SuperH Family E10A Emulator
Additional Document for User’s Manual
SH7630 E10A
HS7630KCM02HE
Renesas Microcomputer Development Environment System
SuperH Family / SH7600 Series
Specific Guide for the SH7630 E10A Emulator
Rev.1.00
2003.7.3
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Contents
Section 1 Connecting the Emulator with the User System................................1
1.1 Components of the Emulator ............................................................................................1
1.2 Connecting the E10A Emulator with the User System .....................................................4
1.3 Installing the H-UDI Port Connector on the User System ................................................5
1.4 Pin Arrangement of the H-UDI Port Connector................................................................5
1.5 Recommended Circuit between the H-UDI Port Connector and the MPU.......................8
1.5.1 Recommended Circuit (36-Pin Type)..................................................................8
1.5.2 Recommended Circuit (14-Pin Type)..................................................................10
Section 2 Specifications of the SH7630 E10A Emulator’s Software................13
2.1 Differences between the SH7630 and the Emulator .........................................................13
2.2 Specific Functions for the SH7630 E10A Emulator .........................................................16
2.2.1 Emulator Driver Selection ...................................................................................16
2.2.2 Break Condition Functions ..................................................................................16
2.2.3 Trace Functions....................................................................................................18
2.2.4 Notes on Using the JTAG Clock (TCK) and AUD Clock (AUDCK) .................24
2.2.5 Notes on Setting the [Breakpoint] Dialog Box ....................................................24
2.2.6 Notes on Setting the [Break Condition] Dialog Box and
BREAKCONDITION_SET Command ...............................................................25
2.2.7 Notes on Setting the UBC_MODE Command.....................................................26
2.2.8 Performance Measurement Function ...................................................................26
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Section 1 Connecting the Emulator with the User System
1.1
Components of the Emulator
The SH7630 E10A emulator supports the SH7630. Table 1.1 lists the components of the emulator.
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Table 1.1 Components of the Emulator (HS7630KCM01H, HS7630KCM02H,
HS7630KCI01H, or HS7630KCI02H)
Classi-
fication Component
Quan-
tity
Appearance
Remarks
Hard-
ware
Card emulator
1
HS7630KCM01H
(PCMCIA: 14-pin type):
PC
PC
Card
Depth: 85.6 mm, Width: 54.0 mm,
Height: 5.0 mm, Mass: 27.0 g
(PCMCIA)
or
HS7630KCM02H
(PCMCIA: 36-pin type):
Depth: 85.6 mm, Width: 54.0 mm,
Height: 5.0 mm, Mass: 28.0 g
HS7630KCI01H
(PCI: 14-pin type):
Depth: 122.0 mm, Width: 96.0
mm, Mass: 80.0 g
(PCI)
HS7630KCI02H
(PCI: 36-pin type):
Depth: 122.0 mm, Width: 96.0
mm, Mass: 90.0 g
User system interface
cable
1
HS7630KCM01H
(PCMCIA: 14-pin type):
Length: 80 cm, Mass: 45.0 g
HS7630KCM02H
(PCMCIA: 36-pin type):
Length: 30 cm, Mass: 55.0 g
HS7630KCI01H
(PCI: 14-pin type):
Length: 150 cm, Mass: 86.0 g
HS7630KCI02H
(PCI: 36-pin type):
Length: 80 cm, Mass: 69.0 g
Ferrite core
(connected with the
user interface cable)
1
1
Countermeasure for EMI*
(only for HS7630KCM02H and
HS7630KCI02H)
Soft-
ware
SH7630 E10A
emulator setup
program,
HS7630KCM01SR,
SH Family E10A
Emulator User’s
Manual, and
HS0005KCM01HJ,
HS0005KCM01HE,
Specific Guide to the
SH7630 E10A
Emulator
HS7630KCM02HJ, and
HS7630KCM02HE
(provided on a CD-R)
Note: The EMI is an abbreviation of the Electrical Magnetic Interference.
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For EMI countermeasure, use the ferrite core by connecting the user interface cable.
When the user interface cable is connected with the emulator or user system, connect the ferrite
core in the user system as shown in figure 1.1.
Host computer (PC with PC card slot)
User system
E10A emulator
PC
PC
Card
User system connector
Ferrite core
PC card slot
User interface cable
Figure 1.1 Connecting Ferrite Core
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1.2
Connecting the E10A Emulator with the User System
To connect the E10A emulator (hereinafter referred to as the emulator), the H-UDI port connector
must be installed on the user system to connect the user system interface cable. When designing
the user system, refer to the recommended circuit between the H-UDI port connector and the
MCU. In addition, read the E10A emulator user's manual and hardware manual for the related
device.
