Intel Computer Hardware IQ80333 User Manual

®
Intel IQ80333 I/O Processor  
Customer Reference Board Manual  
February 2005  
Document Number: 306690001US  
Intel Part Number: C90183-001  
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Contents  
Contents  
1
Introduction....................................................................................................................................9  
1.1  
1.2  
1.3  
1.4  
1.5  
1.6  
1.7  
Document Purpose and Scope.............................................................................................9  
Other Related Documents ....................................................................................................9  
Electronic Information .........................................................................................................10  
Component References......................................................................................................10  
Terms and Definitions.........................................................................................................11  
®
Intel 80333 I/O Processor.................................................................................................12  
®
Intel IQ80333 I/O Processor Evaluation Platform Board Features ...................................14  
2
Getting Started.............................................................................................................................15  
2.1  
2.2  
Kit Content..........................................................................................................................15  
Hardware Installation..........................................................................................................15  
2.2.1 First-Time Installation and Test..............................................................................15  
2.2.2 Power Requirements .............................................................................................16  
Factory Settings..................................................................................................................17  
Development Strategy ........................................................................................................17  
2.4.1 Supported Tool Buckets ........................................................................................17  
2.4.2 Contents of the Flash.............................................................................................17  
Target Monitors...................................................................................................................18  
2.5.1 RedHat RedBoot....................................................................................................18  
Host Communications Examples........................................................................................19  
2.6.1 Serial-UART Communication.................................................................................19  
2.6.2 JTAG Debug Communication ................................................................................19  
2.6.3 Network Communication........................................................................................20  
2.6.4 GNUPro GDB/Insight.............................................................................................21  
2.6.4.1 Communicating with RedBoot................................................................21  
2.6.4.2 Connecting with GDB.............................................................................23  
2.3  
2.4  
2.5  
2.6  
3
Hardware Reference Section......................................................................................................25  
3.1  
3.2  
3.3  
3.4  
Functional Diagram.............................................................................................................25  
Board Form-Factor/Connectivity.........................................................................................26  
Power..................................................................................................................................27  
Memory Subsystem............................................................................................................28  
3.4.1 DDR SDRAM .........................................................................................................28  
3.4.1.1 Battery Backup.......................................................................................28  
3.4.2 Flash Memory Requirements.................................................................................29  
Interrupt Routing.................................................................................................................30  
3.5  
3.6  
®
Intel IQ80333 I/O Processor Evaluation Platform Board Peripheral Bus..........................31  
3.6.1 Flash ROM.............................................................................................................32  
3.6.2 UART .....................................................................................................................33  
3.6.3 Non-Volatile RAM ..................................................................................................33  
3.6.4 Audio Buzzer .........................................................................................................33  
3.6.5 HEX Display...........................................................................................................33  
3.6.6 Rotary Switch.........................................................................................................33  
3.6.7 Battery Status ........................................................................................................34  
Debug Interface ..................................................................................................................35  
3.7  
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Contents  
3.7.1 Console Serial Port................................................................................................35  
3.7.2 JTAG Debug..........................................................................................................36  
3.7.2.1 JTAG Port ..............................................................................................36  
Board Reset Scheme..........................................................................................................37  
Switches and Jumpers........................................................................................................38  
3.9.1 Switch Summary....................................................................................................38  
3.9.2 Default Switch Settings of S7A1- Visual................................................................38  
3.9.3 Jumper Summary ..................................................................................................39  
3.9.4 Connector Summary..............................................................................................39  
3.9.5 General Purpose Input/Output Header..................................................................39  
3.9.6 Detail Descriptions of Switches/Jumpers...............................................................40  
3.8  
3.9  
®
3.9.6.1 Switch S1C2: Intel 80333 I/O Processor Reset...................................40  
3.9.6.2 Switch S6A1: BPCI-X Reset ..................................................................40  
3.9.6.3 Switch S8A1: Rotary..............................................................................40  
3.9.6.4 Switch S7A1...........................................................................................40  
3.9.6.4.1  
3.9.6.4.2  
3.9.6.4.3  
3.9.6.4.4  
3.9.6.4.5  
3.9.6.4.6  
3.9.6.4.7  
3.9.6.4.8  
3.9.6.4.9  
S7A1-1: PCI-X Bus A Speed Enable Corresponding to  
Signal Name PBI_AD3 .......................................................40  
S7A1-2: Reset I/O Processor Core Corresponding to  
Signal Name PBI_AD5 .......................................................40  
S7A1-3: Configration Cycle Enable Corresponding to  
Signal Name PBI_AD6 .......................................................41  
S7A1-4: PCI-X Bus B Speed Enable Corresponding to  
Signal Name PBI_AD10 .....................................................41  
S7A1-5: PCI-X Bus B Hot-Plug Reset Disable  
Corresponding to Signal Name PBI_AD11.........................41  
Switch S7A1- 6: Hot Plug Capable Disabled Corresponding to  
Signal Name PBI_AD15 .....................................................41  
Switch S7A1 - 7: SMBUS Manageability Address Bit 0  
Corresponding to Signal Name PBI_AD17.........................42  
Switch S7A1 - 8: SMBUS Manageability Address Bit 3  
Corresponding to Signal Name PBI_AD18.........................42  
Switch S7A1- 9:SMBUS Manageability Address Bit 2  
Corresponding to Signal Name PBI_AD17.........................42  
3.9.6.4.10 Switch S7A1- 10: SMBUS Manageability Address Bit 1  
Corresponding to Signal Name PBI_AD16.........................42  
3.9.6.5 Jumper J7D1: Flash bit-width ................................................................43  
3.9.6.6 Jumper J1C1: JTAG Chain....................................................................43  
3.9.6.7 Jumper J1D2: UART Control .................................................................43  
3.9.6.8 Jumper J7B4: SMBus Header ...............................................................44  
3.9.6.9 Jumper J9D3: Buzzer Volume Control...................................................44  
4
Software Reference.....................................................................................................................45  
4.1  
4.2  
DRAM.................................................................................................................................45  
Components on the Peripheral Bus....................................................................................45  
4.2.1 Flash ROM.............................................................................................................46  
4.2.2 Peripheral Bus Memory Map .................................................................................47  
Board Support Package (BSP) Examples..........................................................................48  
4.3  
®
4.3.1 Intel 80333 I/O Processor Memory Map..............................................................48  
®
4.3.2 RedBoot* Intel 80333 I/O Processor Memory Map .............................................49  
®
4.3.3 RedBoot Intel 80333 I/O Processor Files ............................................................49  
®
4.3.4 RedBoot Intel 80332 I/O Processor DDR  
Memory Initialization Sequence.............................................................................50  
4
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Contents  
A
B
IQ80321 and IQ80333 Comparisons...........................................................................................51  
Getting Started and Debugger ...................................................................................................53  
B.1  
Introduction .........................................................................................................................53  
B.1.1 Purpose .................................................................................................................53  
B.1.2 Necessary Hardware and Software .......................................................................53  
B.1.3 Related Documents ...............................................................................................53  
B.1.4 Related Web Sites .................................................................................................54  
Setup ..................................................................................................................................55  
B.2.1 Hardware Setup.....................................................................................................55  
B.2.2 Software Setup ......................................................................................................56  
