rockbox/firmware/export/s5l8700.h
Thomas Martitz 0dd0e4e072 Correct svn:keywords and svn:eol-style on a few more files.
git-svn-id: svn://svn.rockbox.org/rockbox/trunk@21798 a1c6a512-1295-4272-9138-f99709370657
2009-07-12 09:43:44 +00:00

569 lines
48 KiB
C
Raw Blame History

This file contains ambiguous Unicode characters

This file contains Unicode characters that might be confused with other characters. If you think that this is intentional, you can safely ignore this warning. Use the Escape button to reveal them.

/***************************************************************************
* __________ __ ___.
* Open \______ \ ____ ____ | | _\_ |__ _______ ___
* Source | _// _ \_/ ___\| |/ /| __ \ / _ \ \/ /
* Jukebox | | ( <_> ) \___| < | \_\ ( <_> > < <
* Firmware |____|_ /\____/ \___ >__|_ \|___ /\____/__/\_ \
* \/ \/ \/ \/ \/
* $Id$
*
* Copyright (C) 2008 by Marcoen Hirschberg, Bart van Adrichem
*
* This program is free software; you can redistribute it and/or
* modify it under the terms of the GNU General Public License
* as published by the Free Software Foundation; either version 2
* of the License, or (at your option) any later version.
*
* This software is distributed on an "AS IS" basis, WITHOUT WARRANTY OF ANY
* KIND, either express or implied.
*
****************************************************************************/
#define REG8_PTR_T volatile uint8_t *
#define REG16_PTR_T volatile uint16_t *
#define REG32_PTR_T volatile uint32_t *
/* 04. CALMADM2E */
/* Following registers are mapped on IO Area in data memory area of Calm. */
#define CONFIG0 (*(REG16_PTR_T)(0x3F000000)) /* configuration/control register 0 */
#define CONFIG1 (*(REG16_PTR_T)(0x3F000002)) /* configuration/control register 1*/
#define COMMUN (*(REG16_PTR_T)(0x3F000004)) /* Communication Control Register */
#define DDATA0 (*(REG16_PTR_T)(0x3F000006)) /* Communication data from host to ADM */
#define DDATA1 (*(REG16_PTR_T)(0x3F000008)) /* Communication data from host to ADM */
#define DDATA2 (*(REG16_PTR_T)(0x3F00000A)) /* Communication data from host to ADM */
#define DDATA3 (*(REG16_PTR_T)(0x3F00000C)) /* Communication data from host to ADM */
#define DDATA4 (*(REG16_PTR_T)(0x3F00000E)) /* Communication data from host to ADM */
#define DDATA5 (*(REG16_PTR_T)(0x3F000010)) /* Communication data from host to ADM */
#define DDATA6 (*(REG16_PTR_T)(0x3F000012)) /* Communication data from host to ADM */
#define DDATA7 (*(REG16_PTR_T)(0x3F000014)) /* Communication data from host to ADM */
#define UDATA0 (*(REG16_PTR_T)(0x3F000016)) /* Communication data from ADM to host */
#define UDATA1 (*(REG16_PTR_T)(0x3F000018)) /* Communication data from ADM to host */
#define UDATA2 (*(REG16_PTR_T)(0x3F00001A)) /* Communication data from ADM to host */
#define UDATA3 (*(REG16_PTR_T)(0x3F00001C)) /* Communication data from ADM to host */
#define UDATA4 (*(REG16_PTR_T)(0x3F00001E)) /* Communication data from ADM to host */
#define UDATA5 (*(REG16_PTR_T)(0x3F000020)) /* Communication data from ADM to host */
#define UDATA6 (*(REG16_PTR_T)(0x3F000022)) /* Communication data from ADM to host */
#define UDATA7 (*(REG16_PTR_T)(0x3F000024)) /* Communication data from ADM to host */
#define IBASE_H (*(REG16_PTR_T)(0x3F000026)) /* Higher half of start address for ADM instruction area */
#define IBASE_L (*(REG16_PTR_T)(0x3F000028)) /* Lower half of start address for ADM instruction area */
#define DBASE_H (*(REG16_PTR_T)(0x3F00002A)) /* Higher half of start address for CalmRISC data area */
#define DBASE_L (*(REG16_PTR_T)(0x3F00002C)) /* Lower half of start address for CalmRISC data area */
#define XBASE_H (*(REG16_PTR_T)(0x3F00002E)) /* Higher half of start address for Mac X area */
#define XBASE_L (*(REG16_PTR_T)(0x3F000030)) /* Lower half of start address for Mac X area */
#define YBASE_H (*(REG16_PTR_T)(0x3F000032)) /* Higher half of start address for Mac Y area */
#define YBASE_L (*(REG16_PTR_T)(0x3F000034)) /* Lower half of start address for Mac Y area */
#define S0BASE_H (*(REG16_PTR_T)(0x3F000036)) /* Higher half of start address for sequential buffer 0 area */
#define S0BASE_L (*(REG16_PTR_T)(0x3F000038)) /* Lower half of start address for sequential buffer 0 area */
#define S1BASE_H (*(REG16_PTR_T)(0x3F00003A)) /* Higher half of start address for sequential buffer 1 area */
#define S1BASE_L (*(REG16_PTR_T)(0x3F00003C)) /* Lower half of start address for sequential buffer 1 area */
#define CACHECON (*(REG16_PTR_T)(0x3F00003E)) /* Cache Control Register */
#define CACHESTAT (*(REG16_PTR_T)(0x3F000040)) /* Cache status register */
#define SBFCON (*(REG16_PTR_T)(0x3F000042)) /* Sequential Buffer Control Register */
#define SBFSTAT (*(REG16_PTR_T)(0x3F000044)) /* Sequential Buffer Status Register */
#define SBL0OFF_H (*(REG16_PTR_T)(0x3F000046)) /* Higher bits of Offset register of sequential block 0 area */
#define SBL0OFF_L (*(REG16_PTR_T)(0x3F000048)) /* Lower bits of Offset register of sequential block 0 area */
#define SBL1OFF_H (*(REG16_PTR_T)(0x3F00004A)) /* Higher bits of Offset register of sequential block 1 area */
