_DATA_PAD_TX_CTRL);
+		udelay(1);
+	} else if (bg_regulator_mode_change) {
+		udelay(1);
+	}
+
+	tegra210_emc_set_shadow_bypass(emc, ASSEMBLY);
+
+	/*
+	 * Step 2:
+	 *   Prelock the DLL.
+	 */
+	emc_dbg(emc, STEPS, "Step 2\n");
+	if (next->burst_regs[EMC_CFG_DIG_DLL_INDEX] &
+	    EMC_CFG_DIG_DLL_CFG_DLL_EN) {
+		emc_dbg(emc, INFO, "Prelock enabled for target frequency.\n");
+		dll_out = tegra210_emc_dll_prelock(emc, clksrc);
+		emc_dbg(emc, INFO, "DLL out: 0x%03x\n", dll_out);
+	} else {
+		emc_dbg(emc, INFO, "Disabling DLL for target frequency.\n");
+		tegra210_emc_dll_disable(emc, num_channels);
+	}
+
+	/*
+	 * Step 3:
+	 *   Prepare autocal for the clock change.
+	 */
+	emc_dbg(emc, STEPS, "Step 3\n");
+	tegra210_emc_set_shadow_bypass(emc, ACTIVE);
+	emc_writel(emc, next->emc_auto_cal_config2, EMC_AUTO_CAL_CONFIG2);
+	emc_writel(emc, next->emc_auto_cal_config3, EMC_AUTO_CAL_CONFIG3);
+	emc_writel(emc, next->emc_auto_cal_config4, EMC_AUTO_CAL_CONFIG4);
+	emc_writel(emc, next->emc_auto_cal_config5, EMC_AUTO_CAL_CONFIG5);
+	emc_writel(emc, next->emc_auto_cal_config6, EMC_AUTO_CAL_CONFIG6);
+	emc_writel(emc, next->emc_auto_cal_config7, EMC_AUTO_CAL_CONFIG7);
+	emc_writel(emc, next->emc_auto_cal_config8, EMC_AUTO_CAL_CONFIG8);
+	tegra210_emc_set_shadow_bypass(emc, ASSEMBLY);
+
+	emc_auto_cal_config |= (EMC_AUTO_CAL_CONFIG_AUTO_CAL_COMPUTE_START |
+				auto_cal_en);
+	emc_writel(emc, emc_auto_cal_config, EMC_AUTO_CAL_CONFIG);
+
+	/*
+	 * Step 4:
+	 *   Update EMC_CFG. (??)
+	 */
+	emc_dbg(emc, STEPS, "Step 4\n");
+	if (source_clock_period > 50000 && dram_type == DRAM_TYPE_LPDDR4)
+		ccfifo_writel(emc, 1, EMC_SELF_REF, 0);
+	else
+		emc_writel(emc, next->emc_cfg_2, EMC_CFG_2);
+
+	/*
+	 * Step 5:
+	 *   Prepare reference variables for ZQCAL regs.
+	 */
+	emc_dbg(emc, STEPS, "Step 5\n");
+	emc_zcal_interval = 0;
+	emc_zcal_wait_cnt_old = last->burst_regs[EMC_ZCAL_WAIT_CNT_INDEX];
+	emc_zcal_wait_cnt_new = next->burst_regs[EMC_ZCAL_WAIT_CNT_INDEX];
+	emc_zcal_wait_cnt_old &= ~EMC_ZCAL_WAIT_CNT_ZCAL_WAIT_CNT_MASK;
+	emc_zcal_wait_cnt_new &= ~EMC_ZCAL_WAIT_CNT_ZCAL_WAIT_CNT_MASK;
+
+	if (dram_type == DRAM_TYPE_LPDDR4)
+		zq_wait_long = max((u32)1,
+				   div_o3(1000000, destination_clock_period));
+	else if (dram_type == DRAM_TYPE_LPDDR2 || is_lpddr3)
+		zq_wait_long = max(next->min_mrs_wait,
+				   div_o3(360000, destination_clock_period)) +
+			       4;
+	else if (dram_type == DRAM_TYPE_DDR3)
+		zq_wait_long = max((u32)256,
+				   div_o3(320000, destination_clock_period) +
+				   2);
+	else
+		zq_wait_long = 0;
+
+	/*
+	 * Step 6:
+	 *   Training code - removed.
+	 */
+	emc_dbg(emc, STEPS, "Step 6\n");
+
+	/*
+	 * Step 7:
+	 *   Program FSP reference registers and send MRWs to new FSPWR.
+	 */
+	emc_dbg(emc, STEPS, "Step 7\n");
+	emc_dbg(emc, SUB_STEPS, "Step 7.1: Bug 200024907 - Patch RP R2P");
+	if (opt_war_200024907) {
+		nRTP = 16;
+		if (source_clock_period >= 1000000/1866) /* 535.91 ps */
+			nRTP = 14;
+		if (source_clock_period >= 1000000/1600) /* 625.00 ps */
+			nRTP = 12;
+		if (source_clock_period >= 1000000/1333) /* 750.19 ps */
+			nRTP = 10;
+		if (source_clock_period >= 1000000/1066) /* 938.09 ps */
+			nRTP = 8;
+
+		deltaTWATM = max_t(u32, div_o3(7500, source_clock_period), 8);
+
+		/*
+		 * Originally there was a + .5 in the tRPST calculation.
+		 * However since we can't do FP in the kernel and the tRTM
+		 * computation was in a floating point ceiling function, adding
+		 * one to tRTP should be ok. There is no other source of non
+		 * integer values, so the result was always going to be
+		 * something for the form: f_ceil(N + .5) = N + 1;
+		 */
+		tRPST = ((last->emc_mrw & 0x80) >> 7);
+		tRTM = fake->dram_timings[RL] +
+		       div_o3(3600, source_clock_period) +
+		       max_t(u32, div_o3(7500, source_clock_period), 8) +
+		       tRPST + 1 + nRTP;
+
+		emc_dbg(emc, INFO, "tRTM = %u, EMC_RP = %u\n", tRTM,
+			next->burst_regs[EMC_RP_INDEX]);
+
+		if (last->burst_regs[EMC_RP_INDEX] < tRTM) {
+			if (tRTM > (last->burst_regs[EMC_R2P_INDEX] +
+				    last->burst_regs[EMC_RP_INDEX])) {
+				R2P_war = tRTM -
+					  last->burst_regs[EMC_RP_INDEX];
+				RP_war = last->burst_regs[EMC_RP_INDEX];
+				TRPab_war = last->burst_regs[EMC_TRPAB_INDEX];
+				if (R2P_war > 63) {
+					RP_war = R2P_war +
+						 last->burst_regs[EMC_RP_INDEX] - 63;
+					if (TRPab_war < RP_war)
+						TRPab_war = RP_war;
+					R2P_war = 63;
+				}
+			} else {
+				R2P_war = last->burst_regs[EMC_R2P_INDEX];
+				RP_war = last->burst_regs[EMC_RP_INDEX];
+				TRPab_war = last->burst_regs[EMC_TRPAB_INDEX];
+			}
+
+			if (RP_war < deltaTWATM) {
+				W2P_war = last->burst_regs[EMC_W2P_INDEX]
+					  + deltaTWATM - RP_war;
+				if (W2P_war > 63) {
+					RP_war = RP_war + W2P_war - 63;
+					if (TRPab_war < RP_war)
+						TRPab_war = RP_war;
+					W2P_war = 63;
+				}
+			} else {
+				W2P_war = last->burst_regs[
+					  EMC_W2P_INDEX];
+			}
+
+			if ((last->burst_regs[EMC_W2P_INDEX] ^ W2P_war) ||
+			    (last->burst_regs[EMC_R2P_INDEX] ^ R2P_war) ||
+			    (last->burst_regs[EMC_RP_INDEX] ^ RP_war) ||
+			    (last->burst_regs[EMC_TRPAB_INDEX] ^ TRPab_war)) {
+				emc_writel(emc, RP_war, EMC_RP);
+				emc_writel(emc, R2P_war, EMC_R2P);
+				emc_writel(emc, W2P_war, EMC_W2P);
+				emc_writel(emc, TRPab_war, EMC_TRPAB);
+			}
+
+			tegra210_emc_timing_update(emc, 2);
+		} else {
+			emc_dbg(emc, INFO, "Skipped WAR\n");
+		}
+	}
+
+	if (!fsp_for_next_freq) {
+		mr13_flip_fspwr = (next->emc_mrw3 & 0xffffff3f) | 0x80;
+		mr13_flip_fspop = (next->emc_mrw3 & 0xffffff3f) | 0x00;
+	} else {
+		mr13_flip_fspwr = (next->emc_mrw3 & 0xffffff3f) | 0x40;
+		mr13_flip_fspop = (next->emc_mrw3 & 0xffffff3f) | 0xc0;
+	}
+
+	mr13_catr_enable = (mr13_flip_fspwr & 0xFFFFFFFE) | 0x01;
+	if (emc->num_devices > 1)
+		mr13_catr_enable = (mr13_catr_enable & 0x3fffffff) | 0x80000000;
+
+	if (dram_type == DRAM_TYPE_LPDDR4) {
+		emc_writel(emc, mr13_flip_fspwr, EMC_MRW3);
+		emc_writel(emc, next->emc_mrw, EMC_MRW);
+		emc_writel(emc, next->emc_mrw2, EMC_MRW2);
+	}
+
+	/*
+	 * Step 8:
+	 *   Program the shadow registers.
+	 */
+	emc_dbg(emc, STEPS, "Step 8\n");
+	emc_dbg(emc, SUB_STEPS, "Writing burst_regs\n");
+
+	for (i = 0; i < next->num_burst; i++) {
+		const u16 *offsets = emc->offsets->burst;
+		u16 offset;
+
+		if (!offsets[i])
+			continue;
+
+		value = next->burst_regs[i];
+		offset = offsets[i];
+
+		if (dram_type != DRAM_TYPE_LPDDR4 &&
+		    (offset == EMC_MRW6 || offset == EMC_MRW7 ||
+		     offset == EMC_MRW8 || offset == EMC_MRW9 ||
+		     offset == EMC_MRW10 || offset == EMC_MRW11 ||
+		     offset == EMC_MRW12 || offset == EMC_MRW13 ||
+		     offset == EMC_MRW14 || offset == EMC_MRW15 ||
+		     offset == EMC_TRAINING_CTRL))
+			continue;
+
+		/* Pain... And suffering. */
+		if (offset == EMC_CFG) {
+			value &= ~EMC_CFG_DRAM_ACPD;
+			value &= ~EMC_CFG_DYN_SELF_REF;
+			if (dram_type == DRAM_TYPE_LPDDR4) {
+				value &= ~EMC_CFG_DRAM_CLKSTOP_SR;
+				value &= ~EMC_CFG_DRAM_CLKSTOP_PD;
+			}
+		} else if (offset == EMC_MRS_WAIT_CNT &&
+			   dram_type == DRAM_TYPE_LPDDR2 &&
+			   opt_zcal_en_cc && !opt_cc_short_zcal &&
+			   opt_short_zcal) {
+			value = (value & ~(EMC_MRS_WAIT_CNT_SHORT_WAIT_MASK <<
+					   EMC_MRS_WAIT_CNT_SHORT_WAIT_SHIFT)) |
+				((zq_wait_long & EMC_MRS_WAIT_CNT_SHORT_WAIT_MASK) <<
+						 EMC_MRS_WAIT_CNT_SHORT_WAIT_SHIFT);
+		} else if (offset == EMC_ZCAL_WAIT_CNT &&
+			   dram_type == DRAM_TYPE_DDR3 && opt_zcal_en_cc &&
+			   !opt_cc_short_zcal && opt_short_zcal) {
+			value = (value & ~(EMC_ZCAL_WAIT_CNT_ZCAL_WAIT_CNT_MASK <<
+					   EMC_ZCAL_WAIT_CNT_ZCAL_WAIT_CNT_SHIFT)) |
+			        ((zq_wait_long & EMC_ZCAL_WAIT_CNT_ZCAL_WAIT_CNT_MASK) <<
+						 EMC_MRS_WAIT_CNT_SHORT_WAIT_SHIFT);
+		} else if (offset == EMC_ZCAL_INTERVAL && opt_zcal_en_cc) {
+			value = 0; /* EMC_ZCAL_INTERVAL reset value. */
+		} else if (offset == EMC_PMACRO_AUTOCAL_CFG_COMMON) {
+			value |= EMC_PMACRO_AUTOCAL_CFG_COMMON_E_CAL_BYPASS_DVFS;
+		} else if (offset == EMC_PMACRO_DATA_PAD_TX_CTRL) {
+			value &= ~(EMC_PMACRO_DATA_PAD_TX_CTRL_DATA_DQSP_TX_E_DCC |
+				   EMC_PMACRO_DATA_PAD_TX_CTRL_DATA_DQSN_TX_E_DCC |
+				   EMC_PMACRO_DATA_PAD_TX_CTRL_DATA_DQ_TX_E_DCC |
+				   EMC_PMACRO_DATA_PAD_TX_CTRL_DATA_CMD_TX_E_DCC);
+		} else if (offset == EMC_PMACRO_CMD_PAD_TX_CTRL) {
+			value |= EMC_PMACRO_CMD_PAD_TX_CTRL_CMD_DQ_TX_DRVFORCEON;
+			value &= ~(EMC_PMACRO_CMD_PAD_TX_CTRL_CMD_DQSP_TX_E_DCC |
+				   EMC_PMACRO_CMD_PAD_TX_CTRL_CMD_DQSN_TX_E_DCC |
+				   EMC_PMACRO_CMD_PAD_TX_CTRL_CMD_DQ_TX_E_DCC |
+				   EMC_PMACRO_CMD_PAD_TX_CTRL_CMD_CMD_TX_E_DCC);
+		} else if (offset == EMC_PMACRO_BRICK_CTRL_RFU1) {
+			value &= 0xf800f800;
+		} else if (offset == EMC_PMACRO_COMMON_PAD_TX_CTRL) {
+			value &= 0xfffffff0;
+		}
+
+		emc_writel(emc, value, offset);
+	}
+
+	/* SW addition: do EMC refresh adjustment here. */
+	tegra210_emc_set_over_temp_timing(emc, next);
+
+	if (dram_type == DRAM_TYPE_LPDDR4) {
+		mrw_req = (23 << EMC_MRW_MRW_MA_SHIFT) |
+			  (next->run_clocks & EMC_MRW_MRW_OP_MASK);
+		emc_writel(emc, mrw_req, EMC_MRW);
+	}
+
+	/* Per channel burst registers. */
+	emc_dbg(emc, SUB_STEPS, "Writing burst_regs_per_ch\n");
+	for (i = 0; i < next->num_burst_per_ch; i++) {
+		const struct tegra210_emc_per_channel_regs *burst =
+				emc->offsets->burst_per_channel;
+
+		if (!burst[i].offset)
+			continue;
+
+		if (dram_type != DRAM_TYPE_LPDDR4 &&
+		    (burst[i].offset == EMC_MRW6 ||
+		     burst[i].offset == EMC_MRW7 ||
+		     burst[i].offset == EMC_MRW8 ||
+		     burst[i].offset == EMC_MRW9 ||
+		     burst[i].offset == EMC_MRW10 ||
+		     burst[i].offset == EMC_MRW11 ||
+		     burst[i].offset == EMC_MRW12 ||
+		     burst[i].offset == EMC_MRW13 ||
+		     burst[i].offset == EMC_MRW14 ||
+		     burst[i].offset == EMC_MRW15))
+			continue;
+
+		/* Filter out second channel if not in DUAL_CHANNEL mode. */
+		if (num_channels < 2 && burst[i].bank >= 1)
+			continue;
+
+		emc_dbg(emc, REG_LISTS, "(%u) 0x%08x => 0x%08x\n", i,
+			next->burst_reg_per_ch[i], burst[i].offset);
+		emc_channel_writel(emc, burst[i].bank,
+				   next->burst_reg_per_ch[i],
+				   burst[i].offset);
+	}
+
+	/* Vref regs. */
+	emc_dbg(emc, SUB_STEPS, "Writing vref_regs\n");
+	for (i = 0; i < next->vref_num; i++) {
