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/*----------------------------------------------------------------------------
 * file name: M68349.INC                                P. CADIC CNET/DSM/TAM/CAT
 *
 * MC68349 BCC  Board Support Package
 *
 * date: 31/07/97
 *
 * Description: EQUATES FOR 68349 DEVICES
 *
 * Modifications:
 *      - adapted for GNU CC by G.Montel 26/05/98
 *----------------------------------------------------------------------------*/
 
| -- SIM equates --
 
.equ    BASE_REG, 0x3FF00
.equ    BASE_SIM, 0xEFFFF000            | pour correction du bug 68349 sur IACK
 
.equ    SIM_MCR, 0x000                  | module configuration register
.equ    SIM_IDR, 0x002                  | processor identification register
.equ    SIM_SYNCR, 0x004                | clock synthesizer control register
.equ    SIM_AVR, 0x006                  | autovector register
.equ    SIM_RSR, 0x007                  | reset status register
 
| -- Port A
.equ    SIM_PORTA, 0x011                | port A data
.equ    SIM_DDRA, 0x013                 | port A direction data
.equ    SIM_PPRA1, 0x015                | Port A pin assignement 1
.equ    SIM_PPRA2, 0x017                | Port A pin assignement 2
 
| -- Port B
.equ    SIM_PORTB, 0x019                | port B data
.equ    SIM_PORTB1, 0x01B               | port B data auxiliary
.equ    SIM_DDRB, 0x01D                 | port B direction data
.equ    SIM_PPRB, 0x01F                 | Port B pin assignement
 
.equ    SIM_SWIV, 0x020    | SW interrupt vector
.equ    SIM_SYPCR, 0x021    | System protection control register
.equ    SIM_PICR, 0x022    | Periodic interrupt control register
.equ    SIM_PITR, 0x024    | Periodic interrupt timing register
.equ    SIM_SWSR, 0x027    | Sofware service
 
| -- Chip select
.equ    SIM_MASKH0, 0x040    | mask register CS0
.equ    SIM_MASKL0, 0x042    | mask register CS0
.equ    SIM_ADDRH0, 0x044    | base address CS0
.equ    SIM_ADDRL0, 0x046    | base address CS0
 
.equ    SIM_MASKH1, 0x048    | mask register CS1
.equ    SIM_MASKL1, 0x04A    | mask register CS1
.equ    SIM_ADDRH1, 0x04C    | base address CS1
.equ    SIM_ADDRL1, 0x04E    | base address CS1
 
.equ    SIM_MASKH2, 0x050    | mask register CS2
.equ    SIM_MASKL2, 0x052    | mask register CS2
.equ    SIM_ADDRH2, 0x054    | base address CS2
.equ    SIM_ADDRL2, 0x056    | base address CS2
 
.equ    SIM_MASKH3, 0x058    | mask register CS3
.equ    SIM_MASKL3, 0x05A    | mask register CS3
.equ    SIM_ADDRH3, 0x05C    | base address CS3
.equ    SIM_ADDRL3, 0x05E    | base address CS3
 
| -- TIMERS  equates --
 
| __ TIMER 0
 
.equ    TIM_MCR0, 0x600    | Module configuration register
.equ    TIM_IR0, 0x604    | interrupt register
.equ    TIM_CR0, 0x606    | controle register
.equ    TIM_SR0, 0x608    | Status/prescaler register
.equ    TIM_CNTR0, 0x60A    | counter register
.equ    TIM_PREL10, 0x60C    | Preload register 1
.equ    TIM_PREL20, 0x60E    | Preload register 2
.equ    TIM_COM0, 0x610    | Compare register
 
| __ TIMER 1
 
.equ    TIM_MCR1, 0x640    | Module configuration register
.equ    TIM_IR1, 0x644    | interrupt register
.equ    TIM_CR1, 0x646    | controle register
.equ    TIM_SR1, 0x648    | Status/prescaler register
.equ    TIM_CNTR1, 0x64A    | counter register
.equ    TIM_PREL11, 0x64C    | Preload register 1
.equ    TIM_PREL21, 0x64E    | Preload register 2
.equ    TIM_COM1, 0x650    | Compare register
 
| -- U.A.R.T.  equates --
 
.equ    UA_MCRH, 0x700    | module configuration register
.equ    UA_MCRL, 0x701    | module configuration register
.equ    UA_ILR, 0x704    | Interrupt level
.equ    UA_IVR, 0x705    | Interrupt vector
 