#define SBL1OFF_L (*(REG16_PTR_T)(0x3F00004C)) /* Lower bits of Offset register of sequential block 1 area */
#define SBL0BEGIN_H (*(REG16_PTR_T)(0x3F00004E)) /* Higher bits of Begin Offset of sequential block 0 area in ring mode */
#define SBL0BEGIN_L (*(REG16_PTR_T)(0x3F000050)) /* Lower bits of Begin Offset of sequential block 0 area in ring mode */
#define SBL1BEGIN_H (*(REG16_PTR_T)(0x3F000052)) /* Higher bits of Begin Offset of sequential block 1 area in ring mode */
#define SBL1BEGIN_L (*(REG16_PTR_T)(0x3F000054)) /* Lower bits of Begin Offset of sequential block 1 area in ring mode */
#define SBL0END_H (*(REG16_PTR_T)(0x3F000056)) /* Lower bits of End Offset of sequential block 0 area in ring mode */
#define SBL0END_L (*(REG16_PTR_T)(0x3F000058)) /* Higher bits of End Offset of sequential block 0 area in ring mode */
#define SBL1END_H (*(REG16_PTR_T)(0x3F00005A)) /* Lower bits of End Offset of sequential block 1 area in ring mode */
#define SBL1END_L (*(REG16_PTR_T)(0x3F00005C)) /* Higher bits of End Offset of sequential block 1 area in ring mode */
/* Following registers are components of SFRS of the target system */
#define ADM_CONFIG (*(REG32_PTR_T)(0x39000000)) /* Configuration/Control Register */
#define ADM_COMMUN (*(REG32_PTR_T)(0x39000004)) /* Communication Control Register */
#define ADM_DDATA0 (*(REG32_PTR_T)(0x39000010)) /* Communication data from host to ADM */
#define ADM_DDATA1 (*(REG32_PTR_T)(0x39000014)) /* Communication data from host to ADM */
#define ADM_DDATA2 (*(REG32_PTR_T)(0x39000018)) /* Communication data from host to ADM */
#define ADM_DDATA3 (*(REG32_PTR_T)(0x3900001C)) /* Communication data from host to ADM */
#define ADM_DDATA4 (*(REG32_PTR_T)(0x39000020)) /* Communication data from host to ADM */
#define ADM_DDATA5 (*(REG32_PTR_T)(0x39000024)) /* Communication data from host to ADM */
#define ADM_DDATA6 (*(REG32_PTR_T)(0x39000028)) /* Communication data from host to ADM */
#define ADM_DDATA7 (*(REG32_PTR_T)(0x3900002C)) /* Communication data from host to ADM */
#define ADM_UDATA0 (*(REG32_PTR_T)(0x39000030)) /* Communication data from ADM to host */
#define ADM_UDATA1 (*(REG32_PTR_T)(0x39000034)) /* Communication data from ADM to host */
#define ADM_UDATA2 (*(REG32_PTR_T)(0x39000038)) /* Communication data from ADM to host */
#define ADM_UDATA3 (*(REG32_PTR_T)(0x3900003C)) /* Communication data from ADM to host */
#define ADM_UDATA4 (*(REG32_PTR_T)(0x39000040)) /* Communication data from ADM to host */
#define ADM_UDATA5 (*(REG32_PTR_T)(0x39000044)) /* Communication data from ADM to host */
#define ADM_UDATA6 (*(REG32_PTR_T)(0x39000048)) /* Communication data from ADM to host */
#define ADM_UDATA7 (*(REG32_PTR_T)(0x3900004C)) /* Communication data from ADM to host */
#define ADM_IBASE (*(REG32_PTR_T)(0x39000050)) /* Start Address for ADM Instruction Area */
#define ADM_DBASE (*(REG32_PTR_T)(0x39000054)) /* Start Address for CalmRISC Data Area */
#define ADM_XBASE (*(REG32_PTR_T)(0x39000058)) /* Start Address for Mac X Area */
#define ADM_YBASE (*(REG32_PTR_T)(0x3900005C)) /* Start Address for Mac Y Area */
#define ADM_S0BASE (*(REG32_PTR_T)(0x39000060)) /* Start Address for Sequential Block 0 Area */
#define ADM_S1BASE (*(REG32_PTR_T)(0x39000064)) /* Start Address for Sequential Block 1 Area */
/* 05. CLOCK & POWER MANAGEMENT */
#define CLKCON (*(REG32_PTR_T)(0x3C500000)) /* Clock control Register */
#define PLL0PMS (*(REG32_PTR_T)(0x3C500004)) /* PLL PMS value Register */
#define PLL1PMS (*(REG32_PTR_T)(0x3C500008)) /* PLL PMS value Register */
#define PLL0LCNT (*(REG32_PTR_T)(0x3C500014)) /* PLL0 lock count register */
#define PLL1LCNT (*(REG32_PTR_T)(0x3C500018)) /* PLL1 lock count register */
#define PLLLOCK (*(REG32_PTR_T)(0x3C500020)) /* PLL lock status register */
#define PLLCON (*(REG32_PTR_T)(0x3C500024)) /* PLL control register */
#define PWRCON (*(REG32_PTR_T)(0x3C500028)) /* Clock power control register */
#define PWRMODE (*(REG32_PTR_T)(0x3C50002C)) /* Power mode control register */
#define SWRCON (*(REG32_PTR_T)(0x3C500030)) /* Software reset control register */
#define RSTSR (*(REG32_PTR_T)(0x3C500034)) /* Reset status register */
#define DSPCLKMD (*(REG32_PTR_T)(0x3C500038)) /* DSP clock mode register */
#define CLKCON2 (*(REG32_PTR_T)(0x3C50003C)) /* clock control register 2 */
/* 06. INTERRUPT CONTROLLER UNIT */
#define SRCPND (*(REG32_PTR_T)(0x39C00000)) /* Indicates the interrupt request status. */
#define INTMOD (*(REG32_PTR_T)(0x39C00004)) /* Interrupt mode register. */
#define INTMSK (*(REG32_PTR_T)(0x39C00008)) /* Determines which interrupt source is masked. The */
#define PRIORITY (*(REG32_PTR_T)(0x39C0000C)) /* IRQ priority control register */
#define INTPND (*(REG32_PTR_T)(0x39C00010)) /* Indicates the interrupt request status. */
#define INTOFFSET (*(REG32_PTR_T)(0x39C00014)) /* Indicates the IRQ interrupt request source */
#define EINTPOL (*(REG32_PTR_T)(0x39C00018)) /* Indicates external interrupt polarity */
#define EINTPEND (*(REG32_PTR_T)(0x39C0001C)) /* Indicates whether external interrupts are pending. */
#define EINTMSK (*(REG32_PTR_T)(0x39C00020)) /* Indicates whether external interrupts are masked */