Table 1.2 shows the type number of the E10A emulator, the corresponding connector type, and the
use of AUD function.
Table 1.2 Type Number, AUD Function, and Connector Type
Type Number
Connector
AUD Function
Available
HS7630KCM02H, HS7630KCI02H
HS7630KCM01H, HS7630KCI01H
36-pin connector
14-pin connector
Not available
The H-UDI port connector has the 36-pin and 14-pin types as described below. Use them
according to the purpose of the usage.
1. 36-pin type (with AUD function)
The AUD trace function is supported. A large amount of trace information can be acquired in
realtime. The E10A emulator supports the window trace function that memory access
(memory access address or memory access data) in the specified range can be acquired by
tracing.
2. 14-pin type (without AUD function)
The AUD trace function cannot be used because only the H-UDI function is supported. For
tracing, only the internal trace function is supported. Since the 14-pin type connector is
smaller than the 36-pin type (1/2.5), the area where the connector is installed on the user
system can be reduced.
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1.3
Installing the H-UDI Port Connector on the User System
Table 1.3 shows the recommended H-UDI port connectors for the emulator.
Table 1.3 Recommended H-UDI Port Connectors
Connector
Type Number
Manufacturer
Specifications
Screw type
36-pin connector DX10M-36S
Hirose Electric Co., Ltd.
DX10M-36SE,
Lock-pin type
DX10G1M-36SE
14-pin connector 2514-6002
Minnesota Mining &
Manufacturing Ltd.
14-pin straight type
Note: When the 36-pin connector is used, do not connect any components under the H-UDI
connector. When the 14-pin connector is used, do not install any components within 3 mm
of the H-UDI port connector.
1.4
Pin Arrangement of the H-UDI Port Connector
Figures 1.2 and 1.3 show the pin arrangement of the 36-pin and 14-pin H-UDI port connectors,
respectively.
Note: Note that the pin number assignment of the H-UDI port connector shown below differs
from that of the connector manufacturer.
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Pin
No.
Pin
No.
SH7630
Pin No.
Input/
Output
Input/
Output
SH7630
Pin No.
Note
*1
*1
Signal
Note
Signal
TMS
1
AUDCK
Output
Output
85
19
20
Input
Input
28
2
3
4
GND
GND
*2
AUDATA0
GND
86
21
22
/TRST
GND
24
5
6
AUDATA1
GND
Output
Output
Output
87
90
91
23
24
TDI
Input
26
25
7
GND
7
8
AUDATA2
GND
25
26
TDO
GND
Output
*2
9
AUDATA3
GND
27
28
/ASEBRKAK Output
GND
10
*2
11
12
/AUDSYNC
GND
Output
92
29
30
NC
Pulled-up
User reset
GND
*2
13
14
15
16
NC
31
32
/RESETP
GND
Output
Output
141
GND
NC
*3
33
34
GND
GND
GND
17
18
TCK
Input
27
35
36
NC
GND
GND
Notes:
1. Input to or output from the user system.
2. The slash (/) means that the signal is active-low.
3. The emulator monitors the GND signal of the user system and detects
whether or not the user system is connected.
Edge of the board
(connected to the connector)
H-UDI port connector
(top view)
4
+0.2
0
2
+0.1
0
36
φ
2.8
φ
0.7
(Pin 1 mark)
3
35
1
1.27
M2.6 x 0.45
4.09
21.59
37.61
43.51
: Pattern inhibited area
H-UDI port connector (top view)
H-UDI port connector (front view)
Unit: mm
Figure 1.2 Pin Arrangement of the H-UDI Port Connector (36 Pins)
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Input/
Output*1
SH7630 Pin No. Note
Pin No. Signal
1
2*2
TCK
Input
27
24
25
7
/TRST
TDO
Input
3
Output
4*2
5
/ASEBRKAK Output
TMS
Input
28
26
141
6
TDI
Input
7*2
11
/RESETP
Not
Output
Pulled-up
connected
8 to 10 GND
12 to 13
14*3
GND
Output
Notes:
1. Input to or output from the user system.
2. The slash (/) means that the signal is active-low.
3. The emulator monitors the GND signal of the user system
and detects whether the user system is connected or not.
Pin 1 mark
H-UDI port connector (top view)
25.0
23.0
6 x 2.54 = 15.24
H-UDI port connector
(top view)
(2.54)
Pin 8
Pin 1
Pin 14
Pin 7
0.45
Pin 1 mark
Unit: mm
Figure 1.3 Pin Arrangement of the H-UDI Port Connector (14 Pins)
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1.5
Recommended Circuit between the H-UDI Port Connector and the
MPU
1.5.1
Recommended Circuit (36-Pin Type)
Figure 1.4 shows a recommended circuit between the H-UDI port connector (36 pins) and the
MPU.