.equ    UA_MR1A, 0x710    | Mode register 1 A
.equ    UA_MR2A, 0x720    | Mode register 2 A
.equ    UA_CSRA, 0x711    | Clock_select regiter A
.equ    UA_SRA, 0x711    | status register A
.equ    UA_CRA, 0x712    | command register A
.equ    UA_RBA, 0x713    | receive buffer A
.equ    UA_TBA, 0x713    | transmit buffer A
 
.equ    UA_IPCR, 0x714    | input port change register
.equ    UA_ACR, 0x714    | auxiliary control register
.equ    UA_ISR, 0x715    | interrupt status register
.equ    UA_IER, 0x715    | interrupt enable register
 
.equ    UA_MR1B, 0x718    | Mode register 1 B
.equ    UA_MR2B, 0x721    | Mode register 2 B
.equ    UA_CSRB, 0x719    | Clock_select regiter B
.equ    UA_SRB, 0x719    | status register B
.equ    UA_CRB, 0x71A    | command register A
.equ    UA_RBB, 0x71B    | receive buffer A
.equ    UA_TBB, 0x71B    | transmit buffer A
 
.equ    UA_IP, 0x71D    | Input port register
.equ    UA_OPCR, 0x71D    | output port control register
.equ    UA_OPS, 0x71E    | output port bit set
.equ    UA_OPR, 0x71F    | output port bit reset
.equ    TX_A_EN, 0x01     | Tx A irq enable
.equ    TX_B_EN, 0x10     | Tx B irq enable
.equ    TX_A_DIS, 0xFE     | Tx A irq enable
.equ    TX_B_DIS, 0xEF     | Tx B irq enable
.equ    TX_AB_DIS, 0x22
 
 
| -- DMA equates
.equ    DMA_MCR0, 0x780    | module configuration register
.equ    DMA_IR0, 0x784    | Interrupt register
.equ    DMA_CCR0, 0x788    | Channel control register
.equ    DMA_CSR0, 0x78A    | Channel status register
.equ    DMA_FCR0, 0x78B    | Function code register
.equ    DMA_SARH0, 0x78C    | Source adresse register
.equ    DMA_SARL0, 0x78E    | Source adresse register
.equ    DMA_DARH0, 0x790    | destination adresse register
.equ    DMA_DARL0, 0x792    | destination adresse register
.equ    DMA_BTCH0, 0x794    | byte transfer register
.equ    DMA_BTCL0, 0x796    | byte transfer register
 
.equ    DMA_MCR1, 0x7A0    | module configuration register
.equ    DMA_IR1, 0x7A4    | Interrupt register
.equ    DMA_CCR1, 0x7A8    | Channel control register
.equ    DMA_CSR1, 0x7AA    | Channel status register
.equ    DMA_FCR1, 0x7AB    | Function code register
.equ    DMA_SARH1, 0x7AC    | Source adresse register
.equ    DMA_SARL1, 0x7AE    | Source adresse register
.equ    DMA_DARH1, 0x7B0    | destination adresse register
.equ    DMA_DARL1, 0x7B2    | destination adresse register
.equ    DMA_BTCH1, 0x7B4    | byte transfer register
.equ    DMA_BTCL1, 0x7B6    | byte transfer register
 
| -- cache equates
.equ    CACHE_MCR, 0xFC0        | cache config reg. (long)
 
| -- quad data memory module (QDMM) equates
.equ    QDMM_MCR, 0xC00         | QDMM config reg (long)
.equ    QDMM_QBAR0, 0xC10       | QDMM base 0 (long)
.equ    QDMM_QBAR1, 0xC14       | QDMM base 1 (long)
.equ    QDMM_QBAR2, 0xC18       | QDMM base 2 (long)
.equ    QDMM_QBAR3, 0xC1C       | QDMM base 3 (long)
 
 
 
|-----------------------------------------------------
| AST68349 internal registers
|-----------------------------------------------------
.equ    EPLD_SPACE, 3                           | "reserved user" space
.equ    CPU_SPACE, 7                            | "CPU" space
 
||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
| GLUE EPLD
||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
 
.equ    GLUE_EPLD, 0xB0000000
 
|~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
| configuration of /CS0 :
|
|                 7   6   5   4   3   2   1   0
|               +---+---+---+---+---+---+---+---+
|               |ena|val|wid| ws|b31|b30|b29|b28|
|               +---+---+---+---+---+---+---+---+
|
| b[31..28] : base address for decoding /CS[3..0]
|  the decoding is as follow :
|
|  +----------+------------+------+
|       | a[31..28] | a[27..26] | /CS  |
|       +-----------+-----------+------+
|       | b[31..28] |    00             | /CS0 |        each /CS decodes 64 Mbytes
|       | b[31..28] |    01             | /CS1 |
|       | b[31..28] |    10             | /CS2 |
|       | b[31..28] |    11             | /CS3 |
|       +-----------------------+------+
|
| after /RESET, /CS0 is validated for every cycle, until programmed
|
| ws : number of wait-states : 0 => 0 ws
|                              1 => external /dsackx
| wid : width of chip-select : 0 => 16 bits
|                              1 => 32 bits
| ena : enable chip-select   : 0 => disabled
|                              1 => enabled
|
| val : automatic validation. set after reset
| cleared when /CS0 is configured
|
.equ    REG_CS0, 0
 
