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ARM720T
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Contents
Main
CORE CPU MANUAL
ARM720T Revision 4
(AMBA AHB Bus Interface Version)
Page
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Contents
Preface 1 Introduction
2 Programmers Model
3 Configuration
4 Instruction and Data Cache
7 Memory Management Unit
8 Coprocessor Interface
9 Debugging Your System
10 ETM Interface
11 Test Support
Glossary Index
List of Figures
Page
List of Tables
Page
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Page
Preface
About this document
Coprocessor Interface
Debugging Your System
italic
Signal Descriptions
Test Support
Timing diagram conventions
AMBA Specification (Rev 2.0)
Further reading
Standard Test Access Port and Boundary Scan Architecture
ARM7TDMI-S (Rev 4) Technical Reference Manual
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1
1.1 About the ARM720T processor
Reduced Instruction Set Computer
Embedded Trace Macrocell
Direct Memory Access
A block diagram of the ARM720T processor is shown in Figure 1-1.
Figure 1-1 720T Block diagram
ARM720T CORE CPU MANUAL EPSON 1-3
The functional signals on the ARM720T processor are shown in Figure 1-2.
Figure 1-2 ARM720T processor functional signals
1.1.1 EmbeddedICE-RT logic
Debug Communications Channel
Joint Test Action Group
(JTAG) test access port.
Debugging Your System
1.2 Coprocessors
Configuration
1.3 About the instruction set
1.3.1 Format summary
ARM instruction set
Thumb instruction set
ARM Architecture Reference Manual
ARM720T CORE CPU MANUAL EPSON 1-7
1.3.2 ARM instruction set
. The ARM instruction set formats are shown in Figure 1-3.
Figure 1-3 ARM instruction set formats
Note: Some instruction codes are not defined but do not cause the Undefined instruction
The ARM instruction set summary is shown in Table 1-2. Table 1-2 ARM inst ru ctio n su mm ary
Table1-2 ARM inst ru ctio n su mm ary (contin ue d)
Addressing mode 2, <a_mode2>, is shown in Table 1-3.
Table1-3 Addressing mode 2
Table1-2 ARM instruction summary (continued)
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Condition fields, {cond}, are shown in Table 1-11. Table1-11 Condition fields
1-14 EPSON ARM720T CORE CPU MANUAL
1.3.3 Thumb instruction set
. The Thumb instruction set formats are shown in Figure 1-4.
Figure 1-4 Thumb instruction set formats
The Thumb instruction set summary is shown in Table 1-12. Table 1-12 Thumb instruction summary
Table1-12 Thumb instruction summary (continued)
prefetch buffer.
Table1-12 Thumb instruction summary (continued)
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2
2.1 Processor operating states
Fast Interrupt reQuest
Interrupt ReQuest
2.1.1 Switching between processor states
2.2 Memory formats
Big-endian format
Little-endian format
2.2.1 Big-endian format
2.2.2 Little-endian format
2.3 Instruction length
2.4 Data types
2.5 Operating modes
2.5.1 Changing operating modes
Current Program Status Register
Program Counter
Branch and Link
Figure 2-3 Register organization in ARM state
ARM state general registers and program counter
ARM state program status registers
2: Programmers Model
2-6 EPSON ARM720T CORE CPU MANUAL
2.6.2 The Thumb state register set
Saved Program Status Registers
Link Register
a
(SP)
2.6.3 The relationship between ARM and Thumb state registers
2.6.4 Accessing high registers in Thumb state
2.7 Program status registers
2.7.1 The condition code flags
2.7.2 The control bits
2.7.3 Reserved bits
2.8 Exceptions
Exception priorities
Exception restrictions
Exception priorities
Exception vectors
2.8.2 Action on leaving an exception
2.8.3 Exception entry and exit summary
2.8.4 Fast interrupt request
2.8.5 Interrupt request
2.8.6 Abort
External aborts
2.8.7 Software interrupt
2.8.8 Undefined instruction
2.8.9 Exception vectors
Control Register
2.8.10 Exception priorities
2.8.11 Exception restrictions
2.9 Relocation of low virtual addresses by the FCSE PID
Fast Context Switch Extension
Process IDentifier
2.10 Reset
Translation Lookaside Buffer
Write Buffer
2.11 Implementation-defined behavior of instructions
Indexed addressing on a Data Abort
Early termination
2.11.1 Indexed addressing on a Data Abort
2.11.2 Early termination
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3
3.1 About configuration
3.1.1 Compatibility
3.1.2 Notation
3.2 Internal coprocessor instructions
3.3 Registers
3.3.1 ID Register
3.3.2 Control Register
Interaction of the MMU and cache
3.3.3 Translation Table Base Register
3.3.4 Domain Access Control Register
3.3.5 Fault Status Register
Fault address and fault status registers
Fault Status Register
3.3.6 Fault Address Register
Fault Address Register
Translation Lookaside Buffer
3.3.7 Cache Operations Register
3.3.8 TLB Operations Register
3.3.9 Process Identifier Registers
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4
4.1 About the instruction and data cache
Instruction and Data Cache
4.1.1 IDC operation
4.1.2 Cachable bit
4.2 IDC validity
4.2.1 Software IDC flush
4.2.2 Doubly-mapped space
4.3 IDC enable, disable, and reset
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5
5.1 About the write buffer
Bufferable
5.1.1 Bufferable bit
5.2 Write buffer operation
5.2.1 Bufferable write
5.2.2 Unbufferable write
5.2.3 Read-lock-write
5.2.4 Reading from a noncachable area
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6
6.1 About the bus interface
AMBA specification
Advanced High-performance Bus
6.1.1 Summary of the AHB transfer mechanism
Address and control signals
AMBA Specification (Rev 2.0)
6.2 Bus interface signals
Tran sfer typ es
Reset
Bus clocking
Arbitration
The AHB bus master interface signals are shown in Figure 6-2.
