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00ED ACC_DR0: equ MAC_Y ; read = MAC Accumulator, byte 0 (RW)
00EE MAC_CL0: equ 0EEh ; write = MAC Clear Accum [also see ACC_DR3]
00EE ACC_DR3: equ MAC_CL0 ; read = MAC Accumulator, byte 3 (RW)
00EF MAC_CL1: equ 0EFh ; write = MAC Clear Accum [also see ACC_DR2]
00EF ACC_DR2: equ MAC_CL1 ; read = MAC Accumulator, byte 2 (RW)
0000
0000 // Multiply/Accumulate Unit 0
00E8 MUL0_X: equ 0E8h ; Multiplier 0 X Register (write) (W)
00E9 MUL0_Y: equ 0E9h ; Multiplier 0 Y Register (write) (W)
00EA MUL0_DH: equ 0EAh ; Multiplier 0 Result Data (high byte read)(R)
00EB MUL0_DL: equ 0EBh ; Multiplier 0 Result Data ( low byte read)(R)
00EC MAC0_X: equ 0ECh ; write = MAC 0 X register [also see ACC_DR1]
00EC ACC0_DR1: equ MAC0_X ; read = MAC 0 Accumulator, byte 1 (RW)
00ED MAC0_Y: equ 0EDh ; write = MAC 0 Y register [also see ACC_DR0]
00ED ACC0_DR0: equ MAC0_Y ; read = MAC 0 Accumulator, byte 0 (RW)
00EE MAC0_CL0: equ 0EEh ; write = MAC 0 Clear Accum [also see ACC_DR3]
00EE ACC0_DR3: equ MAC0_CL0 ; read = MAC 0 Accumulator, byte 3 (RW)
00EF MAC0_CL1: equ 0EFh ; write = MAC 0 Clear Accum [also see ACC_DR2]
00EF ACC0_DR2: equ MAC0_CL1 ; read = MAC 0 Accumulator, byte 2 (RW)
0000
0000 // Multiply/Accumulate Unit 1
00A8 MUL1_X: equ 0A8h ; Multiplier 1 X Register (write) (W)
00A9 MUL1_Y: equ 0A9h ; Multiplier 1 Y Register (write) (W)
00AA MUL1_DH: equ 0AAh ; Multiplier 1 Result Data (high byte read)(R)
00AB MUL1_DL: equ 0ABh ; Multiplier 1 Result Data ( low byte read)(R)
00AC MAC1_X: equ 0ACh ; write = MAC 1 X register [also see ACC_DR1]
00AC ACC1_DR1: equ MAC1_X ; read = MAC 1 Accumulator, byte 1 (RW)
00AD MAC1_Y: equ 0ADh ; write = MAC 1 Y register [also see ACC_DR0]
00AD ACC1_DR0: equ MAC1_Y ; read = MAC 1 Accumulator, byte 0 (RW)
00AE MAC1_CL0: equ 0AEh ; write = MAC 1 Clear Accum [also see ACC_DR3]
00AE ACC1_DR3: equ MAC1_CL0 ; read = MAC 1 Accumulator, byte 3 (RW)
00AF MAC1_CL1: equ 0AFh ; write = MAC 1 Clear Accum [also see ACC_DR2]
00AF ACC1_DR2: equ MAC1_CL1 ; read = MAC 1 Accumulator, byte 2 (RW)
0000
0000 ;------------------------------------------------------
0000 ; System Status and Control Registers
0000 ;
0000 ; Note: The following registers are mapped into both
0000 ; register bank 0 AND register bank 1.