 
|~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
| configuration of /CS1 to /CS3:
|
|                 7   6   5   4   3   2   1   0
|               +---+---+---+---+---+---+---+---+
|               |ena| x |wid| ws| x | x | x | x |
|               +---+---+---+---+---+---+---+---+
|
| ws : number of wait-states : 0 => 0 ws
|                              1 => external /dsackx
| wid : width of chip-select : 0 => 16 bits
|                              1 => 32 bits
| ena : enable chip-select   : 0 => disabled
|                              1 => enabled
.equ    REG_CS1, 1
.equ    REG_CS2, 2
.equ    REG_CS3, 3
 
|~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
| I2C register
|
|                 7   6   5   4   3   2   1   0
|               +---+---+---+---+---+---+---+----+
|               | x | x | x | x | x | x |clk|data|
|               +---+---+---+---+---+---+---+----+
| bidirecionnal pin, open drain output.
| set bit to 1 to read external state of pin
|
.equ    REG_I2C, 4
 
|~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
| PDCS register
|
|                 7   6   5   4   3   2   1   0
|               +---+---+---+---+---+---+---+---+
|               |s12|s11|s14|pd5|pd4|pd3|pd2|pd1|
|               +---+---+---+---+---+---+---+---+
| pd[5..1] : value read on the DRAM module
| S12, S11 and S14 : "user reserved" configuration switch
|
.equ    REG_PDCS, 5
 
|~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
| timer1 register
|
|                 7   6   5   4   3   2   1   0
|               +---+---+---+---+---+---+---+---+
|               |ena| x | x | x | x | x | d1| d0|
|               +---+---+---+---+---+---+---+---+
|
| the timer clock is the 1000Hz clock of the ASTECC platform
| the timer is reloaded on each write to the register, or if the input
| TIN1 is set to 0.
| on overflow, the open drain output TOUT1 is set to 0
| the timer must be disabled to return TOUT1 to the inactive state
|
.equ    REG_TIMER1, 6
 
|~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
| timer2 register
|
|                 7   6   5   4   3   2   1   0
|               +---+---+---+---+---+---+---+---+
|               |ena| x | x | x | x | x | d1| d0|
|               +---+---+---+---+---+---+---+---+
| the timer clock is the 1000Hz clock of the ASTECC platform
| the timer is reloaded on each write to the register, or if the input
| TIN2 is set to 0.
| on overflow, the open drain output TOUT2 is set to 0
| the timer must be disabled to return TOUT2 to the inactive state
|
.equ    REG_TIMER2, 7
 
|~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
| baudrate generator register
|
|                 7   6   5   4   3   2   1   0
|               +---+---+---+---+---+---+---+---+
|               | x | x | x | x | x | d2| d1| d0|
|               +---+---+---+---+---+---+---+---+
|
| d[2..0] : divider of a 3.6864 Mhz clock
|
| d[2..0]    :     0      1       2       3      4      5      6      7
| divides by :     2      4       6       8     10     12     14     16
| SCLK (Mhz) :  1.8432  0.9216  0.6144  0.4608   x    0.3072   x    0.2304
| baudrate   :  115200   57600  38400    28800   x     19200   x     14400
|
.equ    REG_BAUDRATE, 8
 
|~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
| IO register
|
|                 7   6   5   4   3   2   1   0
|               +---+---+---+---+---+---+---+---+
|               | x | x | x |io4|io3|io2|io1|io0|
|               +---+---+---+---+---+---+---+---+
|
| io[4..0] : data written to port
|
| maximum current load is about 5 mA per pin
|
.equ    REG_IO, 9
 
|~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
| IO port
|
|                 7   6   5   4   3   2   1   0
|               +---+---+---+---+---+---+---+---+
|               | x | x | x |io4|io3|io2|io1|io0|
|               +---+---+---+---+---+---+---+---+
|
| io[4..0] : data read from port
|
.equ    REG_IO_PORT, 10
 
|~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
| IO direction register
|
|                 7   6   5   4   3   2   1   0
|               +---+---+---+---+---+---+---+---+
|               | x | x | x | x | x |dr2|dr1|dr0|
|               +---+---+---+---+---+---+---+---+
|
| dr0 : 0 => io port 0 is configured as input (default after /RESET)
|       1 => io port 0 is configured as output
|
| dr1 : 0 => io port 1 is configured as input (default after /RESET)
|       1 => io port 1 is configured as output
|
| dr2 : 0 => io ports 2 to 4 are configured as input (default after /RESET)
|       1 => io ports 2 to 4 are configured as output
|
.equ    REG_DIR_IO, 11
 