/* 07. MEMORY INTERFACE UNIT (MIU) */
/* SDRAM */
#define MIUCON (*(REG32_PTR_T)(0x38200000)) /* External Memory configuration register */
#define MIUCOM (*(REG32_PTR_T)(0x38200004)) /* Command and status register */
#define MIUAREF (*(REG32_PTR_T)(0x38200008)) /* Auto-refresh control register */
#define MIUMRS (*(REG32_PTR_T)(0x3820000C)) /* SDRAM Mode Register Set Value Register */
#define MIUSDPARA (*(REG32_PTR_T)(0x38200010)) /* SDRAM parameter register */
/* DDR */
#define MEMCONF (*(REG32_PTR_T)(0x38200020)) /* External Memory configuration register */
#define USRCMD (*(REG32_PTR_T)(0x38200024)) /* Command and Status register */
#define AREF (*(REG32_PTR_T)(0x38200028)) /* Auto-refresh control register */
#define MRS (*(REG32_PTR_T)(0x3820002C)) /* DRAM mode register set value register */
#define DPARAM (*(REG32_PTR_T)(0x38200030)) /* DRAM parameter register (Unit of tXXX : tCK */
#define SMEMCONF (*(REG32_PTR_T)(0x38200034)) /* Static memory mode register set value register */
#define MIUS01PARA (*(REG32_PTR_T)(0x38200038)) /* SRAM0, SRAM1 static memory parameter register (In S5L8700, SRAM0 is Nor Flash) */
#define MIUS23PARA (*(REG32_PTR_T)(0x3820003C)) /* SRAM2 and SRAM3 static memory parameter register */
#define MIUORG (*(REG32_PTR_T)(0x38200040)) /* SDR/DDR selection */
#define MIUDLYDQS (*(REG32_PTR_T)(0x38200044)) /* DQS/DQS-rst delay parameter */
#define MIUDLYCLK (*(REG32_PTR_T)(0x38200048)) /* SDR/DDR Clock delay parameter */
#define MIU_DSS_SEL_B (*(REG32_PTR_T)(0x3820004C)) /* SSTL2 Drive Strength parameter for Bi-direction signal */
#define MIU_DSS_SEL_O (*(REG32_PTR_T)(0x38200050)) /* SSTL2 Drive Strength parameter for Output signal */
#define MIU_DSS_SEL_C (*(REG32_PTR_T)(0x38200054)) /* SSTL2 Drive Strength parameter for Clock signal */
#define PAD_DSS_SEL_NOR (*(REG32_PTR_T)(0x38200058)) /* Wide range I/O Drive Strength parameter for NOR interface */
#define PAD_DSS_SEL_ATA (*(REG32_PTR_T)(0x3820005C)) /* Wide range I/O Drive Strength parameter for ATA interface */
#define SSTL2_PAD_ON (*(REG32_PTR_T)(0x38200060)) /* SSTL2 pad ON/OFF select */
/* 08. IODMA CONTROLLER */
#define DMABASE0 (*(REG32_PTR_T)(0x38400000)) /* Base address register for channel 0 */
#define DMACON0 (*(REG32_PTR_T)(0x38400004)) /* Configuration register for channel 0 */
#define DMATCNT0 (*(REG32_PTR_T)(0x38400008)) /* Transfer count register for channel 0 */
#define DMACADDR0 (*(REG32_PTR_T)(0x3840000C)) /* Current memory address register for channel 0 */
#define DMACTCNT0 (*(REG32_PTR_T)(0x38400010)) /* Current transfer count register for channel 0 */
#define DMACOM0 (*(REG32_PTR_T)(0x38400014)) /* Channel 0 command register */
#define DMANOFF0 (*(REG32_PTR_T)(0x38400018)) /* Channel 0 offset2 register */
#define DMABASE1 (*(REG32_PTR_T)(0x38400020)) /* Base address register for channel 1 */
#define DMACON1 (*(REG32_PTR_T)(0x38400024)) /* Configuration register for channel 1 */
#define DMATCNT1 (*(REG32_PTR_T)(0x38400028)) /* Transfer count register for channel 1 */
#define DMACADDR1 (*(REG32_PTR_T)(0x3840002C)) /* Current memory address register for channel 1 */
#define DMACTCNT1 (*(REG32_PTR_T)(0x38400030)) /* Current transfer count register for channel 1 */
#define DMACOM1 (*(REG32_PTR_T)(0x38400034)) /* Channel 1 command register */
#define DMABASE2 (*(REG32_PTR_T)(0x38400040)) /* Base address register for channel 2 */
#define DMACON2 (*(REG32_PTR_T)(0x38400044)) /* Configuration register for channel 2 */
#define DMATCNT2 (*(REG32_PTR_T)(0x38400048)) /* Transfer count register for channel 2 */
#define DMACADDR2 (*(REG32_PTR_T)(0x3840004C)) /* Current memory address register for channel 2 */
#define DMACTCNT2 (*(REG32_PTR_T)(0x38400050)) /* Current transfer count register for channel 2 */
#define DMACOM2 (*(REG32_PTR_T)(0x38400054)) /* Channel 2 command register */
#define DMABASE3 (*(REG32_PTR_T)(0x38400060)) /* Base address register for channel 3 */
#define DMACON3 (*(REG32_PTR_T)(0x38400064)) /* Configuration register for channel 3 */
#define DMATCNT3 (*(REG32_PTR_T)(0x38400068)) /* Transfer count register for channel 3 */
#define DMACADDR3 (*(REG32_PTR_T)(0x3840006C)) /* Current memory address register for channel 3 */
#define DMACTCNT3 (*(REG32_PTR_T)(0x38400070)) /* Current transfer count register for channel 3 */
#define DMACOM3 (*(REG32_PTR_T)(0x38400074)) /* Channel 3 command register */
#define DMAALLST (*(REG32_PTR_T)(0x38400100)) /* All channel status register */
/* 10. REAL TIMER CLOCK (RTC) */
#define RTCCON (*(REG32_PTR_T)(0x3D200000)) /* RTC Control Register */
#define RTCRST (*(REG32_PTR_T)(0x3D200004)) /* RTC Round Reset Register */
#define RTCALM (*(REG32_PTR_T)(0x3D200008)) /* RTC Alarm Control Register */
#define ALMSEC (*(REG32_PTR_T)(0x3D20000C)) /* Alarm Second Data Register */
#define ALMMIN (*(REG32_PTR_T)(0x3D200010)) /* Alarm Minute Data Register */
#define ALMHOUR (*(REG32_PTR_T)(0x3D200014)) /* Alarm Hour Data Register */
#define ALMDATE (*(REG32_PTR_T)(0x3D200018)) /* Alarm Date Data Register */
#define ALMDAY (*(REG32_PTR_T)(0x3D20001C)) /* Alarm Day of Week Data Register */