0000 ;------------------------------------------------------
00F7 CPU_F: equ 0F7h ; CPU Flag Register Access (RO)
0000 ; Use FLAG_ masks defined at top of file
0000
00FE CPU_SCR1: equ 0FEh ; CPU Status and Control Register #1 (#)
0080 CPU_SCR1_IRESS: equ 80h ; MASK: Boot Phase Re-entry bit
0010 CPU_SCR1_SLIMO: equ 10h ; MASK: Slow Main Oscillator Mode
0008 CPU_SCR1_ECO_ALWD_WR: equ 08h ; MASK: flag, ECO allowed has been written
0004 CPU_SCR1_ECO_ALLOWED: equ 04h ; MASK: ECO allowed to be enabled
0001 CPU_SCR1_IRAMDIS: equ 01h ; MASK: Disable RAM initialization on WDR
0000
00FF CPU_SCR0: equ 0FFh ; CPU Status and Control Register #2 (#)
0080 CPU_SCR0_GIE_MASK: equ 80h ; MASK: Global Interrupt Enable shadow
0020 CPU_SCR0_WDRS_MASK: equ 20h ; MASK: Watch Dog Timer Reset
0010 CPU_SCR0_PORS_MASK: equ 10h ; MASK: power-on reset bit PORS
0008 CPU_SCR0_SLEEP_MASK: equ 08h ; MASK: Enable Sleep
0001 CPU_SCR0_STOP_MASK: equ 01h ; MASK: Halt CPU bit
0000
0000
0000 ;;=============================================================================
0000 ;; Register Space, Bank 1
0000 ;;=============================================================================
0000
0000 ;------------------------------------------------
0000 ; Port Registers
0000 ; Note: Also see this address range in Bank 0.
0000 ;------------------------------------------------
0000 ; Port 0
0000 PRT0DM0: equ 00h ; Port 0 Drive Mode 0 (RW)
0001 PRT0DM1: equ 01h ; Port 0 Drive Mode 1 (RW)
0002 PRT0IC0: equ 02h ; Port 0 Interrupt Control 0 (RW)
0003 PRT0IC1: equ 03h ; Port 0 Interrupt Control 1 (RW)
0000
0000 ; Port 1
0004 PRT1DM0: equ 04h ; Port 1 Drive Mode 0 (RW)
0005 PRT1DM1: equ 05h ; Port 1 Drive Mode 1 (RW)
0006 PRT1IC0: equ 06h ; Port 1 Interrupt Control 0 (RW)
0007 PRT1IC1: equ 07h ; Port 1 Interrupt Control 1 (RW)
0000
0000 ; Port 2
0008 PRT2DM0: equ 08h ; Port 2 Drive Mode 0 (RW)
0009 PRT2DM1: equ 09h ; Port 2 Drive Mode 1 (RW)
000A PRT2IC0: equ 0Ah ; Port 2 Interrupt Control 0 (RW)
000B PRT2IC1: equ 0Bh ; Port 2 Interrupt Control 1 (RW)
0000
0000 ; Port 3
000C PRT3DM0: equ 0Ch ; Port 3 Drive Mode 0 (RW)
000D PRT3DM1: equ 0Dh ; Port 3 Drive Mode 1 (RW)
000E PRT3IC0: equ 0Eh ; Port 3 Interrupt Control 0 (RW)
000F PRT3IC1: equ 0Fh ; Port 3 Interrupt Control 1 (RW)
0000
0000 ; Port 4
0010 PRT4DM0: equ 10h ; Port 4 Drive Mode 0 (RW)
0011 PRT4DM1: equ 11h ; Port 4 Drive Mode 1 (RW)
0012 PRT4IC0: equ 12h ; Port 4 Interrupt Control 0 (RW)
0013 PRT4IC1: equ 13h ; Port 4 Interrupt Control 1 (RW)
0000
0000 ; Port 5
0014 PRT5DM0: equ 14h ; Port 5 Drive Mode 0 (RW)
0015 PRT5DM1: equ 15h ; Port 5 Drive Mode 1 (RW)
0016 PRT5IC0: equ 16h ; Port 5 Interrupt Control 0 (RW)
0017 PRT5IC1: equ 17h ; Port 5 Interrupt Control 1 (RW)
0000
0000 ; Port 6
0018 PRT6DM0: equ 18h ; Port 6 Drive Mode 0 (RW)
0019 PRT6DM1: equ 19h ; Port 6 Drive Mode 1 (RW)
001A PRT6IC0: equ 1Ah ; Port 6 Interrupt Control 0 (RW)
001B PRT6IC1: equ 1Bh ; Port 6 Interrupt Control 1 (RW)
0000
0000 ; Port 7
001C PRT7DM0: equ 1Ch ; Port 7 Drive Mode 0 (RW)
001D PRT7DM1: equ 1Dh ; Port 7 Drive Mode 1 (RW)
001E PRT7IC0: equ 1Eh ; Port 7 Interrupt Control 0 (RW)
001F PRT7IC1: equ 1Fh ; Port 7 Interrupt Control 1 (RW)
0000
0000 ;------------------------------------------------
0000 ; Digital PSoC(tm) block Registers
0000 ; Note: Also see this address range in Bank 0.