 
 
 
||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
| DRAM EPLD
||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
 
.equ    DRAM_EPLD, 0xA0000000
 
|~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
| number of wait-state for DRAM
|
|                 7   6   5   4   3   2   1   0
|               +---+---+---+---+---+---+---+---+
|               | x | x | x | x | x | x |ws1|ws0|
|               +---+---+---+---+---+---+---+---+
|
| ws[1..0]    : 0   1   2   3
| wait states : 0   1   2   3
|
.equ    REG_WS, 0
 
|~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
| configuration of refresh for DRAM
|
|                 7   6   5   4   3   2   1   0
|               +---+---+---+---+---+---+---+---+
|               |ena| x | x | x | x | x |rf1|rf0|
|               +---+---+---+---+---+---+---+---+
|
|       rf[1..0] :  0   1    2    3
|       refresh  : 5�s 10�s 15�s 20�s
|
| ena == 0 : refresh disabled
| ena == 1 : refresh enabled
|
.equ    REG_REFRESH, 1
 
|~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
| configuration of DRAM module size
|
|                 7   6   5   4   3   2   1   0
|               +---+---+---+---+---+---+---+---+
|               | x | x | x | x | x |sz2|sz1|sz0|
|               +---+---+---+---+---+---+---+---+
|
|  sz[2..0]     : 0   1   2   3   4    5   6   7
|  size (Mbytes): 4   8   16  32  64  128  0   0
|
.equ    REG_CONFIG, 2
 
|~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
| bus width of /CS0 during reset                bw[1..0]  : 0   1   2       3
|                                   bus width : 32  16  8   ext. /dsackx
|
| state of CS_SWITCH  : sel == 0 => CPU chip_selects  (/CS[3..0])
|                     : sel == 1 => EPLD chip_selects (/CS[3..0])
|
|                 7   6   5   4   3   2   1   0
|               +---+---+---+---+---+---+---+---+
|               |bw1|bw0| x | x | x | x | x |sel|
|               +---+---+---+---+---+---+---+---+
|
.equ    REG_BUSWIDTH, 3
 

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[/] [openrisc/] [trunk/] [rtos/] [rtems/] [c/] [src/] [lib/] [libbsp/] [m68k/] [gen68340/] [include/] [m68349.inc] - Blame information for rev 173