New Project Setup ..............................................................................................................57  
B.3.1 Creating a New Project..........................................................................................57  
B.3.2 Configuration .........................................................................................................58  
Flashing with JTAG.............................................................................................................59  
B.4.1 Overview................................................................................................................59  
B.4.2 Using Flash Programmer.......................................................................................60  
Debugging Out of Flash......................................................................................................61  
Building an Executable File From Example Code ..............................................................61  
Running the Code|Lab Debugger .......................................................................................62  
B.7.1 Launching and Configuring Debugger ...................................................................62  
B.7.2 Manually Loading and Executing an Application Program.....................................62  
B.7.3 Displaying Source Code ........................................................................................63  
B.7.4 Using Breakpoints..................................................................................................63  
B.7.5 Stepping Through the Code...................................................................................64  
B.7.6 Setting Code|Lab Debug Options ..........................................................................64  
Exploring the Code|Lab Debug Windows ...........................................................................65  
B.8.1 Toolbar Icons .........................................................................................................65  
B.8.2 Workspace Window ...............................................................................................65  
B.8.3 Source Code..........................................................................................................65  
B.8.4 4 Debug and Console Windows ............................................................................65  
B.8.5 Memory Window ....................................................................................................65  
B.8.6 Registers Window..................................................................................................66  
B.8.7 Watch Window.......................................................................................................66  
B.8.8 Variables Window ..................................................................................................66  
Debugging Basics...............................................................................................................67  
B.9.1 Overview................................................................................................................67  
B.9.2 Hardware and Software Breakpoints .....................................................................67  
B.9.2.1 Software Breakpoints.............................................................................67  
B.9.2.2 Hardware Breakpoints ...........................................................................67  
B.9.3 Exceptions/Trapping ..............................................................................................68  
B.2  
B.3  
B.4  
B.5  
B.6  
B.7  
B.8  
B.9  
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Contents  
Figures  
®
1
2
3
4
5
6
7
8
9
Intel 80333 I/O Processor Block Diagram ................................................................................13  
Serial-UART Communication .....................................................................................................19  
JTAG Debug Communication.....................................................................................................19  
Network Communication Example .............................................................................................20  
®
Intel 80333 I/O Processor Functional Block Diagram...............................................................25  
Board Form Factor .....................................................................................................................26  
®
Intel IQ80333 I/O Processor Evaluation Platform Board Peripheral Bus Topology..................31  
Flash Connection on Peripheral Bus..........................................................................................32  
JTAG Port Pin-out ......................................................................................................................36  
10 RESET Sources .........................................................................................................................37  
11 Default Switch Setting Switch S7A1...........................................................................................38  
12 Flash Connection to Peripheral Bus...........................................................................................46  
®
13 Intel 80333 I/O Processor Memory Map...................................................................................48  
®
14 Intel 80333 I/O Processor Hardware Setup Flow Chart ...........................................................55  
15 Software Flow Diagram ..............................................................................................................56  
6
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Contents  
Tables  
®
1
2
3
4
5
6
7
8
9
Intel 80333 I/O Processor Related Documentation List..............................................................9  
Electronic Information.................................................................................................................10  
Component Reference................................................................................................................10  
Terms and Definitions.................................................................................................................11  
Summary of Features .................................................................................................................14  
Form-Factor/Connectivity Features ............................................................................................26  
Power Features ..........................................................................................................................27  
Flash Memory Requirements......................................................................................................29  
®
External Interrupt Routing to Intel 80333 I/O Processor...........................................................30  
10 Peripheral Bus Features.............................................................................................................31  
11 Flash ROM Features ..................................................................................................................32  
12 Rotary Switch Requirements ......................................................................................................33  
13 Battery Status Buffer Requirements ...........................................................................................34  
14 Reset Requirements/Schemes...................................................................................................37  
15 Switch Summary.........................................................................................................................38  
16 Switch S7A1 ...............................................................................................................................38  
17 Jumper Summary .......................................................................................................................39  
18 Connector Summary...................................................................................................................39  
19 J2D2 GPIO Header Definition.....................................................................................................39  
20 Rotary Switch Settings................................................................................................................40  
21 S7A1-1: PCI-X Bus A Speed Enable..........................................................................................40  
22 Switch S7A1-2: Reset IOP: Settings and Operation Mode.........................................................41  
23 Switch S7A1-3: RETRY: Settings and Operation Mode .............................................................41  
24 S7A1-4: PCI-X Bus B Speed Enable: Settings and Operation Mode .........................................41  
25 S7A1-5: PCI-X Bus B Hot-Plug Reset Disable: Settings and Operation Mode ..........................41  
26 Switch S7A1- 6: Hot Plug Capable Disabled: Settings and Operation Mode .............................41  
27 Switch S7A1 - 7: SMBUS Manageability Address Bit 0: Settings and Operation Mode.............42  
28 Switch S7A1 - 8: SMBUS Manageability Address Bit 3: Settings and Operation Mode.............42  
29 Switch S7A1 - 9: SMBUS Manageability Address Bit 2: Settings and Operation Mode.............42  
30 Switch S7A1 - 10: SMBUS Slave Address 0: Settings and Operation Mode .............................42  
31 Jumper J7D1: Descriptions.........................................................................................................43  
32 Jumper J7D1: Settings and Operation Mode..............................................................................43  
33 Jumper J1C1: Descriptions.........................................................................................................43  
34 Jumper J1C1: Settings and Operation Mode..............................................................................43  
35 Jumper J1D2: Descriptions.........................................................................................................43  
36 Jumper J1D2: Settings and Operation Mode..............................................................................43  
37 Jumper J7B4: Descriptions.........................................................................................................44  
38 Jumper J7B4: Settings and Operation Mode..............................................................................44  
39 Jumper J9D3: Descriptions.........................................................................................................44  
40 Jumper J9D3: Settings and Operation Mode..............................................................................44  
41 Peripheral Bus Memory Map ......................................................................................................47  
®
42 Intel IQ80321 Evaluation Platform Board and  
®
Intel IQ80333 I/O Processor Evaluation Platform Board Comparisons....................................51  
43 Related Documents ....................................................................................................................53  
February, 2005  
7
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Contents  
Revision History  
Date  
Revision  
Description  
Initial Intel® Developer Web Site Release  
March 2005  
001  
8
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Introduction  
1
1.1  
Document Purpose and Scope  
®
This document describes the Intel IQ80333 I/O processor evaluation platform board (IQ80333)  
®
using DDR-II 400 MHz SDRAM. The Intel 80333 I/O processor (80333) is intended for rapid,  
®
intelligent I/O development. The 80333 is a multi-function device that integrates the Intel XScale  
core (ARM* architecture compliant) with intelligent peripherals including a PCI Express bus  
application bridge.  
1.2  
Other Related Documents  
®
Table 1.  
