mirror of
https://github.com/AsahiLinux/u-boot
synced 2024-12-05 02:51:00 +00:00
84d2bbf082
There is no reason to do serial initialization. Uart driver does it already based on DT. Good effect is that it is clear which interface is console. Signed-off-by: Michal Simek <michal.simek@xilinx.com>
1163 lines
48 KiB
C
1163 lines
48 KiB
C
// SPDX-License-Identifier: GPL-2.0+
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/*
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* (c) Copyright 2015 Xilinx, Inc. All rights reserved.
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*/
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#include <asm/arch/psu_init_gpl.h>
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#include <xil_io.h>
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static unsigned long psu_pll_init_data(void)
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{
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psu_mask_write(0xFF5E0034, 0xFE7FEDEFU, 0x7E4B0C62U);
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psu_mask_write(0xFF5E0030, 0x00717F00U, 0x00014000U);
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psu_mask_write(0xFF5E0030, 0x00000008U, 0x00000008U);
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psu_mask_write(0xFF5E0030, 0x00000001U, 0x00000001U);
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psu_mask_write(0xFF5E0030, 0x00000001U, 0x00000000U);
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mask_poll(0xFF5E0040, 0x00000002U);
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psu_mask_write(0xFF5E0030, 0x00000008U, 0x00000000U);
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psu_mask_write(0xFF5E0048, 0x00003F00U, 0x00000200U);
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psu_mask_write(0xFF5E0038, 0x8000FFFFU, 0x00000000U);
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psu_mask_write(0xFF5E0108, 0x013F3F07U, 0x01012300U);
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psu_mask_write(0xFF5E0024, 0xFE7FEDEFU, 0x7E4B0C82U);
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psu_mask_write(0xFF5E0020, 0x00717F00U, 0x00015A00U);
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psu_mask_write(0xFF5E0020, 0x00000008U, 0x00000008U);
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psu_mask_write(0xFF5E0020, 0x00000001U, 0x00000001U);
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psu_mask_write(0xFF5E0020, 0x00000001U, 0x00000000U);
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mask_poll(0xFF5E0040, 0x00000001U);
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psu_mask_write(0xFF5E0020, 0x00000008U, 0x00000000U);
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psu_mask_write(0xFF5E0044, 0x00003F00U, 0x00000300U);
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psu_mask_write(0xFF5E0028, 0x8000FFFFU, 0x00000000U);
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psu_mask_write(0xFD1A0024, 0xFE7FEDEFU, 0x7E4B0C62U);
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psu_mask_write(0xFD1A0020, 0x00717F00U, 0x00014800U);
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psu_mask_write(0xFD1A0020, 0x00000008U, 0x00000008U);
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psu_mask_write(0xFD1A0020, 0x00000001U, 0x00000001U);
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psu_mask_write(0xFD1A0020, 0x00000001U, 0x00000000U);
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mask_poll(0xFD1A0044, 0x00000001U);
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psu_mask_write(0xFD1A0020, 0x00000008U, 0x00000000U);
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psu_mask_write(0xFD1A0048, 0x00003F00U, 0x00000300U);
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psu_mask_write(0xFD1A0028, 0x8000FFFFU, 0x00000000U);
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psu_mask_write(0xFD1A0030, 0xFE7FEDEFU, 0x7E4B0C62U);
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psu_mask_write(0xFD1A002C, 0x00717F00U, 0x00014000U);
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psu_mask_write(0xFD1A002C, 0x00000008U, 0x00000008U);
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psu_mask_write(0xFD1A002C, 0x00000001U, 0x00000001U);
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psu_mask_write(0xFD1A002C, 0x00000001U, 0x00000000U);
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mask_poll(0xFD1A0044, 0x00000002U);
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psu_mask_write(0xFD1A002C, 0x00000008U, 0x00000000U);
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psu_mask_write(0xFD1A004C, 0x00003F00U, 0x00000200U);
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psu_mask_write(0xFD1A0034, 0x8000FFFFU, 0x00000000U);
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psu_mask_write(0xFD1A003C, 0xFE7FEDEFU, 0x7E4B0C62U);
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psu_mask_write(0xFD1A0038, 0x00717F00U, 0x00014000U);
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psu_mask_write(0xFD1A0038, 0x00000008U, 0x00000008U);
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psu_mask_write(0xFD1A0038, 0x00000001U, 0x00000001U);
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psu_mask_write(0xFD1A0038, 0x00000001U, 0x00000000U);
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mask_poll(0xFD1A0044, 0x00000004U);
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psu_mask_write(0xFD1A0038, 0x00000008U, 0x00000000U);
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psu_mask_write(0xFD1A0050, 0x00003F00U, 0x00000200U);
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psu_mask_write(0xFD1A0040, 0x8000FFFFU, 0x00000000U);
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return 1;
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}
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static unsigned long psu_clock_init_data(void)
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{
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psu_mask_write(0xFF5E0050, 0x063F3F07U, 0x06010C00U);
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psu_mask_write(0xFF180360, 0x00000003U, 0x00000001U);
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psu_mask_write(0xFF180308, 0x00000006U, 0x00000006U);
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psu_mask_write(0xFF5E0100, 0x013F3F07U, 0x01010600U);
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psu_mask_write(0xFF5E0060, 0x023F3F07U, 0x02010600U);
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psu_mask_write(0xFF5E0064, 0x023F3F07U, 0x02010600U);
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psu_mask_write(0xFF5E004C, 0x023F3F07U, 0x02031900U);
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psu_mask_write(0xFF5E006C, 0x013F3F07U, 0x01010800U);
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psu_mask_write(0xFF5E0070, 0x013F3F07U, 0x01010800U);
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psu_mask_write(0xFF18030C, 0x00020003U, 0x00000000U);
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psu_mask_write(0xFF5E0074, 0x013F3F07U, 0x01010F00U);
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psu_mask_write(0xFF5E0078, 0x013F3F07U, 0x01010F00U);
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psu_mask_write(0xFF5E0120, 0x013F3F07U, 0x01010F00U);
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psu_mask_write(0xFF5E0124, 0x013F3F07U, 0x01010F00U);
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psu_mask_write(0xFF5E0090, 0x01003F07U, 0x01000302U);
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psu_mask_write(0xFF5E009C, 0x01003F07U, 0x01000400U);
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psu_mask_write(0xFF5E00A4, 0x01003F07U, 0x01000800U);
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psu_mask_write(0xFF5E00A8, 0x01003F07U, 0x01000200U);
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psu_mask_write(0xFF5E00AC, 0x01003F07U, 0x01000F02U);