Line No.	Rev	Author	Line
1	30	unneback	`/*----------------------------------------------------------------------------`
2			`* file name: M68349.INC P. CADIC CNET/DSM/TAM/CAT`
3			`*`
4			`* MC68349 BCC Board Support Package`
5			`*`
6			`* date: 31/07/97`
7			`*`
8			`* Description: EQUATES FOR 68349 DEVICES`
9			`*`
10			`* Modifications:`
11			`* - adapted for GNU CC by G.Montel 26/05/98`
12			`----------------------------------------------------------------------------/`
13
14			`\| -- SIM equates --`
15
16			`.equ BASE_REG, 0x3FF00`
17			`.equ BASE_SIM, 0xEFFFF000 \| pour correction du bug 68349 sur IACK`
18
19			`.equ SIM_MCR, 0x000 \| module configuration register`
20			`.equ SIM_IDR, 0x002 \| processor identification register`
21			`.equ SIM_SYNCR, 0x004 \| clock synthesizer control register`
22			`.equ SIM_AVR, 0x006 \| autovector register`
23			`.equ SIM_RSR, 0x007 \| reset status register`
24
25			`\| -- Port A`
26			`.equ SIM_PORTA, 0x011 \| port A data`
27			`.equ SIM_DDRA, 0x013 \| port A direction data`
28			`.equ SIM_PPRA1, 0x015 \| Port A pin assignement 1`
29			`.equ SIM_PPRA2, 0x017 \| Port A pin assignement 2`
30
31			`\| -- Port B`
32			`.equ SIM_PORTB, 0x019 \| port B data`
33			`.equ SIM_PORTB1, 0x01B \| port B data auxiliary`
34			`.equ SIM_DDRB, 0x01D \| port B direction data`
35			`.equ SIM_PPRB, 0x01F \| Port B pin assignement`
36
37			`.equ SIM_SWIV, 0x020 \| SW interrupt vector`
38			`.equ SIM_SYPCR, 0x021 \| System protection control register`
39			`.equ SIM_PICR, 0x022 \| Periodic interrupt control register`
40			`.equ SIM_PITR, 0x024 \| Periodic interrupt timing register`
41			`.equ SIM_SWSR, 0x027 \| Sofware service`
42
43			`\| -- Chip select`
44			`.equ SIM_MASKH0, 0x040 \| mask register CS0`
45			`.equ SIM_MASKL0, 0x042 \| mask register CS0`
46			`.equ SIM_ADDRH0, 0x044 \| base address CS0`
47			`.equ SIM_ADDRL0, 0x046 \| base address CS0`
48
49			`.equ SIM_MASKH1, 0x048 \| mask register CS1`
50			`.equ SIM_MASKL1, 0x04A \| mask register CS1`
51			`.equ SIM_ADDRH1, 0x04C \| base address CS1`
52			`.equ SIM_ADDRL1, 0x04E \| base address CS1`
53
54			`.equ SIM_MASKH2, 0x050 \| mask register CS2`
55			`.equ SIM_MASKL2, 0x052 \| mask register CS2`
56			`.equ SIM_ADDRH2, 0x054 \| base address CS2`
57			`.equ SIM_ADDRL2, 0x056 \| base address CS2`
58
59			`.equ SIM_MASKH3, 0x058 \| mask register CS3`
60			`.equ SIM_MASKL3, 0x05A \| mask register CS3`
61			`.equ SIM_ADDRH3, 0x05C \| base address CS3`
62			`.equ SIM_ADDRL3, 0x05E \| base address CS3`
63
64			`\| -- TIMERS equates --`
65
66			`\| __ TIMER 0`
67
68			`.equ TIM_MCR0, 0x600 \| Module configuration register`
69			`.equ TIM_IR0, 0x604 \| interrupt register`
70			`.equ TIM_CR0, 0x606 \| controle register`
71			`.equ TIM_SR0, 0x608 \| Status/prescaler register`
72			`.equ TIM_CNTR0, 0x60A \| counter register`
73			`.equ TIM_PREL10, 0x60C \| Preload register 1`
74			`.equ TIM_PREL20, 0x60E \| Preload register 2`
75			`.equ TIM_COM0, 0x610 \| Compare register`
76
77			`\| __ TIMER 1`
78
79			`.equ TIM_MCR1, 0x640 \| Module configuration register`
80			`.equ TIM_IR1, 0x644 \| interrupt register`
81			`.equ TIM_CR1, 0x646 \| controle register`
82			`.equ TIM_SR1, 0x648 \| Status/prescaler register`
83			`.equ TIM_CNTR1, 0x64A \| counter register`
84			`.equ TIM_PREL11, 0x64C \| Preload register 1`
85			`.equ TIM_PREL21, 0x64E \| Preload register 2`
86			`.equ TIM_COM1, 0x650 \| Compare register`
87
88			`\| -- U.A.R.T. equates --`
89
90			`.equ UA_MCRH, 0x700 \| module configuration register`
91			`.equ UA_MCRL, 0x701 \| module configuration register`
92			`.equ UA_ILR, 0x704 \| Interrupt level`
93			`.equ UA_IVR, 0x705 \| Interrupt vector`
94
95			`.equ UA_MR1A, 0x710 \| Mode register 1 A`
96			`.equ UA_MR2A, 0x720 \| Mode register 2 A`
97			`.equ UA_CSRA, 0x711 \| Clock_select regiter A`
98			`.equ UA_SRA, 0x711 \| status register A`