Notes: 1. Do not connect anything to the N.C. pin of the H-UDI port connector.
2. The processing of the /ASEMD0 pin differs depending on whether the emulator is used
or not. As the emulator does not control this pin, it must be controlled by a switch on
the board.
(1)
(2)
When the emulator is used: /ASEMD0 = low (ASE mode)
When the emulator is not used: /ASEMD0 = high (normal mode)
3. The reset signal in the user system is input to the /RESETP pin of the MPU. Connect
this signal to the H-UDI port connector as the output from the user system.
4. When a joined resistance is used for pull-up, it may be affected by a noise. Separate
TCK from other resistances.
5. When the emulator is in use, pin 29 of the H-UDI connector must be pulled up by a
resistance of several kilo-ohms.
6. The pattern between the H-UDI connector and the MPU must be as short as possible.
Do not connect the signal lines to other components on the board.
7. The resistance values shown in figure 1.4 are recommended.
8. For the pin processing in cases where the emulator is not used, refer to the hardware
manual of the related device.
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VccQ (3.3 V)
VccQ (3.3 V)
H-UDI port connector
(36-pin type)
SH7630
AUDCK
4.7 kΩ
4.7 kΩ
1
2
GND
GND
GND
AUDCK
AUDATA0
AUDATA1
4
3
5
AUDATA0
AUDATA1
6
8
7
GND AUDATA2
GND AUDATA3
AUDATA2
AUDATA3
AUDSYNC
9
10
12
11
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
AUDSYNC
N.C.
13
15
17
19
21
14
16
18
20
N.C.
TCK
TMS
TCK
TMS
22
TRST
TRST
23
25
27
24
26
28
TDI
TDO
TDI
TDO
ASEBRKAK
NC
ASEBRKAK
29
31
33
35
30
32
34
36
RESET
RESETP
ASEMD0
GND
N.C.
Reset signal
1 kΩ
Figure 1.4 Recommended Circuit for Connection between the H-UDI Port Connector and
MPU (36-Pin Type)
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1.5.2
Recommended Circuit (14-Pin Type)
Figure 1.5 shows a recommended circuit between the H-UDI port connector and the MPU.
Notes: 1. Do not connect anything to the N.C. pin of the H-UDI port connector.
2. The processing of the /ASEMD0 pin differs depending on whether the emulator is
used or not. As the emulator does not control this pin, it must be controlled by a
switch on the board.
(1) When the emulator is used: /ASEMD0 = low (ASE mode)
(2) When the emulator is not used: /ASEMD0 = high (normal mode)
3. The reset signal in the user system is input to the /RESETP pin of the MPU. Connect
this signal to the H-UDI port connector as the output from the user system.
4. When a joined resistance is used for pull-up, it may be affected by a noise. Separate
TCK from other resistances.
5. When the emulator is in use, pin 11 of the H-UDI connector must be pulled up by a
resistance of several kilo-ohms.
6. The pattern between the H-UDI connector and the MPU must be as short as possible.
Do not connect the signal lines to other components on the board.
7. The resistance values shown in figure 1.5 are recommended.
8. For the pin processing in cases where the emulator is not used, refer to the hardware
manual of the related device.
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VccQ (3.3 V)
VccQ (3.3 V)
H-UDI port connector
(14-pin type)
4.7 kΩ
4.7 kΩ
SH7630
1
8
TCK
TCK
GND
GND
GND
9
2
3
TRST
TRST
TDO
10
TDO
ASEBRKAK
TMS
4
5
6
ASEBRKAK
TMS
12
13
14
GND
GND
GND
TDI
TDI
7
RESET
NC
RESETP
11
Reset signal
1 kΩ
ASEMD0
Figure 1.5 Recommended Circuit for Connection between the H-UDI Port Connector and
MPU (14-Pin Type)
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Section 2 Specifications of the SH7630 E10A Emulator’s
Software
2.1
Differences between the SH7630 and the Emulator
• When the emulator system is initiated, it initializes the general registers and part of the control
registers as shown in table 2.1. The initial values of the actual SH7630 registers are undefined.
Table 2.1 Register Initial Values at Emulator Power-On
Register
Emulator at Power-on
H'00000000
H'A0000000
H'00000000
H'A0000000
H'700000F0
H'00000000
H'00000000
H'00000000
H'00000000
H'00000000
H'00000000
H'000000F0
R0 to R14
R15 (SP)
R0_BANK to R7_BANK
PC
SR
GBR
VBR
MACH
MACL
PR
SPC
SSR
• The emulator uses the H-UDI; do not access the H-UDI.