+		const struct tegra210_emc_per_channel_regs *vref =
+					emc->offsets->vref_per_channel;
+
+		if (!vref[i].offset)
+			continue;
+
+		if (num_channels < 2 && vref[i].bank >= 1)
+			continue;
+
+		emc_dbg(emc, REG_LISTS, "(%u) 0x%08x => 0x%08x\n", i,
+			next->vref_perch_regs[i], vref[i].offset);
+		emc_channel_writel(emc, vref[i].bank, next->vref_perch_regs[i],
+				   vref[i].offset);
+	}
+
+	/* Trimmers. */
+	emc_dbg(emc, SUB_STEPS, "Writing trim_regs\n");
+	for (i = 0; i < next->num_trim; i++) {
+		const u16 *offsets = emc->offsets->trim;
+
+		if (!offsets[i])
+			continue;
+
+		if (compensate_trimmer_applicable &&
+		    (offsets[i] == EMC_PMACRO_OB_DDLL_LONG_DQ_RANK0_0 ||
+		     offsets[i] == EMC_PMACRO_OB_DDLL_LONG_DQ_RANK0_1 ||
+		     offsets[i] == EMC_PMACRO_OB_DDLL_LONG_DQ_RANK0_2 ||
+		     offsets[i] == EMC_PMACRO_OB_DDLL_LONG_DQ_RANK0_3 ||
+		     offsets[i] == EMC_PMACRO_OB_DDLL_LONG_DQ_RANK1_0 ||
+		     offsets[i] == EMC_PMACRO_OB_DDLL_LONG_DQ_RANK1_1 ||
+		     offsets[i] == EMC_PMACRO_OB_DDLL_LONG_DQ_RANK1_2 ||
+		     offsets[i] == EMC_PMACRO_OB_DDLL_LONG_DQ_RANK1_3 ||
+		     offsets[i] == EMC_DATA_BRLSHFT_0 ||
+		     offsets[i] == EMC_DATA_BRLSHFT_1)) {
+			value = tegra210_emc_compensate(next, offsets[i]);
+			emc_dbg(emc, REG_LISTS, "(%u) 0x%08x => 0x%08x\n", i,
+				value, offsets[i]);
+			emc_dbg(emc, EMA_WRITES, "0x%08x <= 0x%08x\n",
+				(u32)(u64)offsets[i], value);
+			emc_writel(emc, value, offsets[i]);
+		} else {
+			emc_dbg(emc, REG_LISTS, "(%u) 0x%08x => 0x%08x\n", i,
+				next->trim_regs[i], offsets[i]);
+			emc_writel(emc, next->trim_regs[i], offsets[i]);
+		}
+	}
+
+	/* Per channel trimmers. */
+	emc_dbg(emc, SUB_STEPS, "Writing trim_regs_per_ch\n");
+	for (i = 0; i < next->num_trim_per_ch; i++) {
+		const struct tegra210_emc_per_channel_regs *trim =
+				&emc->offsets->trim_per_channel[0];
+		unsigned int offset;
+
+		if (!trim[i].offset)
+			continue;
+
+		if (num_channels < 2 && trim[i].bank >= 1)
+			continue;
+
+		offset = trim[i].offset;
+
+		if (compensate_trimmer_applicable &&
+		    (offset == EMC_PMACRO_OB_DDLL_LONG_DQ_RANK0_0 ||
+		     offset == EMC_PMACRO_OB_DDLL_LONG_DQ_RANK0_1 ||
+		     offset == EMC_PMACRO_OB_DDLL_LONG_DQ_RANK0_2 ||
+		     offset == EMC_PMACRO_OB_DDLL_LONG_DQ_RANK0_3 ||
+		     offset == EMC_PMACRO_OB_DDLL_LONG_DQ_RANK1_0 ||
+		     offset == EMC_PMACRO_OB_DDLL_LONG_DQ_RANK1_1 ||
+		     offset == EMC_PMACRO_OB_DDLL_LONG_DQ_RANK1_2 ||
+		     offset == EMC_PMACRO_OB_DDLL_LONG_DQ_RANK1_3 ||
+		     offset == EMC_DATA_BRLSHFT_0 ||
+		     offset == EMC_DATA_BRLSHFT_1)) {
+			value = tegra210_emc_compensate(next, offset);
+			emc_dbg(emc, REG_LISTS, "(%u) 0x%08x => 0x%08x\n", i,
+				value, offset);
+			emc_dbg(emc, EMA_WRITES, "0x%08x <= 0x%08x\n", offset,
+				value);
+			emc_channel_writel(emc, trim[i].bank, value, offset);
+		} else {
+			emc_dbg(emc, REG_LISTS, "(%u) 0x%08x => 0x%08x\n", i,
+				next->trim_perch_regs[i], offset);
+			emc_channel_writel(emc, trim[i].bank,
+					   next->trim_perch_regs[i], offset);
+		}
+	}
+
+	emc_dbg(emc, SUB_STEPS, "Writing burst_mc_regs\n");
+	for (i = 0; i < next->num_mc_regs; i++) {
+		const u16 *offsets = emc->offsets->burst_mc;
+		u32 *values = next->burst_mc_regs;
+
+		emc_dbg(emc, REG_LISTS, "(%u) 0x%08x => 0x%08x\n", i,
+			values[i], offsets[i]);
+		mc_writel(emc->mc, values[i], offsets[i]);
+	}
+
+	/* Registers to be programmed on the faster clock. */
+	if (next->rate < last->rate) {
+		const u16 *la = emc->offsets->la_scale;
+
+		emc_dbg(emc, SUB_STEPS, "Writing la_scale_regs\n");
+		for (i = 0; i < next->num_up_down; i++) {
+			emc_dbg(emc, REG_LISTS, "(%u) 0x%08x => 0x%08x\n", i,
+				next->la_scale_regs[i], la[i]);
+			mc_writel(emc->mc, next->la_scale_regs[i], la[i]);
+		}
+	}
+
+	/* Flush all the burst register writes. */
+	mc_readl(emc->mc, MC_EMEM_ADR_CFG);
+
+	/*
+	 * Step 9:
+	 *   LPDDR4 section A.
+	 */
+	emc_dbg(emc, STEPS, "Step 9\n");
+	if (dram_type == DRAM_TYPE_LPDDR4) {
+		emc_writel(emc, emc_zcal_interval, EMC_ZCAL_INTERVAL);
+		emc_writel(emc, emc_zcal_wait_cnt_new, EMC_ZCAL_WAIT_CNT);
+
+		value = emc_dbg_o | (EMC_DBG_WRITE_MUX_ACTIVE |
+				     EMC_DBG_WRITE_ACTIVE_ONLY);
+
+		emc_writel(emc, value, EMC_DBG);
+		emc_writel(emc, emc_zcal_interval, EMC_ZCAL_INTERVAL);
+		emc_writel(emc, emc_dbg_o, EMC_DBG);
+	}
+
+	/*
+	 * Step 10:
+	 *   LPDDR4 and DDR3 common section.
+	 */
+	emc_dbg(emc, STEPS, "Step 10\n");
+	if (opt_dvfs_mode == MAN_SR || dram_type == DRAM_TYPE_LPDDR4) {
+		if (dram_type == DRAM_TYPE_LPDDR4)
+			ccfifo_writel(emc, 0x101, EMC_SELF_REF, 0);
+		else
+			ccfifo_writel(emc, 0x1, EMC_SELF_REF, 0);
+
+		if (dram_type == DRAM_TYPE_LPDDR4 &&
+		    destination_clock_period <= zqcal_before_cc_cutoff) {
+			ccfifo_writel(emc, mr13_flip_fspwr ^ 0x40, EMC_MRW3, 0);
+			ccfifo_writel(emc, (next->burst_regs[EMC_MRW6_INDEX] &
+						0xFFFF3F3F) |
+					   (last->burst_regs[EMC_MRW6_INDEX] &
+						0x0000C0C0), EMC_MRW6, 0);
+			ccfifo_writel(emc, (next->burst_regs[EMC_MRW14_INDEX] &
+						0xFFFF0707) |
+					   (last->burst_regs[EMC_MRW14_INDEX] &
+						0x00003838), EMC_MRW14, 0);
+
+			if (emc->num_devices > 1) {
+				ccfifo_writel(emc,
+				      (next->burst_regs[EMC_MRW7_INDEX] &
+				       0xFFFF3F3F) |
+				      (last->burst_regs[EMC_MRW7_INDEX] &
+				       0x0000C0C0), EMC_MRW7, 0);
+				ccfifo_writel(emc,
+				     (next->burst_regs[EMC_MRW15_INDEX] &
+				      0xFFFF0707) |
+				     (last->burst_regs[EMC_MRW15_INDEX] &
+				      0x00003838), EMC_MRW15, 0);
+			}
+
+			if (opt_zcal_en_cc) {
+				if (emc->num_devices < 2)
+					ccfifo_writel(emc,
+						2UL << EMC_ZQ_CAL_DEV_SEL_SHIFT
+						| EMC_ZQ_CAL_ZQ_CAL_CMD,
+						EMC_ZQ_CAL, 0);
+				else if (shared_zq_resistor)
+					ccfifo_writel(emc,
+						2UL << EMC_ZQ_CAL_DEV_SEL_SHIFT
+						| EMC_ZQ_CAL_ZQ_CAL_CMD,
+						EMC_ZQ_CAL, 0);
+				else
+					ccfifo_writel(emc,
+						      EMC_ZQ_CAL_ZQ_CAL_CMD,
+						      EMC_ZQ_CAL, 0);
+			}
+		}
+	}
+
+	if (dram_type == DRAM_TYPE_LPDDR4) {
+		ccfifo_writel(emc, mr13_flip_fspop | 0x8, EMC_MRW3,
+			      (1000 * fake->dram_timings[T_RP]) /
+			      source_clock_period);
+		ccfifo_writel(emc, 0, 0, tFC_lpddr4 / source_clock_period);
+	}
+
+	if (dram_type == DRAM_TYPE_LPDDR4 || opt_dvfs_mode != MAN_SR) {
+		u32 t = 30 + (cya_allow_ref_cc ?
+			(4000 * fake->dram_timings[T_RFC]) +
+			((1000 * fake->dram_timings[T_RP]) /
+			 source_clock_period) : 0);
+
+		ccfifo_writel(emc, emc_pin_o & ~(EMC_PIN_PIN_CKE_PER_DEV |
+			      EMC_PIN_PIN_CKEB | EMC_PIN_PIN_CKE),
+			      EMC_PIN, t);
+	}
+
+	ref_delay_mult = 1;
+	ref_b4_sref_en = 0;
+	cya_issue_pc_ref = 0;
+
+	ref_delay_mult += ref_b4_sref_en   ? 1 : 0;
+	ref_delay_mult += cya_allow_ref_cc ? 1 : 0;
+	ref_delay_mult += cya_issue_pc_ref ? 1 : 0;
+	ref_delay = ref_delay_mult *
+		    ((1000 * fake->dram_timings[T_RP] /
+		      source_clock_period) +
+		     (1000 * fake->dram_timings[T_RFC] /
+		      source_clock_period)) + 20;
+
+	/*
+	 * Step 11:
+	 *   Ramp down.
+	 */
+	emc_dbg(emc, STEPS, "Step 11\n");
+	ccfifo_writel(emc, 0x0, EMC_CFG_SYNC,
+		      dram_type == DRAM_TYPE_LPDDR4 ? 0 : ref_delay);
+
+	emc_dbg_active = emc_dbg_o | (EMC_DBG_WRITE_MUX_ACTIVE |
+			 EMC_DBG_WRITE_ACTIVE_ONLY);
+	ccfifo_writel(emc, emc_dbg_active, EMC_DBG, 0);
+
+	ramp_down_wait = tegra210_emc_dvfs_power_ramp_down(emc,
+							   source_clock_period,
+							   0);
+
+	/*
+	 * Step 12:
+	 *   And finally - trigger the clock change.
+	 */
+	emc_dbg(emc, STEPS, "Step 12\n");
+	ccfifo_writel(emc, 1, EMC_STALL_THEN_EXE_AFTER_CLKCHANGE, 0);
+	emc_dbg_active &= ~EMC_DBG_WRITE_ACTIVE_ONLY;
+	ccfifo_writel(emc, emc_dbg_active, EMC_DBG, 0);
+
+	/*
+	 * Step 13:
+	 *   Ramp up.
+	 */
+	emc_dbg(emc, STEPS, "Step 13\n");
+	ramp_up_wait = tegra210_emc_dvfs_power_ramp_up(emc,
+						       destination_clock_period,
+						       0);
+	ccfifo_writel(emc, emc_dbg_o, EMC_DBG, 0);
+
+	/*
+	 * Step 14:
+	 *   Bringup CKE pins.
+	 */
+	emc_dbg(emc, STEPS, "Step 14\n");
+	if (dram_type == DRAM_TYPE_LPDDR4) {
+		u32 r = emc_pin_o | EMC_PIN_PIN_CKE;
+
+		if (emc->num_devices > 1)
+			ccfifo_writel(emc, r | EMC_PIN_PIN_CKEB |
+				      EMC_PIN_PIN_CKE_PER_DEV, EMC_PIN, 0);
+		else
+			ccfifo_writel(emc, r & ~(EMC_PIN_PIN_CKEB |
+				      EMC_PIN_PIN_CKE_PER_DEV), EMC_PIN, 0);
+	}
+
+	/*
+	 * Step 15: (two step 15s ??)
+	 *   Calculate zqlatch wait time; has dependency on ramping times.
+	 */
+	emc_dbg(emc, STEPS, "Step 15\n");
+
+	if (destination_clock_period <= zqcal_before_cc_cutoff) {
+		s32 t = (s32)(ramp_up_wait + ramp_down_wait) /
+			(s32)destination_clock_period;
+		zq_latch_dvfs_wait_time = (s32)tZQCAL_lpddr4_fc_adj - t;
+	} else {
+		zq_latch_dvfs_wait_time = tZQCAL_lpddr4_fc_adj -
+			div_o3(1000 * next->dram_timings[T_PDEX],
+			       destination_clock_period);
+	}
+
+	emc_dbg(emc, INFO, "tZQCAL_lpddr4_fc_adj = %u\n", tZQCAL_lpddr4_fc_adj);
+	emc_dbg(emc, INFO, "destination_clock_period = %u\n",
+		destination_clock_period);
+	emc_dbg(emc, INFO, "next->dram_timings[T_PDEX] = %u\n",
+		next->dram_timings[T_PDEX]);
+	emc_dbg(emc, INFO, "zq_latch_dvfs_wait_time = %d\n",
+		max_t(s32, 0, zq_latch_dvfs_wait_time));
+
+	if (dram_type == DRAM_TYPE_LPDDR4 && opt_zcal_en_cc) {
+		if (emc->num_devices < 2) {
+			if (destination_clock_period > zqcal_before_cc_cutoff)
+				ccfifo_writel(emc,
+					      2UL << EMC_ZQ_CAL_DEV_SEL_SHIFT |
+					      EMC_ZQ_CAL_ZQ_CAL_CMD, EMC_ZQ_CAL,
+					      div_o3(1000 *
+						     next->dram_timings[T_PDEX],
+						     destination_clock_period));
+
+			ccfifo_writel(emc, (mr13_flip_fspop & 0xFFFFFFF7) |
+				      0x0C000000, EMC_MRW3,
+				      div_o3(1000 *
+					     next->dram_timings[T_PDEX],
+					     destination_clock_period));
+			ccfifo_writel(emc, 0, EMC_SELF_REF, 0);
+			ccfifo_writel(emc, 0, EMC_REF, 0);
+			ccfifo_writel(emc, 2UL << EMC_ZQ_CAL_DEV_SEL_SHIFT |
+				      EMC_ZQ_CAL_ZQ_LATCH_CMD,
+				      EMC_ZQ_CAL,
+				      max_t(s32, 0, zq_latch_dvfs_wait_time));
+		} else if (shared_zq_resistor) {
+			if (destination_clock_period > zqcal_before_cc_cutoff)
+				ccfifo_writel(emc,
+					      2UL << EMC_ZQ_CAL_DEV_SEL_SHIFT |
+					      EMC_ZQ_CAL_ZQ_CAL_CMD, EMC_ZQ_CAL,
+					      div_o3(1000 *
+						     next->dram_timings[T_PDEX],