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psu_mask_write(0xFF5E00B0, 0x01003F07U, 0x01000602U);
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psu_mask_write(0xFF5E00B8, 0x01003F07U, 0x01000200U);
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psu_mask_write(0xFF5E00C0, 0x013F3F07U, 0x01010B02U);
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psu_mask_write(0xFF5E0108, 0x013F3F07U, 0x01011E02U);
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psu_mask_write(0xFF5E0104, 0x00000007U, 0x00000000U);
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psu_mask_write(0xFF5E0128, 0x01003F07U, 0x01000104U);
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psu_mask_write(0xFD1A0060, 0x03003F07U, 0x03000100U);
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psu_mask_write(0xFD1A0068, 0x01003F07U, 0x01000200U);
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psu_mask_write(0xFD1A0080, 0x00003F07U, 0x00000200U);
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psu_mask_write(0xFD1A0084, 0x07003F07U, 0x07000100U);
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psu_mask_write(0xFD1A00B8, 0x01003F07U, 0x01000203U);
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psu_mask_write(0xFD1A00BC, 0x01003F07U, 0x01000203U);
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psu_mask_write(0xFD1A00C0, 0x01003F07U, 0x01000202U);
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psu_mask_write(0xFD1A00C4, 0x01003F07U, 0x01000502U);
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psu_mask_write(0xFD1A00F8, 0x00003F07U, 0x00000200U);
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psu_mask_write(0xFF180380, 0x000000FFU, 0x00000000U);
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psu_mask_write(0xFD610100, 0x00000001U, 0x00000000U);
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psu_mask_write(0xFF180300, 0x00000001U, 0x00000000U);
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psu_mask_write(0xFF410050, 0x00000001U, 0x00000000U);
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return 1;
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}
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static unsigned long psu_ddr_init_data(void)
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{
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psu_mask_write(0xFD1A0108, 0x00000008U, 0x00000008U);
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psu_mask_write(0xFD070000, 0xE30FBE3DU, 0xC1081020U);
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psu_mask_write(0xFD070010, 0x8000F03FU, 0x00000030U);
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psu_mask_write(0xFD070020, 0x000003F3U, 0x00000202U);
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psu_mask_write(0xFD070024, 0xFFFFFFFFU, 0x00516120U);
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psu_mask_write(0xFD070030, 0x0000007FU, 0x00000008U);
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psu_mask_write(0xFD070034, 0x00FFFF1FU, 0x00408410U);
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psu_mask_write(0xFD070050, 0x00F1F1F4U, 0x00210000U);
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psu_mask_write(0xFD070054, 0x0FFF0FFFU, 0x00000000U);
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psu_mask_write(0xFD070060, 0x00000073U, 0x00000001U);
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psu_mask_write(0xFD070064, 0x0FFF83FFU, 0x00418096U);
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psu_mask_write(0xFD070070, 0x00000017U, 0x00000010U);
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psu_mask_write(0xFD070074, 0x00000003U, 0x00000000U);
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psu_mask_write(0xFD0700C4, 0x3F000391U, 0x10000200U);
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psu_mask_write(0xFD0700C8, 0x01FF1F3FU, 0x0030051FU);
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psu_mask_write(0xFD0700D0, 0xC3FF0FFFU, 0x00030413U);
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psu_mask_write(0xFD0700D4, 0x01FF7F0FU, 0x006A0000U);
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psu_mask_write(0xFD0700D8, 0x0000FF0FU, 0x00002305U);
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psu_mask_write(0xFD0700DC, 0xFFFFFFFFU, 0x00440024U);
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psu_mask_write(0xFD0700E0, 0xFFFFFFFFU, 0x00310008U);
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psu_mask_write(0xFD0700E4, 0x00FF03FFU, 0x00210004U);
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psu_mask_write(0xFD0700E8, 0xFFFFFFFFU, 0x00000000U);
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psu_mask_write(0xFD0700EC, 0xFFFF0000U, 0x00000000U);
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psu_mask_write(0xFD0700F0, 0x0000003FU, 0x00000010U);
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psu_mask_write(0xFD0700F4, 0x00000FFFU, 0x0000077FU);
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psu_mask_write(0xFD070100, 0x7F3F7F3FU, 0x15161117U);
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psu_mask_write(0xFD070104, 0x001F1F7FU, 0x00040422U);
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psu_mask_write(0xFD070108, 0x3F3F3F3FU, 0x060C1310U);
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psu_mask_write(0xFD07010C, 0x3FF3F3FFU, 0x00F08000U);
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psu_mask_write(0xFD070110, 0x1F0F0F1FU, 0x0A04060CU);
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psu_mask_write(0xFD070114, 0x0F0F3F1FU, 0x01040808U);
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psu_mask_write(0xFD070118, 0x0F0F000FU, 0x01010005U);
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psu_mask_write(0xFD07011C, 0x00000F0FU, 0x00000401U);
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psu_mask_write(0xFD070120, 0x7F7F7F7FU, 0x04040606U);
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psu_mask_write(0xFD070124, 0x40070F3FU, 0x0004040DU);
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psu_mask_write(0xFD07012C, 0x7F1F031FU, 0x440C011CU);
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psu_mask_write(0xFD070130, 0x00030F1FU, 0x00020608U);
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psu_mask_write(0xFD070180, 0xF7FF03FFU, 0x82160010U);
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psu_mask_write(0xFD070184, 0x3FFFFFFFU, 0x01B65B96U);
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psu_mask_write(0xFD070190, 0x1FBFBF3FU, 0x0495820AU);
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psu_mask_write(0xFD070194, 0xF31F0F0FU, 0x00030304U);
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psu_mask_write(0xFD070198, 0x0FF1F1F1U, 0x07000101U);
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psu_mask_write(0xFD07019C, 0x000000F1U, 0x00000021U);
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psu_mask_write(0xFD0701A0, 0xC3FF03FFU, 0x83FF0003U);
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psu_mask_write(0xFD0701A4, 0x00FF00FFU, 0x00C800FFU);
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psu_mask_write(0xFD0701B0, 0x00000007U, 0x00000004U);
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psu_mask_write(0xFD0701B4, 0x00003F3FU, 0x00001308U);
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psu_mask_write(0xFD0701C0, 0x00000007U, 0x00000001U);
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psu_mask_write(0xFD070200, 0x0000001FU, 0x0000001FU);
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psu_mask_write(0xFD070204, 0x001F1F1FU, 0x00070707U);
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psu_mask_write(0xFD070208, 0x0F0F0F0FU, 0x00000000U);
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psu_mask_write(0xFD07020C, 0x0F0F0F0FU, 0x0F000000U);
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psu_mask_write(0xFD070210, 0x00000F0FU, 0x00000F0FU);