Intel 80333 I/O Processor Related Documentation List  
Document  
Number  
Intel®80333 I/O Processor Developer’s Manual  
305432  
305433  
305434  
305435  
274071  
Intel®80333 I/O Processor Datasheet  
Intel®80333 I/O Processor Design Guide  
Intel®80333 I/O Processor Specification Update  
Intel® Flash Recovery Utility (FRU) Reference Manual  
IEEE Standard Test Access Port and Boundary-Scan Architecture (IEEE JTAG-1149.1-1990)  
PCI Local Bus Specification, Revision 2.3 - PCI Special Interest Group  
PCI Express Specification, Revision 1.0a - PCI Special Interest Group  
PCI Express Base Specification 1.0a - PCI Special Interest Group  
PCI Express Card Electromechanical Specification 1.0a - PCI Special Interest Group  
PCI Local Bus Specification, Revision 2.3 - PCI Special Interest Group  
PCI-X Specification, Revision 1.0b - PCI Special Interest Group  
PCI Bus Power Management Interface Specification, Revision 1.1 - PCI Special Interest Group  
PCI Bus Hot-Plug Specification, Revision 1.1 - PCI Special Interest Group  
Intel documentation is available from the local Intel Sales Representative or Intel Literature Sales.  
To obtain Intel literature write to or call:  
Intel Corporation  
Literature Sales  
P.O. Box 5937  
Denver, CO 80217-9808  
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Introduction  
1.3  
Electronic Information  
Table 2.  
Electronic Information  
Support Type  
Location/Contact  
The Intel World-Wide Web (WWW) Location:  
Customer Support (US and Canada):  
1-916-377-7000  
1.4  
Component References  
Table 3 provides additional information on the major components of 80333.  
Component Reference  
Table 3.  
Component Part Number  
Additional Information  
Intel  
Manufacturer: Intel Corporation  
StrataFlash® 28F640J3C  
Memory  
Intel(R)  
Manufacturer: Intel Corporation  
Gigabit  
82545EM  
Ethernet  
Controller  
Manufacturer: Grayhill*  
URL:  
Rotary Switch  
DR FC 16  
Manufacturer: Agilent Technologies*  
Hex Display HDSP-A103  
Manufacturer: RDI*  
DMT 1206  
AudioBuzzer  
SMT  
Manufacturer: SIMTEK*  
STK14C88-3  
NVSRAM  
N 35  
Manufacturer: XILINK*  
XC9572XL -  
CPLD  
10TQ100C  
Manufacturer: National*  
Temperature  
LM75CIMX-3  
Sensor  
Program-  
MAX6306UK  
mable Reset  
29D3  
Manufacturer: Maxim*  
IC  
Manufacturer: IDT* (Integrated Device Technology)  
Manufacturer: IDT* (Integrated Device Technology  
Manufacturer: Maxim*  
Registered  
Buffer  
IDT74SSTU3  
2864BF  
Program-  
mable PLL  
IDTCSPU877  
BV  
256 bit 1-wire DS2430A_TS  
EEPROM  
OC  
Manufacturer: Maxim*  
3.3V  
Transceiver  
MAX561  
Manufacturer: Analog Devices*  
Battery  
Charger  
ADP3801  
10  
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Introduction  
1.5  
Terms and Definitions  
Table 4.  
Terms and Definitions  
Acronym/Term  
Definition  
ARM  
CRB  
Refers to both the microprocessor architecture and the company that licenses it.  
Customer Reference Board  
In-Circuit Emulator – A piece of hardware used to mimic all the functions of a  
microprocessor.  
ICE  
IOP  
I/O processor  
Joint Test Action Group – A hardware port supplied on Intel XScale® microarchitecture  
evaluation boards used for in-depth testing and debugging.  
JTAG  
PPCI-X  
PSU  
Primary PCI-X.  
Power Supply Unit  
Secondary PCI-X.  
SPCI-X  
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Introduction  
®
1.6  
Intel 80333 I/O Processor  
®
The 80333 is a follow-on product to the Intel 80332 I/O processor (80332). It is a multi-function  
®
device that combines the Intel XScale core with intelligent peripherals, and integrates two  
PCI Express to PCI-X Bridges. The 80333 consolidates into a single system:  
®
Intel XScale core with an internal bus operating at 333 MHz.  
x8 PCI Express Upstream Link.  
Two PCI Express-to-PCI Bridges supporting PCI-X interface on both segments.  
PCI Standard Hot Plug Controller (segment B).  
Address Translation Unit (ATU): PCI-to-Internal Bus Application Bridge, interfaced to the  
segment A.  
High-Performance Memory Controller.  
Interrupt Controller with 17 external interrupt inputs.  
Two Direct Memory Access (DMA) Controller.  
Peripheral Bus Interface (PBI) Unit.  
Enhanced Application Accelerator Unit (AAU) which supports RAID 6 functionality.  
2
Two I C Bus Interface Units (BIU).  
Two 16550 Compatible UARTs with flow control (4 pins).  
Eight General Purpose Input Output (GPIO) Ports.  
The 80333 is an integrated processor that addresses the needs of intelligent I/O applications and helps  
reduce intelligent I/O system costs.  
PCI Express is an industry standard, high performance, low latency system interconnect. The 80333  
PCI Express upstream link is capable of x8 lane widths at 2.5 GHz operation as defined by the PCI  
®
Express Specification, Revision 1.0a. The addition of the Intel XScale core brings intelligence to the  
PCI Express-to-PCI Bridges.  
The 80333 integrates dual PCI Express-to-PCI-X Bridges with the ATU as an integrated secondary  
PCI device. The Upstream PCI Express port implements the PCI-to-PCI Bridge programming model  
according to the PCI Express Specification, Revision 1.0. The Primary Address Translation Unit is  
compliant with the PCI-X Addendum to the PCI Local Bus Specification, Revision 1.0a definitions of  
an ‘application bridge’.  
®
For more in depth information in regards to the 80333, please see the Intel 80333 I/O Processor  
Developer’s Manual.  
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Introduction  
®
Figure 1.  
Intel 80333 I/O Processor Block Diagram  
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Introduction  
®
1.7  
Intel IQ80333 I/O Processor Evaluation Platform  
Board Features  
Table 5.  
Summary of Features  
Feature  
Definition  
Battery Backup Unit: Battery back up circuit for SDRAM.  
Ethernet Intel(R) 82545EM Gigabit Ethernet Controller  
Flash ROM: 8 MB Flash ROM 3.3 V – 16-bit Flash I/F.  
Form Factor: PCI-Express card (312 X 107 mm)  
General Purpose I/O: GPIO Pins are used as described in the appropriate section in this document  
Hex Display: Two 7-segment Hex LED displays.  
JTAG Port: ARM compliant JTAG Header.  
Logic analyzer connectors on the DDRII SDRAM interface.  
Logic Analyzer:  
Interposer Card may be used for the memory bus – Information supplied separately.  
256 MB (512 Mb x 16) DDRII SDRAM 400 MHz DIMM.  
Memory:  
ECC  
Registered  
Board sources +1.25 V, +2.5 V, +3.3 V, +5 V, +12 V, and -12 V from primary PCI  
connector.  
Onboard Power:  
All core voltages are derived from 3.3 V supply.  
Auxiliary power for the Secondary PCI slot.  
Power LED: Power on (green).  
Primary PCI: PCI Express - x8 lane  
Support for “RAID” 6 functionality– Ability to make the devices plugged in the  
secondary expansion slots “Private”.  
RAID Support  
Integrated XOR engine and two iSCSI CRC32C off-load engines.  