+						     destination_clock_period));
+
+			ccfifo_writel(emc, 2UL << EMC_ZQ_CAL_DEV_SEL_SHIFT |
+				      EMC_ZQ_CAL_ZQ_LATCH_CMD, EMC_ZQ_CAL,
+				      max_t(s32, 0, zq_latch_dvfs_wait_time) +
+				      div_o3(1000 *
+					     next->dram_timings[T_PDEX],
+					     destination_clock_period));
+			ccfifo_writel(emc, 1UL << EMC_ZQ_CAL_DEV_SEL_SHIFT |
+				      EMC_ZQ_CAL_ZQ_LATCH_CMD,
+				      EMC_ZQ_CAL, 0);
+
+			ccfifo_writel(emc, (mr13_flip_fspop & 0xfffffff7) |
+				      0x0c000000, EMC_MRW3, 0);
+			ccfifo_writel(emc, 0, EMC_SELF_REF, 0);
+			ccfifo_writel(emc, 0, EMC_REF, 0);
+
+			ccfifo_writel(emc, 1UL << EMC_ZQ_CAL_DEV_SEL_SHIFT |
+				      EMC_ZQ_CAL_ZQ_LATCH_CMD, EMC_ZQ_CAL,
+				      tZQCAL_lpddr4 / destination_clock_period);
+		} else {
+			if (destination_clock_period > zqcal_before_cc_cutoff)
+				ccfifo_writel(emc, EMC_ZQ_CAL_ZQ_CAL_CMD,
+					      EMC_ZQ_CAL,
+					      div_o3(1000 *
+						     next->dram_timings[T_PDEX],
+						     destination_clock_period));
+
+			ccfifo_writel(emc, (mr13_flip_fspop & 0xfffffff7) |
+				      0x0c000000, EMC_MRW3,
+				      div_o3(1000 *
+					     next->dram_timings[T_PDEX],
+					     destination_clock_period));
+			ccfifo_writel(emc, 0, EMC_SELF_REF, 0);
+			ccfifo_writel(emc, 0, EMC_REF, 0);
+
+			ccfifo_writel(emc, EMC_ZQ_CAL_ZQ_LATCH_CMD, EMC_ZQ_CAL,
+				      max_t(s32, 0, zq_latch_dvfs_wait_time));
+		}
+	}
+
+	/* WAR: delay for zqlatch */
+	ccfifo_writel(emc, 0, 0, 10);
+
+	/*
+	 * Step 16:
+	 *   LPDDR4 Conditional Training Kickoff. Removed.
+	 */
+
+	/*
+	 * Step 17:
+	 *   MANSR exit self refresh.
+	 */
+	emc_dbg(emc, STEPS, "Step 17\n");
+	if (opt_dvfs_mode == MAN_SR && dram_type != DRAM_TYPE_LPDDR4)
+		ccfifo_writel(emc, 0, EMC_SELF_REF, 0);
+
+	/*
+	 * Step 18:
+	 *   Send MRWs to LPDDR3/DDR3.
+	 */
+	emc_dbg(emc, STEPS, "Step 18\n");
+	if (dram_type == DRAM_TYPE_LPDDR2) {
+		ccfifo_writel(emc, next->emc_mrw2, EMC_MRW2, 0);
+		ccfifo_writel(emc, next->emc_mrw,  EMC_MRW,  0);
+		if (is_lpddr3)
+			ccfifo_writel(emc, next->emc_mrw4, EMC_MRW4, 0);
+	} else if (dram_type == DRAM_TYPE_DDR3) {
+		if (opt_dll_mode)
+			ccfifo_writel(emc, next->emc_emrs &
+				      ~EMC_EMRS_USE_EMRS_LONG_CNT, EMC_EMRS, 0);
+		ccfifo_writel(emc, next->emc_emrs2 &
+			      ~EMC_EMRS2_USE_EMRS2_LONG_CNT, EMC_EMRS2, 0);
+		ccfifo_writel(emc, next->emc_mrs |
+			      EMC_EMRS_USE_EMRS_LONG_CNT, EMC_MRS, 0);
+	}
+
+	/*
+	 * Step 19:
+	 *   ZQCAL for LPDDR3/DDR3
+	 */
+	emc_dbg(emc, STEPS, "Step 19\n");
+	if (opt_zcal_en_cc) {
+		if (dram_type == DRAM_TYPE_LPDDR2) {
+			u32 r;
+
+			zq_op = opt_cc_short_zcal  ? 0x56 : 0xAB;
+			zcal_wait_time_ps = opt_cc_short_zcal  ? 90000 : 360000;
+			zcal_wait_time_clocks = div_o3(zcal_wait_time_ps,
+						destination_clock_period);
+			r = zcal_wait_time_clocks <<
+			    EMC_MRS_WAIT_CNT2_MRS_EXT2_WAIT_CNT_SHIFT |
+			    zcal_wait_time_clocks <<
+			    EMC_MRS_WAIT_CNT2_MRS_EXT1_WAIT_CNT_SHIFT;
+			ccfifo_writel(emc, r, EMC_MRS_WAIT_CNT2, 0);
+			ccfifo_writel(emc, 2 << EMC_MRW_MRW_DEV_SELECTN_SHIFT |
+				      EMC_MRW_USE_MRW_EXT_CNT |
+				      10 << EMC_MRW_MRW_MA_SHIFT |
+				      zq_op << EMC_MRW_MRW_OP_SHIFT,
+				      EMC_MRW, 0);
+			if (emc->num_devices > 1) {
+				r = 1 << EMC_MRW_MRW_DEV_SELECTN_SHIFT |
+				    EMC_MRW_USE_MRW_EXT_CNT |
+				    10 << EMC_MRW_MRW_MA_SHIFT |
+				    zq_op << EMC_MRW_MRW_OP_SHIFT;
+				ccfifo_writel(emc, r, EMC_MRW, 0);
+			}
+		} else if (dram_type == DRAM_TYPE_DDR3) {
+			zq_op = opt_cc_short_zcal ? 0 : EMC_ZQ_CAL_LONG;
+			ccfifo_writel(emc, zq_op | 2 <<
+				      EMC_ZQ_CAL_DEV_SEL_SHIFT |
+				      EMC_ZQ_CAL_ZQ_CAL_CMD, EMC_ZQ_CAL, 0);
+			if (emc->num_devices > 1)
+				ccfifo_writel(emc, zq_op |
+					      1 << EMC_ZQ_CAL_DEV_SEL_SHIFT |
+					      EMC_ZQ_CAL_ZQ_CAL_CMD,
+					      EMC_ZQ_CAL, 0);
+		}
+	}
+
+	if (bg_regulator_mode_change) {
+		tegra210_emc_set_shadow_bypass(emc, ACTIVE);
+		bg_regulator_switch_complete_wait_clks =
+			ramp_up_wait > 1250000 ? 0 :
+			(1250000 - ramp_up_wait) / destination_clock_period;
+		ccfifo_writel(emc, next->burst_regs
+			      [EMC_PMACRO_BG_BIAS_CTRL_0_INDEX],
+			      EMC_PMACRO_BG_BIAS_CTRL_0,
+			      bg_regulator_switch_complete_wait_clks);
+		tegra210_emc_set_shadow_bypass(emc, ASSEMBLY);
+	}
+
+	/*
+	 * Step 20:
+	 *   Issue ref and optional QRST.
+	 */
+	emc_dbg(emc, STEPS, "Step 20\n");
+	if (dram_type != DRAM_TYPE_LPDDR4)
+		ccfifo_writel(emc, 0, EMC_REF, 0);
+
+	if (opt_do_sw_qrst) {
+		ccfifo_writel(emc, 1, EMC_ISSUE_QRST, 0);
+		ccfifo_writel(emc, 0, EMC_ISSUE_QRST, 2);
+	}
+
+	/*
+	 * Step 21:
+	 *   Restore ZCAL and ZCAL interval.
+	 */
+	emc_dbg(emc, STEPS, "Step 21\n");
+	if (save_restore_clkstop_pd || opt_zcal_en_cc) {
+		ccfifo_writel(emc, emc_dbg_o | EMC_DBG_WRITE_MUX_ACTIVE,
+			      EMC_DBG, 0);
+		if (opt_zcal_en_cc && dram_type != DRAM_TYPE_LPDDR4)
+			ccfifo_writel(emc, next->burst_regs[EMC_ZCAL_INTERVAL_INDEX],
+				      EMC_ZCAL_INTERVAL, 0);
+
+		if (save_restore_clkstop_pd)
+			ccfifo_writel(emc, next->burst_regs[EMC_CFG_INDEX] &
+						~EMC_CFG_DYN_SELF_REF,
+				      EMC_CFG, 0);
+		ccfifo_writel(emc, emc_dbg_o, EMC_DBG, 0);
+	}
+
+	/*
+	 * Step 22:
+	 *   Restore EMC_CFG_PIPE_CLK.
+	 */
+	emc_dbg(emc, STEPS, "Step 22\n");
+	ccfifo_writel(emc, emc_cfg_pipe_clk_o, EMC_CFG_PIPE_CLK, 0);
+
+	if (bg_regulator_mode_change) {
+		if (enable_bg_regulator)
+			emc_writel(emc,
+				   next->burst_regs[EMC_PMACRO_BG_BIAS_CTRL_0_INDEX] &
+					~EMC_PMACRO_BG_BIAS_CTRL_0_BGLP_E_PWRD,
+				   EMC_PMACRO_BG_BIAS_CTRL_0);
+		else
+			emc_writel(emc,
+				   next->burst_regs[EMC_PMACRO_BG_BIAS_CTRL_0_INDEX] &
+					~EMC_PMACRO_BG_BIAS_CTRL_0_BG_E_PWRD,
+				   EMC_PMACRO_BG_BIAS_CTRL_0);
+	}
+
+	/*
+	 * Step 23:
+	 */
+	emc_dbg(emc, STEPS, "Step 23\n");
+
+	tmp = emc_readl(emc, EMC_CFG_DIG_DLL);
+	tmp |= EMC_CFG_DIG_DLL_CFG_DLL_STALL_ALL_TRAFFIC;
+	tmp &= ~EMC_CFG_DIG_DLL_CFG_DLL_STALL_RW_UNTIL_LOCK;
+	tmp &= ~EMC_CFG_DIG_DLL_CFG_DLL_STALL_ALL_UNTIL_LOCK;
+	tmp &= ~EMC_CFG_DIG_DLL_CFG_DLL_EN;
+	tmp = (tmp & ~EMC_CFG_DIG_DLL_CFG_DLL_MODE_MASK) |
+		(2 << EMC_CFG_DIG_DLL_CFG_DLL_MODE_SHIFT);
+	emc_writel(emc, tmp, EMC_CFG_DIG_DLL);
+
+	tegra210_emc_do_clock_change(emc, clksrc);
+
+	/*
+	 * Step 24:
+	 *   Save training results. Removed.
+	 */
+
+	/*
+	 * Step 25:
+	 *   Program MC updown registers.
+	 */
+	emc_dbg(emc, STEPS, "Step 25\n");
+
+	if (next->rate > last->rate) {
+		for (i = 0; i < next->num_up_down; i++)
+			mc_writel(emc->mc, next->la_scale_regs[i],
+				  emc->offsets->la_scale[i]);
+
+		tegra210_emc_timing_update(emc, num_channels);
+	}
+
+	/*
+	 * Step 26:
+	 *   Restore ZCAL registers.
+	 */
+	emc_dbg(emc, STEPS, "Step 26\n");
+	if (dram_type == DRAM_TYPE_LPDDR4) {
+		tegra210_emc_set_shadow_bypass(emc, ACTIVE);
+		emc_writel(emc, next->burst_regs[EMC_ZCAL_WAIT_CNT_INDEX],
+			   EMC_ZCAL_WAIT_CNT);
+		emc_writel(emc, next->burst_regs[EMC_ZCAL_INTERVAL_INDEX],
+			   EMC_ZCAL_INTERVAL);
+		tegra210_emc_set_shadow_bypass(emc, ASSEMBLY);
+	}
+
+	if (dram_type != DRAM_TYPE_LPDDR4 && opt_zcal_en_cc &&
+	    !opt_short_zcal && opt_cc_short_zcal) {
+		udelay(2);
+
+		tegra210_emc_set_shadow_bypass(emc, ACTIVE);
+		if (dram_type == DRAM_TYPE_LPDDR2)
+			emc_writel(emc, next->burst_regs[EMC_MRS_WAIT_CNT_INDEX],
+				   EMC_MRS_WAIT_CNT);
+		else if (dram_type == DRAM_TYPE_DDR3)
+			emc_writel(emc, next->burst_regs[EMC_ZCAL_WAIT_CNT_INDEX],
+				   EMC_ZCAL_WAIT_CNT);
+		tegra210_emc_set_shadow_bypass(emc, ASSEMBLY);
+	}
+
+	/*
+	 * Step 27:
+	 *   Restore EMC_CFG, FDPD registers.
+	 */
+	emc_dbg(emc, STEPS, "Step 27\n");
+	tegra210_emc_set_shadow_bypass(emc, ACTIVE);
+	emc_writel(emc, next->burst_regs[EMC_CFG_INDEX], EMC_CFG);
+	tegra210_emc_set_shadow_bypass(emc, ASSEMBLY);
+	emc_writel(emc, next->emc_fdpd_ctrl_cmd_no_ramp,
+		   EMC_FDPD_CTRL_CMD_NO_RAMP);
+	emc_writel(emc, next->emc_sel_dpd_ctrl, EMC_SEL_DPD_CTRL);
+
+	/*
+	 * Step 28:
+	 *   Training recover. Removed.
+	 */
+	emc_dbg(emc, STEPS, "Step 28\n");
+
+	tegra210_emc_set_shadow_bypass(emc, ACTIVE);
+	emc_writel(emc,
+		   next->burst_regs[EMC_PMACRO_AUTOCAL_CFG_COMMON_INDEX],
+		   EMC_PMACRO_AUTOCAL_CFG_COMMON);
+	tegra210_emc_set_shadow_bypass(emc, ASSEMBLY);
+
+	/*
+	 * Step 29:
+	 *   Power fix WAR.
+	 */
+	emc_dbg(emc, STEPS, "Step 29\n");
+	emc_writel(emc, EMC_PMACRO_CFG_PM_GLOBAL_0_DISABLE_CFG_BYTE0 |
+		   EMC_PMACRO_CFG_PM_GLOBAL_0_DISABLE_CFG_BYTE1 |
+		   EMC_PMACRO_CFG_PM_GLOBAL_0_DISABLE_CFG_BYTE2 |
+		   EMC_PMACRO_CFG_PM_GLOBAL_0_DISABLE_CFG_BYTE3 |
+		   EMC_PMACRO_CFG_PM_GLOBAL_0_DISABLE_CFG_BYTE4 |
+		   EMC_PMACRO_CFG_PM_GLOBAL_0_DISABLE_CFG_BYTE5 |
+		   EMC_PMACRO_CFG_PM_GLOBAL_0_DISABLE_CFG_BYTE6 |
+		   EMC_PMACRO_CFG_PM_GLOBAL_0_DISABLE_CFG_BYTE7,
+		   EMC_PMACRO_CFG_PM_GLOBAL_0);
+	emc_writel(emc, EMC_PMACRO_TRAINING_CTRL_0_CH0_TRAINING_E_WRPTR,
+		   EMC_PMACRO_TRAINING_CTRL_0);
+	emc_writel(emc, EMC_PMACRO_TRAINING_CTRL_1_CH1_TRAINING_E_WRPTR,
+		   EMC_PMACRO_TRAINING_CTRL_1);
+	emc_writel(emc, 0, EMC_PMACRO_CFG_PM_GLOBAL_0);
+
+	/*
+	 * Step 30:
+	 *   Re-enable autocal.
+	 */
+	emc_dbg(emc, STEPS, "Step 30: Re-enable DLL and AUTOCAL\n");
+	if (next->burst_regs[EMC_CFG_DIG_DLL_INDEX] & EMC_CFG_DIG_DLL_CFG_DLL_EN) {
+		tmp = emc_readl(emc, EMC_CFG_DIG_DLL);
+		tmp |=  EMC_CFG_DIG_DLL_CFG_DLL_STALL_ALL_TRAFFIC;
+		tmp |=  EMC_CFG_DIG_DLL_CFG_DLL_EN;
+		tmp &= ~EMC_CFG_DIG_DLL_CFG_DLL_STALL_RW_UNTIL_LOCK;
+		tmp &= ~EMC_CFG_DIG_DLL_CFG_DLL_STALL_ALL_UNTIL_LOCK;
+		tmp =  (tmp & ~EMC_CFG_DIG_DLL_CFG_DLL_MODE_MASK) |
+		       (2 << EMC_CFG_DIG_DLL_CFG_DLL_MODE_SHIFT);
+		emc_writel(emc, tmp, EMC_CFG_DIG_DLL);
+		tegra210_emc_timing_update(emc, num_channels);
+	}
+
+	emc_auto_cal_config = next->emc_auto_cal_config;
+	emc_writel(emc, emc_auto_cal_config, EMC_AUTO_CAL_CONFIG);
+
+	/* Done! Yay. */
+}
+
+const struct tegra210_emc_sequence tegra210_emc_r21021 = {
+	.revision = 0x7,
+	.set_clock = tegra210_emc_r21021_set_clock,
+	.periodic_compensation = tegra210_emc_r21021_periodic_compensation,
+};
diff --git a/drivers/memory/tegra/tegra210-emc.c b/drivers/memory/tegra/tegra210-emc.c
index 4ea8fb70a4fd..67f8c4519eb8 100644
--- a/drivers/memory/tegra/tegra210-emc.c
+++ b/drivers/memory/tegra/tegra210-emc.c
@@ -80,6 +80,7 @@
 	  _OB_DDLL_LONG_DQ_RANK ## rank ## _BYTE ## byte2 ## _MASK))
 