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psu_mask_write(0xFD070214, 0x0F0F0F0FU, 0x060F0606U);
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psu_mask_write(0xFD070218, 0x8F0F0F0FU, 0x06060606U);
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psu_mask_write(0xFD07021C, 0x00000F0FU, 0x00000F0FU);
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psu_mask_write(0xFD070220, 0x00001F1FU, 0x00000000U);
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psu_mask_write(0xFD070224, 0x0F0F0F0FU, 0x06060606U);
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psu_mask_write(0xFD070228, 0x0F0F0F0FU, 0x06060606U);
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psu_mask_write(0xFD07022C, 0x0000000FU, 0x00000006U);
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psu_mask_write(0xFD070240, 0x0F1F0F7CU, 0x04000400U);
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psu_mask_write(0xFD070244, 0x00003333U, 0x00000000U);
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psu_mask_write(0xFD070250, 0x7FFF3F07U, 0x01002001U);
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psu_mask_write(0xFD070264, 0xFF00FFFFU, 0x08000040U);
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psu_mask_write(0xFD07026C, 0xFF00FFFFU, 0x08000040U);
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psu_mask_write(0xFD070280, 0xFFFFFFFFU, 0x00000000U);
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psu_mask_write(0xFD070284, 0xFFFFFFFFU, 0x00000000U);
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psu_mask_write(0xFD070288, 0xFFFFFFFFU, 0x00000000U);
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psu_mask_write(0xFD07028C, 0xFFFFFFFFU, 0x00000000U);
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psu_mask_write(0xFD070290, 0x0000FFFFU, 0x00000000U);
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psu_mask_write(0xFD070294, 0x00000001U, 0x00000001U);
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psu_mask_write(0xFD070300, 0x00000011U, 0x00000000U);
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psu_mask_write(0xFD07030C, 0x80000033U, 0x00000000U);
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psu_mask_write(0xFD070320, 0x00000001U, 0x00000000U);
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psu_mask_write(0xFD070400, 0x00000111U, 0x00000001U);
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psu_mask_write(0xFD070404, 0x000073FFU, 0x0000200FU);
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psu_mask_write(0xFD070408, 0x000073FFU, 0x0000200FU);
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psu_mask_write(0xFD070490, 0x00000001U, 0x00000001U);
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psu_mask_write(0xFD070494, 0x0033000FU, 0x0020000BU);
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psu_mask_write(0xFD070498, 0x07FF07FFU, 0x00000000U);
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psu_mask_write(0xFD0704B4, 0x000073FFU, 0x0000200FU);
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psu_mask_write(0xFD0704B8, 0x000073FFU, 0x0000200FU);
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psu_mask_write(0xFD070540, 0x00000001U, 0x00000001U);
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psu_mask_write(0xFD070544, 0x03330F0FU, 0x02000B03U);
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psu_mask_write(0xFD070548, 0x07FF07FFU, 0x00000000U);
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psu_mask_write(0xFD070564, 0x000073FFU, 0x0000200FU);
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psu_mask_write(0xFD070568, 0x000073FFU, 0x0000200FU);
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psu_mask_write(0xFD0705F0, 0x00000001U, 0x00000001U);
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psu_mask_write(0xFD0705F4, 0x03330F0FU, 0x02000B03U);
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psu_mask_write(0xFD0705F8, 0x07FF07FFU, 0x00000000U);
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psu_mask_write(0xFD070614, 0x000073FFU, 0x0000200FU);
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psu_mask_write(0xFD070618, 0x000073FFU, 0x0000200FU);
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psu_mask_write(0xFD0706A0, 0x00000001U, 0x00000001U);
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psu_mask_write(0xFD0706A4, 0x0033000FU, 0x00100003U);
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psu_mask_write(0xFD0706A8, 0x07FF07FFU, 0x0000004FU);
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psu_mask_write(0xFD0706AC, 0x0033000FU, 0x00100003U);
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psu_mask_write(0xFD0706B0, 0x000007FFU, 0x0000004FU);
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psu_mask_write(0xFD0706C4, 0x000073FFU, 0x0000200FU);
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psu_mask_write(0xFD0706C8, 0x000073FFU, 0x0000200FU);
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psu_mask_write(0xFD070750, 0x00000001U, 0x00000001U);
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psu_mask_write(0xFD070754, 0x0033000FU, 0x00100003U);
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psu_mask_write(0xFD070758, 0x07FF07FFU, 0x0000004FU);
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psu_mask_write(0xFD07075C, 0x0033000FU, 0x00100003U);
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psu_mask_write(0xFD070760, 0x000007FFU, 0x0000004FU);
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psu_mask_write(0xFD070774, 0x000073FFU, 0x0000200FU);
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psu_mask_write(0xFD070778, 0x000073FFU, 0x0000200FU);
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psu_mask_write(0xFD070800, 0x00000001U, 0x00000001U);
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psu_mask_write(0xFD070804, 0x0033000FU, 0x00100003U);
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psu_mask_write(0xFD070808, 0x07FF07FFU, 0x0000004FU);
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psu_mask_write(0xFD07080C, 0x0033000FU, 0x00100003U);
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psu_mask_write(0xFD070810, 0x000007FFU, 0x0000004FU);
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psu_mask_write(0xFD070F04, 0x000001FFU, 0x00000000U);
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psu_mask_write(0xFD070F08, 0x000000FFU, 0x00000000U);
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psu_mask_write(0xFD070F0C, 0x000001FFU, 0x00000010U);
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psu_mask_write(0xFD070F10, 0x000000FFU, 0x0000000FU);
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psu_mask_write(0xFD072190, 0x1FBFBF3FU, 0x07828002U);
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psu_mask_write(0xFD1A0108, 0x0000000CU, 0x00000000U);
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psu_mask_write(0xFD080010, 0xFFFFFFFFU, 0x87001E00U);
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psu_mask_write(0xFD080018, 0xFFFFFFFFU, 0x00F07E38U);
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psu_mask_write(0xFD08001C, 0xFFFFFFFFU, 0x55AA5480U);
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psu_mask_write(0xFD080024, 0xFFFFFFFFU, 0x010100F4U);
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psu_mask_write(0xFD080040, 0xFFFFFFFFU, 0x42C21590U);
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psu_mask_write(0xFD080044, 0xFFFFFFFFU, 0xD05512C0U);
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psu_mask_write(0xFD080068, 0xFFFFFFFFU, 0x01100000U);
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psu_mask_write(0xFD080090, 0xFFFFFFFFU, 0x02A04161U);
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psu_mask_write(0xFD0800C0, 0xFFFFFFFFU, 0x00000000U);
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psu_mask_write(0xFD0800C4, 0xFFFFFFFFU, 0x000000DDU);
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psu_mask_write(0xFD080100, 0xFFFFFFFFU, 0x0000040DU);