1 64-bit PCI-X connector - 133 MHz.  
Secondary PCI:  
Serial Port:  
1 64 bit 100 MHz PCI-X  
Intel(R) 82545EM Gigabit Ethernet Controller also on the 100 MHz PCI.  
Dual RJ11 serial port connectors. The 80333 has two integrated UART serial ports  
which are 16550 compatible.  
14  
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Getting Started  
2
The 80333 is a software development environment for IQ80333. Software updates and additional  
offerings from vendors can change frequently. To keep up-to-date, please visit  
2.1  
Kit Content  
The 80333 Kit contains the following items:  
IQ80333 with 400 MHz DDRII SDRAM DIMMs  
Code|Lab* Development Environment from Accelerated Technology Incorporated*  
JTAG Emulation unit  
Serial Cable and RJ11 Adapter  
2.2  
Hardware Installation  
Warning: Static charges can severely damage the boards. Be sure you are properly grounded before removing  
the board from the anti-static bag.  
2.2.1  
First-Time Installation and Test  
For first-time installation, visually inspect the 80333 for any damage made during shipment. Follow  
the host system manufacturer’s instructions for installing a PCI Express adapter card. The board is a  
full-length host bus adapter card that requires a PCI Express slot free from obstructions. The IQ80333  
has a x8 (read as ‘by eight’) edge connector.  
Note: Please note, at this time the IQ80333 does NOT work in a passive backplane. This is due to the  
nature of the PCI Express linking protocol. For the I/O processor to successfully come out of reset,  
a link must be established on the PCI Express bus. Without another device on a passive backplane  
to ‘talk to’, a link is not established.  
15  
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Getting Started  
2.2.2  
Power Requirements  
The 80333 requires a 3.3 V supply coming through the PCI Express primary connector. Plug the  
board into a desktop with a PCI Express slot.  
The 80333 has an auxiliary power receptacle (J1A1, see Section 3.9.4, “Connector Summary”) that  
is used to power the secondary PCI-X slot. This connector is compatible with a standard ATX hard  
drive power connector.  
Caution: Before connecting power to the entire system, verify that the auxiliary system power to the  
secondary PCI-X slot and the main power to the 80333 are both connected. Both power rails should  
come up at the same time. When there is not a card plugged into the secondary PCI-X slot, then the  
auxiliary power can be left unconnected.  
16  
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Getting Started  
2.3  
Factory Settings  
Make sure that the switch/jumper settings are set to proper positions as explained in Section 3.9,  
2.4  
Development Strategy  
2.4.1  
Supported Tool Buckets  
For developing and debugging software application, the production version of the 80333 kit includes  
the Code|Lab Development Environment. Support for the Code|Lab development environment is  
available from MGC*. Please refer to the enclosed package.  
The following tools are available for evaluation purposes (please contact appropriate vendor). These  
tools are for evaluation purposes and do not include any support. Please contact the vendor directly  
for additional information and support. They include, but are not limited to:  
RedHat* GNUPro tools  
ARM RealView Developer Suite  
WindRiver* VxWorks* RTOS and Tornado* Development Tools  
Wasabi Systems NetBSD* OS  
TimeSys* Linux* RTOS  
Accelerated Technology Inc.*, Nucleus Plus* RTOS and Development Tools  
Please contact your Intel representative for the latest updates or visit  
2.4.2  
Contents of the Flash  
The production version of the board contains an image for RedHat RedBoot* target monitor.  
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Getting Started  
2.5  
Target Monitors  
2.5.1  
RedHat RedBoot  
RedBoot* is an acronym for “RedHat Embedded Debug and Bootstrap”, and is the standard  
embedded system debug/bootstrap environment from RedHat, replacing the previous generation of  
debug firmware: CygMon and GDB stubs. It provides a bootstrap environment for a range of  
embedded operating systems, such as embedded Linux and eCos*, and includes facilities such as  
network downloading and debugging. It also provides a simple Flash file system for boot images.  
RedBoot provides a set of tools for downloading and executing programs on embedded target  
systems, as well as tools for manipulating the target system's environment. It can be used for both  
product development (debug support) and for end product deployment (Flash and network booting).  
Here are some highlights of RedBoot capabilities:  
Boot scripting support  
Simple command line interface for RedBoot configuration and management, accessible via  
serial (terminal) or Ethernet (telnet) (see Section 2.6.4, “GNUPro GDB/Insight” on page 21)  
Integrated GDB stubs for connection to a host-based debugger (GBD/Insight) via serial or  
Ethernet. (Ethernet connectivity is limited to local network only)  
Attribute Configuration - user control of aspects such as system time and date (when  
applicable), default Flash image to boot from, default fail-safe image, static IP address, etc.  
Configurable and extensible, specifically adapted to the target environment  
Network bootstrap support including setup and download, via BOOTP, DHCP and TFTP  
X/Y-Modem support for image download via serial  
Power On Self Test  
18  
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Getting Started  
2.6  
Host Communications Examples  
How to communicate to the host.  
2.6.1  
Serial-UART Communication  
Using a serial connection to communicate with the board (Figure 2). Please note that the evlaution  
board is plugged into a host machine, as in the figure below. You can use an additional laptop  
computer, but it is not necessary. The host computer, when loaded with the proper software can  
communicate with the board.  
Figure 2.  
Serial-UART Communication  
Laptop computer  
2.6.2  
JTAG Debug Communication  
Using a JTAG Emulator to communicate with the board (Figure 3). Please note that the evaluation  
board is plugged into a host machine, as in the figure below. You can use an additional laptop  
computer, but it is not necessary. The host computer, when loaded with the proper software can  
communicate with the board.  
Figure 3.  
JTAG Debug Communication  
Laptop computer  
19  
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Getting Started  
2.6.3  
Network Communication  
Using a standard network connection, the user can communicate with the board via the ethernet port.  
Redboot also allows the user to remotely boot the platform using a BOOTP server through the  
network Connection.  
Figure 4.  
Network Communication Example  
A
B
C
D
E
F
G
H
S
EL EC TE  
-L IN  
D
O
N
E
20  
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Getting Started  
2.6.4  
GNUPro GDB/Insight  
2.6.4.1  
Communicating with RedBoot  
Hardware Setup:  
Host with UNIX/Linux or Win32 installed  
IQ80333 with serial cable  
RedHat RedBoot monitor Flashed to the platform board  
Recommended Mapping of UART Ports to Host Com Ports  
Host port connected to the platform board UART.  
The following communication tools can be used:  
Win32 using HyperTerminal  
UNIX using Kermit  
Linux using Minicom  
Solaris using Tip  
RedBoot Monitor startup:  
Description: terminal emulator runs on host and communicates with the board via the serial cable.  
Start:  
Power up the IQ80333. While the 'reset' is asserted, the two 7-segment LEDs  
sequentially display “88”, “A0” through “A6”, followed by “SL” (Scrub loop). When  
RedBoot is successfully booted, it displays the characters “A1” on the LEDs. When  
the final state of “A1” does not occur, reset the processor again.  
The time for reset is approximately 1 or 2 seconds.  
Win32 on Host Connecting with HyperTerminal.  