#define ALMMON (*(REG32_PTR_T)(0x3D200020)) /* Alarm Month Data Register */
#define ALMYEAR (*(REG32_PTR_T)(0x3D200024)) /* Alarm Year Data Register */
#define BCDSEC (*(REG32_PTR_T)(0x3D200028)) /* BCD Second Register */
#define BCDMIN (*(REG32_PTR_T)(0x3D20002C)) /* BCD Minute Register */
#define BCDHOUR (*(REG32_PTR_T)(0x3D200030)) /* BCD Hour Register */
#define BCDDATE (*(REG32_PTR_T)(0x3D200034)) /* BCD Date Register */
#define BCDDAY (*(REG32_PTR_T)(0x3D200038)) /* BCD Day of Week Register */
#define BCDMON (*(REG32_PTR_T)(0x3D20003C)) /* BCD Month Register */
#define BCDYEAR (*(REG32_PTR_T)(0x3D200040)) /* BCD Year Register */
#define RTCIM (*(REG32_PTR_T)(0x3D200044)) /* RTC Interrupt Mode Register */
#define RTCPEND (*(REG32_PTR_T)(0x3D200048)) /* RTC Interrupt Pending Register */
/* 09. WATCHDOG TIMER*/
#define WDTCON (*(REG32_PTR_T)(0x3C800000)) /* Control Register */
#define WDTCNT (*(REG32_PTR_T)(0x3C800004)) /* 11-bits internal counter */
/* 11. 16 BIT TIMER */
#define TACON (*(REG32_PTR_T)(0x3C700000)) /* Control Register for timer A */
#define TACMD (*(REG32_PTR_T)(0x3C700004)) /* Command Register for timer A */
#define TADATA0 (*(REG32_PTR_T)(0x3C700008)) /* Data0 Register */
#define TADATA1 (*(REG32_PTR_T)(0x3C70000C)) /* Data1 Register */
#define TAPRE (*(REG32_PTR_T)(0x3C700010)) /* Pre-scale register */
#define TACNT (*(REG32_PTR_T)(0x3C700014)) /* Counter register */
#define TBCON (*(REG32_PTR_T)(0x3C700020)) /* Control Register for timer B */
#define TBCMD (*(REG32_PTR_T)(0x3C700024)) /* Command Register for timer B */
#define TBDATA0 (*(REG32_PTR_T)(0x3C700028)) /* Data0 Register */
#define TBDATA1 (*(REG32_PTR_T)(0x3C70002C)) /* Data1 Register */
#define TBPRE (*(REG32_PTR_T)(0x3C700030)) /* Pre-scale register */
#define TBCNT (*(REG32_PTR_T)(0x3C700034)) /* Counter register */
#define TCCON (*(REG32_PTR_T)(0x3C700040)) /* Control Register for timer C */
#define TCCMD (*(REG32_PTR_T)(0x3C700044)) /* Command Register for timer C */
#define TCDATA0 (*(REG32_PTR_T)(0x3C700048)) /* Data0 Register */
#define TCDATA1 (*(REG32_PTR_T)(0x3C70004C)) /* Data1 Register */
#define TCPRE (*(REG32_PTR_T)(0x3C700050)) /* Pre-scale register */
#define TCCNT (*(REG32_PTR_T)(0x3C700054)) /* Counter register */
#define TDCON (*(REG32_PTR_T)(0x3C700060)) /* Control Register for timer D */
#define TDCMD (*(REG32_PTR_T)(0x3C700064)) /* Command Register for timer D */
#define TDDATA0 (*(REG32_PTR_T)(0x3C700068)) /* Data0 Register */
#define TDDATA1 (*(REG32_PTR_T)(0x3C70006C)) /* Data1 Register */
#define TDPRE (*(REG32_PTR_T)(0x3C700070)) /* Pre-scale register */
#define TDCNT (*(REG32_PTR_T)(0x3C700074)) /* Counter register */
/* 12. NAND FLASH CONTROLER */
#define FMCTRL0 (*(REG32_PTR_T)(0x3C200000)) /* Control Register0 */
#define FMCTRL1 (*(REG32_PTR_T)(0x3C200004)) /* Control Register1 */
#define FMCMD (*(REG32_PTR_T)(0x3C200008)) /* Command Register */
#define FMADDR0 (*(REG32_PTR_T)(0x3C20000C)) /* Address Register0 */
#define FMADDR1 (*(REG32_PTR_T)(0x3C200010)) /* Address Register1 */
#define FMADDR2 (*(REG32_PTR_T)(0x3C200014)) /* Address Register2 */
#define FMADDR3 (*(REG32_PTR_T)(0x3C200018)) /* Address Register3 */
#define FMADDR4 (*(REG32_PTR_T)(0x3C20001C)) /* Address Register4 */
#define FMADDR5 (*(REG32_PTR_T)(0x3C200020)) /* Address Register5 */
#define FMADDR6 (*(REG32_PTR_T)(0x3C200024)) /* Address Register6 */
#define FMADDR7 (*(REG32_PTR_T)(0x3C200028)) /* Address Register7 */
#define FMANUM (*(REG32_PTR_T)(0x3C20002C)) /* Address Counter Register */
#define FMDNUM (*(REG32_PTR_T)(0x3C200030)) /* Data Counter Register */
#define FMDATAW0 (*(REG32_PTR_T)(0x3C200034)) /* Write Data Register0 */
#define FMDATAW1 (*(REG32_PTR_T)(0x3C200038)) /* Write Data Register1 */
#define FMDATAW2 (*(REG32_PTR_T)(0x3C20003C)) /* Write Data Register2 */
#define FMDATAW3 (*(REG32_PTR_T)(0x3C200040)) /* Write Data Register3 */
#define FMCSTAT (*(REG32_PTR_T)(0x3C200048)) /* Status Register */
#define FMSYND0 (*(REG32_PTR_T)(0x3C20004C)) /* Hamming Syndrome0 */
#define FMSYND1 (*(REG32_PTR_T)(0x3C200050)) /* Hamming Syndrome1 */
#define FMSYND2 (*(REG32_PTR_T)(0x3C200054)) /* Hamming Syndrome2 */
#define FMSYND3 (*(REG32_PTR_T)(0x3C200058)) /* Hamming Syndrome3 */
#define FMSYND4 (*(REG32_PTR_T)(0x3C20005C)) /* Hamming Syndrome4 */
#define FMSYND5 (*(REG32_PTR_T)(0x3C200060)) /* Hamming Syndrome5 */
#define FMSYND6 (*(REG32_PTR_T)(0x3C200064)) /* Hamming Syndrome6 */
#define FMSYND7 (*(REG32_PTR_T)(0x3C200068)) /* Hamming Syndrome7 */
#define FMFIFO (*(REG32_PTR_T)(0x3C200080)) /* WRITE/READ FIFO FIXME */
#define RSCRTL (*(REG32_PTR_T)(0x3C200100)) /* Reed-Solomon Control Register */
#define RSPaity0_0 (*(REG32_PTR_T)(0x3C200110)) /* On-the-fly Parity Register0[31:0] */
#define RSPaity0_1 (*(REG32_PTR_T)(0x3C200114)) /* On-the-fly Parity Register0[63:32] */
#define RSPaity0_2 (*(REG32_PTR_T)(0x3C200118)) /* On-the-fly Parity Register0[71:64] */
#define RSPaity1_0 (*(REG32_PTR_T)(0x3C200120)) /* On-the-fly Parity Register1[31:0] */
#define RSPaity1_1 (*(REG32_PTR_T)(0x3C200124)) /* On-the-fly Parity Register1[63:32] */