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psu_mask_write(0xFD080110, 0xFFFFFFFFU, 0x0B2E1708U);
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psu_mask_write(0xFD080114, 0xFFFFFFFFU, 0x282B0510U);
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psu_mask_write(0xFD080118, 0xFFFFFFFFU, 0x000F0133U);
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psu_mask_write(0xFD08011C, 0xFFFFFFFFU, 0x82000501U);
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psu_mask_write(0xFD080120, 0xFFFFFFFFU, 0x012B2B0BU);
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psu_mask_write(0xFD080124, 0xFFFFFFFFU, 0x0044260BU);
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psu_mask_write(0xFD080128, 0xFFFFFFFFU, 0x00000C18U);
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psu_mask_write(0xFD080140, 0xFFFFFFFFU, 0x08400020U);
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psu_mask_write(0xFD080144, 0xFFFFFFFFU, 0x00000C80U);
|
|
psu_mask_write(0xFD080150, 0xFFFFFFFFU, 0x00000000U);
|
|
psu_mask_write(0xFD080154, 0xFFFFFFFFU, 0x00000000U);
|
|
psu_mask_write(0xFD080180, 0xFFFFFFFFU, 0x00000000U);
|
|
psu_mask_write(0xFD080184, 0xFFFFFFFFU, 0x00000044U);
|
|
psu_mask_write(0xFD080188, 0xFFFFFFFFU, 0x00000024U);
|
|
psu_mask_write(0xFD08018C, 0xFFFFFFFFU, 0x00000031U);
|
|
psu_mask_write(0xFD080190, 0xFFFFFFFFU, 0x00000008U);
|
|
psu_mask_write(0xFD080194, 0xFFFFFFFFU, 0x00000000U);
|
|
psu_mask_write(0xFD080198, 0xFFFFFFFFU, 0x00000000U);
|
|
psu_mask_write(0xFD0801AC, 0xFFFFFFFFU, 0x00000056U);
|
|
psu_mask_write(0xFD0801B0, 0xFFFFFFFFU, 0x00000021U);
|
|
psu_mask_write(0xFD0801B4, 0xFFFFFFFFU, 0x00000008U);
|
|
psu_mask_write(0xFD0801B8, 0xFFFFFFFFU, 0x00000019U);
|
|
psu_mask_write(0xFD0801D8, 0xFFFFFFFFU, 0x00000016U);
|
|
psu_mask_write(0xFD080200, 0xFFFFFFFFU, 0x800091C7U);
|
|
psu_mask_write(0xFD080204, 0xFFFFFFFFU, 0x00010236U);
|
|
psu_mask_write(0xFD080240, 0xFFFFFFFFU, 0x00141054U);
|
|
psu_mask_write(0xFD080250, 0xFFFFFFFFU, 0x00088000U);
|
|
psu_mask_write(0xFD080414, 0xFFFFFFFFU, 0x12340800U);
|
|
psu_mask_write(0xFD0804F4, 0xFFFFFFFFU, 0x0000000AU);
|
|
psu_mask_write(0xFD080500, 0xFFFFFFFFU, 0x30000028U);
|
|
psu_mask_write(0xFD080508, 0xFFFFFFFFU, 0x00000000U);
|
|
psu_mask_write(0xFD08050C, 0xFFFFFFFFU, 0x00000005U);
|
|
psu_mask_write(0xFD080510, 0xFFFFFFFFU, 0x00000000U);
|
|
psu_mask_write(0xFD080520, 0xFFFFFFFFU, 0x0300BD99U);
|
|
psu_mask_write(0xFD080528, 0xFFFFFFFFU, 0xF1032019U);
|
|
psu_mask_write(0xFD08052C, 0xFFFFFFFFU, 0x07F001E3U);
|
|
psu_mask_write(0xFD080544, 0xFFFFFFFFU, 0x00000000U);
|
|
psu_mask_write(0xFD080548, 0xFFFFFFFFU, 0x00000000U);
|
|
psu_mask_write(0xFD080558, 0xFFFFFFFFU, 0x00000000U);
|
|
psu_mask_write(0xFD08055C, 0xFFFFFFFFU, 0x00000000U);
|
|
psu_mask_write(0xFD080560, 0xFFFFFFFFU, 0x00000000U);
|
|
psu_mask_write(0xFD080564, 0xFFFFFFFFU, 0x00000000U);
|
|
psu_mask_write(0xFD080680, 0xFFFFFFFFU, 0x008AAC58U);
|
|
psu_mask_write(0xFD080684, 0xFFFFFFFFU, 0x0001B39BU);
|
|
psu_mask_write(0xFD080694, 0xFFFFFFFFU, 0x01E10210U);
|
|
psu_mask_write(0xFD080698, 0xFFFFFFFFU, 0x01E10000U);
|
|
psu_mask_write(0xFD0806A4, 0xFFFFFFFFU, 0x0001BB9BU);
|
|
psu_mask_write(0xFD080700, 0xFFFFFFFFU, 0x40800604U);
|
|
psu_mask_write(0xFD080704, 0xFFFFFFFFU, 0x00007FFFU);
|
|
psu_mask_write(0xFD08070C, 0xFFFFFFFFU, 0x3F000008U);
|
|
psu_mask_write(0xFD080710, 0xFFFFFFFFU, 0x0E00F50CU);
|
|
psu_mask_write(0xFD080714, 0xFFFFFFFFU, 0x09091616U);
|
|
psu_mask_write(0xFD080718, 0xFFFFFFFFU, 0x09092B2BU);
|
|
psu_mask_write(0xFD080800, 0xFFFFFFFFU, 0x40800604U);
|
|
psu_mask_write(0xFD080804, 0xFFFFFFFFU, 0x00007FFFU);
|
|
psu_mask_write(0xFD08080C, 0xFFFFFFFFU, 0x3F000008U);
|
|
psu_mask_write(0xFD080810, 0xFFFFFFFFU, 0x0E00F50CU);
|
|
psu_mask_write(0xFD080814, 0xFFFFFFFFU, 0x09091616U);
|
|
psu_mask_write(0xFD080818, 0xFFFFFFFFU, 0x09092B2BU);
|
|
psu_mask_write(0xFD080900, 0xFFFFFFFFU, 0x40800604U);
|
|
psu_mask_write(0xFD080904, 0xFFFFFFFFU, 0x00007FFFU);
|
|
psu_mask_write(0xFD08090C, 0xFFFFFFFFU, 0x3F000008U);
|
|
psu_mask_write(0xFD080910, 0xFFFFFFFFU, 0x0E00F50CU);
|
|
psu_mask_write(0xFD080914, 0xFFFFFFFFU, 0x09091616U);
|
|
psu_mask_write(0xFD080918, 0xFFFFFFFFU, 0x09092B2BU);
|
|
psu_mask_write(0xFD080A00, 0xFFFFFFFFU, 0x40800604U);
|
|
psu_mask_write(0xFD080A04, 0xFFFFFFFFU, 0x00007FFFU);
|
|
psu_mask_write(0xFD080A0C, 0xFFFFFFFFU, 0x3F000008U);
|
|
psu_mask_write(0xFD080A10, 0xFFFFFFFFU, 0x0E00F50CU);
|
|
psu_mask_write(0xFD080A14, 0xFFFFFFFFU, 0x09091616U);
|
|
psu_mask_write(0xFD080A18, 0xFFFFFFFFU, 0x09092B2BU);
|
|
psu_mask_write(0xFD080B00, 0xFFFFFFFFU, 0x80803660U);
|
|
psu_mask_write(0xFD080B04, 0xFFFFFFFFU, 0x55556000U);
|
|
psu_mask_write(0xFD080B08, 0xFFFFFFFFU, 0xAAAAAAAAU);
|
|
psu_mask_write(0xFD080B0C, 0xFFFFFFFFU, 0x0129A4A4U);
|
|
psu_mask_write(0xFD080B10, 0xFFFFFFFFU, 0x0C00BD00U);
|
|
psu_mask_write(0xFD080B14, 0xFFFFFFFFU, 0x09091616U);
|
|
psu_mask_write(0xFD080B18, 0xFFFFFFFFU, 0x09092B2BU);
|
|
psu_mask_write(0xFD080C00, 0xFFFFFFFFU, 0x80803660U);
|
|
psu_mask_write(0xFD080C04, 0xFFFFFFFFU, 0x55556000U);
|
|
psu_mask_write(0xFD080C08, 0xFFFFFFFFU, 0xAAAAAAAAU);
|
|
psu_mask_write(0xFD080C0C, 0xFFFFFFFFU, 0x0029A4A4U);
|
|
psu_mask_write(0xFD080C10, 0xFFFFFFFFU, 0x0C00BD00U);
|
|
psu_mask_write(0xFD080C14, 0xFFFFFFFFU, 0x09091616U);
|
|
psu_mask_write(0xFD080C18, 0xFFFFFFFFU, 0x09092B2BU);
|
|
psu_mask_write(0xFD080D00, 0xFFFFFFFFU, 0x80803660U);
|
|
psu_mask_write(0xFD080D04, 0xFFFFFFFFU, 0x55556000U);
|
|
psu_mask_write(0xFD080D08, 0xFFFFFFFFU, 0xAAAAAAAAU);
|
|
psu_mask_write(0xFD080D0C, 0xFFFFFFFFU, 0x0029A4A4U);
|
|
psu_mask_write(0xFD080D10, 0xFFFFFFFFU, 0x0C00BD00U);
|
|
psu_mask_write(0xFD080D14, 0xFFFFFFFFU, 0x09091616U);
|
|
psu_mask_write(0xFD080D18, 0xFFFFFFFFU, 0x09092B2BU);
|
|
psu_mask_write(0xFD080E00, 0xFFFFFFFFU, 0x80803660U);
|
|
psu_mask_write(0xFD080E04, 0xFFFFFFFFU, 0x55556000U);
|
|
psu_mask_write(0xFD080E08, 0xFFFFFFFFU, 0xAAAAAAAAU);
|
|
psu_mask_write(0xFD080E0C, 0xFFFFFFFFU, 0x0029A4A4U);
|
|
psu_mask_write(0xFD080E10, 0xFFFFFFFFU, 0x0C00BD00U);
|
|
psu_mask_write(0xFD080E14, 0xFFFFFFFFU, 0x09091616U);
|
|
psu_mask_write(0xFD080E18, 0xFFFFFFFFU, 0x09092B2BU);
|
|
psu_mask_write(0xFD080F00, 0xFFFFFFFFU, 0x80803660U);
|
|
psu_mask_write(0xFD080F04, 0xFFFFFFFFU, 0x55556000U);
|
|
psu_mask_write(0xFD080F08, 0xFFFFFFFFU, 0xAAAAAAAAU);
|
|
psu_mask_write(0xFD080F0C, 0xFFFFFFFFU, 0x0029A4A4U);
|
|
psu_mask_write(0xFD080F10, 0xFFFFFFFFU, 0x0C00BD00U);
|
|
psu_mask_write(0xFD080F14, 0xFFFFFFFFU, 0x09091616U);
|
|
psu_mask_write(0xFD080F18, 0xFFFFFFFFU, 0x09092B2BU);
|
|
psu_mask_write(0xFD081400, 0xFFFFFFFFU, 0x2A019FFEU);
|
|
psu_mask_write(0xFD081404, 0xFFFFFFFFU, 0x01100000U);
|
|
psu_mask_write(0xFD08141C, 0xFFFFFFFFU, 0x01264300U);
|
|
psu_mask_write(0xFD08142C, 0xFFFFFFFFU, 0x000C1800U);
|
|
psu_mask_write(0xFD081430, 0xFFFFFFFFU, 0x71000000U);
|
|
psu_mask_write(0xFD081440, 0xFFFFFFFFU, 0x2A019FFEU);
|
|
psu_mask_write(0xFD081444, 0xFFFFFFFFU, 0x01100000U);
|
|
psu_mask_write(0xFD08145C, 0xFFFFFFFFU, 0x01264300U);
|
|
psu_mask_write(0xFD08146C, 0xFFFFFFFFU, 0x000C1800U);
|
|
psu_mask_write(0xFD081470, 0xFFFFFFFFU, 0x71000000U);
|
|
psu_mask_write(0xFD081480, 0xFFFFFFFFU, 0x15019FFEU);
|
|
psu_mask_write(0xFD081484, 0xFFFFFFFFU, 0x21100000U);
|
|
psu_mask_write(0xFD08149C, 0xFFFFFFFFU, 0x01266300U);
|
|
psu_mask_write(0xFD0814AC, 0xFFFFFFFFU, 0x000C1800U);
|
|
psu_mask_write(0xFD0814B0, 0xFFFFFFFFU, 0x70400000U);
|
|
psu_mask_write(0xFD0814C0, 0xFFFFFFFFU, 0x15019FFEU);
|
|
psu_mask_write(0xFD0814C4, 0xFFFFFFFFU, 0x21100000U);
|
|
psu_mask_write(0xFD0814DC, 0xFFFFFFFFU, 0x01266300U);
|
|
psu_mask_write(0xFD0814EC, 0xFFFFFFFFU, 0x000C1800U);
|
|
psu_mask_write(0xFD0814F0, 0xFFFFFFFFU, 0x70400000U);
|
|
psu_mask_write(0xFD081500, 0xFFFFFFFFU, 0x15019FFEU);
|
|
psu_mask_write(0xFD081504, 0xFFFFFFFFU, 0x21100000U);
|
|
psu_mask_write(0xFD08151C, 0xFFFFFFFFU, 0x01266300U);
|
|
psu_mask_write(0xFD08152C, 0xFFFFFFFFU, 0x000C1800U);
|
|
psu_mask_write(0xFD081530, 0xFFFFFFFFU, 0x70400000U);
|
|