 static const struct tegra210_emc_sequence *tegra210_emc_sequences[] = {
+	&tegra210_emc_r21021,
 };
 
 static const struct tegra210_emc_table_register_offsets
diff --git a/drivers/memory/tegra/tegra210-emc.h b/drivers/memory/tegra/tegra210-emc.h
index e022c319f37f..8020974c2102 100644
--- a/drivers/memory/tegra/tegra210-emc.h
+++ b/drivers/memory/tegra/tegra210-emc.h
@@ -82,7 +82,16 @@
 #define EMC_INTSTATUS_CLKCHANGE_COMPLETE			BIT(4)
 #define EMC_DBG							0x8
 #define EMC_DBG_WRITE_MUX_ACTIVE				BIT(1)
+#define EMC_DBG_WRITE_ACTIVE_ONLY				BIT(30)
 #define EMC_CFG							0xc
+#define EMC_CFG_DRAM_CLKSTOP_PD					BIT(31)
+#define EMC_CFG_DRAM_CLKSTOP_SR					BIT(30)
+#define EMC_CFG_DRAM_ACPD					BIT(29)
+#define EMC_CFG_DYN_SELF_REF					BIT(28)
+#define EMC_PIN							0x24
+#define EMC_PIN_PIN_CKE						BIT(0)
+#define EMC_PIN_PIN_CKEB					BIT(1)
+#define EMC_PIN_PIN_CKE_PER_DEV					BIT(2)
 #define EMC_TIMING_CONTROL					0x28
 #define EMC_RC							0x2c
 #define EMC_RFC							0x30
@@ -122,6 +131,8 @@
 #define EMC_WEXT						0xb8
 #define EMC_RFC_SLR						0xc0
 #define EMC_MRS_WAIT_CNT2					0xc4
+#define EMC_MRS_WAIT_CNT2_MRS_EXT2_WAIT_CNT_SHIFT		16
+#define EMC_MRS_WAIT_CNT2_MRS_EXT1_WAIT_CNT_SHIFT		0
 #define EMC_MRS_WAIT_CNT					0xc8
 #define EMC_MRS_WAIT_CNT_SHORT_WAIT_SHIFT			0
 #define EMC_MRS_WAIT_CNT_SHORT_WAIT_MASK			\
@@ -158,14 +169,34 @@
 #define EMC_PDEX2CKE						0x118
 #define EMC_CKE2PDEN						0x11c
 #define EMC_MPC							0x128
+#define EMC_EMRS2						0x12c
+#define EMC_EMRS2_USE_EMRS2_LONG_CNT				BIT(26)
+#define EMC_MRW2						0x134
+#define EMC_MRW3						0x138
+#define EMC_MRW4						0x13c
 #define EMC_R2R							0x144
 #define EMC_EINPUT						0x14c
 #define EMC_EINPUT_DURATION					0x150
 #define EMC_PUTERM_EXTRA					0x154
 #define EMC_TCKESR						0x158
 #define EMC_TPD							0x15c
+#define EMC_AUTO_CAL_CONFIG					0x2a4
+#define EMC_AUTO_CAL_CONFIG_AUTO_CAL_COMPUTE_START		BIT(0)
+#define EMC_AUTO_CAL_CONFIG_AUTO_CAL_MEASURE_STALL		BIT(9)
+#define EMC_AUTO_CAL_CONFIG_AUTO_CAL_UPDATE_STALL		BIT(10)
+#define EMC_AUTO_CAL_CONFIG_AUTO_CAL_ENABLE			BIT(29)
+#define EMC_AUTO_CAL_CONFIG_AUTO_CAL_START			BIT(31)
 #define EMC_EMC_STATUS						0x2b4
+#define EMC_EMC_STATUS_MRR_DIVLD				BIT(20)
 #define EMC_EMC_STATUS_TIMING_UPDATE_STALLED			BIT(23)
+#define EMC_EMC_STATUS_DRAM_IN_POWERDOWN_SHIFT			4
+#define EMC_EMC_STATUS_DRAM_IN_POWERDOWN_MASK			\
+	(0x3 << EMC_EMC_STATUS_DRAM_IN_POWERDOWN_SHIFT)
+#define EMC_EMC_STATUS_DRAM_IN_SELF_REFRESH_SHIFT		8
+#define EMC_EMC_STATUS_DRAM_IN_SELF_REFRESH_MASK		\
+	(0x3 << EMC_EMC_STATUS_DRAM_IN_SELF_REFRESH_SHIFT)
+
+#define EMC_CFG_2						0x2b8
 #define EMC_CFG_DIG_DLL						0x2bc
 #define EMC_CFG_DIG_DLL_CFG_DLL_EN				BIT(0)
 #define EMC_CFG_DIG_DLL_CFG_DLL_STALL_ALL_UNTIL_LOCK		BIT(1)
@@ -191,8 +222,17 @@
 #define EMC_WDV_MASK						0x2d0
 #define EMC_RDV_EARLY_MASK					0x2d4
 #define EMC_RDV_EARLY						0x2d8
+#define EMC_AUTO_CAL_CONFIG8					0x2dc
 #define EMC_ZCAL_INTERVAL					0x2e0
 #define EMC_ZCAL_WAIT_CNT					0x2e4
+#define EMC_ZCAL_WAIT_CNT_ZCAL_WAIT_CNT_MASK			0x7ff
+#define EMC_ZCAL_WAIT_CNT_ZCAL_WAIT_CNT_SHIFT			0
+
+#define EMC_ZQ_CAL						0x2ec
+#define EMC_ZQ_CAL_DEV_SEL_SHIFT				30
+#define EMC_ZQ_CAL_LONG						BIT(4)
+#define EMC_ZQ_CAL_ZQ_LATCH_CMD					BIT(1)
+#define EMC_ZQ_CAL_ZQ_CAL_CMD					BIT(0)
 #define EMC_FDPD_CTRL_DQ					0x310
 #define EMC_FDPD_CTRL_CMD					0x314
 #define EMC_PMACRO_CMD_BRICK_CTRL_FDPD				0x318
@@ -202,6 +242,13 @@
 #define EMC_TR_TIMING_0						0x3b4
 #define EMC_TR_CTRL_1						0x3bc
 #define EMC_TR_RDV						0x3c4
+#define EMC_STALL_THEN_EXE_AFTER_CLKCHANGE			0x3cc
+#define EMC_SEL_DPD_CTRL					0x3d8
+#define EMC_SEL_DPD_CTRL_DATA_SEL_DPD_EN			BIT(8)
+#define EMC_SEL_DPD_CTRL_ODT_SEL_DPD_EN				BIT(5)
+#define EMC_SEL_DPD_CTRL_RESET_SEL_DPD_EN			BIT(4)
+#define EMC_SEL_DPD_CTRL_CA_SEL_DPD_EN				BIT(3)
+#define EMC_SEL_DPD_CTRL_CLK_SEL_DPD_EN				BIT(2)
 #define EMC_PRE_REFRESH_REQ_CNT					0x3dc
 #define EMC_DYN_SELF_REF_CONTROL				0x3e0
 #define EMC_TXSRDLL						0x3e4
@@ -214,6 +261,9 @@
 #define EMC_TR_RDV_MASK						0x3f8
 #define EMC_TR_QSAFE						0x3fc
 #define EMC_TR_QRST						0x400
+#define EMC_ISSUE_QRST						0x428
+#define EMC_AUTO_CAL_CONFIG2					0x458
+#define EMC_AUTO_CAL_CONFIG3					0x45c
 #define EMC_TR_DVFS						0x460
 #define EMC_AUTO_CAL_CHANNEL					0x464
 #define EMC_IBDLY						0x468
@@ -227,19 +277,26 @@
 #define EMC_MRW6						0x4a4
 #define EMC_MRW7						0x4a8
 #define EMC_MRW8						0x4ac
+#define EMC_MRW9						0x4b0
 #define EMC_MRW10						0x4b4
 #define EMC_MRW11						0x4b8
 #define EMC_MRW12						0x4bc
 #define EMC_MRW13						0x4c0
 #define EMC_MRW14						0x4c4
 #define EMC_MRW15						0x4d0
+#define EMC_CFG_SYNC						0x4d4
+#define EMC_FDPD_CTRL_CMD_NO_RAMP				0x4d8
+#define EMC_FDPD_CTRL_CMD_NO_RAMP_CMD_DPD_NO_RAMP_ENABLE	BIT(0)
 #define EMC_WDV_CHK						0x4e0
 #define EMC_CFG_PIPE_2						0x554
+#define EMC_CFG_PIPE_CLK					0x558
+#define EMC_CFG_PIPE_CLK_CLK_ALWAYS_ON				BIT(0)
 #define EMC_CFG_PIPE_1						0x55c
 #define EMC_CFG_PIPE						0x560
 #define EMC_QPOP						0x564
 #define EMC_QUSE_WIDTH						0x568
 #define EMC_PUTERM_WIDTH					0x56c
+#define EMC_AUTO_CAL_CONFIG7					0x574
 #define EMC_REFCTRL2						0x580
 #define EMC_FBIO_CFG7						0x584
 #define EMC_FBIO_CFG7_CH0_ENABLE				BIT(1)
@@ -304,10 +361,13 @@
 #define EMC_CMD_BRLSHFT_2					0x5a4
 #define EMC_CMD_BRLSHFT_3					0x5a8
 #define EMC_QUSE_BRLSHFT_0					0x5ac
+#define EMC_AUTO_CAL_CONFIG4					0x5b0
+#define EMC_AUTO_CAL_CONFIG5					0x5b4
 #define EMC_QUSE_BRLSHFT_1					0x5b8
 #define EMC_QUSE_BRLSHFT_2					0x5bc
 #define EMC_CCDMW						0x5c0
 #define EMC_QUSE_BRLSHFT_3					0x5c4
+#define EMC_AUTO_CAL_CONFIG6					0x5cc
 #define EMC_DLL_CFG_0						0x5e4
 #define EMC_DLL_CFG_1						0x5e8
 #define EMC_DLL_CFG_1_DDLLCAL_CTRL_START_TRIM_SHIFT		10
@@ -315,6 +375,11 @@
 	(0x7ff << EMC_DLL_CFG_1_DDLLCAL_CTRL_START_TRIM_SHIFT)
 