#define RSPaity1_2 (*(REG32_PTR_T)(0x3C200128)) /* On-the-fly Parity Register1[71:64] */
#define RSPaity2_0 (*(REG32_PTR_T)(0x3C200130)) /* On-the-fly Parity Register2[31:0] */
#define RSPaity2_1 (*(REG32_PTR_T)(0x3C200134)) /* On-the-fly Parity Register2[63:32] */
#define RSPaity2_2 (*(REG32_PTR_T)(0x3C200138)) /* On-the-fly Parity Register2[71:64] */
#define RSPaity3_0 (*(REG32_PTR_T)(0x3C200140)) /* On-the-fly Parity Register3[31:0] */
#define RSPaity3_1 (*(REG32_PTR_T)(0x3C200144)) /* On-the-fly Parity Register3[63:32] */
#define RSPaity3_2 (*(REG32_PTR_T)(0x3C200148)) /* On-the-fly Parity Register3[71:64] */
#define RSSynd0_0 (*(REG32_PTR_T)(0x3C200150)) /* On-the-fly Synd Register0[31:0] */
#define RSSynd0_1 (*(REG32_PTR_T)(0x3C200154)) /* On-the-fly Synd Register0[63:32] */
#define RSSynd0_2 (*(REG32_PTR_T)(0x3C200158)) /* On-the-fly Synd Register0[71:64] */
#define RSSynd1_0 (*(REG32_PTR_T)(0x3C200160)) /* On-the-fly Synd Register1[31:0] */
#define RSSynd1_1 (*(REG32_PTR_T)(0x3C200164)) /* On-the-fly Synd Register1[63:32] */
#define RSSynd1_2 (*(REG32_PTR_T)(0x3C200168)) /* On-the-fly Synd Register1[71:64] */
#define RSSynd2_0 (*(REG32_PTR_T)(0x3C200170)) /* On-the-fly Synd Register2[31:0] */
#define RSSynd2_1 (*(REG32_PTR_T)(0x3C200174)) /* On-the-fly Synd Register2[63:32] */
#define RSSynd2_2 (*(REG32_PTR_T)(0x3C200178)) /* On-the-fly Synd Register2[71:64] */
#define RSSynd3_0 (*(REG32_PTR_T)(0x3C200180)) /* On-the-fly Synd Register3[31:0] */
#define RSSynd3_1 (*(REG32_PTR_T)(0x3C200184)) /* On-the-fly Synd Register3[63:32] */
#define RSSynd3_2 (*(REG32_PTR_T)(0x3C200188)) /* On-the-fly Synd Register3[71:64] */
#define FlagSynd (*(REG32_PTR_T)(0x3C200190)) /* On-the-fly ECC Result Flag */
/* 13. SECURE DIGITAL CARD INTERFACE (SDCI) */
#define SDCI_CTRL (*(REG32_PTR_T)(0x3C300000)) /* Control Register */
#define SDCI_DCTRL (*(REG32_PTR_T)(0x3C300004)) /* Data Control Register */
#define SDCI_CMD (*(REG32_PTR_T)(0x3C300008)) /* Command Register */
#define SDCI_ARGU (*(REG32_PTR_T)(0x3C30000C)) /* Argument Register */
#define SDCI_STATE (*(REG32_PTR_T)(0x3C300010)) /* State Register */
#define SDCI_STAC (*(REG32_PTR_T)(0x3C300014)) /* Status Clear Register */
#define SDCI_DSTA (*(REG32_PTR_T)(0x3C300018)) /* Data Status Register */
#define SDCI_FSTA (*(REG32_PTR_T)(0x3C30001C)) /* FIFO Status Register */
#define SDCI_RESP0 (*(REG32_PTR_T)(0x3C300020)) /* Response0 Register */
#define SDCI_RESP1 (*(REG32_PTR_T)(0x3C300024)) /* Response1 Register */
#define SDCI_RESP2 (*(REG32_PTR_T)(0x3C300028)) /* Response2 Register */
#define SDCI_RESP3 (*(REG32_PTR_T)(0x3C30002C)) /* Response3 Register */
#define SDCI_CLKDIV (*(REG32_PTR_T)(0x3C300030)) /* Clock Divider Register */
#define SDIO_CSR (*(REG32_PTR_T)(0x3C300034)) /* SDIO Control & Status Register */
#define SDIO_IRQ (*(REG32_PTR_T)(0x3C300038)) /* Interrupt Source Register */
/* 14. MEMORY STICK HOST CONTROLLER */
#define MSPRE (*(REG32_PTR_T)(0x3C600000)) /* Prescaler Register */
#define MSINTEN (*(REG32_PTR_T)(0x3C600004)) /* Interrupt Enable Register */
#define MSCMD (*(REG32_PTR_T)(0x3C601000)) /* Command Register */
#define MSFIFO (*(REG32_PTR_T)(0x3C601008)) /* Receive/Transmit Register */
#define MSPP (*(REG32_PTR_T)(0x3C601010)) /* Parallel Port Control/Data Register */
#define MSCTRL2 (*(REG32_PTR_T)(0x3C601014)) /* Control Register 2 */
#define MSACD (*(REG32_PTR_T)(0x3C601018)) /* ACD Command Register */
/* 15. SPDIF TRANSMITTER (SPDIFOUT) */
#define SPDCLKCON (*(REG32_PTR_T)(0x3CB00000)) /* Clock Control Register */
#define SPDCON (*(REG32_PTR_T)(0x3CB00004)) /* Control Register 0020 */
#define SPDBSTAS (*(REG32_PTR_T)(0x3CB00008)) /* Burst Status Register */
#define SPDCSTAS (*(REG32_PTR_T)(0x3CB0000C)) /* Channel Status Register 0x2000 8000 */
#define SPDDAT (*(REG32_PTR_T)(0x3CB00010)) /* SPDIFOUT Data Buffer */
#define SPDCNT (*(REG32_PTR_T)(0x3CB00014)) /* Repetition Count Register */
/* 16. REED-SOLOMON ECC CODEC */
#define DATA_PTR (*(REG32_PTR_T)(0x39E00004)) /* Data Area Start Pointer */
#define SPARE_PTR (*(REG32_PTR_T)(0x39E00008)) /* Spare Area Start Pointer */
#define ECC_CTRL (*(REG32_PTR_T)(0x39E0000C)) /* ECC Control Register */
#define ECC_RESULT (*(REG32_PTR_T)(0x39E00010)) /* ECC Result */
#define ECC_EVAL0 (*(REG32_PTR_T)(0x39E00020)) /* Error Eval0 Poly */
#define ECC_EVAL1 (*(REG32_PTR_T)(0x39E00024)) /* Error Eval1 Poly */
#define ECC_LOC0 (*(REG32_PTR_T)(0x39E00028)) /* Error Loc0 Poly */
#define ECC_LOC1 (*(REG32_PTR_T)(0x39E0002C)) /* Error Loc1 Poly */
#define PARITY0 (*(REG32_PTR_T)(0x39E00030)) /* Encode Parity0 Poly */
#define PARITY1 (*(REG32_PTR_T)(0x39E00034)) /* Encode Pariyt1 Poly */
#define PARITY2 (*(REG32_PTR_T)(0x39E00038)) /* Encode Parity2 Poly */
#define INT_CLR (*(REG32_PTR_T)(0x39E00040)) /* Interrupt Clear Register */
#define SYND0 (*(REG32_PTR_T)(0x39E00044)) /* Syndrom0 Poly */
#define SYND1 (*(REG32_PTR_T)(0x39E00048)) /* Syndrom1 Poly */
#define SYND2 (*(REG32_PTR_T)(0x39E0004C)) /* Syndrom2 Poly */
/* 17. IIS Tx/Rx INTERFACE */