psu_mask_write(0xFD0817C4, 0xFFFFFFFFU, 0x01100000U);
|
|
psu_mask_write(0xFD0817DC, 0xFFFFFFFFU, 0x012643C4U);
|
|
|
|
return 1;
|
|
}
|
|
|
|
static unsigned long psu_ddr_qos_init_data(void)
|
|
{
|
|
return 1;
|
|
}
|
|
|
|
static unsigned long psu_mio_init_data(void)
|
|
{
|
|
psu_mask_write(0xFF180034, 0x000000FEU, 0x00000008U);
|
|
psu_mask_write(0xFF180038, 0x000000FEU, 0x00000008U);
|
|
psu_mask_write(0xFF18003C, 0x000000FEU, 0x00000008U);
|
|
psu_mask_write(0xFF180040, 0x000000FEU, 0x00000008U);
|
|
psu_mask_write(0xFF180044, 0x000000FEU, 0x00000008U);
|
|
psu_mask_write(0xFF180048, 0x000000FEU, 0x00000008U);
|
|
psu_mask_write(0xFF18004C, 0x000000FEU, 0x00000008U);
|
|
psu_mask_write(0xFF180050, 0x000000FEU, 0x00000008U);
|
|
psu_mask_write(0xFF180054, 0x000000FEU, 0x00000008U);
|
|
psu_mask_write(0xFF180058, 0x000000FEU, 0x00000008U);
|
|
psu_mask_write(0xFF18005C, 0x000000FEU, 0x00000008U);
|
|
psu_mask_write(0xFF180088, 0x000000FEU, 0x00000040U);
|
|
psu_mask_write(0xFF18008C, 0x000000FEU, 0x00000040U);
|
|
psu_mask_write(0xFF180090, 0x000000FEU, 0x00000040U);
|
|
psu_mask_write(0xFF180094, 0x000000FEU, 0x00000040U);
|
|
psu_mask_write(0xFF180098, 0x000000FEU, 0x000000C0U);
|
|
psu_mask_write(0xFF18009C, 0x000000FEU, 0x000000C0U);
|
|
psu_mask_write(0xFF1800A0, 0x000000FEU, 0x000000C0U);
|
|
psu_mask_write(0xFF1800A4, 0x000000FEU, 0x000000C0U);
|
|
psu_mask_write(0xFF1800B4, 0x000000FEU, 0x00000010U);
|
|
psu_mask_write(0xFF1800B8, 0x000000FEU, 0x00000010U);
|
|
psu_mask_write(0xFF1800BC, 0x000000FEU, 0x00000010U);
|
|
psu_mask_write(0xFF1800C0, 0x000000FEU, 0x00000010U);
|
|
psu_mask_write(0xFF1800C4, 0x000000FEU, 0x00000010U);
|
|
psu_mask_write(0xFF1800C8, 0x000000FEU, 0x00000010U);
|
|
psu_mask_write(0xFF1800CC, 0x000000FEU, 0x00000010U);
|
|
psu_mask_write(0xFF1800D0, 0x000000FEU, 0x00000004U);
|
|
psu_mask_write(0xFF1800D4, 0x000000FEU, 0x00000004U);
|
|
psu_mask_write(0xFF1800D8, 0x000000FEU, 0x00000004U);
|
|
psu_mask_write(0xFF1800DC, 0x000000FEU, 0x00000004U);
|
|
psu_mask_write(0xFF1800E0, 0x000000FEU, 0x00000004U);
|
|
psu_mask_write(0xFF1800E4, 0x000000FEU, 0x00000004U);
|
|
psu_mask_write(0xFF1800E8, 0x000000FEU, 0x00000004U);
|
|
psu_mask_write(0xFF1800EC, 0x000000FEU, 0x00000004U);
|
|
psu_mask_write(0xFF1800F0, 0x000000FEU, 0x00000004U);
|
|
psu_mask_write(0xFF1800F4, 0x000000FEU, 0x00000004U);
|
|
psu_mask_write(0xFF1800F8, 0x000000FEU, 0x00000004U);
|
|
psu_mask_write(0xFF1800FC, 0x000000FEU, 0x00000004U);
|
|
psu_mask_write(0xFF180100, 0x000000FEU, 0x00000004U);
|
|
psu_mask_write(0xFF180104, 0x000000FEU, 0x00000004U);
|
|
psu_mask_write(0xFF180108, 0x000000FEU, 0x00000004U);
|
|
psu_mask_write(0xFF18010C, 0x000000FEU, 0x00000004U);
|
|
psu_mask_write(0xFF180110, 0x000000FEU, 0x00000004U);
|
|
psu_mask_write(0xFF180114, 0x000000FEU, 0x00000004U);
|
|
psu_mask_write(0xFF180118, 0x000000FEU, 0x00000004U);
|
|
psu_mask_write(0xFF18011C, 0x000000FEU, 0x00000004U);
|
|
psu_mask_write(0xFF180120, 0x000000FEU, 0x00000004U);
|
|
psu_mask_write(0xFF180124, 0x000000FEU, 0x00000004U);
|
|
psu_mask_write(0xFF180128, 0x000000FEU, 0x00000004U);
|
|
psu_mask_write(0xFF18012C, 0x000000FEU, 0x00000004U);
|
|
psu_mask_write(0xFF180130, 0x000000FEU, 0x00000060U);
|
|
psu_mask_write(0xFF180134, 0x000000FEU, 0x00000060U);
|
|
psu_mask_write(0xFF180204, 0x00FFE000U, 0x00000000U);
|
|
psu_mask_write(0xFF180208, 0xFFFFE3FCU, 0x00B02240U);
|
|
psu_mask_write(0xFF18020C, 0x00003FFFU, 0x0000000BU);
|
|
psu_mask_write(0xFF180138, 0x03FFFFFFU, 0x03FFFFFFU);
|
|
psu_mask_write(0xFF18013C, 0x03FFFFFFU, 0x03FFFFFFU);
|
|
psu_mask_write(0xFF180140, 0x03FFFFFFU, 0x00000000U);
|
|
psu_mask_write(0xFF180144, 0x03FFFFFFU, 0x03FFFFFFU);
|
|
psu_mask_write(0xFF180148, 0x03FFFFFFU, 0x03FFFFFFU);
|
|
psu_mask_write(0xFF18014C, 0x03FFFFFFU, 0x00000000U);
|
|
psu_mask_write(0xFF180154, 0x03FFFFFFU, 0x03FFFFFFU);
|
|
psu_mask_write(0xFF180158, 0x03FFFFFFU, 0x03FFFFFFU);
|
|
psu_mask_write(0xFF18015C, 0x03FFFFFFU, 0x00000000U);
|
|
psu_mask_write(0xFF180160, 0x03FFFFFFU, 0x03FFFFFFU);
|
|
psu_mask_write(0xFF180164, 0x03FFFFFFU, 0x03FFFFFFU);
|
|
psu_mask_write(0xFF180168, 0x03FFFFFFU, 0x00000000U);
|
|
psu_mask_write(0xFF180170, 0x03FFFFFFU, 0x03FFFFFFU);
|
|
psu_mask_write(0xFF180174, 0x03FFFFFFU, 0x03FFFFFFU);
|
|
psu_mask_write(0xFF180178, 0x03FFFFFFU, 0x00000000U);
|
|
psu_mask_write(0xFF18017C, 0x03FFFFFFU, 0x03FFFFFFU);
|
|
psu_mask_write(0xFF180180, 0x03FFFFFFU, 0x03FFFFFFU);
|
|
psu_mask_write(0xFF180184, 0x03FFFFFFU, 0x00000000U);
|
|
psu_mask_write(0xFF180200, 0x0000000FU, 0x00000000U);
|
|
|
|
return 1;
|
|
}
|
|
|
|
static unsigned long psu_peripherals_pre_init_data(void)
|
|
{
|
|
psu_mask_write(0xFF5E0108, 0x013F3F07U, 0x01012302U);
|
|
|
|
return 1;
|
|
}
|
|
|
|
static unsigned long psu_peripherals_init_data(void)
|
|
{
|
|
psu_mask_write(0xFD1A0100, 0x0000007CU, 0x00000000U);
|
|
psu_mask_write(0xFF5E0238, 0x001A0000U, 0x00000000U);
|
|
psu_mask_write(0xFF5E023C, 0x0093C018U, 0x00000000U);
|
|
psu_mask_write(0xFF5E0230, 0x00000001U, 0x00000000U);
|
|
psu_mask_write(0xFF5E023C, 0x00000C00U, 0x00000000U);
|
|
psu_mask_write(0xFF5E0238, 0x00000060U, 0x00000000U);
|
|
psu_mask_write(0xFF180310, 0x00008001U, 0x00000001U);
|
|
psu_mask_write(0xFF180320, 0x33843384U, 0x00801284U);
|
|
psu_mask_write(0xFF18031C, 0x00007FFEU, 0x00006450U);
|
|
psu_mask_write(0xFF180358, 0x00080000U, 0x00080000U);
|
|
psu_mask_write(0xFF18031C, 0x7FFE0000U, 0x64500000U);
|
|
psu_mask_write(0xFF180358, 0x00000008U, 0x00000008U);
|
|
psu_mask_write(0xFF180324, 0x000003C0U, 0x00000000U);
|
|
psu_mask_write(0xFF180324, 0x03C00000U, 0x00000000U);
|
|
psu_mask_write(0xFF5E0238, 0x00000600U, 0x00000000U);
|
|
psu_mask_write(0xFF5E0238, 0x00000006U, 0x00000000U);
|
|
psu_mask_write(0xFF5E0238, 0x00040000U, 0x00000000U);
|
|
psu_mask_write(0xFF4B0024, 0x000000FFU, 0x000000FFU);
|
|
psu_mask_write(0xFFCA5000, 0x00001FFFU, 0x00000000U);
|
|
psu_mask_write(0xFD5C0060, 0x000F000FU, 0x00000000U);
|
|
psu_mask_write(0xFFA60040, 0x80000000U, 0x80000000U);
|
|
psu_mask_write(0xFF260020, 0xFFFFFFFFU, 0x01FC9F08U);
|
|
psu_mask_write(0xFF260000, 0x00000001U, 0x00000001U);
|
|
psu_mask_write(0xFF5E0250, 0x00000F0FU, 0x00000202U);
|
|
|
|
mask_delay(1);
|
|
psu_mask_write(0xFF5E0250, 0x00000F0FU, 0x00000002U);
|
|
|
|
mask_delay(5);
|
|
psu_mask_write(0xFF5E0250, 0x00000F0FU, 0x00000202U);
|
|
|
|
return 1;
|
|
}
|
|
|
|
static unsigned long psu_serdes_init_data(void)
|
|
{
|
|
psu_mask_write(0xFD410000, 0x0000001FU, 0x0000000FU);
|
|
psu_mask_write(0xFD410004, 0x0000001FU, 0x00000008U);
|
|
psu_mask_write(0xFD402860, 0x00000080U, 0x00000080U);
|
|
psu_mask_write(0xFD402864, 0x00000080U, 0x00000080U);
|
|
psu_mask_write(0xFD406094, 0x00000010U, 0x00000010U);
|
|
psu_mask_write(0xFD406368, 0x000000FFU, 0x00000038U);
|
|
psu_mask_write(0xFD40636C, 0x00000007U, 0x00000003U);
|
|
psu_mask_write(0xFD406370, 0x000000FFU, 0x000000F4U);
|
|
psu_mask_write(0xFD406374, 0x000000FFU, 0x00000031U);
|
|
psu_mask_write(0xFD406378, 0x000000FFU, 0x00000002U);
|
|
psu_mask_write(0xFD40637C, 0x00000033U, 0x00000030U);
|
|
psu_mask_write(0xFD40106C, 0x0000000FU, 0x0000000FU);
|
|
psu_mask_write(0xFD4000F4, 0x0000000BU, 0x0000000BU);
|
|
psu_mask_write(0xFD40506C, 0x00000003U, 0x00000003U);
|
|
psu_mask_write(0xFD4040F4, 0x00000003U, 0x00000003U);
|
|
psu_mask_write(0xFD4050CC, 0x00000020U, 0x00000020U);
|
|
psu_mask_write(0xFD401074, 0x00000010U, 0x00000010U);
|
|
psu_mask_write(0xFD405074, 0x00000010U, 0x00000010U);
|
|
psu_mask_write(0xFD409074, 0x00000010U, 0x00000010U);
|
|
psu_mask_write(0xFD40D074, 0x00000010U, 0x00000010U);
|
|
psu_mask_write(0xFD40189C, 0x00000080U, 0x00000080U);
|
|
psu_mask_write(0xFD4018F8, 0x000000FFU, 0x0000007DU);
|
|
psu_mask_write(0xFD4018FC, 0x000000FFU, 0x0000007DU);
|
|
psu_mask_write(0xFD401990, 0x000000FFU, 0x00000000U);
|
|
psu_mask_write(0xFD401924, 0x000000FFU, 0x00000082U);
|
|
psu_mask_write(0xFD401928, 0x000000FFU, 0x00000000U);
|
|
psu_mask_write(0xFD401900, 0x000000FFU, 0x00000064U);
|
|