21  
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Getting Started  
To bring up a HyperTerminal session on a Win32 platform: Go to Start, Programs, Accessories,  
Communications, HyperTerminal  
HyperTerminal setup screens:  
— “Connection Description” Panel:  
Enter name.  
— “Connect To” Panel:  
Select host com2 port (or whichever port you are using).  
— Port Settings:  
Bits per second: 115200  
Data Bits: 8  
Parity: none  
Stop Bits: 1  
Flow Control: none  
— Start HyperTerminal:  
Select Call from HyperTerminal panel.  
— Reset or power up IQ80333.  
— The Host screen reads:  
RedBoot(tm) debug environment - built dd:mm:yy, Mon dd 2004  
Platform: 80333  
Copyright (C) 2004, RedHat, Inc.  
RAM: 0xa0000000-0xa2000000  
FLASH: 0x00000000 - 0x00800000, 64 blocks of 0x00020000 bytes each.  
IP: 192.168.0.1, Default server: 0.0.0.0  
RedBoot>  
For further information on the GDB/Insight Debugger, refer to the content of the GNUPro CD and/or  
the GNUPro Debugging Tools manual. This setup assumes that RedBoot is Flashed on the board.  
22  
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Getting Started  
2.6.4.2  
Connecting with GDB  
Below are the GDB commands entered from the command prompt. Be sure system path is set to  
access “xscale-elf-gdb.exe”. File name in example “hello”. Bold type represents input by user:  
1
>xscale-elf-gdb -nw hello  
Start GDB executable, loads debug information and symbols.  
(GDB) set remotebaud 115200  
Set baud rate for the 80333.  
Connect COM port:  
When using Windows command prompt:  
(GDB) target remote com1  
Example: screen output from board to host (GDB) target remote com1:  
Remote debugging using com1.  
(GDB)  
When using Linux  
(GDB) target remote /dev/ttyS0  
(GDB) load  
Load the program to the board, may have to wait a few seconds.  
(GDB) break main  
Set breakpoint at main.  
(GDB) continue  
Start the program using 'continue' verse the usual 'run'.  
Program hits break at main() and wait.  
1. To be supplied separately.  
23  
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Getting Started  
This Page Left Intentionally Blank  
24  
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Hardware Reference Section  
Hardware Reference Section  
3
3.1  
Functional Diagram  
Figure 5 shows the functional block for the 80333.  
®
Figure 5.  
Intel 80333 I/O Processor Functional Block Diagram  
Target Market  
ROMB  
PCI Express RAID card  
DDR II 400  
DDR SDRAM  
Battery  
HEX  
LED  
Backup  
Buzzer  
Local Bus  
Intel®  
80333  
I/O  
PCI-X Bus Slot (133 MHz)  
Slot  
Slot  
RS-232  
RS-232  
I2C  
PCI-X Bus IOP (100 MHz)  
Gig-E  
GPIOs  
JTAG  
Processor  
X8 Edge Connector  
25  
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Hardware Reference Section  
3.2  
Board Form-Factor/Connectivity  
Table 6 summarizes the form-factor and connectivity features for the 80333.  
Table 6.  
Form-Factor/Connectivity Features  
Description  
The IQ80333 is a x8 PCI Express card with form factor depicted by Figure 6.  
The 80333 connects to the Primary PCI-Express bus of the host machine.  
The 80333 has two PCI-X expansion slot.  
The 80333 has two serial ports and one RJ-45 Ethernet port.  
The 80333 has one JTAG port compliant with ARM Multi-ICE 20-pin connector standard. The JTAG is targeted for the Intel  
XScale® core and the CPLD, and is used for software debug purposes.  
Figure 6.  
Board Form Factor  
A ux  
P ow er  
P C I-X S lot (stradd les b oard e dge )  
P erip hera l B us H eade r  
Pow er Status  
82545 EM  
G bE  
D D R II D IM M  
C P LD  
Flash  
R otary  
Sw itch  
B uz  
zer  
D IP Sw itch  
Se rial  
E E PR O M  
Intr/GP IO  
H ea der  
107  
Intel®  
R J-45  
E therne  
t
80333  
I/O  
B attery  
P C I-X R t A ngle S lot  
P rocessor  
RJ-1 1  
S erial ports  
(M ou nted on Back S ide of P C B)  
P C I-E  
E dge  
312  
26  
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3.3  
Power  
The 80333 draws power from the PCI Express bus. The power requirements for the 80333 are shown  
in Table 7 below. The numbers do not include the power required by a PCI-X card mounted on the  
expansion slot.  
Table 7.  
Power Features  
Voltage Rail  
Maximum Current  
+3.3 V  
+5 V  
6971 mA  
7 mA  
+12 V  
105 mA  
Note: The maximum current was calculated, but not measured. This numbers do not include the power  
required by a PCI-X card mounted on the expansion slot(s).  
27  
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Hardware Reference Section  
3.4  
Memory Subsystem  
The Memory Controller of 80333 controls the DDR SDRAM memory subsystem. It features pro-  
grammable chip selects and support for error correction codes (ECC). The memory controller can  
be configured for DDR SDRAM at 333 MHz and DDR-II at 400 MHz. The memory controller  
supports pipelined access and arbitration control to maximize performance. The memory controller  
interface configuration support includes Unbuffered DIMMs, Registered DIMMs, and discrete  
DDR SDRAM devices.  
This IQ80333 has DDR-II at 400 MHz DIMM on the board. The memory subsystem of the  
evaluation board consists of the SDRAM as well as the Flash memory subsystems.  
3.4.1  
DDR SDRAM  
The DDR SDRAM interface consists of a 64-bit wide data path to support up to 3.2 Gbytes/sec  
throughput. An 8-bit Error Correction Code (ECC) is stored into the DDRII SDRAM array along  
with the data and is checked when the data is read.  
The IQ80333 features on board registered DDRII 400 MHz SDRAM, arranged 512 Mbit x16 in  
density (256 MB), and with ECC.  
3.4.1.1  
Battery Backup  
Battery backup is provided to save any information in DDR during a power failure. The evaluation  
board contains a 4 V Li-ion battery, a charging circuit and a regulator circuit.  
DDRII technology provides enabling data preservation through the self-refresh command. When the  
processor receives an active Primary PCI-X reset, the self-refresh command issues, driving SCKE  
signals low. Upon seeing this condition, the board logic circuit holds SCKE low before the processor  
loses power. Batteries maintain power to DDRII and logic, to ensure self-refresh mode. When the  
circuit detects PRST# returning to inactive state, the circuit releases the hold on SCKE. Removing the  
battery can disable the battery circuit. When the battery remains in the platform when it is de-powered  
and/or removed from the chassis, the battery maintains DDRII for about four hours. Once power is  
reapplied, the battery is fully charged.  
The CPLD contains information in regards to the battery status. Please see Section 3.6.7, “Battery  
Status” on page 34 for more details.  
28  
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Hardware Reference Section  
3.4.2  
Flash Memory Requirements  
Total Flash memory size is 8 MB.  
Table 8.  