• Low-Power States (Sleep, Software Standby, and Module Standby)
For low-power consumption, the SH7630 has sleep, software standby, and module standby states.
The sleep, software standby, and module standby states are switched using the SLEEP instruction.
When the emulator is used, only the sleep state can be cleared with either the normal clearing
function or with the [Stop] button, and a break will occur.
Note: The memory must not be accessed or modified in sleep state.
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• Reset Signals
The SH7630 reset signals are only valid during emulation started with clicking the GO or STEP-
type button. If these signals are input from the user system in command input wait state, they are
not sent to the SH7630.
Note: Do not break the user program when the /RESETP and /WAIT signals are being low. A
TIMEOUT error will occur. If the /WAIT signal is fixed to low during break, a
TIMEOUT error will occur at memory access.
• Direct Memory Access Controller (DMAC)
The DMAC operates even when the emulator is used. When a data transfer request is generated,
the DMAC executes DMA transfer.
• Memory Access during User Program Execution
When a memory is accessed from the memory window, etc. during user program execution, the
user program is resumed after it has stopped in the E10A emulator to access the memory.
Therefore, realtime emulation cannot be performed.
The stopping time of the user program is as follows:
Environment:
Host computer: 650 MHz (Pentium® III)
SH7630: 60 MHz
JTAG clock: 3.75 MHz
When a one-byte memory is read from the command-line window, the stopping time will be about
20 ms.
• Memory Access during User Program Break
The emulator can download the program for the flash memory area. Other memory write
operations are enabled for the RAM area. Therefore, an operation such as memory write or
BREAKPOINT should be set only for the RAM area.
• Cache Operation during User Program Break
When cache is enabled, the emulator accesses the memory by the following methods:
At memory write: Writes through the cache, then writes to the memory.
At memory read: Does not change the cache write mode that has been set.
Therefore, when memory read or write is performed during user program break, the cache state
will be changed.
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• UBC
When [User] is specified in the [UBC mode] list box in the [Configuration] dialog box, the UBC
can be used in the user program.
Do not use the UBC in the user program as it is used by the E10A emulator when [EML] is
specified in the [UBC mode] list box in the [Configuration] dialog box.
• Loading Sessions
Information in [JTAG clock] of the [Configuration] dialog box cannot be recovered by loading
sessions. Thus the TCK value will be as follows:
When HS7630KCI01H or HS7630KCI02H is used: TCK = 4.125 MHz
When HS7630KCM01H or HS7630KCM02H is used: TCK = 3.75 MHz
• [IO] Window
Display and modification
Do not change values of the User Break Controller because it is used by the emulator.
For each Watchdog Timer register, there are two registers to be separately used for write and
read operations.
Table 2.2 Watchdog Timer Register
Register Name
WTCSR(W)
WTCNT(W)
WTCSR(R)
WTCNT(R)
Usage
Write
Write
Read
Read
Register
Watchdog timer control/status register
Watchdog timer counter
Watchdog timer control/status register
Watchdog timer counter
• The watchdog timer operates only when the user program is executed. Do not change the value
of the frequency change register in the [IO] window or [Memory] window.
• The internal I/O registers can be accessed from the [IO] window. However, note the following
when accessing the SDMR register of the bus-state controller. Before accessing the SDMR
register, specify addresses to be accessed in the I/O-register definition file (SH7630.IO) and then
activate the HEW. For details on I/O-register definition file, refer to the Hitachi Debugging
Interface User's Manual. Note that, however, the E10A emulator does not support the bit-field
function described in the Hitachi Debugging Interface User's Manual.
• Verify
In the [IO] window, the verify function of the input value is disabled.
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• Illegal Instructions
If illegal instructions are executed by STEP-type commands, the emulator cannot go to the next
program counter.
2.2
Specific Functions for the SH7630 E10A Emulator
The SH7630 E10A emulator does not support the following function:
•
MMU-related functions (The SH7630 does not mount the MMU.)
VPMAP-related command
Virtual and Physical specification in the [Configuration] window
Virtual and Physical specification on the command-line function
Virtual and Physical specification in the [Breakpoint] window
LDTLB instruction execution break function
MEMORYAREA_SET command
2.2.1
Emulator Driver Selection
Table 2.3 shows drivers which are selected in the [E10A Driver Details] dialog box.
Table 2.3 Type Number and Driver
Type Number
Driver
HS7630KCM01H
HS7630KCM02H
HS7630KCI01H
HS7630KCI02H
E10A PC Card Driver 7
E10A PC Card Driver 8
E10A PCI Card Driver 7
E10A PCI Card Driver 8
2.2.2
Break Condition Functions
In addition to BREAKPOINT functions, the emulator has Break Condition functions. Three types
of conditions can be set under Break Condition 1, 2, 3. Table 2.4 lists these conditions of Break
Condition.