 #define EMC_CONFIG_SAMPLE_DELAY					0x5f0
+#define EMC_CFG_UPDATE						0x5f4
+#define EMC_CFG_UPDATE_UPDATE_DLL_IN_UPDATE_SHIFT		9
+#define EMC_CFG_UPDATE_UPDATE_DLL_IN_UPDATE_MASK		\
+	(0x3 << EMC_CFG_UPDATE_UPDATE_DLL_IN_UPDATE_SHIFT)
+
 #define EMC_PMACRO_QUSE_DDLL_RANK0_0				0x600
 #define EMC_PMACRO_QUSE_DDLL_RANK0_1				0x604
 #define EMC_PMACRO_QUSE_DDLL_RANK0_2				0x608
@@ -623,9 +688,20 @@
 #define EMC_PMACRO_DDLL_SHORT_CMD_0				0xc20
 #define EMC_PMACRO_DDLL_SHORT_CMD_1				0xc24
 #define EMC_PMACRO_DDLL_SHORT_CMD_2				0xc28
+#define EMC_PMACRO_CFG_PM_GLOBAL_0				0xc30
+#define EMC_PMACRO_CFG_PM_GLOBAL_0_DISABLE_CFG_BYTE0		BIT(16)
+#define EMC_PMACRO_CFG_PM_GLOBAL_0_DISABLE_CFG_BYTE1		BIT(17)
+#define EMC_PMACRO_CFG_PM_GLOBAL_0_DISABLE_CFG_BYTE2		BIT(18)
+#define EMC_PMACRO_CFG_PM_GLOBAL_0_DISABLE_CFG_BYTE3		BIT(19)
+#define EMC_PMACRO_CFG_PM_GLOBAL_0_DISABLE_CFG_BYTE4		BIT(20)
+#define EMC_PMACRO_CFG_PM_GLOBAL_0_DISABLE_CFG_BYTE5		BIT(21)
+#define EMC_PMACRO_CFG_PM_GLOBAL_0_DISABLE_CFG_BYTE6		BIT(22)
+#define EMC_PMACRO_CFG_PM_GLOBAL_0_DISABLE_CFG_BYTE7		BIT(23)
 #define EMC_PMACRO_VTTGEN_CTRL_0				0xc34
 #define EMC_PMACRO_VTTGEN_CTRL_1				0xc38
 #define EMC_PMACRO_BG_BIAS_CTRL_0				0xc3c
+#define EMC_PMACRO_BG_BIAS_CTRL_0_BG_E_PWRD			BIT(0)
+#define EMC_PMACRO_BG_BIAS_CTRL_0_BGLP_E_PWRD			BIT(2)
 #define EMC_PMACRO_PAD_CFG_CTRL					0xc40
 #define EMC_PMACRO_ZCTRL					0xc44
 #define EMC_PMACRO_CMD_PAD_RX_CTRL				0xc50
@@ -640,15 +716,22 @@
 #define EMC_PMACRO_CMD_PAD_TX_CTRL_CMD_DQ_TX_DRVFORCEON		BIT(26)
 