Flash Memory Requirements  
Description  
IQ80333 Total Flash size is 8 MB  
80333 Flash technology is based on Intel StrataFlash® family  
80333 Flash uses a 16-bit interface  
80333 Flash utilizes the 80333 Peripheral Bus  
80333 May be programmed using the PCI-X interface – Flash Recovery Utility (FRU) Utility  
80333 May be programmed using a RAM based software target monitor – RedHat RedBoot and ARM Firmware Suite  
80333 May be programmed using a JTAG emulation/debug device  
29  
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Hardware Reference Section  
3.5  
Interrupt Routing  
The 80333 Interrupt routing.  
®
Table 9.  
External Interrupt Routing to Intel 80333 I/O Processor  
Interrupt  
System Resource  
HPI#  
Temperature Sensor, Header  
PCI-X Slot INTB#, Header  
S_INTA#  
S_INTB#  
S_INTC#  
S_INTD#  
P_INTA#  
P_INTB#  
P_INTC#  
P_INTD#  
PCI-X Slot INTC#, Header  
PCI-X Slot INTD#, Header  
PCI-X Slot INTA#, Header  
PCI-X Card Edge INTA#, Header  
PCI-X Card Edge INTB#, Header  
PCI-X Card Edge INTC#, Header  
PCI-X Card Edge INTD#, Header  
30  
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Hardware Reference Section  
®
3.6  
Intel IQ80333 I/O Processor Evaluation Platform  
Board Peripheral Bus  
The 80333 populates the peripheral bus as depicted by Figure 7.  
®
Figure 7.  
Intel IQ80333 I/O Processor Evaluation Platform Board Peripheral Bus Topology  
Agilent*  
HDSP-A103 Hex  
Display  
FLASH 28F640J3C  
RDI  
16-bit  
8 Mb  
DMT-1206-SMT  
Audio Buzzer  
Intel® 80333  
I/O Processor PBI Bus  
XILINX  
XC9572XL-  
10TQ100C  
CPLD  
Grayhill  
HAB16W  
Rotary Switch  
SIMTEK  
STK14C88-3 N 35  
NVSRAM  
PC 104  
Connector  
The devices on the bus include Flash ROM, audio buzzer, CPLD, HEX display, NVSRAM, and  
rotary switch.  
Table 10.  
Peripheral Bus Features  
Description  
The bus width can be 8-bit or 16-bit and runs at 66 MHz.  
The bus is utilized for attaching debug and Flash devices.  
The interfaces/devices that are utilized include an audio buzzer, CPLD, a rotary switch, a HEX Display, and  
NVSRAM.  
31  
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Hardware Reference Section  
3.6.1  
Flash ROM  
Table 11.  
Flash ROM Features  
Description  
Flash is an Intel StrataFlash® technology – Part number: 28F640J3C  
Flash size is 8 MB  
The connection to the peripheral bus is depicted by Figure 8  
Figure 8.  
Flash Connection on Peripheral Bus  
Flash  
28F640J3C  
CS  
16-bit  
8 Mb  
Intel® 80333  
I/O Processor  
Intel® 80333 I/O Processor  
32  
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Hardware Reference Section  
3.6.2  
UART  
The 80333 has two integrated UARTs. Each asynchronous serial ports supports all the functions of a  
16550 UART. The UART signals are connected to a dual RS-232 buffer and then to a RJ-11 serial  
port connector mounted on the bracket of the evaluation board. The serial port and GPIO signals are  
muxed on the same pins. Jumper J1D2, located next to the serial port buffer can disable the buffer to  
allow the signals to be used as GPIO signals. Please see Section 3.9.3, “Jumper Summary” on  
page 39 for more details.  
3.6.3  
3.6.4  
Non-Volatile RAM  
In addition to the 8MB Flash device, the IQ80333 has a separate 32 K by 8 non-volatile RAM device  
on the peripheral bus. The NVRAMs address range is from CE87 0000 to CE87 FFFF (in hex).  
Audio Buzzer  
The 80333 evaluation board has an audio buzzer that is turned on and off by writing to the Buzzer  
Control Register located in the CPLD. Jumper J9D3 adjusts the volume from off, to soft, to loud.  
Please see Section 3.9.3, “Jumper Summary” on page 39 for more details. The audio buzzer’s  
address range is from CE86 0000 to CE86 FFFF (in hex). Please see Section 4.2.2, “Peripheral Bus  
Memory Map” on page 47 for more details.  
3.6.5  
3.6.6  
HEX Display  
The two pairs of Agilent HDSP-A103 seven segment LEDs are used for displaying POST codes or  
other software generated debug codes. Both HEX displays are individually addressed. The left HEX  
display address range is CE84 0000 to CE84 FFFF (in hex). The right HEX display address range is  
CE85 0000 to CE85 FFFF (in hex). Please see Section 4.2.2, “Peripheral Bus Memory Map” on  
page 47 for more details.  
Rotary Switch  
The 80333 provides a Rotary Switch (S8A1) for the user to select from different boot-up flavors.  
Setting ‘0’ enables private devices on the secondary PCI-X bus. Setting ‘0’ allows Redboot to  
configure and use devices in slot A. Position ‘1’ allows the host to see all the devices on the  
secondary PCI bus. The default setting is position 0. Other settings are currently not validated with  
Redboot. Other settings may be used with other software applications. Please see Section 4.2.2,  
“Peripheral Bus Memory Map” on page 47 for more details on addressing the rotary switch.  
Table 12.  
Rotary Switch Requirements  
Description  
Rotary switch has a 4-bit resolution (16 positions).  
The connection to the peripheral bus is depicted by Figure 7.  
Default setting is ‘0’. This enables private devices on PCI-X bus.  
Position ‘1’ allows host to see all devices on the secondary bus.  
33  
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Hardware Reference Section  
3.6.7  
Battery Status  
A CPLD on the IQ80333 provides the following status for the battery. Please see Section 4.2.2, “Peripheral  
Bus Memory Map” on page 47 for more details on addressing the CPLD.  
Table 13.  
Battery Status Buffer Requirements  
Read/  
Write  
BIT  
0
Name  
Description  
0 = No backup battery  
R
Battery Present  
Battery Charged  
Battery Discharged  
1 = Battery backup is present  
0 = Battery is not fully charged  
1 = Battery is fully charged  
1
R
R
0 = Battery backup is not fully discharged  
1 = Battery backup is fully discharged  
2
0 = Disable battery backup  
1 = Enable battery backup  
3
R/W Battery Enable  
Reserved  
4-7  
*
Undefined  
34  
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Hardware Reference Section  
3.7  
Debug Interface  
3.7.1  
Console Serial Port  
The platform has two serial ports for debug purposes as described in Section 3.6, “Intel® IQ80333  
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Hardware Reference Section  
3.7.2  
JTAG Debug  
The 80333 has a 20-pin JTAG connector (J7D2) that is in compliant with ARM Multi-ICE guidelines.  
3.7.2.1  
JTAG Port  
Figure 9.  
JTAG Port Pin-out  
VTref  
nTRST  
TDI  
1
2
4
6
8
Vsupply  
GND  
3
5
GND  
TMS  
7
GND  
TCK  
9
10 GND  
12 GND  
14 GND  
16 GND  
18 GND  
20 GND  
RTCK  
TDO  
11  
13  
15  
17  
nSRST  
DBGRQ  
DBGACK 19  
A9457-01  
36  
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Hardware Reference Section  
3.8  
Board Reset Scheme  
Figure 10 depicts the reset scheme for the 80333. Table 14 list the reset schemes for the 80333.  