0000 ;------------------------------------------------
0000
0000 ; Digital PSoC block 00, Basic Type B
0020 DBB00FN: equ 20h ; Function Register (RW)
0021 DBB00IN: equ 21h ; Input Register (RW)
0022 DBB00OU: equ 22h ; Output Register (RW)
0000
0000 ; Digital PSoC block 01, Basic Type B
0024 DBB01FN: equ 24h ; Function Register (RW)
0025 DBB01IN: equ 25h ; Input Register (RW)
0026 DBB01OU: equ 26h ; Output Register (RW)
0000
0000 ; Digital PSoC block 02, Communications Type B
0028 DCB02FN: equ 28h ; Function Register (RW)
0029 DCB02IN: equ 29h ; Input Register (RW)
002A DCB02OU: equ 2Ah ; Output Register (RW)
0000
0000 ; Digital PSoC block 03, Communications Type B
002C DCB03FN: equ 2Ch ; Function Register (RW)
002D DCB03IN: equ 2Dh ; Input Register (RW)
002E DCB03OU: equ 2Eh ; Output Register (RW)
0000
0000 ; Digital PSoC block 10, Basic Type B
0030 DBB10FN: equ 30h ; Function Register (RW)
0031 DBB10IN: equ 31h ; Input Register (RW)
0032 DBB10OU: equ 32h ; Output Register (RW)
0000
0000 ; Digital PSoC block 11, Basic Type B
0034 DBB11FN: equ 34h ; Function Register (RW)
0035 DBB11IN: equ 35h ; Input Register (RW)
0036 DBB11OU: equ 36h ; Output Register (RW)
0000
0000 ; Digital PSoC block 12, Communications Type B
0038 DCB12FN: equ 38h ; Function Register (RW)
0039 DCB12IN: equ 39h ; Input Register (RW)
003A DCB12OU: equ 3Ah ; Output Register (RW)
0000
0000 ; Digital PSoC block 13, Communications Type B
003C DCB13FN: equ 3Ch ; Function Register (RW)
003D DCB13IN: equ 3Dh ; Input Register (RW)
003E DCB13OU: equ 3Eh ; Output Register (RW)
0000
0000 ; Digital PSoC block 20, Basic Type B
0040 DBB20FN: equ 40h ; Function Register (RW)
0041 DBB20IN: equ 41h ; Input Register (RW)
0042 DBB20OU: equ 42h ; Output Register (RW)
0000
0000 ; Digital PSoC block 21, Basic Type B
0044 DBB21FN: equ 44h ; Function Register (RW)
0045 DBB21IN: equ 45h ; Input Register (RW)
0046 DBB21OU: equ 46h ; Output Register (RW)
0000
0000 ; Digital PSoC block 22, Communications Type B
0048 DCB22FN: equ 48h ; Function Register (RW)
0049 DCB22IN: equ 49h ; Input Register (RW)
004A DCB22OU: equ 4Ah ; Output Register (RW)
0000
0000 ; Digital PSoC block 23, Communications Type B
004C DCB23FN: equ 4Ch ; Function Register (RW)
004D DCB23IN: equ 4Dh ; Input Register (RW)
004E DCB23OU: equ 4Eh ; Output Register (RW)
0000
0000 ; Digital PSoC block 30, Basic Type B
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