 #define EMC_PMACRO_DATA_PAD_TX_CTRL				0xc64
+#define EMC_PMACRO_DATA_PAD_TX_CTRL_DATA_DQ_E_IVREF		BIT(0)
 #define EMC_PMACRO_DATA_PAD_TX_CTRL_DATA_DQ_TX_E_DCC		BIT(1)
+#define EMC_PMACRO_DATA_PAD_TX_CTRL_DATA_DQS_E_IVREF		BIT(8)
 #define EMC_PMACRO_DATA_PAD_TX_CTRL_DATA_DQSP_TX_E_DCC		BIT(9)
 #define EMC_PMACRO_DATA_PAD_TX_CTRL_DATA_DQSN_TX_E_DCC		BIT(16)
 #define EMC_PMACRO_DATA_PAD_TX_CTRL_DATA_CMD_TX_E_DCC		BIT(24)
 
 #define EMC_PMACRO_COMMON_PAD_TX_CTRL				0xc68
 #define EMC_PMACRO_AUTOCAL_CFG_COMMON				0xc78
+#define EMC_PMACRO_AUTOCAL_CFG_COMMON_E_CAL_BYPASS_DVFS		BIT(16)
 #define EMC_PMACRO_VTTGEN_CTRL_2				0xcf0
 #define EMC_PMACRO_IB_RXRT					0xcf4
+#define EMC_PMACRO_TRAINING_CTRL_0				0xcf8
+#define EMC_PMACRO_TRAINING_CTRL_0_CH0_TRAINING_E_WRPTR		BIT(3)
+#define EMC_PMACRO_TRAINING_CTRL_1				0xcfc
+#define EMC_PMACRO_TRAINING_CTRL_1_CH1_TRAINING_E_WRPTR		BIT(3)
 #define EMC_TRAINING_CTRL					0xe04
 #define EMC_TRAINING_QUSE_CORS_CTRL				0xe0c
 #define EMC_TRAINING_QUSE_FINE_CTRL				0xe10
@@ -674,15 +757,31 @@
 #define EMC_COPY_TABLE_PARAM_TRIM_REGS				BIT(1)
 