Table 14.  
Reset Requirements/Schemes  
Description  
Primary PCI reset, resets all devices on the board. It occurs during the power-up.  
The SRST signal from the JTAG connector is a bi-directional signal that can force a reset similar to the  
power-up reset on the board.  
Figure 10.  
RESET Sources  
DDR II SDRAM  
Reset  
Button  
M_RST#  
RESETIN  
Debounce  
#
B_RST#  
PCI-X Con B  
Power  
PWRDELAY  
Delay  
Intel® 80333 I/O  
Processor  
A_RST#  
PCI-X Con A  
TRST  
TRST  
#
JTAG  
Con  
#
CPLD  
SRST  
#
PWRGD  
RST#  
LAN_PWR_GOOD  
Voltage  
Monitor  
82545EM  
Isolation  
Pwrgood  
PCI-E Con  
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Hardware Reference Section  
3.9  
Switches and Jumpers  
3.9.1  
Switch Summary  
Please note that the term ‘open’ refers to the individual pin of switch S7A1 being pushed in at bottom  
(small dot on pin away from the ‘open’ label on the switch). The term ‘closed’ refers to the pin being  
more details.  
Table 15.  
Switch Summary  
Factory  
Default  
Switch  
Association  
Description  
S1C1  
80333  
Reset  
Reset  
S6A1  
BPCI-X  
S7A1-1  
S7A1-2  
S7A1-3  
S7A1-4  
S7A1-5  
S7A1-6  
S7A1-7  
S7A1-8  
S7A1-9  
APCI-X Bus PCI-XBus A Speed Set  
Closed  
Open  
IOP  
IOP  
RESET: Sets IOP Reset-Mode operation  
RETRY: Sets IOP RETRY-Mode operation  
Open  
BPCI-X Bus PCI-X Bus B speed set  
Closed  
Closed  
Closed  
Open  
BPCI-X Bus PCI-X Bus B Hot Plug Reset  
BPCI-X Bus Hot Plug Capable Disable  
SMBUS Bus SMBUS Manageability address bit 5  
SMBUS Bus SMBUS Manageability address bit 3  
SMBUS Bus SMBUS Manageability address bit 2  
Open  
Open  
S7A1-10 SMBUS Bus SMBUS Manageability address bit 1  
S8A1 CPLD Rotary Switch  
Open  
Position 1  
3.9.2  
Default Switch Settings of S7A1- Visual  
Table 16.  
Switch S7A1  
Closed  
Open  
Open  
Closed  
Closed  
Closed  
Open  
Open  
Open  
Open  
S7A1  
1
S7A1  
2
S7A1  
3
S7A1  
4
S7A1  
5
S7A1  
6
S7A1  
7
S7A1  
8
S7A1  
9
S7A1  
10  
Figure 11.  
Default Switch Setting Switch S7A1  
1
2
3
4
5
6
10  
9
7
8
Open  
38  
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Hardware Reference Section  
3.9.3  
Jumper Summary  
Table 17.  
Jumper Summary  
Jumper  
Description  
Factory Default  
J1C1  
J1D2  
J7B4  
J7D1  
J9D3  
JTAG Chain Enable  
Disables UART  
1-2  
Open  
1-2, 3-4  
Open  
Open  
SM_SCLK to EEPROM, SM_SDTA to EEPROM  
16-bit Flash Enable  
Buzzer Volume  
3.9.4  
Connector Summary  
Table 18.  
Connector Summary  
Connector  
Description  
J1D1  
J1E1  
RJ45 Network Connector for GbE NIC.  
RJ11 Dual Serial Port Connector.  
J1L1, J1M1,  
J1M2, J1N1,  
J2M1, J2M2  
SMA connectors  
J1R1  
J2A1  
J2D1  
J2D2  
Secondary PCI-X Expansion bus Slot  
Secondary PCI-X Expansion bus Slot.  
Power header for fan.  
GPIO tap-in Header  
J1B1, J5D1,  
J5C1  
Test headers  
J2E1  
J5B1  
Edge connector for primary PCI Express Bus.  
DIMM  
J7A1  
PC104 Mod connector.  
I2C 4 pin connectors.  
J7B1, J7B2  
Secondary PCI-X Expansion Slot Power. Please see Section 2.2.2, “Power Requirements”  
for more details  
J7B3  
J7C1  
J7D2  
J9D1  
Test header (empty)  
JTAG CPLD Header.  
Power header for battery.  
3.9.5  
General Purpose Input/Output Header  
Table 19, “J2D2 GPIO Header Definition” on page 39 shows the GPIO signal assignments. The  
GPIO signals are muxed with the serial port signals. The serial port must be disabled to use the GPIO  
signals. These pins corespond to Jumper J2D2.  
Table 19.  
J2D2 GPIO Header Definition  
Pin  
Signal  
Pin  
Signal  
Pin  
Signal  
1
2
3
GND  
4
5
6
GPIO5  
GPIO4  
GPIO3  
7
8
9
GPIO2  
GPIO1  
GPIO0  
GPIO7  
GPIO6  
39  
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Hardware Reference Section  
3.9.6  
Detail Descriptions of Switches/Jumpers  
®
3.9.6.1  
Switch S1C2: Intel 80333 I/O Processor Reset  
This switch resets 80333.  
3.9.6.2  
Switch S6A1: BPCI-X Reset  
This switch resets the PCI-X B segment bus.  
3.9.6.3  
Switch S8A1: Rotary  
Table 20.  
Rotary Switch Settings  
Position  
Description  
0
Enables private devices on the secondary PCI-X slot. Redboot uses this setting to configure  
private devices  
Factory Default  
Disables private devices on the secondary PCI-X slot. This setting allows the host to see all  
the devices on the secondary PCI bus.  
1
These settings are meaningless to Redboot. Other applications may use these settings for  
configuration or software utilization.  
2-F  
For more information, please see Section 3.6.6, “Rotary Switch” on page 33.  
3.9.6.4  
Switch S7A1  
This 10 pin switch that allows the user to enable or disable various features. Please see specifics  
below.  
3.9.6.4.1  
Table 21.  
S7A1-1: PCI-X Bus A Speed Enable Corresponding to  
Signal Name PBI_AD3  
This switch allows the user to force the PCI-X bus A to run at 133 MHz or 100 MHz.  
S7A1-1: PCI-X Bus A Speed Enable  
S7A1-1  
Operation Mode  
Open  
Enables 133 MHz on PCI-X bus A  
Enables 100 MHz on PCI-X bus A (Default Mode)  
Closed  
3.9.6.4.2  
S7A1-2: Reset I/O Processor Core Corresponding to  
Signal Name PBI_AD5  
RESET MODE is latched at the de-asserting edge of P_RST# and it determines when the 80333 is held  
®
in reset until the Intel XScale core Reset bit is cleared in the PCI Configuration and Status Register.  
40  
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Hardware Reference Section  
Table 22.  
3.9.6.4.3  
Switch S7A1-2: Reset IOP: Settings and Operation Mode  
S7A1-2  
Operation Mode  
Open  
Don't hold in reset, enable IOP core (Default mode).  