psu_mask_write(0xFD40192C, 0x000000FFU, 0x00000000U);
|
|
psu_mask_write(0xFD401980, 0x000000FFU, 0x000000FFU);
|
|
psu_mask_write(0xFD401914, 0x000000FFU, 0x000000FFU);
|
|
psu_mask_write(0xFD401918, 0x00000001U, 0x00000001U);
|
|
psu_mask_write(0xFD401940, 0x000000FFU, 0x000000FFU);
|
|
psu_mask_write(0xFD401944, 0x00000001U, 0x00000001U);
|
|
psu_mask_write(0xFD401994, 0x00000007U, 0x00000007U);
|
|
psu_mask_write(0xFD40589C, 0x00000080U, 0x00000080U);
|
|
psu_mask_write(0xFD4058F8, 0x000000FFU, 0x0000001AU);
|
|
psu_mask_write(0xFD4058FC, 0x000000FFU, 0x0000001AU);
|
|
psu_mask_write(0xFD405990, 0x000000FFU, 0x00000010U);
|
|
psu_mask_write(0xFD405924, 0x000000FFU, 0x000000FEU);
|
|
psu_mask_write(0xFD405928, 0x000000FFU, 0x00000000U);
|
|
psu_mask_write(0xFD405900, 0x000000FFU, 0x0000001AU);
|
|
psu_mask_write(0xFD40592C, 0x000000FFU, 0x00000000U);
|
|
psu_mask_write(0xFD405980, 0x000000FFU, 0x000000FFU);
|
|
psu_mask_write(0xFD405914, 0x000000FFU, 0x000000F7U);
|
|
psu_mask_write(0xFD405918, 0x00000001U, 0x00000001U);
|
|
psu_mask_write(0xFD405940, 0x000000FFU, 0x000000F7U);
|
|
psu_mask_write(0xFD405944, 0x00000001U, 0x00000001U);
|
|
psu_mask_write(0xFD405994, 0x00000007U, 0x00000007U);
|
|
psu_mask_write(0xFD409994, 0x00000007U, 0x00000007U);
|
|
psu_mask_write(0xFD40D994, 0x00000007U, 0x00000007U);
|
|
psu_mask_write(0xFD40107C, 0x0000000FU, 0x00000001U);
|
|
psu_mask_write(0xFD40507C, 0x0000000FU, 0x00000001U);
|
|
psu_mask_write(0xFD40907C, 0x0000000FU, 0x00000001U);
|
|
psu_mask_write(0xFD40D07C, 0x0000000FU, 0x00000001U);
|
|
psu_mask_write(0xFD4019A4, 0x000000FFU, 0x000000FFU);
|
|
psu_mask_write(0xFD401038, 0x00000040U, 0x00000040U);
|
|
psu_mask_write(0xFD40102C, 0x00000040U, 0x00000040U);
|
|
psu_mask_write(0xFD4059A4, 0x000000FFU, 0x000000FFU);
|
|
psu_mask_write(0xFD405038, 0x00000040U, 0x00000040U);
|
|
psu_mask_write(0xFD40502C, 0x00000040U, 0x00000040U);
|
|
psu_mask_write(0xFD4099A4, 0x000000FFU, 0x000000FFU);
|
|
psu_mask_write(0xFD409038, 0x00000040U, 0x00000040U);
|
|
psu_mask_write(0xFD40902C, 0x00000040U, 0x00000040U);
|
|
psu_mask_write(0xFD40D9A4, 0x000000FFU, 0x000000FFU);
|
|
psu_mask_write(0xFD40D038, 0x00000040U, 0x00000040U);
|
|
psu_mask_write(0xFD40D02C, 0x00000040U, 0x00000040U);
|
|
psu_mask_write(0xFD4019AC, 0x00000003U, 0x00000000U);
|
|
psu_mask_write(0xFD4059AC, 0x00000003U, 0x00000000U);
|
|
psu_mask_write(0xFD4099AC, 0x00000003U, 0x00000000U);
|
|
psu_mask_write(0xFD40D9AC, 0x00000003U, 0x00000000U);
|
|
psu_mask_write(0xFD401978, 0x00000010U, 0x00000010U);
|
|
psu_mask_write(0xFD405978, 0x00000010U, 0x00000010U);
|
|
psu_mask_write(0xFD409978, 0x00000010U, 0x00000010U);
|
|
psu_mask_write(0xFD40D978, 0x00000010U, 0x00000010U);
|
|
psu_mask_write(0xFD410010, 0x00000077U, 0x00000035U);
|
|
psu_mask_write(0xFD410040, 0x00000003U, 0x00000000U);
|
|
psu_mask_write(0xFD410044, 0x00000003U, 0x00000000U);
|
|
|
|
return 1;
|
|
}
|
|
|
|
static unsigned long psu_resetout_init_data(void)
|
|
{
|
|
psu_mask_write(0xFF5E023C, 0x00000400U, 0x00000000U);
|
|
psu_mask_write(0xFF9D0080, 0x00000001U, 0x00000001U);
|
|
psu_mask_write(0xFF9D007C, 0x00000001U, 0x00000000U);
|
|
psu_mask_write(0xFF5E023C, 0x00000140U, 0x00000000U);
|
|
psu_mask_write(0xFF5E023C, 0x00000800U, 0x00000000U);
|
|
psu_mask_write(0xFF9E0080, 0x00000001U, 0x00000001U);
|
|
psu_mask_write(0xFF9E007C, 0x00000001U, 0x00000001U);
|
|
psu_mask_write(0xFF5E023C, 0x00000280U, 0x00000000U);
|
|
psu_mask_write(0xFF5E0230, 0x00000001U, 0x00000000U);
|
|
psu_mask_write(0xFE20C200, 0x00023FFFU, 0x00022457U);
|
|
psu_mask_write(0xFE20C630, 0x003FFF00U, 0x00000000U);
|
|
psu_mask_write(0xFE20C11C, 0x00000600U, 0x00000600U);
|
|
psu_mask_write(0xFE20C12C, 0x00004000U, 0x00004000U);
|
|
psu_mask_write(0xFE30C200, 0x00023FFFU, 0x00022457U);
|
|
psu_mask_write(0xFE30C630, 0x003FFF00U, 0x00000000U);
|
|
psu_mask_write(0xFE30C12C, 0x00004000U, 0x00004000U);
|
|
psu_mask_write(0xFE30C11C, 0x00000400U, 0x00000400U);
|
|
psu_mask_write(0xFD480064, 0x00000200U, 0x00000200U);
|
|
mask_poll(0xFD4023E4, 0x00000010U);
|
|
mask_poll(0xFD4063E4, 0x00000010U);
|
|
|
|
return 1;
|
|
}
|
|
|
|
static unsigned long psu_resetin_init_data(void)
|
|
{
|
|
psu_mask_write(0xFF5E023C, 0x00000540U, 0x00000540U);
|
|
psu_mask_write(0xFF5E023C, 0x00000A80U, 0x00000A80U);
|
|
psu_mask_write(0xFF5E0230, 0x00000001U, 0x00000001U);
|
|
|
|
return 1;
|
|
}
|
|
|
|
static unsigned long psu_afi_config(void)
|
|
{
|
|
psu_mask_write(0xFD1A0100, 0x00001F80U, 0x00000000U);
|
|
psu_mask_write(0xFF5E023C, 0x00080000U, 0x00000000U);
|
|
psu_mask_write(0xFF419000, 0x00000300U, 0x00000000U);
|
|
|
|
return 1;
|
|
}
|
|
|
|
static void dpll_prog(int ddr_pll_fbdiv, int d_lock_dly, int d_lock_cnt,
|
|
int d_lfhf, int d_cp, int d_res)
|
|
{
|
|
unsigned int pll_ctrl_regval;
|
|
unsigned int pll_status_regval;
|
|
|
|
pll_ctrl_regval = Xil_In32(((0xFD1A0000U) + 0x0000002C));
|
|
pll_ctrl_regval = pll_ctrl_regval & (~0x00010000U);
|
|
pll_ctrl_regval = pll_ctrl_regval | (1 << 16);
|
|
Xil_Out32(((0xFD1A0000U) + 0x0000002C), pll_ctrl_regval);
|
|
|
|
pll_ctrl_regval = Xil_In32(((0xFD1A0000U) + 0x00000030));
|
|
pll_ctrl_regval = pll_ctrl_regval & (~0xFE000000U);
|
|
pll_ctrl_regval = pll_ctrl_regval | (d_lock_dly << 25);
|
|
Xil_Out32(((0xFD1A0000U) + 0x00000030), pll_ctrl_regval);
|
|
|
|
pll_ctrl_regval = Xil_In32(((0xFD1A0000U) + 0x00000030));
|
|
pll_ctrl_regval = pll_ctrl_regval & (~0x007FE000U);
|
|
pll_ctrl_regval = pll_ctrl_regval | (d_lock_cnt << 13);
|
|
Xil_Out32(((0xFD1A0000U) + 0x00000030), pll_ctrl_regval);
|
|
|
|
pll_ctrl_regval = Xil_In32(((0xFD1A0000U) + 0x00000030));
|
|
pll_ctrl_regval = pll_ctrl_regval & (~0x00000C00U);
|
|
pll_ctrl_regval = pll_ctrl_regval | (d_lfhf << 10);
|
|
Xil_Out32(((0xFD1A0000U) + 0x00000030), pll_ctrl_regval);
|
|
|
|
pll_ctrl_regval = Xil_In32(((0xFD1A0000U) + 0x00000030));
|
|
pll_ctrl_regval = pll_ctrl_regval & (~0x000001E0U);
|
|
pll_ctrl_regval = pll_ctrl_regval | (d_cp << 5);
|
|
Xil_Out32(((0xFD1A0000U) + 0x00000030), pll_ctrl_regval);
|
|
|
|
pll_ctrl_regval = Xil_In32(((0xFD1A0000U) + 0x00000030));
|
|
pll_ctrl_regval = pll_ctrl_regval & (~0x0000000FU);
|
|
pll_ctrl_regval = pll_ctrl_regval | (d_res << 0);
|
|
Xil_Out32(((0xFD1A0000U) + 0x00000030), pll_ctrl_regval);
|
|
|
|
pll_ctrl_regval = Xil_In32(((0xFD1A0000U) + 0x0000002C));
|
|
pll_ctrl_regval = pll_ctrl_regval & (~0x00007F00U);
|
|
pll_ctrl_regval = pll_ctrl_regval | (ddr_pll_fbdiv << 8);
|
|
Xil_Out32(((0xFD1A0000U) + 0x0000002C), pll_ctrl_regval);
|
|
|
|
pll_ctrl_regval = Xil_In32(((0xFD1A0000U) + 0x0000002C));
|
|
pll_ctrl_regval = pll_ctrl_regval & (~0x00000008U);
|
|
pll_ctrl_regval = pll_ctrl_regval | (1 << 3);
|
|
Xil_Out32(((0xFD1A0000U) + 0x0000002C), pll_ctrl_regval);
|
|
|
|
pll_ctrl_regval = Xil_In32(((0xFD1A0000U) + 0x0000002C));
|
|
pll_ctrl_regval = pll_ctrl_regval & (~0x00000001U);
|
|
pll_ctrl_regval = pll_ctrl_regval | (1 << 0);
|
|
Xil_Out32(((0xFD1A0000U) + 0x0000002C), pll_ctrl_regval);
|
|
|
|
pll_ctrl_regval = Xil_In32(((0xFD1A0000U) + 0x0000002C));
|
|
pll_ctrl_regval = pll_ctrl_regval & (~0x00000001U);
|
|
pll_ctrl_regval = pll_ctrl_regval | (0 << 0);
|
|
Xil_Out32(((0xFD1A0000U) + 0x0000002C), pll_ctrl_regval);
|
|
|
|
pll_status_regval = 0x00000000;
|
|
while ((pll_status_regval & 0x00000002U) != 0x00000002U)
|
|
pll_status_regval = Xil_In32(((0xFD1A0000U) + 0x00000044));
|
|
|
|
pll_ctrl_regval = Xil_In32(((0xFD1A0000U) + 0x0000002C));
|
|
pll_ctrl_regval = pll_ctrl_regval & (~0x00000008U);
|
|
pll_ctrl_regval = pll_ctrl_regval | (0 << 3);
|
|
Xil_Out32(((0xFD1A0000U) + 0x0000002C), pll_ctrl_regval);
|
|
}
|
|
|
|
static unsigned long psu_ddr_phybringup_data(void)
|
|
{
|
|
unsigned int regval = 0;
|
|
|
|
for (int tp = 0; tp < 20; tp++)
|
|
regval = Xil_In32(0xFD070018);
|
|
int cur_PLLCR0;
|
|
|
|
cur_PLLCR0 = (Xil_In32(0xFD080068U) & 0xFFFFFFFFU) >> 0x00000000U;
|
|
int cur_DX8SL0PLLCR0;
|
|
|
|
cur_DX8SL0PLLCR0 = (Xil_In32(0xFD081404U) & 0xFFFFFFFFU) >> 0x00000000U;
|
|
int cur_DX8SL1PLLCR0;
|
|
|
|