99			`.equ UA_CRA, 0x712 \| command register A`
100			`.equ UA_RBA, 0x713 \| receive buffer A`
101			`.equ UA_TBA, 0x713 \| transmit buffer A`
102
103			`.equ UA_IPCR, 0x714 \| input port change register`
104			`.equ UA_ACR, 0x714 \| auxiliary control register`
105			`.equ UA_ISR, 0x715 \| interrupt status register`
106			`.equ UA_IER, 0x715 \| interrupt enable register`
107
108			`.equ UA_MR1B, 0x718 \| Mode register 1 B`
109			`.equ UA_MR2B, 0x721 \| Mode register 2 B`
110			`.equ UA_CSRB, 0x719 \| Clock_select regiter B`
111			`.equ UA_SRB, 0x719 \| status register B`
112			`.equ UA_CRB, 0x71A \| command register A`
113			`.equ UA_RBB, 0x71B \| receive buffer A`
114			`.equ UA_TBB, 0x71B \| transmit buffer A`
115
116			`.equ UA_IP, 0x71D \| Input port register`
117			`.equ UA_OPCR, 0x71D \| output port control register`
118			`.equ UA_OPS, 0x71E \| output port bit set`
119			`.equ UA_OPR, 0x71F \| output port bit reset`
120			`.equ TX_A_EN, 0x01 \| Tx A irq enable`
121			`.equ TX_B_EN, 0x10 \| Tx B irq enable`
122			`.equ TX_A_DIS, 0xFE \| Tx A irq enable`
123			`.equ TX_B_DIS, 0xEF \| Tx B irq enable`
124			`.equ TX_AB_DIS, 0x22`
125
126
127			`\| -- DMA equates`
128			`.equ DMA_MCR0, 0x780 \| module configuration register`
129			`.equ DMA_IR0, 0x784 \| Interrupt register`
130			`.equ DMA_CCR0, 0x788 \| Channel control register`
131			`.equ DMA_CSR0, 0x78A \| Channel status register`
132			`.equ DMA_FCR0, 0x78B \| Function code register`
133			`.equ DMA_SARH0, 0x78C \| Source adresse register`
134			`.equ DMA_SARL0, 0x78E \| Source adresse register`
135			`.equ DMA_DARH0, 0x790 \| destination adresse register`
136			`.equ DMA_DARL0, 0x792 \| destination adresse register`
137			`.equ DMA_BTCH0, 0x794 \| byte transfer register`
138			`.equ DMA_BTCL0, 0x796 \| byte transfer register`
139
140			`.equ DMA_MCR1, 0x7A0 \| module configuration register`
141			`.equ DMA_IR1, 0x7A4 \| Interrupt register`
142			`.equ DMA_CCR1, 0x7A8 \| Channel control register`
143			`.equ DMA_CSR1, 0x7AA \| Channel status register`
144			`.equ DMA_FCR1, 0x7AB \| Function code register`
145			`.equ DMA_SARH1, 0x7AC \| Source adresse register`
146			`.equ DMA_SARL1, 0x7AE \| Source adresse register`
147			`.equ DMA_DARH1, 0x7B0 \| destination adresse register`
148			`.equ DMA_DARL1, 0x7B2 \| destination adresse register`
149			`.equ DMA_BTCH1, 0x7B4 \| byte transfer register`
150			`.equ DMA_BTCL1, 0x7B6 \| byte transfer register`
151
152			`\| -- cache equates`
153			`.equ CACHE_MCR, 0xFC0 \| cache config reg. (long)`
154
155			`\| -- quad data memory module (QDMM) equates`
156			`.equ QDMM_MCR, 0xC00 \| QDMM config reg (long)`
157			`.equ QDMM_QBAR0, 0xC10 \| QDMM base 0 (long)`
158			`.equ QDMM_QBAR1, 0xC14 \| QDMM base 1 (long)`
159			`.equ QDMM_QBAR2, 0xC18 \| QDMM base 2 (long)`
160			`.equ QDMM_QBAR3, 0xC1C \| QDMM base 3 (long)`
161
162
163
164			`\|-----------------------------------------------------`
165			`\| AST68349 internal registers`
166			`\|-----------------------------------------------------`
167			`.equ EPLD_SPACE, 3 \| "reserved user" space`
168			`.equ CPU_SPACE, 7 \| "CPU" space`
169
170			`\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|`
171			`\| GLUE EPLD`
172			`\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|`
173
174			`.equ GLUE_EPLD, 0xB0000000`
175
176			`\|~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~`
177			`\| configuration of /CS0 :`
178			`\|`
179			`\| 7 6 5 4 3 2 1 0`
180			`\| +---+---+---+---+---+---+---+---+`
181			`\| \|ena\|val\|wid\| ws\|b31\|b30\|b29\|b28\|`
182			`\| +---+---+---+---+---+---+---+---+`
183			`\|`
184			`\| b[31..28] : base address for decoding /CS[3..0]`
185			`\| the decoding is as follow :`
186			`\|`
187			`\| +----------+------------+------+`
188			`\| \| a[31..28] \| a[27..26] \| /CS \|`