#define I2SCLKCON (*(REG32_PTR_T)(0x3CA00000)) /* Clock Control Register */
#define I2STXCON (*(REG32_PTR_T)(0x3CA00004)) /* Tx configuration Register */
#define I2STXCOM (*(REG32_PTR_T)(0x3CA00008)) /* Tx command Register */
#define I2STXDB0 (*(REG32_PTR_T)(0x3CA00010)) /* Tx data buffer */
#define I2SRXCON (*(REG32_PTR_T)(0x3CA00030)) /* Rx configuration Register */
#define I2SRXCOM (*(REG32_PTR_T)(0x3CA00034)) /* Rx command Register */
#define I2SRXDB (*(REG32_PTR_T)(0x3CA00038)) /* Rx data buffer */
#define I2SSTATUS (*(REG32_PTR_T)(0x3CA0003C)) /* status register */
/* 18. IIC BUS INTERFACE */
#define IICCON (*(REG32_PTR_T)(0x3C900000)) /* Control Register */
#define IICSTAT (*(REG32_PTR_T)(0x3C900004)) /* Control/Status Register */
#define IICADD (*(REG32_PTR_T)(0x3C900008)) /* Bus Address Register */
#define IICDS (*(REG32_PTR_T)(0x3C90000C))
/* 19. SPI (SERIAL PERHIPERAL INTERFACE) */
#define SPCLKCON (*(REG32_PTR_T)(0x3CD00000)) /* Clock Control Register */
#define SPCON (*(REG32_PTR_T)(0x3CD00004)) /* Control Register */
#define SPSTA (*(REG32_PTR_T)(0x3CD00008)) /* Status Register */
#define SPPIN (*(REG32_PTR_T)(0x3CD0000C)) /* Pin Control Register */
#define SPTDAT (*(REG32_PTR_T)(0x3CD00010)) /* Tx Data Register */
#define SPRDAT (*(REG32_PTR_T)(0x3CD00014)) /* Rx Data Register */
#define SPPRE (*(REG32_PTR_T)(0x3CD00018)) /* Baud Rate Prescaler Register */
/* 20. ADC CONTROLLER */
#define ADCCON (*(REG32_PTR_T)(0x3CE00000)) /* ADC Control Register */
#define ADCTSC (*(REG32_PTR_T)(0x3CE00004)) /* ADC Touch Screen Control Register */
#define ADCDLY (*(REG32_PTR_T)(0x3CE00008)) /* ADC Start or Interval Delay Register */
#define ADCDAT0 (*(REG32_PTR_T)(0x3CE0000C)) /* ADC Conversion Data Register */
#define ADCDAT1 (*(REG32_PTR_T)(0x3CE00010)) /* ADC Conversion Data Register */
#define ADCUPDN (*(REG32_PTR_T)(0x3CE00014)) /* Stylus Up or Down Interrpt Register */
/* 21. USB 2.0 FUNCTION CONTROLER SPECIAL REGISTER */
#define IR (*(REG32_PTR_T)(0x38800000)) /* Index Register */
#define EIR (*(REG32_PTR_T)(0x38800004)) /* Endpoint Interrupt Register */
#define EIER (*(REG32_PTR_T)(0x38800008)) /* Endpoint Interrupt Enable Register */
#define FAR (*(REG32_PTR_T)(0x3880000C)) /* Function Address Register */
#define FNR (*(REG32_PTR_T)(0x38800010)) /* Frame Number Register */
#define EDR (*(REG32_PTR_T)(0x38800014)) /* Endpoint Direction Register */
#define TR (*(REG32_PTR_T)(0x38800018)) /* Test Register */
#define SSR (*(REG32_PTR_T)(0x3880001C)) /* System Status Register */
#define SCR (*(REG32_PTR_T)(0x38800020)) /* System Control Register */
#define EP0SR (*(REG32_PTR_T)(0x38800024)) /* EP0 Status Register */
#define EP0CR (*(REG32_PTR_T)(0x38800028)) /* EP0 Control Register */
#define ESR (*(REG32_PTR_T)(0x3880002C)) /* Endpoints Status Register */
#define ECR (*(REG32_PTR_T)(0x38800030)) /* Endpoints Control Register */
#define BRCR (*(REG32_PTR_T)(0x38800034)) /* Byte Read Count Register */
#define BWCR (*(REG32_PTR_T)(0x38800038)) /* Byte Write Count Register */
#define MPR (*(REG32_PTR_T)(0x3880003C)) /* Max Packet Register */
#define MCR (*(REG32_PTR_T)(0x38800040)) /* Master Control Register */
#define MTCR (*(REG32_PTR_T)(0x38800044)) /* Master Transfer Counter Register */
#define MFCR (*(REG32_PTR_T)(0x38800048)) /* Master FIFO Counter Register */
#define MTTCR1 (*(REG32_PTR_T)(0x3880004C)) /* Master Total Transfer Counter1 Register */
#define MTTCR2 (*(REG32_PTR_T)(0x38800050)) /* Master Total Transfer Counter2 Register */
#define EP0BR (*(REG32_PTR_T)(0x38800060)) /* EP0 Buffer Register */
#define EP1BR (*(REG32_PTR_T)(0x38800064)) /* EP1 Buffer Register */
#define EP2BR (*(REG32_PTR_T)(0x38800068)) /* EP2 Buffer Register */
#define EP3BR (*(REG32_PTR_T)(0x3880006C)) /* EP3 Buffer Register */
#define EP4BR (*(REG32_PTR_T)(0x38800070)) /* EP4 Buffer Register */
#define EP5BR (*(REG32_PTR_T)(0x38800074)) /* EP5 Buffer Register */
#define EP6BR (*(REG32_PTR_T)(0x38800078)) /* EP6 Buffer Register */
#define MICR (*(REG32_PTR_T)(0x38800084)) /* Master Interface Counter Register */
#define MBAR1 (*(REG32_PTR_T)(0x38800088)) /* Memory Base Address Register1 */
#define MBAR2 (*(REG32_PTR_T)(0x3880008C)) /* Memory Base Address Register2 */
#define MCAR1 (*(REG32_PTR_T)(0x38800094)) /* Memory Current Address Register1 */
#define MCAR2 (*(REG32_PTR_T)(0x38800098)) /* Memory Current Address Register2 */
/* 22. USB 1.1 HOST CONTROLER SPECIAL REGISTER */
#define HcRevision (*(REG32_PTR_T)(0x38600000))
#define HcControl (*(REG32_PTR_T)(0x38600004))
#define HcCommandStatus (*(REG32_PTR_T)(0x38600008))
#define HcInterruptStatus (*(REG32_PTR_T)(0x3860000C))
#define HcInterruptEnable (*(REG32_PTR_T)(0x38600010))
#define HcInterruptDisable (*(REG32_PTR_T)(0x38600014))
#define HcHCCA (*(REG32_PTR_T)(0x38600018))
#define HcPeriodCurrentED (*(REG32_PTR_T)(0x3860001C))
#define HcControlHeadED (*(REG32_PTR_T)(0x38600020))
#define HcControlCurrentED (*(REG32_PTR_T)(0x38600024))
#define HcBulkHeadED (*(REG32_PTR_T)(0x38600028))
#define HcBulkCurrentED (*(REG32_PTR_T)(0x3860002C))
#define HcDoneHead (*(REG32_PTR_T)(0x38600030))
#define HcFmInterval (*(REG32_PTR_T)(0x38600034))