Figure 6-2 AHB bus master interface
6.3 Transfer types
Page
6.4 Address and control signals
HADDR[31:0]
HPROT[3:0]
HBURST[2:0]
HWRITE
6.4.4 HBURST[2:0]
6.4.5 HPROT[3:0]
6.5 Slave transfer response signals
6.5.1 HREADY
6.5.2 HRESP[1:0]
6.6 Data buses
6.6.1 HWDATA[31:0]
6.6.2 HRDATA[31:0]
6.6.3 Endianness
6.7 Arbitration
6.7.1 HBUSREQ
6.7.2 HLOCK
6.7.3 HGRANT
6.8 Bus clocking
6.8.1 HCLK
6.8.2 HCLKEN
6.9 Reset
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7
Memory Management Unit
Modified Virtual Address
7.1 About the MMU
7.1.1 Access permissions and domains
7.1.2 Translated entries
7.2 MMU program-accessible registers
Configuration
7.3 Address translation
7.3.1 Translation Table Base Register
Translat ion Table Base
7: Memory Management Unit
ARM720T CORE CPU MANUAL EPSON 7-5
Figure 7-2 Translating page tables
Level one fetch
Level two fetch
7.3.2 Level one fetch
7.3.3 Level one descriptor
Level one descriptor bit assignments are shown in Table 7-2.
Table7-2 Level one de scripto r bits
Table7-3 Interpreting level one descripto r bits [1:0]
7.3.4 Section descriptor
7.3.5 Coarse page table descriptor
7.3.6 Fine page table descriptor
7.3.7 Translating section references
7.3.8 Level two descriptor
Page
7-12 EPSON ARM720T CORE CPU MANUAL
7.3.9 Translating large page references
TableindexTranslation base
Figure 7-10 shows the complete translation sequence for a 64KB large page.
ARM720T CORE CPU MANUAL EPSON 7-13
7.3.10 Translating small page references
TableindexTranslation base
Figure 7-11 shows the complete translation sequence for a 4KB small page.
7.3.11 Translating tiny page references
Domain access control
7.3.12 Subpages
7.4 MMU faults and CPU aborts
Fault address and fault status registers
7.5 Fault address and fault status registers
7.5.1 Fault Status
7.6 Domain access control
Access Permission
Table 7-10 shows how to interpret the
7.7 Fault checking sequence
Alignment fault
Permission fault
Domain fault
Translation fault
7.7.2 Translation fault
7.7.3 Domain fault
7.7.4 Permission fault
7.8 External aborts
Bus Interface Unit
Enabling the MMU
Disabling the MMU
7.9 Interaction of the MMU and cache
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8
8.1 About coprocessors
8.1.1 Coprocessor availability
8.2 Coprocessor interface signals
Pipeline-following signals
Privileged instructions
Undefined instructions
Not using an external coprocessor
8.3 Pipeline-following signals
all
8.4 Coprocessor interface handshaking
Coprocessor signaling
8.4.1 The coprocessor
8.4.2 The ARM720T core
8.4.3 Coprocessor signaling
8.4.4 Consequences of busy-waiting
8.4.5 Coprocessor register transfer instructions
8.4.6 Coprocessor data operations
8.4.7 Coprocessor load and store operations
8.5 Connecting coprocessors
8.5.1 Connecting a single coprocessor
.