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Table 2.4 Types of Break Conditions
Break Condition Type
Description
Address bus condition (Address)
Breaks when the SH7630 address bus value or the program
counter value matches the specified value.
Data bus condition (Data)
Breaks when the SH7630 data bus value matches the
specified value. Byte, word, or longword can be specified as
the access data size.
Bus state condition
(Bus State)
There are two bus state condition settings:
Read/Write condition: Breaks when the SH7630 RD or
RDWR signal level matches the specified condition.
Bus state condition: Breaks when the operating state in an
SH7630 bus cycle matches the specified condition.
Types of buses that can be specified are listed below.
•
•
•
L-bus (CPU-ALL): Indicates an instruction fetch and data
access, including a hit to the cache memory.
L-bus (CPU-Data): Indicates a data access by the CPU,
including a hit to the cache memory.
I-bus (CPU.DMA): Indicates a CPU cycle when the
cache memory is not hit, and a data access by the
DMA.
Internal I/O break condition
Count
Breaks when the SH7630 accesses the internal I/O.
Breaks when the conditions set are satisfied the specified
number of times.
Note: When U-RAM is accessed from the P0 space, the I-bus must be selected, and when
accessed from the P2 space, the L-bus must be selected. When cache fill cycle is acquired,
the I-bus must be selected.
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Table 2.5 lists the combinations of conditions that can be set under Break Condition 1, 2, 3.
Table 2.5 Dialog Boxes for Setting Break Conditions
Type
Address Bus Data Bus
Bus State
Condition
(Bus Status) (Count)
Count
Condition
Condition
(Address)
Condition
(Data)
Internal
Dialog Box
I/O Break
[Break Condition 1]
dialog box
O
O
X
O
O
O
X
O
X
[Break Condition 2]
dialog box
X
X
X
X
[Break Condition 3]
dialog box
X
O
Note: O: Can be set in the dialog box.
X: Cannot be set in the dialog box.
2.2.3
Trace Functions
The SH7630 E10A emulator supports the trace functions listed in table 2.6.
Table 2.6 Trace Functions
Function
Internal Trace
AUD Trace
Supported
Supported
Supported
Branch trace
Supported (eight branches)
Not supported
Range memory access trace
Software trace
Not supported
Table 2.7 shows the type numbers that the AUD function can be used.
Table 2.7 Type Number and AUD Function
Type Number
AUD Function
Not supported
Supported
HS7630KCM01H, HS7630KCI01H
HS7630KCM02H, HS7630KCI02H
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AUD Trace Functions: This function is operational when the AUD pin of the device is
connected to the emulator. Table 2.8 shows the AUD trace acquisition mode that can be set in
each trace function.
Table 2.8 AUD Trace Acquisition Mode
Type
Mode
Description
Continuous
trace occurs
Realtime trace
When the next branch occurs while the trace information is
being output, the trace information being output is output but
the next trace information is not output. The user program
can be executed in realtime, but some trace information may
be lost.
Non realtime trace When the next branch occurs while the trace information is
being output, the CPU stops operations until the information
is output. The user program is not executed in realtime.
Trace buffer
full
Trace continue
This function overwrites the oldest trace information to store
the latest trace information.
Trace stop
After the trace buffer becomes full, the trace information is no
longer acquired. (The user program is continuously
executed.)
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To set the AUD trace acquisition mode, click the [Trace] window with the right mouse button and
select [Setting] from the pop-up menu to display the [Acquisition] dialog box. The AUD trace
acquisition mode can be set in the [AUD mode1] or [AUD mode2] group box in the [Trace mode]
page of the [Acquisition] dialog box.
Figure 2.1 [Trace mode] Page
When the AUD trace function is used, select the [AUD function] radio button in the [Trace type]
group box of the [Trace mode] page.
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(a) Branch Trace Function
The branch source and destination addresses and their source lines are displayed.
Branch trace can be acquired by selecting the [Branch trace] check box in the [AUD function]
group box of the [Trace mode] page.
The branch type can be selected in the [AUD Branch trace] page.
Figure 2.2 [AUD Branch trace] Page
(b) Window Trace Function
Memory access in the specified range can be acquired by trace.
Two memory ranges can be specified for channels A and B. The read, write, or read/write
cycle can be selected as the bus cycle for trace acquisition.
[Setting Method]
(i) Select the [Channel A] and [Channel B] check boxes in the [AUD function] group
box of the [Trace mode] page. Each channel will become valid.
(ii) Open the [Window trace] page and specify the bus cycle and memory range that are to be
set for each channel.
