zynq-rs/src/zynq/ddr/mod.rs

use crate::regs::{RegisterR, RegisterW, RegisterRW};
use super::slcr;
use super::clocks::CpuClocks;

/// Micron MT41J256M8HX-15E: 667 MHz DDR3
const DDR_FREQ: u32 = 666_666_666;
const DCI_FREQ: u32 = 10_000_000;

pub struct DdrRam {
}

impl DdrRam {
    pub fn new() -> Self {
        let clocks = CpuClocks::get();
        Self::clock_setup(&clocks);
        Self::calibrate_iob_impedance(&clocks);
        Self::configure_iob();

        let ram = DdrRam {};
        ram
    }

    /// Zynq-7000 AP SoC Technical Reference Manual:
    /// 10.6.1 DDR Clock Initialization
    fn clock_setup(clocks: &CpuClocks) {
        let ddr3x_clk_divisor = ((clocks.ddr - 1) / DDR_FREQ + 1).min(255) as u8;
        let ddr2x_clk_divisor = 3 * ddr3x_clk_divisor / 2;

        slcr::RegisterBlock::unlocked(|slcr| {
            slcr.ddr_pll_ctrl.write(
                slcr::PllCtrl::zeroed()
            );

            slcr.ddr_clk_ctrl.write(
                slcr::DdrClkCtrl::zeroed()
                    .ddr_2xclkact(true)
                    .ddr_3xclkact(true)
                    .ddr_2xclk_divisor(ddr2x_clk_divisor)
                    .ddr_3xclk_divisor(ddr3x_clk_divisor)
            );
        });
    }

    /// Zynq-7000 AP SoC Technical Reference Manual:
    /// 10.6.2 DDR IOB Impedance Calibration
    fn calibrate_iob_impedance(clocks: &CpuClocks) {
        let divisor0 = (clocks.ddr / DCI_FREQ)
            .max(1).min(63) as u8;
        let divisor1 = (clocks.ddr / DCI_FREQ / u32::from(divisor0))
            .max(1).min(63) as u8;

        slcr::RegisterBlock::unlocked(|slcr| {
            // Step 1.
            slcr.dci_clk_ctrl.write(
                slcr::DciClkCtrl::zeroed()
                    .clkact(true)
                    .divisor0(divisor0)
                    .divisor1(divisor1)
            );

            // Step 2.a.
            slcr.ddriob_dci_ctrl.modify(|_, w|
                w.reset(false)
            );
            slcr.ddriob_dci_ctrl.modify(|_, w|
                w.reset(true)
            );
            // Step 3.b. for DDR3
            slcr.ddriob_dci_ctrl.modify(|_, w|
                w.nref_opt1(0)
                 .nref_opt2(0)
                 .nref_opt4(1)
                 .pref_opt1(0)
                 .pref_opt2(0)
            );
            // Step 2.c.
            slcr.ddriob_dci_ctrl.modify(|_, w|
                w.update_control(false)
            );
            // Step 2.d.
            slcr.ddriob_dci_ctrl.modify(|_, w|
                w.enable(true)
            );
            // Step 2.e.
            while ! slcr.ddriob_dci_status.read().done() {}
        });
    }

    /// Zynq-7000 AP SoC Technical Reference Manual:
    /// 10.6.3 DDR IOB Configuration
    fn configure_iob() {
        slcr::RegisterBlock::unlocked(|slcr| {
            let addr_config = slcr::DdriobConfig::zeroed()
                .output_en(slcr::DdriobOutputEn::Obuf);
            slcr.ddriob_addr0.write(addr_config.clone());
            slcr.ddriob_addr1.write(addr_config);
            let data_config = slcr::DdriobConfig::zeroed()
                .inp_type(slcr::DdriobInputType::VrefDifferential)
                .term_en(true)
                .dci_type(slcr::DdriobDciType::Termination)
                .output_en(slcr::DdriobOutputEn::Obuf);
            slcr.ddriob_data0.write(data_config.clone());
            slcr.ddriob_data1.write(data_config);
            let diff_config = slcr::DdriobConfig::zeroed()
                .inp_type(slcr::DdriobInputType::Differential)
                .term_en(true)
                .dci_type(slcr::DdriobDciType::Termination)
                .output_en(slcr::DdriobOutputEn::Obuf);
            slcr.ddriob_diff0.write(diff_config.clone());
            slcr.ddriob_diff1.write(diff_config);
            slcr.ddriob_clock.write(
                slcr::DdriobConfig::zeroed()
                    .output_en(slcr::DdriobOutputEn::Obuf)
            );

            unsafe {
                // Not documented in Technical Reference Manual
                slcr.ddriob_drive_slew_addr.write(0x0018C61C);
                slcr.ddriob_drive_slew_data.write(0x00F9861C);
                slcr.ddriob_drive_slew_diff.write(0x00F9861C);
                slcr.ddriob_drive_slew_clock.write(0x00F9861C);
            }