8.5.2 Connecting multiple coprocessors
8.6 Not using an external coprocessor
8.7 STC operations
8.8 Undefined instructions
8.9 Privileged instructions
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9
9.1 About debugging your system
9.1.1 A typical debug system
ARM Debugger for Windows
9.2 Controlling debugging
The EmbeddedICE-RT macrocell
The TAP controller
9.2.1 Debug modes
debug state
Examining the core and the system in debug state
Store Multiple
Monitor mode debugging
9.3 Entry into debug state
9.3.1 Entry into debug state on breakpoint
9.3.2 Entry into debug state on watchpoint
Abort
9.3.3 Entry into debug state on debug request
Programming breakpoints
Programming watchpoints
9.3.4 Action of the ARM720T processor in debug state
9.3.5 Clocks
9.4 Debug interface
Standard Test Access Port and Boundary-Scan Architecture
9.4.1 Debug interface signals
9.5 ARM720T core clock domains
9.6 The EmbeddedICE-RT macrocell
Watchpoint unit registers
The debug communications channel
EmbeddedICE-RT timing
9.7 Disabling EmbeddedICE-RT
Debug
9.8 EmbeddedICE-RT register map
9.9 Monitor mode debugging
9.9.1 Enabling monitor mode
Debug
9.9.2 Restrictions on monitor-mode debugging
9.10 The debug communications channel
Debug Communication Channel
Domain Access Control Register
Communications through the DCC
9.10.1 Domain Access Control Register
Page
9.10.2 Communications through the DCC
9.11 Scan chains and the JTAG interface
Test Access Port
Test data registers
Standard Test Access Port and Boundary-Scan Architecture
9.11.1 Scan chain implementation
9.11.2 Controlling the JTAG interface
Instruction register
The TAP controller
Test Access Port
9.12 The TAP controller
9.12.1 Resetting the TAP controller
9.13 Public JTAG instructions
9.13.1 SCAN_N (b0010)
9.13.2 INTEST (b1100)
9.13.3 IDCODE (b1110)
ARM720T processor device identification (ID) code register
9.13.4 BYPASS (b1111)
9.13.5 RESTART (b0100)
Exit from debug state
9.14 Test data registers
Bypass register
Scan chain 2
Scan chain 1
Scan path select register
9.14.3 Instruction register
9.14.4 Scan path select register
9.14.5 Scan ch ains 1 and 2
System speed access
9.15 Scan timing
9.15.1 Scan chain 1 cells
9.16 Examining the core and the system in debug state
9.16.1 Determining the core state
9.16.2 Determining system state
Exit from debug state
9.17 Exit from debug state
The program counter during debug
9.18 The program counter during debug
Breakpoints
System speed access
Debug request
Watchpoint with another exception
9.18.3 Watchpoint with another exception
9.18.4 Debug request
9.18.5 System speed access
9.18.6 Summary of return address calculations
9.19 Priorities and exceptions
Data Aborts
The program counter during debug
Breakpoint with Prefetch Abort
Interrupts
9.20 Watchpoint unit registers
9.20.1 Programming and reading watchpoint registers
+
9.20.2 Using the data, and address mask registers
9.20.3 The watchpoint unit control registers
9.21 Programming breakpoints
Hardware breakpoints
Software breakpoints
Hardware breakpoints
9.21.1 Hardware breakpoints
9.21.2 Software breakpoints
9.22 Programming watchpoints
9.23 Abort status register
9.24 Debug control register
Watchpoint unit registers
9.24.1 Disabling interrupts
9.24.2 Forcing DBGRQ
9.24.3 Forcing DBGACK
9.25 Debug status register
9: Debugging Your System
9-42 EPSON ARM720T CORE CPU MANUAL
The structure of the debug control and status registers is shown in Figure 9-17.
Figure 9-17 Debug control and status register structure
9.26 Coupling breakpoints and watchpoints
9.26.1 Breakpoint and watchpoint coupling example
9.26.2 DBGRNG signal
9.27 EmbeddedICE-RT timing
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10.1 About the ETM interface
Embedded Trace Macrocell Specification
Embedded Trace Macrocell
10.2 Enabling and disabling the ETM7 interface
10.3 Connections between the ETM7 macrocell and the ARM720T processor
10.4 Clocks and resets
ETM7 Technical Reference Manual
ETM7 Technical Reference Manual
10.5 Debug request wiring
10.6 TAP interface wiring
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11
11.1 About the ARM720T test registers
MMU test registers and operations
Cache test registers and operations
Test State Register
11.2 Automatic Test Pattern Generation (ATPG)
Automatic Test Pattern Generation
11.2.1 ARM720T processor INTEST/EXTEST wrapper
11.3 Test State Register
11.4 Cache test registers and operations
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11.4.1 Addressing the CAM and RAM
Page
11.5 MMU test registers and operations
Translat ion Table Base
Fault Address Register
Fault Status Register
Domain Access Control
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11.5.1 Addressing the CAM, RAM1, and RAM2
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A
A.1 AMBA interface signals
A.2 Coprocessor interface signals
A.3 JTAG and test signals
A.4 Debugger signals
The debugger signal descriptions are shown in Table A-4.
TableA-4 De bugger signal descriptions
TableA-3 JTAG and test signal descriptions (continued)
A.5 Embedded trace macrocell interface signals
The ETM interface signals are shown in TableA-5.
TableA-5 ETM interface signal descriptions
TableA-4 Debugger signal descriptions
TableA-5 ETM interface signal descriptions (continued)
A.6 ATPG test signals
ATPG test signals used by the ARM720T processor are shown in TableA-6.
Miscellaneous signals used by the ARM720T processor are shown in Table A-7.
A.7 Miscellaneous signals
TableA-6 ATPG test signal descriptions
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Glossary
See also
See
monitor mode
halt mode
See
Monitor mode
See
Joint Test Action Group
See also
In-Circuit Emulator
Halt mode
See
See also
See
Saved PSR
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ARM DDI 0229B EPSON Index-1
Index
A
B
C
D
E
F
G
H
I
O
P
R
S
Index-4 EPSON ARM DDI 0229B
T
U
W
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ARM720T Revision 4
(AMBA AHB Bus Interface Version)