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Figure 2.3 [Window trace] Page
Note: When the [L-bus] or [I-bus] radio button is selected, the following bus cycles will be
traced.
L-bus: A bus cycle generated by the CPU is acquired. A bus cycle is also acquired when
the cache has been hit.
I-bus: A bus cycle generated by the CPU or DMA is acquired. A bus cycle is not acquired
when the cache has been hit. The address information acquired by the I-bus is 28 bits and
the upper 4 bits are displayed as ‘*’. The source cannot be displayed in the [Trace]
window.
When U-RAM is accessed from the P0 space, the I-bus must be selected, and when
accessed from the P2 space, the L-bus must be selected. When a cache fill cycle is
acquired, I-bus must be selected.
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(c) Software Trace Function
Note: This function can be supported with SHC compiler V7.0 and later.
When a specific instruction is executed, the PC value at execution and the contents of one
general register are acquired by trace. Describe the Trace(x) function (x is a variable name) to
be compiled and linked beforehand. For details, refer to the SHC manual.
When the load module is loaded on the emulator and a valid software trace function is
executed, the PC value that has executed the Trace(x) function, the general register value for x,
and the source lines are displayed.
To activate the software trace function, select the [Software trace] check box in the [AUD
function] group box of the [Trace mode] page.
Notes on AUD Trace:
1. When the trace display is performed during user program execution, the mnemonics, operands,
or source is not displayed.
2. The AUD trace function outputs the differences between newly output branch source addresses
and previously output branch source addresses. The window trace function outputs the
differences between newly output addresses and previously output addresses. If the previous
branch source address is the same as the upper 16 bits, the lower 16 bits are output. If it
matches the upper 24 bits, the lower 8 bits are output. If it matches the upper 28 bits, the lower
4 bits are output.
The emulator regenerates the 32-bit address from these differences and displays it in the
[Trace] window. If the emulator cannot display the 32-bit address, it displays the difference
from the previously displayed 32-bit address.
3. If the 32-bit address cannot be displayed, the source line is not displayed.
4. In the SH7630 E10A emulator, when multiple loops are performed to reduce the number of
AUD trace displays, only the IP counts up.
5. In the SH7630 E10A emulator, the maximum number of trace display pointers is as follows:
When HS7630KCM02H is used: D'8191 to -0
When HS7630KCI02H is used: D'32767 to -0
However, the maximum number of trace display pointers differs according to the AUD trace
information to be output. Therefore, the above pointers cannot be always acquired.
6. When [User] is specified in the [UBC mode] list box in the [Configuration] window, the AUD
trace is not acquired. In this case, exit the [Trace] window.
7. When the branch information for the odd address is acquired, it may be displayed as the
software trace.
8. If a completion-type exception occurs during exception branch acquisition, the next address to
the address in which an exception occurs is acquired.
9. For the AUD non-realtime trace, the written access may be executed again. If this is a
problem on the user system, do not use the non-realtime trace.
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Internal Trace Function: This function is activated by selecting the [Internal trace] radio button
in the [Trace type] group box of the [Trace mode] page. See figure 2.1, [Trace mode] Page. The
internal trace functions are also activated by selecting each check box on the [Branch trace] page.
Notes: 1. If an interrupt is generated at the program execution start or end, including a step
execution, the emulator address may be acquired. In such a case, the following
message will be displayed. Ignore this address because it is not a user program address.
*** EML ***
2. If a completion-type exception occurs during exception branch acquisition, the next
address to the address in which an exception occurs is acquired.
3. Trace information cannot be acquired for the following branch instructions:
•
•
The BF and BT instructions whose displacement value is 0
Branch to H'A0000000 by reset
4. When [User] is specified in the [UBC mode] list box in the [Configuration] window,
the internal trace is not acquired. In this case, exit the [Trace] window.
2.2.4
Notes on Using the JTAG Clock (TCK) and AUD Clock (AUDCK)
The JTAG clock (TCK) and AUD clock (AUDCK), which can be set in the [Configuration]
window, have notes as follows.
Set the JTAG clock (TCK) frequency to less than the frequency of the SH7630 peripheral module
clock (CKP).
Set the AUD clock (AUDCK) frequency 50 MHz or below for PCMCIA and PCI cards.
2.2.5
Notes on Setting the [Breakpoint] Dialog Box
1. When an odd address is set, the next lowest even address is used.
2. A BREAKPOINT is accomplished by replacing instructions of the specified address.
Accordingly, it can be set only to the internal RAM area. However, a BREAKPOINT cannot
be set to the following addresses:
• An area other than CS0 to CS6 and the internal RAM
• An instruction in which Break Condition 2 is satisfied
• A slot instruction of a delayed branch instruction
3. During step execution, a BREAKPOINT is disabled.
4. Conditions set at Break Condition 2 are disabled when an instruction to which a
BREAKPOINT has been set is executed. Do not set a BREAKPOINT to an instruction in
which Break Condition 2 is satisfied.