            // Enable internal V[REF]
            slcr.ddriob_ddr_ctrl.modify(|_, w| w
                    .vref_ext_en_lower(false)
                    .vref_ext_en_upper(false)
                    .vref_sel(slcr::DdriobVrefSel::Vref0_75V)
                    .vref_int_en(true)
            );
        });
    }
}
zynq::ddr: add clock_setup(), calibrate_iob_impedance() 2019-10-22 07:25:35 +08:00			`use crate::regs::{RegisterR, RegisterW, RegisterRW};`
move slcr, clocks, uart, eth into src/zynq/ 2019-10-22 04:19:03 +08:00			`use super::slcr;`
			`use super::clocks::CpuClocks;`
zynq::ddr: init with clock setup 2019-10-22 04:12:10 +08:00
zynq::ddr: implement configure_iob() 2019-10-24 07:24:12 +08:00			`/// Micron MT41J256M8HX-15E: 667 MHz DDR3`
zynq::ddr: init with clock setup 2019-10-22 04:12:10 +08:00			`const DDR_FREQ: u32 = 666_666_666;`
zynq::ddr: add clock_setup(), calibrate_iob_impedance() 2019-10-22 07:25:35 +08:00			`const DCI_FREQ: u32 = 10_000_000;`
zynq::ddr: init with clock setup 2019-10-22 04:12:10 +08:00
			`pub struct DdrRam {`
			`}`

			`impl DdrRam {`
			`pub fn new() -> Self {`
zynq::ddr: add clock_setup(), calibrate_iob_impedance() 2019-10-22 07:25:35 +08:00			`let clocks = CpuClocks::get();`
			`Self::clock_setup(&clocks);`
			`Self::calibrate_iob_impedance(&clocks);`
zynq::ddr: implement configure_iob() 2019-10-24 07:24:12 +08:00			`Self::configure_iob();`
zynq::ddr: add clock_setup(), calibrate_iob_impedance() 2019-10-22 07:25:35 +08:00
zynq::ddr: init with clock setup 2019-10-22 04:12:10 +08:00			`let ram = DdrRam {};`
			`ram`
			`}`

zynq::ddr: implement configure_iob() 2019-10-24 07:24:12 +08:00			`/// Zynq-7000 AP SoC Technical Reference Manual:`
			`/// 10.6.1 DDR Clock Initialization`
zynq::ddr: add clock_setup(), calibrate_iob_impedance() 2019-10-22 07:25:35 +08:00			`fn clock_setup(clocks: &CpuClocks) {`
zynq::ddr: init with clock setup 2019-10-22 04:12:10 +08:00			`let ddr3x_clk_divisor = ((clocks.ddr - 1) / DDR_FREQ + 1).min(255) as u8;`
			`let ddr2x_clk_divisor = 3 * ddr3x_clk_divisor / 2;`
zynq::ddr: add clock_setup(), calibrate_iob_impedance() 2019-10-22 07:25:35 +08:00
zynq::ddr: init with clock setup 2019-10-22 04:12:10 +08:00			`slcr::RegisterBlock::unlocked(\|slcr\| {`
			`slcr.ddr_pll_ctrl.write(`
			`slcr::PllCtrl::zeroed()`
			`);`

			`slcr.ddr_clk_ctrl.write(`
			`slcr::DdrClkCtrl::zeroed()`
			`.ddr_2xclkact(true)`
			`.ddr_3xclkact(true)`
			`.ddr_2xclk_divisor(ddr2x_clk_divisor)`
			`.ddr_3xclk_divisor(ddr3x_clk_divisor)`
			`);`
			`});`
			`}`
zynq::ddr: add clock_setup(), calibrate_iob_impedance() 2019-10-22 07:25:35 +08:00
zynq::ddr: implement configure_iob() 2019-10-24 07:24:12 +08:00			`/// Zynq-7000 AP SoC Technical Reference Manual:`
			`/// 10.6.2 DDR IOB Impedance Calibration`
zynq::ddr: add clock_setup(), calibrate_iob_impedance() 2019-10-22 07:25:35 +08:00			`fn calibrate_iob_impedance(clocks: &CpuClocks) {`
			`let divisor0 = (clocks.ddr / DCI_FREQ)`
			`.max(1).min(63) as u8;`
			`let divisor1 = (clocks.ddr / DCI_FREQ / u32::from(divisor0))`
			`.max(1).min(63) as u8;`