cur_DX8SL1PLLCR0 = (Xil_In32(0xFD081444U) & 0xFFFFFFFFU) >> 0x00000000U;
|
|
int cur_DX8SL2PLLCR0;
|
|
|
|
cur_DX8SL2PLLCR0 = (Xil_In32(0xFD081484U) & 0xFFFFFFFFU) >> 0x00000000U;
|
|
int cur_DX8SL3PLLCR0;
|
|
|
|
cur_DX8SL3PLLCR0 = (Xil_In32(0xFD0814C4U) & 0xFFFFFFFFU) >> 0x00000000U;
|
|
int cur_DX8SL4PLLCR0;
|
|
|
|
cur_DX8SL4PLLCR0 = (Xil_In32(0xFD081504U) & 0xFFFFFFFFU) >> 0x00000000U;
|
|
int cur_DX8SLBPLLCR0;
|
|
|
|
cur_DX8SLBPLLCR0 = (Xil_In32(0xFD0817C4U) & 0xFFFFFFFFU) >> 0x00000000U;
|
|
Xil_Out32(0xFD080068, 0x02120000);
|
|
Xil_Out32(0xFD081404, 0x02120000);
|
|
Xil_Out32(0xFD081444, 0x02120000);
|
|
Xil_Out32(0xFD081484, 0x02120000);
|
|
Xil_Out32(0xFD0814C4, 0x02120000);
|
|
Xil_Out32(0xFD081504, 0x02120000);
|
|
Xil_Out32(0xFD0817C4, 0x02120000);
|
|
int cur_fbdiv;
|
|
|
|
cur_fbdiv = (Xil_In32(0xFD1A002CU) & 0x00007F00U) >> 0x00000008U;
|
|
dpll_prog(48, 63, 625, 3, 3, 2);
|
|
for (int tp = 0; tp < 20; tp++)
|
|
regval = Xil_In32(0xFD070018);
|
|
unsigned int pll_retry = 10;
|
|
unsigned int pll_locked = 0;
|
|
|
|
while ((pll_retry > 0) && (!pll_locked)) {
|
|
Xil_Out32(0xFD080004, 0x00040010);
|
|
Xil_Out32(0xFD080004, 0x00040011);
|
|
|
|
while ((Xil_In32(0xFD080030) & 0x1) != 1)
|
|
;
|
|
pll_locked = (Xil_In32(0xFD080030) & 0x80000000)
|
|
>> 31;
|
|
pll_locked &= (Xil_In32(0xFD0807E0) & 0x10000)
|
|
>> 16;
|
|
pll_locked &= (Xil_In32(0xFD0809E0) & 0x10000)
|
|
>> 16;
|
|
pll_retry--;
|
|
}
|
|
Xil_Out32(0xFD0800C4, Xil_In32(0xFD0800C4) | (pll_retry << 16));
|
|
if (!pll_locked)
|
|
return (0);
|
|
|
|
Xil_Out32(0xFD080004U, 0x00040063U);
|
|
|
|
while ((Xil_In32(0xFD080030U) & 0x0000000FU) != 0x0000000FU)
|
|
;
|
|
prog_reg(0xFD080004U, 0x00000001U, 0x00000000U, 0x00000001U);
|
|
|
|
while ((Xil_In32(0xFD080030U) & 0x000000FFU) != 0x0000001FU)
|
|
;
|
|
Xil_Out32(0xFD070010U, 0x80000018U);
|
|
Xil_Out32(0xFD0701B0U, 0x00000005U);
|
|
regval = Xil_In32(0xFD070018);
|
|
while ((regval & 0x1) != 0x0)
|
|
regval = Xil_In32(0xFD070018);
|
|
|
|
regval = Xil_In32(0xFD070018);
|
|
regval = Xil_In32(0xFD070018);
|
|
regval = Xil_In32(0xFD070018);
|
|
regval = Xil_In32(0xFD070018);
|
|
regval = Xil_In32(0xFD070018);
|
|
regval = Xil_In32(0xFD070018);
|
|
regval = Xil_In32(0xFD070018);
|
|
regval = Xil_In32(0xFD070018);
|
|
regval = Xil_In32(0xFD070018);
|
|
regval = Xil_In32(0xFD070018);
|
|
Xil_Out32(0xFD070014U, 0x00000331U);
|
|
Xil_Out32(0xFD070010U, 0x80000018U);
|
|
regval = Xil_In32(0xFD070018);
|
|
while ((regval & 0x1) != 0x0)
|
|
regval = Xil_In32(0xFD070018);
|
|
|
|
regval = Xil_In32(0xFD070018);
|
|
regval = Xil_In32(0xFD070018);
|
|
regval = Xil_In32(0xFD070018);
|
|
regval = Xil_In32(0xFD070018);
|
|
regval = Xil_In32(0xFD070018);
|
|
regval = Xil_In32(0xFD070018);
|
|
regval = Xil_In32(0xFD070018);
|
|
regval = Xil_In32(0xFD070018);
|
|
regval = Xil_In32(0xFD070018);
|
|
regval = Xil_In32(0xFD070018);
|
|
Xil_Out32(0xFD070014U, 0x00000B36U);
|
|
Xil_Out32(0xFD070010U, 0x80000018U);
|
|
regval = Xil_In32(0xFD070018);
|
|
while ((regval & 0x1) != 0x0)
|
|
regval = Xil_In32(0xFD070018);
|
|
|
|
regval = Xil_In32(0xFD070018);
|
|
regval = Xil_In32(0xFD070018);
|
|
regval = Xil_In32(0xFD070018);
|
|
regval = Xil_In32(0xFD070018);
|
|
regval = Xil_In32(0xFD070018);
|
|
regval = Xil_In32(0xFD070018);
|
|
regval = Xil_In32(0xFD070018);
|
|
regval = Xil_In32(0xFD070018);
|
|
regval = Xil_In32(0xFD070018);
|
|
regval = Xil_In32(0xFD070018);
|
|
Xil_Out32(0xFD070014U, 0x00000C21U);
|
|
Xil_Out32(0xFD070010U, 0x80000018U);
|
|
regval = Xil_In32(0xFD070018);
|
|
while ((regval & 0x1) != 0x0)
|
|
regval = Xil_In32(0xFD070018);
|
|
|
|
regval = Xil_In32(0xFD070018);
|
|
regval = Xil_In32(0xFD070018);
|
|
regval = Xil_In32(0xFD070018);
|
|
regval = Xil_In32(0xFD070018);
|
|
regval = Xil_In32(0xFD070018);
|
|
regval = Xil_In32(0xFD070018);
|
|
regval = Xil_In32(0xFD070018);
|
|
regval = Xil_In32(0xFD070018);
|
|
regval = Xil_In32(0xFD070018);
|
|
regval = Xil_In32(0xFD070018);
|
|
Xil_Out32(0xFD070014U, 0x00000E19U);
|
|
Xil_Out32(0xFD070010U, 0x80000018U);
|
|
regval = Xil_In32(0xFD070018);
|
|
while ((regval & 0x1) != 0x0)
|
|
regval = Xil_In32(0xFD070018);
|
|
|
|
regval = Xil_In32(0xFD070018);
|
|
regval = Xil_In32(0xFD070018);
|
|
regval = Xil_In32(0xFD070018);
|
|
regval = Xil_In32(0xFD070018);
|
|
regval = Xil_In32(0xFD070018);
|
|
regval = Xil_In32(0xFD070018);
|
|
regval = Xil_In32(0xFD070018);
|
|
regval = Xil_In32(0xFD070018);
|
|
regval = Xil_In32(0xFD070018);
|
|
regval = Xil_In32(0xFD070018);
|
|
Xil_Out32(0xFD070014U, 0x00001616U);
|
|
Xil_Out32(0xFD070010U, 0x80000018U);
|
|
Xil_Out32(0xFD070010U, 0x80000010U);
|
|
Xil_Out32(0xFD0701B0U, 0x00000005U);
|
|
Xil_Out32(0xFD070320U, 0x00000001U);
|
|
while ((Xil_In32(0xFD070004U) & 0x0000000FU) != 0x00000001U)
|
|
;
|
|
prog_reg(0xFD0701B0U, 0x00000001U, 0x00000000U, 0x00000000U);
|
|
prog_reg(0xFD080014U, 0x00000040U, 0x00000006U, 0x00000001U);
|
|
prog_reg(0xFD080028U, 0x00000001U, 0x00000000U, 0x00000001U);
|
|
prog_reg(0xFD080004U, 0x20000000U, 0x0000001DU, 0x00000001U);
|
|
prog_reg(0xFD08016CU, 0x00000004U, 0x00000002U, 0x00000001U);
|
|
prog_reg(0xFD080168U, 0x000000F0U, 0x00000004U, 0x00000007U);
|
|
prog_reg(0xFD080168U, 0x00000F00U, 0x00000008U, 0x00000002U);
|
|
prog_reg(0xFD080168U, 0x0000000FU, 0x00000000U, 0x00000001U);
|
|
for (int tp = 0; tp < 20; tp++)
|
|
regval = Xil_In32(0xFD070018);
|
|
|
|
Xil_Out32(0xFD080068, cur_PLLCR0);
|
|
Xil_Out32(0xFD081404, cur_DX8SL0PLLCR0);
|
|
Xil_Out32(0xFD081444, cur_DX8SL1PLLCR0);
|
|
Xil_Out32(0xFD081484, cur_DX8SL2PLLCR0);
|
|
Xil_Out32(0xFD0814C4, cur_DX8SL3PLLCR0);
|
|
Xil_Out32(0xFD081504, cur_DX8SL4PLLCR0);
|
|
Xil_Out32(0xFD0817C4, cur_DX8SLBPLLCR0);
|
|
for (int tp = 0; tp < 20; tp++)
|
|
regval = Xil_In32(0xFD070018);
|
|
|
|
dpll_prog(cur_fbdiv, 63, 625, 3, 3, 2);
|
|
for (int tp = 0; tp < 2000; tp++)
|
|
regval = Xil_In32(0xFD070018);
|
|
|
|
prog_reg(0xFD080004U, 0x20000000U, 0x0000001DU, 0x00000000U);
|
|
prog_reg(0xFD080004U, 0x00040000U, 0x00000012U, 0x00000001U);
|
|
prog_reg(0xFD080004U, 0x00000040U, 0x00000006U, 0x00000001U);
|
|
prog_reg(0xFD080004U, 0x00000020U, 0x00000005U, 0x00000001U);
|
|
prog_reg(0xFD080004U, 0x00000010U, 0x00000004U, 0x00000001U);
|
|
prog_reg(0xFD080004U, 0x00000001U, 0x00000000U, 0x00000001U);
|
|
|
|
while ((Xil_In32(0xFD080030U) & 0x0000000FU) != 0x0000000FU)
|
|
;
|
|
prog_reg(0xFD080004U, 0x00000001U, 0x00000000U, 0x00000001U);
|
|
|
|
while ((Xil_In32(0xFD080030U) & 0x000000FFU) != 0x0000001FU)
|
|
;
|
|
for (int tp = 0; tp < 2000; tp++)
|
|
regval = Xil_In32(0xFD070018);
|
|
|
|
prog_reg(0xFD080028U, 0x00000001U, 0x00000000U, 0x00000000U);
|
|
prog_reg(0xFD08016CU, 0x00000004U, 0x00000002U, 0x00000001U);
|
|
prog_reg(0xFD080168U, 0x000000F0U, 0x00000004U, 0x00000007U);
|
|
prog_reg(0xFD080168U, 0x00000F00U, 0x00000008U, 0x00000003U);
|
|
prog_reg(0xFD080168U, 0x0000000FU, 0x00000000U, 0x00000001U);
|
|
for (int tp = 0; tp < 2000; tp++)
|
|
regval = Xil_In32(0xFD070018);
|
|
|
|
prog_reg(0xFD080014U, 0x00000040U, 0x00000006U, 0x00000001U);
|
|
Xil_Out32(0xFD080004, 0x0014FE01);
|
|
|
|
regval = Xil_In32(0xFD080030);
|
|
while (regval != 0x8000007E)
|
|
regval = Xil_In32(0xFD080030);
|
|
|
|
Xil_Out32(0xFD080200U, 0x000091C7U);
|
|
regval = Xil_In32(0xFD080030);
|
|
while (regval != 0x80008FFF)
|
|
regval = Xil_In32(0xFD080030);
|
|
|
|
Xil_Out32(0xFD080200U, 0x800091C7U);
|
|
regval = ((Xil_In32(0xFD080030) & 0x1FFF0000) >> 18);
|
|
if (regval != 0)
|
|
return (0);
|
|
|
|
Xil_Out32(0xFD080200U, 0x800091C7U);
|
|
int cur_R006_tREFPRD;
|
|
|
|
cur_R006_tREFPRD = (Xil_In32(0xFD080018U) & 0x0003FFFFU) >> 0x00000000U;
|
|
prog_reg(0xFD080018, 0x3FFFF, 0x0, cur_R006_tREFPRD);
|
|
|
|
prog_reg(0xFD08001CU, 0x00000018U, 0x00000003U, 0x00000003U);
|
|
prog_reg(0xFD08142CU, 0x00000030U, 0x00000004U, 0x00000003U);
|
|
prog_reg(0xFD08146CU, 0x00000030U, 0x00000004U, 0x00000003U);
|
|
prog_reg(0xFD0814ACU, 0x00000030U, 0x00000004U, 0x00000003U);
|
|
prog_reg(0xFD0814ECU, 0x00000030U, 0x00000004U, 0x00000003U);
|
|