189			`\| +-----------+-----------+------+`
190			`\| \| b[31..28] \| 00 \| /CS0 \| each /CS decodes 64 Mbytes`
191			`\| \| b[31..28] \| 01 \| /CS1 \|`
192			`\| \| b[31..28] \| 10 \| /CS2 \|`
193			`\| \| b[31..28] \| 11 \| /CS3 \|`
194			`\| +-----------------------+------+`
195			`\|`
196			`\| after /RESET, /CS0 is validated for every cycle, until programmed`
197			`\|`
198			`\| ws : number of wait-states : 0 => 0 ws`
199			`\| 1 => external /dsackx`
200			`\| wid : width of chip-select : 0 => 16 bits`
201			`\| 1 => 32 bits`
202			`\| ena : enable chip-select : 0 => disabled`
203			`\| 1 => enabled`
204			`\|`
205			`\| val : automatic validation. set after reset`
206			`\| cleared when /CS0 is configured`
207			`\|`
208			`.equ REG_CS0, 0`
209
210
211			`\|~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~`
212			`\| configuration of /CS1 to /CS3:`
213			`\|`
214			`\| 7 6 5 4 3 2 1 0`
215			`\| +---+---+---+---+---+---+---+---+`
216			`\| \|ena\| x \|wid\| ws\| x \| x \| x \| x \|`
217			`\| +---+---+---+---+---+---+---+---+`
218			`\|`
219			`\| ws : number of wait-states : 0 => 0 ws`
220			`\| 1 => external /dsackx`
221			`\| wid : width of chip-select : 0 => 16 bits`
222			`\| 1 => 32 bits`
223			`\| ena : enable chip-select : 0 => disabled`
224			`\| 1 => enabled`
225			`.equ REG_CS1, 1`
226			`.equ REG_CS2, 2`
227			`.equ REG_CS3, 3`
228
229			`\|~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~`
230			`\| I2C register`
231			`\|`
232			`\| 7 6 5 4 3 2 1 0`
233			`\| +---+---+---+---+---+---+---+----+`
234			`\| \| x \| x \| x \| x \| x \| x \|clk\|data\|`
235			`\| +---+---+---+---+---+---+---+----+`
236			`\| bidirecionnal pin, open drain output.`
237			`\| set bit to 1 to read external state of pin`
238			`\|`
239			`.equ REG_I2C, 4`
240
241			`\|~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~`
242			`\| PDCS register`
243			`\|`
244			`\| 7 6 5 4 3 2 1 0`
245			`\| +---+---+---+---+---+---+---+---+`
246			`\| \|s12\|s11\|s14\|pd5\|pd4\|pd3\|pd2\|pd1\|`
247			`\| +---+---+---+---+---+---+---+---+`
248			`\| pd[5..1] : value read on the DRAM module`
249			`\| S12, S11 and S14 : "user reserved" configuration switch`
250			`\|`
251			`.equ REG_PDCS, 5`
252
253			`\|~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~`
254			`\| timer1 register`
255			`\|`
256			`\| 7 6 5 4 3 2 1 0`
257			`\| +---+---+---+---+---+---+---+---+`
258			`\| \|ena\| x \| x \| x \| x \| x \| d1\| d0\|`
259			`\| +---+---+---+---+---+---+---+---+`
260			`\|`
261			`\| the timer clock is the 1000Hz clock of the ASTECC platform`
262			`\| the timer is reloaded on each write to the register, or if the input`
263			`\| TIN1 is set to 0.`
264			`\| on overflow, the open drain output TOUT1 is set to 0`
265			`\| the timer must be disabled to return TOUT1 to the inactive state`
266			`\|`
267			`.equ REG_TIMER1, 6`
268
269			`\|~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~`
270			`\| timer2 register`
271			`\|`
272			`\| 7 6 5 4 3 2 1 0`
273			`\| +---+---+---+---+---+---+---+---+`
274			`\| \|ena\| x \| x \| x \| x \| x \| d1\| d0\|`
275			`\| +---+---+---+---+---+---+---+---+`
276			`\| the timer clock is the 1000Hz clock of the ASTECC platform`
277			`\| the timer is reloaded on each write to the register, or if the input`
278			`\| TIN2 is set to 0.`
279			`\| on overflow, the open drain output TOUT2 is set to 0`
280			`\| the timer must be disabled to return TOUT2 to the inactive state`
281			`\|`
282			`.equ REG_TIMER2, 7`
283
284			`\|~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~`
285			`\| baudrate generator register`
286			`\|`
287			`\| 7 6 5 4 3 2 1 0`
288			`\| +---+---+---+---+---+---+---+---+`
289			`\| \| x \| x \| x \| x \| x \| d2\| d1\| d0\|`
290			`\| +---+---+---+---+---+---+---+---+`
291			`\|`
292			`\| d[2..0] : divider of a 3.6864 Mhz clock`
293			`\|`