#define HcFmRemaining (*(REG32_PTR_T)(0x38600038))
#define HcFmNumber (*(REG32_PTR_T)(0x3860003C))
#define HcPeriodicStart (*(REG32_PTR_T)(0x38600040))
#define HcLSThreshold (*(REG32_PTR_T)(0x38600044))
#define HcRhDescriptorA (*(REG32_PTR_T)(0x38600048))
#define HcRhDescriptorB (*(REG32_PTR_T)(0x3860004C))
#define HcRhStatus (*(REG32_PTR_T)(0x38600050))
#define HcRhPortStatus (*(REG32_PTR_T)(0x38600054))
/* 23. USB 2.0 PHY CONTROL */
#define PHYCTRL (*(REG32_PTR_T)(0x3C400000)) /* USB2.0 PHY Control Register */
#define PHYPWR (*(REG32_PTR_T)(0x3C400004)) /* USB2.0 PHY Power Control Register */
#define URSTCON (*(REG32_PTR_T)(0x3C400008)) /* USB Reset Control Register */
#define UCLKCON (*(REG32_PTR_T)(0x3C400010)) /* USB Clock Control Register */
/* 24. GPIO PORT CONTROLL */
#define PCON0 (*(REG32_PTR_T)(0x3CF00000)) /* Configures the pins of port 0 */
#define PDAT0 (*(REG32_PTR_T)(0x3CF00004)) /* The data register for port 0 */
#define PCON1 (*(REG32_PTR_T)(0x3CF00010)) /* Configures the pins of port 0 */
#define PDAT1 (*(REG32_PTR_T)(0x3CF00014)) /* The data register for port 0 */
#define PCON2 (*(REG32_PTR_T)(0x3CF00020)) /* Configures the pins of port 0 */
#define PDAT2 (*(REG32_PTR_T)(0x3CF00024)) /* The data register for port 0 */
#define PCON3 (*(REG32_PTR_T)(0x3CF00030)) /* Configures the pins of port 0 */
#define PDAT3 (*(REG32_PTR_T)(0x3CF00034)) /* The data register for port 0 */
#define PCON4 (*(REG32_PTR_T)(0x3CF00040)) /* Configures the pins of port 0 */
#define PDAT4 (*(REG32_PTR_T)(0x3CF00044)) /* The data register for port 0 */
#define PCON5 (*(REG32_PTR_T)(0x3CF00050)) /* Configures the pins of port 0 */
#define PDAT5 (*(REG32_PTR_T)(0x3CF00054)) /* The data register for port 0 */
#define PCON6 (*(REG32_PTR_T)(0x3CF00060)) /* Configures the pins of port 0 */
#define PDAT6 (*(REG32_PTR_T)(0x3CF00064)) /* The data register for port 0 */
#define PCON7 (*(REG32_PTR_T)(0x3CF00070)) /* Configures the pins of port 0 */
#define PDAT7 (*(REG32_PTR_T)(0x3CF00074)) /* The data register for port 0 */
#define PCON10 (*(REG32_PTR_T)(0x3CF000A0)) /* Configures the pins of port 0 */
#define PDAT10 (*(REG32_PTR_T)(0x3CF000A4)) /* The data register for port 0 */
#define PCON_ASRAM (*(REG32_PTR_T)(0x3CF000F0)) /* Configures the pins of port nor flash */
#define PCON_SDRAM (*(REG32_PTR_T)(0x3CF000F4)) /* Configures the pins of port sdram */
#define PCON11 (*(REG32_PTR_T)(0x3CF000F8)) /* Configures the pins of port 11 */
#define PDAT11 (*(REG32_PTR_T)(0x3CF000FC)) /* The data register for port 11 */
/* 25. UART */
/* UART 0 */
#define ULCON0 (*(REG32_PTR_T)(0x3CC00000)) /* Line Control Register */
#define UCON0 (*(REG32_PTR_T)(0x3CC00004)) /* Control Register */
#define UFCON0 (*(REG32_PTR_T)(0x3CC00008)) /* FIFO Control Register */
#define UMCON0 (*(REG32_PTR_T)(0x3CC0000C)) /* Modem Control Register */
#define UTRSTAT0 (*(REG32_PTR_T)(0x3CC00010)) /* Tx/Rx Status Register */
#define UERSTAT0 (*(REG32_PTR_T)(0x3CC00014)) /* Rx Error Status Register */
#define UFSTAT0 (*(REG32_PTR_T)(0x3CC00018)) /* FIFO Status Register */
#define UMSTAT0 (*(REG32_PTR_T)(0x3CC0001C)) /* Modem Status Register */
#define UTXH0 (*(REG32_PTR_T)(0x3CC00020)) /* Transmit Buffer Register */
#define URXH0 (*(REG32_PTR_T)(0x3CC00024)) /* Receive Buffer Register */
#define UBRDIV0 (*(REG32_PTR_T)(0x3CC00028)) /* Baud Rate Divisor Register */
/* UART 1*/
#define ULCON1 (*(REG32_PTR_T)(0x3CC08000)) /* Line Control Register */
#define UCON1 (*(REG32_PTR_T)(0x3CC08004)) /* Control Register */
#define UFCON1 (*(REG32_PTR_T)(0x3CC08008)) /* FIFO Control Register */
#define UMCON1 (*(REG32_PTR_T)(0x3CC0800C)) /* Modem Control Register */
#define UTRSTAT1 (*(REG32_PTR_T)(0x3CC08010)) /* Tx/Rx Status Register */
#define UERSTAT1 (*(REG32_PTR_T)(0x3CC08014)) /* Rx Error Status Register */
#define UFSTAT1 (*(REG32_PTR_T)(0x3CC08018)) /* FIFO Status Register */
#define UMSTAT1 (*(REG32_PTR_T)(0x3CC0801C)) /* Modem Status Register */
#define UTXH1 (*(REG32_PTR_T)(0x3CC08020)) /* Transmit Buffer Register */
#define URXH1 (*(REG32_PTR_T)(0x3CC08024)) /* Receive Buffer Register */
#define UBRDIV1 (*(REG32_PTR_T)(0x3CC08028)) /* Baud Rate Divisor Register */
/* 26. LCD INTERFACE CONTROLLER */
#define LCD_CON (*(REG32_PTR_T)(0x3C100000)) /* Control register. */
#define LCD_WCMD (*(REG32_PTR_T)(0x3C100004)) /* Write command register. */
#define LCD_RCMD (*(REG32_PTR_T)(0x3C10000C)) /* Read command register. */
#define LCD_RDATA (*(REG32_PTR_T)(0x3C100010)) /* Read data register. */
#define LCD_DBUFF (*(REG32_PTR_T)(0x3C100014)) /* Read Data buffer */
#define LCD_INTCON (*(REG32_PTR_T)(0x3C100018)) /* Interrupt control register */
#define LCD_STATUS (*(REG32_PTR_T)(0x3C10001C)) /* LCD Interface status 0106 */
#define LCD_PHTIME (*(REG32_PTR_T)(0x3C100020)) /* Phase time register 0060 */
#define LCD_RST_TIME (*(REG32_PTR_T)(0x3C100024)) /* Reset active period 07FF */
#define LCD_DRV_RST (*(REG32_PTR_T)(0x3C100028)) /* Reset drive signal */
#define LCD_WDATA (*(REG32_PTR_T)(0x3C100040)) /* Write data register FIXME */
/* 27. CLCD CONTROLLER */