 enum burst_regs_list {
+	EMC_RP_INDEX = 6,
+	EMC_R2P_INDEX = 9,
+	EMC_W2P_INDEX,
+	EMC_MRW6_INDEX = 31,
 	EMC_REFRESH_INDEX = 41,
 	EMC_PRE_REFRESH_REQ_CNT_INDEX = 43,
+	EMC_TRPAB_INDEX = 59,
+	EMC_MRW7_INDEX = 62,
 	EMC_FBIO_CFG5_INDEX = 65,
+	EMC_FBIO_CFG7_INDEX,
+	EMC_CFG_DIG_DLL_INDEX,
+	EMC_ZCAL_INTERVAL_INDEX = 139,
+	EMC_ZCAL_WAIT_CNT_INDEX,
+	EMC_MRS_WAIT_CNT_INDEX = 141,
 	EMC_DLL_CFG_0_INDEX = 144,
+	EMC_PMACRO_AUTOCAL_CFG_COMMON_INDEX = 146,
+	EMC_CFG_INDEX = 148,
 	EMC_DYN_SELF_REF_CONTROL_INDEX = 150,
 	EMC_PMACRO_CMD_PAD_TX_CTRL_INDEX = 161,
 	EMC_PMACRO_DATA_PAD_TX_CTRL_INDEX,
 	EMC_PMACRO_COMMON_PAD_TX_CTRL_INDEX,
 	EMC_PMACRO_BRICK_CTRL_RFU1_INDEX = 167,
+	EMC_PMACRO_BG_BIAS_CTRL_0_INDEX = 171,
+	EMC_MRW14_INDEX = 199,
+	EMC_MRW15_INDEX = 220,
 };
 