5. When execution resumes from the address where a BREAKPOINT is specified, single-step
execution is performed at the address before execution resumes. Therefore, realtime operation
cannot be performed.
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6. When a BREAKPOINT is set to the slot instruction of a delayed branch instruction, the PC
value becomes an illegal value. Accordingly, do not set a BREAKPOINT to the slot
instruction of a delayed branch instruction.
7. When a BREAKPOINT is set to the cacheable area, the cache block containing the
BREAKPOINT address is filled immediately before and after user program execution.
8. Note on DSP repeat loop:
A BREAKPOINT is equal to a branch instruction. In some DSP repeat loops, branch
instructions cannot be set. For these cases, do not set BREAKPOINTs. Refer to the hardware
manual for details.
9. If an address of a BREAKPOINT cannot be correctly set in the ROM or flash memory area, a
mark ! will be displayed in the [BP] area of the address on the [Editor] or [Disassembly]
window by refreshing the [Memory] window, etc. after Go execution. However, no break will
occur at this address. When the program halts with the break condition, the mark ! disappears.
2.2.6
Notes on Setting the [Break Condition] Dialog Box and BREAKCONDITION_SET
Command
1. Break Condition 2 is disabled during step execution.
2. Break Condition 2 is disabled when an instruction to which a BREAKPOINT has been set is
executed. Accordingly, do not set a BREAKPOINT to an instruction which satisfies Break
Condition 2.
3. When a Break Condition is satisfied, emulation may stop after two or more instructions have
been executed.
4. If a PC break address condition is set to the slot instruction after a delayed branch instruction,
user program execution cannot be terminated before the slot instruction execution; execution
stops before the branch destination instruction.
5. Break Condition 1,2 is used as the measurement range in the performance measurement
function when [PA-1 start point] and [PA-1 end point] are displayed on the [Action] part in
the [Break condition] sheet of the [Event] window. This applies when the Break Condition is
displayed with the BREAKCONDITION_DISPLAY command in the command-line function.
In this case, a break does not occur when Break Condition 1,2 is satisfied.
6. Note that a break occurs with a break satisfaction condition by an instruction that has been
cancelled due to the generation of an exception.
7. Use the sequential break or count break with the L-bus condition. If such break is used with
the I-bus condition, it will not operate correctly.
8. A break will not occur with the execution counts specified on the execution of the multi-step
instruction.
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2.2.7
Notes on Setting the UBC_MODE Command
In the [Configuration] window, if [User] is set while the [UBC mode] list box has been set, the
STEP-type commands that use Break Condition 2 for implementation cannot be used.
2.2.8
Performance Measurement Function
The SH7630 E10A emulator supports the performance measurement function.
1. Setting the performance measurement conditions
To set the performance measurement conditions, use the [Performance Analysis] dialog box
and the PERFORMANCE_SET command. When any line on the [Performance Analysis]
window is clicked with the right mouse button, the popup menu is displayed and the
[Performance Analysis] dialog box is displayed by selecting [Setting].
Note: For the command line syntax, refer to the online help.
Specifying the measurement start/end conditions
The measurement start/end conditions are specified in [Mode] in the [Performance
Analysis] dialog box. Three conditions can be set as shown in table 2.9.
Table 2.9 Conditions Specified in [Mode]
Item
Description
Normal break
Measurement is started by executing a program and ended when a
break condition is satisfied.
Break Condition 1 -> 2
Break Condition 2 -> 1
Measurement is started from the satisfaction of the condition set in
Break Condition 1 to the satisfaction of the condition set in Break
Condition 2.
Measurement is started from the satisfaction of the condition set in
Break Condition 2 to the satisfaction of the condition set in Break
Condition 1.
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Figure 2.4 [Performance Analysis] Dialog Box
Measurement range
One of the following ranges can be specified. This depends on the item selected for [Mode]
in the [Performance Analysis] dialog box.
1. From the start to the end of the user program execution (When Normal Break is
selected for [Mode])
2. From the satisfaction of the condition set in Break Condition 1 to the satisfaction of the
condition set in Break Condition 2 (When Break condition 1->2 is selected for
[Mode])
3. From the satisfaction of the condition set in Break Condition 2 to the satisfaction of the
condition set in Break Condition 1 (When Break condition 2->1 is selected for
[Mode])
(In the second and third ranges, [PA-1 start point] and [PA-1 end point] are displayed on the
[Action] part in the [Break condition] sheet of the [Event] window.)