			`slcr::RegisterBlock::unlocked(\|slcr\| {`
			`// Step 1.`
			`slcr.dci_clk_ctrl.write(`
			`slcr::DciClkCtrl::zeroed()`
			`.clkact(true)`
			`.divisor0(divisor0)`
			`.divisor1(divisor1)`
			`);`

			`// Step 2.a.`
			`slcr.ddriob_dci_ctrl.modify(\|_, w\|`
			`w.reset(false)`
			`);`
			`slcr.ddriob_dci_ctrl.modify(\|_, w\|`
			`w.reset(true)`
			`);`
			`// Step 3.b. for DDR3`
			`slcr.ddriob_dci_ctrl.modify(\|_, w\|`
			`w.nref_opt1(0)`
			`.nref_opt2(0)`
			`.nref_opt4(1)`
			`.pref_opt1(0)`
			`.pref_opt2(0)`
			`);`
			`// Step 2.c.`
			`slcr.ddriob_dci_ctrl.modify(\|_, w\|`
			`w.update_control(false)`
			`);`
			`// Step 2.d.`
			`slcr.ddriob_dci_ctrl.modify(\|_, w\|`
			`w.enable(true)`
			`);`
			`// Step 2.e.`
			`while ! slcr.ddriob_dci_status.read().done() {}`
			`});`
			`}`
zynq::ddr: implement configure_iob() 2019-10-24 07:24:12 +08:00
			`/// Zynq-7000 AP SoC Technical Reference Manual:`
			`/// 10.6.3 DDR IOB Configuration`
			`fn configure_iob() {`
			`slcr::RegisterBlock::unlocked(\|slcr\| {`
			`let addr_config = slcr::DdriobConfig::zeroed()`
			`.output_en(slcr::DdriobOutputEn::Obuf);`
			`slcr.ddriob_addr0.write(addr_config.clone());`
			`slcr.ddriob_addr1.write(addr_config);`
			`let data_config = slcr::DdriobConfig::zeroed()`
			`.inp_type(slcr::DdriobInputType::VrefDifferential)`
			`.term_en(true)`
			`.dci_type(slcr::DdriobDciType::Termination)`
			`.output_en(slcr::DdriobOutputEn::Obuf);`
			`slcr.ddriob_data0.write(data_config.clone());`
			`slcr.ddriob_data1.write(data_config);`
			`let diff_config = slcr::DdriobConfig::zeroed()`
			`.inp_type(slcr::DdriobInputType::Differential)`
			`.term_en(true)`
			`.dci_type(slcr::DdriobDciType::Termination)`
			`.output_en(slcr::DdriobOutputEn::Obuf);`
			`slcr.ddriob_diff0.write(diff_config.clone());`
			`slcr.ddriob_diff1.write(diff_config);`
			`slcr.ddriob_clock.write(`
			`slcr::DdriobConfig::zeroed()`
			`.output_en(slcr::DdriobOutputEn::Obuf)`
			`);`

			`unsafe {`
			`// Not documented in Technical Reference Manual`
			`slcr.ddriob_drive_slew_addr.write(0x0018C61C);`
			`slcr.ddriob_drive_slew_data.write(0x00F9861C);`
			`slcr.ddriob_drive_slew_diff.write(0x00F9861C);`
			`slcr.ddriob_drive_slew_clock.write(0x00F9861C);`
			`}`

			`// Enable internal V[REF]`
			`slcr.ddriob_ddr_ctrl.modify(\|_, w\| w`
			`.vref_ext_en_lower(false)`
			`.vref_ext_en_upper(false)`
			`.vref_sel(slcr::DdriobVrefSel::Vref0_75V)`
			`.vref_int_en(true)`
			`);`
			`});`
			`}`
zynq::ddr: init with clock setup 2019-10-22 04:12:10 +08:00			`}`