 enum trim_regs_list {
@@ -935,6 +1034,9 @@ static inline u32 div_o3(u32 a, u32 b)
 	return result;
 }
 
+/* from tegra210-emc-r21021.c */
+extern const struct tegra210_emc_sequence tegra210_emc_r21021;
+
 void tegra210_emc_do_clock_change(struct tegra210_emc *emc, u32 clksrc);
 void tegra210_emc_set_shadow_bypass(struct tegra210_emc *emc, int set);
 void tegra210_emc_timing_update(struct tegra210_emc *emc,

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Subject: [PATCH v5 7/8] arm64: tegra: Add external memory controller node for
 Tegra210
Date: Tue, 10 Mar 2020 16:20:02 +0100
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From: Joseph Lo <josephl@nvidia.com>

Add external memory controller (EMC) node for Tegra210

Signed-off-by: Joseph Lo <josephl@nvidia.com>
Signed-off-by: Thierry Reding <treding@nvidia.com>
---
Changes in v5:
- drop list of clocks because we need very strict ordering that DT can't
  guarantee
- drop hard-coded EMC table, bootloaders should add it dynamically

 arch/arm64/boot/dts/nvidia/tegra210.dtsi | 11 +++++++++++
 1 file changed, 11 insertions(+)

diff --git a/arch/arm64/boot/dts/nvidia/tegra210.dtsi b/arch/arm64/boot/dts/nvidia/tegra210.dtsi
index 64c46ce3849d..3fa92dd8350b 100644
--- a/arch/arm64/boot/dts/nvidia/tegra210.dtsi
+++ b/arch/arm64/boot/dts/nvidia/tegra210.dtsi
@@ -895,6 +895,17 @@ mc: memory-controller@70019000 {
 		#iommu-cells = <1>;
 	};
 
+	external-memory-controller@7001b000 {
+		compatible = "nvidia,tegra210-emc";
+		reg = <0x0 0x7001b000 0x0 0x1000>,
+		      <0x0 0x7001e000 0x0 0x1000>,
+		      <0x0 0x7001f000 0x0 0x1000>;
+		clocks = <&tegra_car TEGRA210_CLK_EMC>;
+		clock-names = "emc";
+		interrupts = <GIC_SPI 78 IRQ_TYPE_LEVEL_HIGH>;
+		nvidia,memory-controller = <&mc>;
+	};
+
 	sata@70020000 {
 		compatible = "nvidia,tegra210-ahci";
 		reg = <0x0 0x70027000 0x0 0x2000>, /* AHCI */

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Subject: [PATCH v5 8/8] clk: tegra: Remove the old emc_mux clock for Tegra210
Date: Tue, 10 Mar 2020 16:20:03 +0100
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From: Joseph Lo <josephl@nvidia.com>

Remove the old emc_mux clock and don't use the common EMC clock
definition. This will be replaced by a new clock defined in the
EMC driver.

Signed-off-by: Joseph Lo <josephl@nvidia.com>
Signed-off-by: Thierry Reding <treding@nvidia.com>
---
 drivers/clk/tegra/clk-tegra210.c | 46 ++++++++++++++++++++------------
 1 file changed, 29 insertions(+), 17 deletions(-)

diff --git a/drivers/clk/tegra/clk-tegra210.c b/drivers/clk/tegra/clk-tegra210.c
index 0a5be781da60..53a570b1fc29 100644
--- a/drivers/clk/tegra/clk-tegra210.c
+++ b/drivers/clk/tegra/clk-tegra210.c
@@ -319,12 +319,6 @@ static unsigned long tegra210_input_freq[] = {
 	[8] = 12000000,
 };
 
-static const char *mux_pllmcp_clkm[] = {
-	"pll_m", "pll_c", "pll_p", "clk_m", "pll_m_ud", "pll_mb", "pll_mb",
-	"pll_p",
-};
-#define mux_pllmcp_clkm_idx NULL
-
 #define PLL_ENABLE			(1 << 30)
 
 #define PLLCX_MISC1_IDDQ		(1 << 27)
@@ -2336,7 +2330,6 @@ static struct tegra_clk tegra210_clks[tegra_clk_max] __initdata = {
 	[tegra_clk_i2c2] = { .dt_id = TEGRA210_CLK_I2C2, .present = true },
 	[tegra_clk_uartc_8] = { .dt_id = TEGRA210_CLK_UARTC, .present = true },
 	[tegra_clk_mipi_cal] = { .dt_id = TEGRA210_CLK_MIPI_CAL, .present = true },
-	[tegra_clk_emc] = { .dt_id = TEGRA210_CLK_EMC, .present = true },
 	[tegra_clk_usb2] = { .dt_id = TEGRA210_CLK_USB2, .present = true },
 	[tegra_clk_bsev] = { .dt_id = TEGRA210_CLK_BSEV, .present = true },
 	[tegra_clk_uartd_8] = { .dt_id = TEGRA210_CLK_UARTD, .present = true },
@@ -2987,6 +2980,27 @@ static const char * const sor1_parents[] = {
 
 static u32 sor1_parents_idx[] = { 0, 2, 5, 6 };
 
+static const struct clk_div_table mc_div_table_tegra210[] = {
+	{ .val = 0, .div = 2 },
+	{ .val = 1, .div = 4 },
+	{ .val = 2, .div = 1 },
+	{ .val = 3, .div = 2 },
+	{ .val = 0, .div = 0 },
+};
+
+static void tegra210_clk_register_mc(const char *name,
+				     const char *parent_name)
+{
+	struct clk *clk;
+
+	clk = clk_register_divider_table(NULL, name, parent_name,
+					 CLK_IS_CRITICAL,
+					 clk_base + CLK_SOURCE_EMC,
+					 15, 2, CLK_DIVIDER_READ_ONLY,
+					 mc_div_table_tegra210, &emc_lock);
+	clks[TEGRA210_CLK_MC] = clk;
+}
+
 static const char * const sor1_out_parents[] = {
 	/*
 	 * Bit 0 of the mux selects sor1_pad_clkout, irrespective of bit 1, so
@@ -3029,7 +3043,8 @@ static const char * const la_parents[] = {
 static struct tegra_clk_periph tegra210_la =
 	TEGRA_CLK_PERIPH(29, 7, 9, 0, 8, 1, TEGRA_DIVIDER_ROUND_UP, 76, 0, NULL, 0);
 
-static __init void tegra210_periph_clk_init(void __iomem *clk_base,
+static __init void tegra210_periph_clk_init(struct device_node *np,
+					    void __iomem *clk_base,
 					    void __iomem *pmc_base)
 {
 	struct clk *clk;
@@ -3075,15 +3090,12 @@ static __init void tegra210_periph_clk_init(void __iomem *clk_base,
 			CLK_SOURCE_LA, 0);
 	clks[TEGRA210_CLK_LA] = clk;
 
-	/* emc mux */
-	clk = clk_register_mux(NULL, "emc_mux", mux_pllmcp_clkm,
-			       ARRAY_SIZE(mux_pllmcp_clkm), 0,
-			       clk_base + CLK_SOURCE_EMC,
-			       29, 3, 0, &emc_lock);
+	/* emc */
+	clk = tegra210_clk_register_emc(np, clk_base);
+	clks[TEGRA210_CLK_EMC] = clk;
 
-	clk = tegra_clk_register_mc("mc", "emc_mux", clk_base + CLK_SOURCE_EMC,
-				    &emc_lock);
-	clks[TEGRA210_CLK_MC] = clk;
+	/* mc */
+	tegra210_clk_register_mc("mc", "emc");
 
 	/* cml0 */
 	clk = clk_register_gate(NULL, "cml0", "pll_e", 0, clk_base + PLLE_AUX,
@@ -3728,7 +3740,7 @@ static void __init tegra210_clock_init(struct device_node *np)
 
 	tegra_fixed_clk_init(tegra210_clks);
 	tegra210_pll_init(clk_base, pmc_base);
-	tegra210_periph_clk_init(clk_base, pmc_base);
+	tegra210_periph_clk_init(np, clk_base, pmc_base);
 	tegra_audio_clk_init(clk_base, pmc_base, tegra210_clks,
 			     tegra210_audio_plls,
 			     ARRAY_SIZE(tegra210_audio_plls), 24576000);