prog_reg(0xFD08152CU, 0x00000030U, 0x00000004U, 0x00000003U);
|
|
|
|
Xil_Out32(0xFD080004, 0x00060001);
|
|
regval = Xil_In32(0xFD080030);
|
|
while ((regval & 0x80004001) != 0x80004001)
|
|
regval = Xil_In32(0xFD080030);
|
|
|
|
prog_reg(0xFD08001CU, 0x00000018U, 0x00000003U, 0x00000000U);
|
|
prog_reg(0xFD08142CU, 0x00000030U, 0x00000004U, 0x00000000U);
|
|
prog_reg(0xFD08146CU, 0x00000030U, 0x00000004U, 0x00000000U);
|
|
prog_reg(0xFD0814ACU, 0x00000030U, 0x00000004U, 0x00000000U);
|
|
prog_reg(0xFD0814ECU, 0x00000030U, 0x00000004U, 0x00000000U);
|
|
prog_reg(0xFD08152CU, 0x00000030U, 0x00000004U, 0x00000000U);
|
|
|
|
Xil_Out32(0xFD080200U, 0x800091C7U);
|
|
prog_reg(0xFD080018, 0x3FFFF, 0x0, cur_R006_tREFPRD);
|
|
|
|
Xil_Out32(0xFD080004, 0x0000C001);
|
|
regval = Xil_In32(0xFD080030);
|
|
while ((regval & 0x80000C01) != 0x80000C01)
|
|
regval = Xil_In32(0xFD080030);
|
|
|
|
prog_reg(0xFD070320U, 0x00000001U, 0x00000000U, 0x00000000U);
|
|
prog_reg(0xFD0701B0U, 0x00000001U, 0x00000000U, 0x00000001U);
|
|
prog_reg(0xFD0701A0U, 0x80000000U, 0x0000001FU, 0x00000000U);
|
|
prog_reg(0xFD070320U, 0x00000001U, 0x00000000U, 0x00000001U);
|
|
Xil_Out32(0xFD070180U, 0x02160010U);
|
|
Xil_Out32(0xFD070060U, 0x00000000U);
|
|
prog_reg(0xFD080014U, 0x00000040U, 0x00000006U, 0x00000000U);
|
|
for (int tp = 0; tp < 4000; tp++)
|
|
regval = Xil_In32(0xFD070018);
|
|
|
|
prog_reg(0xFD080090U, 0x00000FC0U, 0x00000006U, 0x00000007U);
|
|
prog_reg(0xFD080090U, 0x00000004U, 0x00000002U, 0x00000001U);
|
|
prog_reg(0xFD08070CU, 0x02000000U, 0x00000019U, 0x00000000U);
|
|
prog_reg(0xFD08080CU, 0x02000000U, 0x00000019U, 0x00000000U);
|
|
prog_reg(0xFD08090CU, 0x02000000U, 0x00000019U, 0x00000000U);
|
|
prog_reg(0xFD080A0CU, 0x02000000U, 0x00000019U, 0x00000000U);
|
|
prog_reg(0xFD080F0CU, 0x02000000U, 0x00000019U, 0x00000000U);
|
|
prog_reg(0xFD080200U, 0x00000010U, 0x00000004U, 0x00000001U);
|
|
prog_reg(0xFD080250U, 0x00000002U, 0x00000001U, 0x00000000U);
|
|
prog_reg(0xFD080250U, 0x0000000CU, 0x00000002U, 0x00000001U);
|
|
prog_reg(0xFD080250U, 0x000000F0U, 0x00000004U, 0x00000000U);
|
|
prog_reg(0xFD080250U, 0x00300000U, 0x00000014U, 0x00000001U);
|
|
prog_reg(0xFD080250U, 0xF0000000U, 0x0000001CU, 0x00000002U);
|
|
prog_reg(0xFD08070CU, 0x08000000U, 0x0000001BU, 0x00000000U);
|
|
prog_reg(0xFD08080CU, 0x08000000U, 0x0000001BU, 0x00000000U);
|
|
prog_reg(0xFD08090CU, 0x08000000U, 0x0000001BU, 0x00000000U);
|
|
prog_reg(0xFD080A0CU, 0x08000000U, 0x0000001BU, 0x00000000U);
|
|
prog_reg(0xFD080B0CU, 0x08000000U, 0x0000001BU, 0x00000000U);
|
|
prog_reg(0xFD080C0CU, 0x08000000U, 0x0000001BU, 0x00000000U);
|
|
prog_reg(0xFD080D0CU, 0x08000000U, 0x0000001BU, 0x00000000U);
|
|
prog_reg(0xFD080E0CU, 0x08000000U, 0x0000001BU, 0x00000000U);
|
|
prog_reg(0xFD080F0CU, 0x08000000U, 0x0000001BU, 0x00000000U);
|
|
prog_reg(0xFD080254U, 0x000000FFU, 0x00000000U, 0x00000001U);
|
|
prog_reg(0xFD080254U, 0x000F0000U, 0x00000010U, 0x0000000AU);
|
|
prog_reg(0xFD080250U, 0x00000001U, 0x00000000U, 0x00000001U);
|
|
|
|
return 1;
|
|
}
|
|
|
|
static int serdes_enb_coarse_saturation(void)
|
|
{
|
|
Xil_Out32(0xFD402094, 0x00000010);
|
|
Xil_Out32(0xFD406094, 0x00000010);
|
|
Xil_Out32(0xFD40A094, 0x00000010);
|
|
Xil_Out32(0xFD40E094, 0x00000010);
|
|
return 1;
|
|
}
|
|
|
|
static int serdes_fixcal_code(void)
|
|
{
|
|
int maskstatus = 1;
|
|
unsigned int rdata = 0;
|
|
unsigned int match_pmos_code[23];
|
|
unsigned int match_nmos_code[23];
|
|
unsigned int match_ical_code[7];
|
|
unsigned int match_rcal_code[7];
|
|
unsigned int p_code = 0;
|
|
unsigned int n_code = 0;
|
|
unsigned int i_code = 0;
|
|
unsigned int r_code = 0;
|
|
unsigned int repeat_count = 0;
|
|
unsigned int L3_TM_CALIB_DIG20 = 0;
|
|
unsigned int L3_TM_CALIB_DIG19 = 0;
|
|
unsigned int L3_TM_CALIB_DIG18 = 0;
|
|
unsigned int L3_TM_CALIB_DIG16 = 0;
|
|
unsigned int L3_TM_CALIB_DIG15 = 0;
|
|
unsigned int L3_TM_CALIB_DIG14 = 0;
|
|
int i = 0, count = 0;
|
|
|
|
rdata = Xil_In32(0xFD40289C);
|
|
rdata = rdata & ~0x03;
|
|
rdata = rdata | 0x1;
|
|
Xil_Out32(0xFD40289C, rdata);
|
|
|
|
do {
|
|
if (count == 1100000)
|
|
break;
|
|
rdata = Xil_In32(0xFD402B1C);
|
|
count++;
|
|
} while ((rdata & 0x0000000E) != 0x0000000E);
|
|
|
|
for (i = 0; i < 23; i++) {
|
|
match_pmos_code[i] = 0;
|
|
match_nmos_code[i] = 0;
|
|
}
|
|
for (i = 0; i < 7; i++) {
|
|
match_ical_code[i] = 0;
|
|
match_rcal_code[i] = 0;
|
|
}
|
|
|
|
do {
|
|
Xil_Out32(0xFD410010, 0x00000000);
|
|
Xil_Out32(0xFD410014, 0x00000000);
|
|
|
|
Xil_Out32(0xFD410010, 0x00000001);
|
|
Xil_Out32(0xFD410014, 0x00000000);
|
|
|
|
maskstatus = mask_poll(0xFD40EF14, 0x2);
|
|
if (maskstatus == 0) {
|
|
xil_printf("#SERDES initialization timed out\n\r");
|
|
return maskstatus;
|
|
}
|
|
|
|
p_code = mask_read(0xFD40EF18, 0xFFFFFFFF);
|
|
n_code = mask_read(0xFD40EF1C, 0xFFFFFFFF);
|
|
;
|
|
i_code = mask_read(0xFD40EF24, 0xFFFFFFFF);
|
|
r_code = mask_read(0xFD40EF28, 0xFFFFFFFF);
|
|
;
|
|
|
|
if (p_code >= 0x26 && p_code <= 0x3C)
|
|
match_pmos_code[p_code - 0x26] += 1;
|
|
|
|
if (n_code >= 0x26 && n_code <= 0x3C)
|
|
match_nmos_code[n_code - 0x26] += 1;
|
|
|
|
if (i_code >= 0xC && i_code <= 0x12)
|
|
match_ical_code[i_code - 0xC] += 1;
|
|
|
|
if (r_code >= 0x6 && r_code <= 0xC)
|
|
match_rcal_code[r_code - 0x6] += 1;
|
|
|
|
} while (repeat_count++ < 10);
|
|
|
|
for (i = 0; i < 23; i++) {
|
|
if (match_pmos_code[i] >= match_pmos_code[0]) {
|
|
match_pmos_code[0] = match_pmos_code[i];
|
|
p_code = 0x26 + i;
|
|
}
|
|
if (match_nmos_code[i] >= match_nmos_code[0]) {
|
|
match_nmos_code[0] = match_nmos_code[i];
|
|
n_code = 0x26 + i;
|
|
}
|
|
}
|
|
|
|
for (i = 0; i < 7; i++) {
|
|
if (match_ical_code[i] >= match_ical_code[0]) {
|
|
match_ical_code[0] = match_ical_code[i];
|
|
i_code = 0xC + i;
|
|
}
|
|
if (match_rcal_code[i] >= match_rcal_code[0]) {
|
|
match_rcal_code[0] = match_rcal_code[i];
|
|
r_code = 0x6 + i;
|
|
}
|
|
}
|
|
|
|
L3_TM_CALIB_DIG20 = mask_read(0xFD40EC50, 0xFFFFFFF0);
|
|
L3_TM_CALIB_DIG20 = L3_TM_CALIB_DIG20 | 0x8 | ((p_code >> 2) & 0x7);
|
|
|
|
L3_TM_CALIB_DIG19 = mask_read(0xFD40EC4C, 0xFFFFFF18);
|
|
L3_TM_CALIB_DIG19 = L3_TM_CALIB_DIG19 | ((p_code & 0x3) << 6)
|
|
| 0x20 | 0x4 | ((n_code >> 3) & 0x3);
|
|
|
|
L3_TM_CALIB_DIG18 = mask_read(0xFD40EC48, 0xFFFFFF0F);
|
|
L3_TM_CALIB_DIG18 = L3_TM_CALIB_DIG18 | ((n_code & 0x7) << 5) | 0x10;
|
|
|
|
L3_TM_CALIB_DIG16 = mask_read(0xFD40EC40, 0xFFFFFFF8);
|
|
L3_TM_CALIB_DIG16 = L3_TM_CALIB_DIG16 | ((r_code >> 1) & 0x7);
|
|
|
|
L3_TM_CALIB_DIG15 = mask_read(0xFD40EC3C, 0xFFFFFF30);
|
|
L3_TM_CALIB_DIG15 = L3_TM_CALIB_DIG15 | ((r_code & 0x1) << 7)
|
|
| 0x40 | 0x8 | ((i_code >> 1) & 0x7);
|
|
|
|
L3_TM_CALIB_DIG14 = mask_read(0xFD40EC38, 0xFFFFFF3F);
|
|
L3_TM_CALIB_DIG14 = L3_TM_CALIB_DIG14 | ((i_code & 0x1) << 7) | 0x40;
|
|
|
|
Xil_Out32(0xFD40EC50, L3_TM_CALIB_DIG20);
|
|
Xil_Out32(0xFD40EC4C, L3_TM_CALIB_DIG19);
|
|
Xil_Out32(0xFD40EC48, L3_TM_CALIB_DIG18);
|
|
Xil_Out32(0xFD40EC40, L3_TM_CALIB_DIG16);
|
|
Xil_Out32(0xFD40EC3C, L3_TM_CALIB_DIG15);
|
|
Xil_Out32(0xFD40EC38, L3_TM_CALIB_DIG14);
|
|
return maskstatus;
|
|
}
|
|
|
|
static int init_serdes(void)
|
|
{
|
|
int status = 1;
|
|
|
|
status &= psu_resetin_init_data();
|
|
|
|
status &= serdes_fixcal_code();
|
|
status &= serdes_enb_coarse_saturation();
|
|
|
|
status &= psu_serdes_init_data();
|
|
status &= psu_resetout_init_data();
|
|
|
|
return status;
|
|
}
|
|
|
|
static void init_peripheral(void)
|
|
{
|
|
psu_mask_write(0xFD5F0018, 0x8000001FU, 0x8000001FU);
|
|
}
|
|
|
|
int psu_init(void)
|
|
{
|
|
int status = 1;
|
|
|
|
status &= psu_mio_init_data();
|
|
status &= psu_peripherals_pre_init_data();
|
|
status &= psu_pll_init_data();
|
|
status &= psu_clock_init_data();
|
|
status &= psu_ddr_init_data();
|
|
status &= psu_ddr_phybringup_data();
|
|
status &= psu_peripherals_init_data();
|
|
status &= init_serdes();
|
|
init_peripheral();
|
|
|
|
status &= psu_afi_config();
|
|
psu_ddr_qos_init_data();
|
|
|
|
if (status == 0)
|
|
return 1;
|
|
return 0;
|
|
}
|