#define LCDCON1 (*(REG32_PTR_T)(0x39200000)) /* LCD control 1 register */
#define LCDCON2 (*(REG32_PTR_T)(0x39200004)) /* LCD control 2 register */
#define LCDTCON1 (*(REG32_PTR_T)(0x39200008)) /* LCD time control 1 register */
#define LCDTCON2 (*(REG32_PTR_T)(0x3920000C)) /* LCD time control 2 register */
#define LCDTCON3 (*(REG32_PTR_T)(0x39200010)) /* LCD time control 3 register */
#define LCDOSD1 (*(REG32_PTR_T)(0x39200014)) /* LCD OSD control 1 register */
#define LCDOSD2 (*(REG32_PTR_T)(0x39200018)) /* LCD OSD control 2 register */
#define LCDOSD3 (*(REG32_PTR_T)(0x3920001C)) /* LCD OSD control 3 register */
#define LCDB1SADDR1 (*(REG32_PTR_T)(0x39200020)) /* Frame buffer start address register for Back-Ground buffer 1 */
#define LCDB2SADDR1 (*(REG32_PTR_T)(0x39200024)) /* Frame buffer start address register for Back-Ground buffer 2 */
#define LCDF1SADDR1 (*(REG32_PTR_T)(0x39200028)) /* Frame buffer start address register for Fore-Ground (OSD) buffer 1 */
#define LCDF2SADDR1 (*(REG32_PTR_T)(0x3920002C)) /* Frame buffer start address register for Fore-Ground (OSD) buffer 2 */
#define LCDB1SADDR2 (*(REG32_PTR_T)(0x39200030)) /* Frame buffer end address register for Back-Ground buffer 1 */
#define LCDB2SADDR2 (*(REG32_PTR_T)(0x39200034)) /* Frame buffer end address register for Back-Ground buffer 2 */
#define LCDF1SADDR2 (*(REG32_PTR_T)(0x39200038)) /* Frame buffer end address register for Fore-Ground (OSD) buffer 1 */
#define LCDF2SADDR2 (*(REG32_PTR_T)(0x3920003C)) /* Frame buffer end address register for Fore-Ground (OSD) buffer 2 */
#define LCDB1SADDR3 (*(REG32_PTR_T)(0x39200040)) /* Virtual screen address set for Back-Ground buffer 1 */
#define LCDB2SADDR3 (*(REG32_PTR_T)(0x39200044)) /* Virtual screen address set for Back-Ground buffer 2 */
#define LCDF1SADDR3 (*(REG32_PTR_T)(0x39200048)) /* Virtual screen address set for Fore-Ground(OSD) buffer 1 */
#define LCDF2SADDR3 (*(REG32_PTR_T)(0x3920004C)) /* Virtual screen address set for Fore-Ground(OSD) buffer 2 */
#define LCDINTCON (*(REG32_PTR_T)(0x39200050)) /* Indicate the LCD interrupt control register */
#define KEYCON (*(REG32_PTR_T)(0x39200054)) /* Color key control register */
#define COLVAL (*(REG32_PTR_T)(0x39200058)) /* Color key value ( transparent value) register */
#define BGCON (*(REG32_PTR_T)(0x3920005C)) /* Back-Ground color control */
#define FGCON (*(REG32_PTR_T)(0x39200060)) /* Fore-Ground color control */
#define DITHMODE (*(REG32_PTR_T)(0x39200064)) /* Dithering mode register. */
/* 28. ATA CONTROLLER */
#define ATA_CONTROL (*(REG32_PTR_T)(0x38E00000)) /* Enable and clock down status */
#define ATA_STATUS (*(REG32_PTR_T)(0x38E00004)) /* Status */
#define ATA_COMMAND (*(REG32_PTR_T)(0x38E00008)) /* Command */
#define ATA_SWRST (*(REG32_PTR_T)(0x38E0000C)) /* Software reset */
#define ATA_IRQ (*(REG32_PTR_T)(0x38E00010)) /* Interrupt sources */
#define ATA_IRQ_MASK (*(REG32_PTR_T)(0x38E00014)) /* Interrupt mask */
#define ATA_CFG (*(REG32_PTR_T)(0x38E00018)) /* Configuration for ATA interface */
#define ATA_PIO_TIME (*(REG32_PTR_T)(0x38E0002C)) /* PIO timing */
#define ATA_UDMA_TIME (*(REG32_PTR_T)(0x38E00030)) /* UDMA timing */
#define ATA_XFR_NUM (*(REG32_PTR_T)(0x38E00034)) /* Transfer number */
#define ATA_XFR_CNT (*(REG32_PTR_T)(0x38E00038)) /* Current transfer count */
#define ATA_TBUF_START (*(REG32_PTR_T)(0x38E0003C)) /* Start address of track buffer */
#define ATA_TBUF_SIZE (*(REG32_PTR_T)(0x38E00040)) /* Size of track buffer */
#define ATA_SBUF_START (*(REG32_PTR_T)(0x38E00044)) /* Start address of Source buffer1 */
#define ATA_SBUF_SIZE (*(REG32_PTR_T)(0x38E00048)) /* Size of source buffer1 */
#define ATA_CADR_TBUF (*(REG32_PTR_T)(0x38E0004C)) /* Current write address of track buffer */
#define ATA_CADR_SBUF (*(REG32_PTR_T)(0x38E00050)) /* Current read address of source buffer */
#define ATA_PIO_DTR (*(REG32_PTR_T)(0x38E00054)) /* PIO device data register */
#define ATA_PIO_FED (*(REG32_PTR_T)(0x38E00058)) /* PIO device Feature/Error register */
#define ATA_PIO_SCR (*(REG32_PTR_T)(0x38E0005C)) /* PIO sector count register */
#define ATA_PIO_LLR (*(REG32_PTR_T)(0x38E00060)) /* PIO device LBA low register */
#define ATA_PIO_LMR (*(REG32_PTR_T)(0x38E00064)) /* PIO device LBA middle register */
#define ATA_PIO_LHR (*(REG32_PTR_T)(0x38E00068)) /* PIO device LBA high register */
#define ATA_PIO_DVR (*(REG32_PTR_T)(0x38E0006C)) /* PIO device register */
#define ATA_PIO_CSD (*(REG32_PTR_T)(0x38E00070)) /* PIO device command/status register */
#define ATA_PIO_DAD (*(REG32_PTR_T)(0x38E00074)) /* PIO control/alternate status register */
#define ATA_PIO_READY (*(REG32_PTR_T)(0x38E00078)) /* PIO data read/write ready */
#define ATA_PIO_RDATA (*(REG32_PTR_T)(0x38E0007C)) /* PIO read data from device register */
#define BUS_FIFO_STATUS (*(REG32_PTR_T)(0x38E00080)) /* Reserved */
#define ATA_FIFO_STATUS (*(REG32_PTR_T)(0x38E00084)) /* Reserved */
/* 29. CHIP ID */
#define REG_ONE (*(REG32_PTR_T)(0x3D100000)) /* Receive the first 32 bits from a fuse box */
#define REG_TWO (*(REG32_PTR_T)(0x3D100004)) /* Receive the other 8 bits from a fuse box */