For measurement errors,
•
•
The measured value includes errors.
Error will occur before or after a break.
Notes: 1. When the second and third ranges are specified, execute the user program after the
measurement start condition is set to Break Condition 1 (or Break Condition 2) and the
measurement end condition to Break Condition 2 (or Break Condition 1).
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2. Step execution is not possible when Break condition 1->2 or Break condition 2->1 is
selected for the PERFORMANCE_SET command or in [Mode] of the [Performance
Analysis] dialog box.
3. When Break condition 1->2 or Break condition 2->1 is selected in [Mode] of the
[Performance Analysis] dialog box, specify one or more items for measurement.
When there is no item, the error message “Measurement item does not have
specification. Please set up a measurement item.” will be displayed. When no item is
specified for the PERFORMANCE_SET command, the settings of Break condition 1
->2 or Break condition 2->1 will be an error.
Measurement item
Items are measured with [Channel 1 to 4] in the [Performance Analysis] dialog box.
Maximum four conditions can be specified at the same time. Table 2.10 shows the
measurement items (Options in table 2.10 are parameters for <mode> of the
PERFORMANCE_SET command. They are displayed for CONDITION in the
[Performance Analysis] window).
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Table 2.10 Measurement Item
Selected Name
Option
None
AC
Disabled
Elapsed time
Number of execution states
Branch instruction counts
Number of execution instructions
DSP-instruction execution counts
VS
BT
I
DI (Devices incorporating the DSP function can
only be measured.)
Instruction/data conflict cycle
Other conflict cycles than instruction/data
Exception/interrupt counts
MAC
OC
EA
Data-TLB miss cycle
MTS (Devices incorporating the MMU function
can only be measured.)
Instruction-TLB miss cycle
ITS (Devices incorporating the MMU function
can only be measured.)
Interrupt counts
INT
BL1
MD1
IC
Number of BL=1 instructions
Number of MD=1 instructions
Instruction cache-miss counts
Data cache-miss counts
Instruction fetch stall
DC
IF
Data access stall
DA
Instruction cache-miss stall
Data cache-miss stall
Cacheable access stall
X/Y-RAM access stall
ICS
DCS
CS
XYS (Devices incorporating the X/Y memory
can only be measured.)
URAM access stall
US (Devices incorporating the U memory can
only be measured.)
Instruction/data access stall cycle
MA
Other access cycles than instruction/data
Non-cacheable area access cycle
Non-cacheable area instruction access cycle
Non-cacheable area data access cycle
Cacheable area access cycle
NMA
NCC
NCI
NCD
CC
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Table 2.10 Measurement Item (cont)
Selected Name
Option
CIC
Cacheable area instruction access cycle
Cacheable area data access cycle
Access counts other than instruction/data
Non-cacheable area access counts
Non-cacheable area instruction access counts
Non-cacheable area data access counts
Cacheable area access counts
CDC
NAM
NCN
NCIN
NCDN
CN
Cacheable area instruction access counts
Cacheable area data access counts
CIN
CDN
Each measurement condition is also counted when conditions in table 2.11 are generated.
Table 2.11 Performance Measurement Conditions to be Counted
Measurement Condition
Notes
Cache-on counting
Accessing the non-cacheable area is counted less than the actual
number of cycles and counts. Accessing the cacheable and U
memory areas is counted more than the actual number of cycles
and counts.
Branch count
The counter value is incremented by 2. This means that two cycles
are valid for one branch.
Notes: 1. In the non-realtime trace mode of the AUD trace, normal counting cannot be performed
because the generation state of the stall or the execution cycle is changed.
2. Since the clock source of the counter is the CPU clock, counting also stops when the
clock halts in the sleep mode.
2. Displaying the measured result
The measured result is displayed in the [Performance Analysis] window or the
PERFORMANCE_ANALYSIS command with 32 bits.
Note: If a performance counter overflows as a result of measurement, “********” will be
displayed.
3. Initializing the measured result
To initialize the measured result, select [Initialize] from the popup menu in the [Performance
Analysis] window or specify INIT with the PERFORMANCE_ANALYSIS command.
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SuperHTM Family E10A Emulator
Additional Document for User's Manual
Specific Guide for the SH7630 E10A Emulator
Publication Date: Rev.1.00, July 3, 2003
Published by:
Sales Strategic Planning Div.
Renesas Technology Corp.
Edited by:
Technical Documentation & Information Department
Renesas Kodaira Semiconductor Co., Ltd.
2003 Renesas Technology Corp. All rights reserved. Printed in Japan.
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SuperH Family E10A Emulator
Additional Document for User’s Manual
REJ10B0015-0100H
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