294			`\| d[2..0] : 0 1 2 3 4 5 6 7`
295			`\| divides by : 2 4 6 8 10 12 14 16`
296			`\| SCLK (Mhz) : 1.8432 0.9216 0.6144 0.4608 x 0.3072 x 0.2304`
297			`\| baudrate : 115200 57600 38400 28800 x 19200 x 14400`
298			`\|`
299			`.equ REG_BAUDRATE, 8`
300
301			`\|~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~`
302			`\| IO register`
303			`\|`
304			`\| 7 6 5 4 3 2 1 0`
305			`\| +---+---+---+---+---+---+---+---+`
306			`\| \| x \| x \| x \|io4\|io3\|io2\|io1\|io0\|`
307			`\| +---+---+---+---+---+---+---+---+`
308			`\|`
309			`\| io[4..0] : data written to port`
310			`\|`
311			`\| maximum current load is about 5 mA per pin`
312			`\|`
313			`.equ REG_IO, 9`
314
315			`\|~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~`
316			`\| IO port`
317			`\|`
318			`\| 7 6 5 4 3 2 1 0`
319			`\| +---+---+---+---+---+---+---+---+`
320			`\| \| x \| x \| x \|io4\|io3\|io2\|io1\|io0\|`
321			`\| +---+---+---+---+---+---+---+---+`
322			`\|`
323			`\| io[4..0] : data read from port`
324			`\|`
325			`.equ REG_IO_PORT, 10`
326
327			`\|~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~`
328			`\| IO direction register`
329			`\|`
330			`\| 7 6 5 4 3 2 1 0`
331			`\| +---+---+---+---+---+---+---+---+`
332			`\| \| x \| x \| x \| x \| x \|dr2\|dr1\|dr0\|`
333			`\| +---+---+---+---+---+---+---+---+`
334			`\|`
335			`\| dr0 : 0 => io port 0 is configured as input (default after /RESET)`
336			`\| 1 => io port 0 is configured as output`
337			`\|`
338			`\| dr1 : 0 => io port 1 is configured as input (default after /RESET)`
339			`\| 1 => io port 1 is configured as output`
340			`\|`
341			`\| dr2 : 0 => io ports 2 to 4 are configured as input (default after /RESET)`
342			`\| 1 => io ports 2 to 4 are configured as output`
343			`\|`
344			`.equ REG_DIR_IO, 11`
345
346
347
348
349			`\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|`
350			`\| DRAM EPLD`
351			`\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|\|`
352
353			`.equ DRAM_EPLD, 0xA0000000`
354
355			`\|~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~`
356			`\| number of wait-state for DRAM`
357			`\|`
358			`\| 7 6 5 4 3 2 1 0`
359			`\| +---+---+---+---+---+---+---+---+`
360			`\| \| x \| x \| x \| x \| x \| x \|ws1\|ws0\|`
361			`\| +---+---+---+---+---+---+---+---+`
362			`\|`
363			`\| ws[1..0] : 0 1 2 3`
364			`\| wait states : 0 1 2 3`
365			`\|`
366			`.equ REG_WS, 0`
367
368			`\|~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~`
369			`\| configuration of refresh for DRAM`
370			`\|`
371			`\| 7 6 5 4 3 2 1 0`
372			`\| +---+---+---+---+---+---+---+---+`
373			`\| \|ena\| x \| x \| x \| x \| x \|rf1\|rf0\|`
374			`\| +---+---+---+---+---+---+---+---+`
375			`\|`
376			`\| rf[1..0] : 0 1 2 3`
377			`\| refresh : 5�s 10�s 15�s 20�s`
378			`\|`
379			`\| ena == 0 : refresh disabled`
380			`\| ena == 1 : refresh enabled`
381			`\|`
382			`.equ REG_REFRESH, 1`
383
384			`\|~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~`
385			`\| configuration of DRAM module size`
386			`\|`
387			`\| 7 6 5 4 3 2 1 0`
388			`\| +---+---+---+---+---+---+---+---+`
389			`\| \| x \| x \| x \| x \| x \|sz2\|sz1\|sz0\|`
390			`\| +---+---+---+---+---+---+---+---+`
391			`\|`
392			`\| sz[2..0] : 0 1 2 3 4 5 6 7`
393			`\| size (Mbytes): 4 8 16 32 64 128 0 0`
394			`\|`
395			`.equ REG_CONFIG, 2`
396
397			`\|~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~`
398			`\| bus width of /CS0 during reset bw[1..0] : 0 1 2 3`
399			`\| bus width : 32 16 8 ext. /dsackx`
400			`\|`
401			`\| state of CS_SWITCH : sel == 0 => CPU chip_selects (/CS[3..0])`
402			`\| : sel == 1 => EPLD chip_selects (/CS[3..0])`
403			`\|`
404			`\| 7 6 5 4 3 2 1 0`
405			`\| +---+---+---+---+---+---+---+---+`
406			`\| \|bw1\|bw0\| x \| x \| x \| x \| x \|sel\|`
407			`\| +---+---+---+---+---+---+---+---+`
408			`\|`
409			`.equ REG_BUSWIDTH, 3`
410