Hold IOP core in reset.  
Closed  
S7A1-3: Configration Cycle Enable Corresponding to  
Signal Name PBI_AD6  
Configuration Cycle Enable or RETRY is latched at the de-asserting edge of P_RST# and it  
determines when the Primary PCI interface disable PCI configuration cycles by signaling a Retry  
until the Configuration Cycle Retry bit is cleared in the PCI Configuration and Status Register.  
Table 23.  
Switch S7A1-3: RETRY: Settings and Operation Mode  
S7A1-3  
Operation Mode  
Open  
Configuration Retry Enabled. - use when booting in a host (Default mode).  
Configuration Retry Disabled.  
Closed  
3.9.6.4.4  
Table 24.  
S7A1-4: PCI-X Bus B Speed Enable Corresponding to  
Signal Name PBI_AD10  
This switch allows the user to enables 133 MHz on PCI-X segment B.  
S7A1-4: PCI-X Bus B Speed Enable: Settings and Operation Mode  
S7A1-4  
Operation Mode  
Open  
Enables 133 MHz on PCI-X bus B.  
Enables 100 MHz on PCI-X bus B (Default Mode).  
Closed  
3.9.6.4.5  
Table 25.  
S7A1-5: PCI-X Bus B Hot-Plug Reset Disable  
Corresponding to Signal Name PBI_AD11  
This switch allows the user to enables or disable Hot-Plug Reset on PCI-X segment B.  
S7A1-5: PCI-X Bus B Hot-Plug Reset Disable: Settings and Operation Mode  
S7A1-5  
Operation Mode  
Open  
PCI-X Bus B Hot-Plug Enable, normal reset mode disabled  
Closed  
PCI-X Bus B Hot-Plug Disable, normal reset mode (Default Mode).  
3.9.6.4.6  
Table 26.  
Switch S7A1- 6: Hot Plug Capable Disabled Corresponding to  
Signal Name PBI_AD15  
This switch allows the user to enable hot plug devices on the secondary PCI-X bus B.  
Switch S7A1- 6: Hot Plug Capable Disabled: Settings and Operation Mode  
S7A1-6  
Operation Mode  
Open  
Hot Plug on Bus B Enabled  
Disables Hot Plug on Bus B(Default mode)  
Closed  
41  
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3.9.6.4.7  
Table 27.  
Switch S7A1 - 7: SMBUS Manageability Address Bit 0  
Corresponding to Signal Name PBI_AD17  
This allows 80333 to address SMBus Slave Address bit 0 (PBI_A17).  
Switch S7A1 - 7: SMBUS Manageability Address Bit 0: Settings and Operation Mode  
S7A1-6  
Operation Mode  
Open  
SMBus Manageablity Address Bit 0 = “1” (Default Mode)  
SMBus Manageablity Address Bit 0 = “0”  
Closed  
3.9.6.4.8  
Table 28.  
Switch S7A1 - 8: SMBUS Manageability Address Bit 3  
Corresponding to Signal Name PBI_AD18  
This allows 80333 to address SMBus Slave Address bit 3 (PBI_A18).  
Switch S7A1 - 8: SMBUS Manageability Address Bit 3: Settings and Operation Mode  
S7A1-8  
Operation Mode  
Open  
SMBus Manageablity Address Bit 3 = “1” (Default Mode)  
SMBus Manageablity Address Bit 3 = “0”.  
Closed  
3.9.6.4.9  
Table 29.  
Switch S7A1- 9:SMBUS Manageability Address Bit 2  
Corresponding to Signal Name PBI_AD17  
This allows 80333 to address SMBus Slave Address2 (PBI_A17).  
Switch S7A1 - 9: SMBUS Manageability Address Bit 2: Settings and Operation Mode  
S7A1-9  
Operation Mode  
Open  
SMBus Manageablity Address Bit 2 = “1” (Default Mode)  
SMBus Manageablity Address Bit 2 = “0”.  
Closed  
3.9.6.4.10  
Table 30.  
Switch S7A1- 10: SMBUS Manageability Address Bit 1  
Corresponding to Signal Name PBI_AD16  
This allows 80333 to address SMBus Slave Address 1 (PBI_A16).  
Switch S7A1 - 10: SMBUS Slave Address 0: Settings and Operation Mode  
S7A1-10  
Operation Mode  
Open  
SMBus Manageablity Address Bit 1 = “1” (Default Mode)  
SMBus Manageablity Address Bit 1 = “0”.  
Closed  
42  
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Hardware Reference Section  
3.9.6.5  
Jumper J7D1: Flash bit-width  
The IQ80333 expects an 8-bit Flash enable.  
Table 31.  
Jumper J7D1: Descriptions  
Jumper  
Description  
Factory Default  
J7D1  
8-bit Flash Enable  
Open  
Table 32.  
Jumper J7D1: Settings and Operation Mode  
Pins  
Operation Mode  
1-2  
NC  
Enables 16-bit Flash  
8-bit Flash (default mode)  
3.9.6.6  
Jumper J1C1: JTAG Chain  
Table 33.  
Jumper J1C1: Descriptions  
Jumper  
Description  
Factory Default  
J1C1  
JTAG Chain Enable  
1-2  
Table 34.  
Jumper J1C1: Settings and Operation Mode  
J1C1  
Operation Mode  
Pins 1, 2  
Pins 3, 4  
Pins 5, 6  
Pins 7, 8  
Enables JTAG Chain for IOP only (Default Mode).  
Enables JTAG Chain for IOP + CPLD  
Enables JTAG Chain for IOP + CPLD + GBE  
Enables TRST# pull-down resistor  
3.9.6.7  
Jumper J1D2: UART Control  
Table 35.  
Jumper J1D2: Descriptions  
Jumper  
Description  
Factory Default  
J1D2  
UART Control  
Open  
Table 36.  
Jumper J1D2: Settings and Operation Mode  
J1D2  
Operation Mode  
Pins 1, 2  
NC  
Disables UART/RS-232 port  
Enables UART/RS-232 port (Default Mode)  
43  
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Hardware Reference Section  
3.9.6.8  
Jumper J7B4: SMBus Header  
Table 37.  
Jumper J7B4: Descriptions  
Jumper  
Description  
Factory Default  
J7B4  
SMBus Header  
1-2, 3-4  
Table 38.  
Jumper J7B4: Settings and Operation Mode  
J7B4  
Operation Mode  
Pins 1, 2  
Pins 3, 4  
Pins 5, 6  
Pins 7, 8  
Pins 9, 10  
Pins 11, 12  
Connects SM_SCLK to EEPROM U7B2 (Default Mode).  
Connects SM_SDTA to EEPROM U7B2 (Default Mode).  
Connects SM_SCLK to GE_SMCLK (for GBE control)  
Connects SM_SDTA to GE_SMDAT(for GBE control)r  
Connects SM_SCLK to PE_SMCLK (for PCI-E bus control)  
Connects SM_SDTA to PE_SM_SDAT (for PCI-E bus control)  
3.9.6.9  
Jumper J9D3: Buzzer Volume Control  
Table 39.  
Jumper J9D3: Descriptions  
Jumper  
Description  
Factory Default  
J9D3  
Buzzer Volume  
Open  
Table 40.  
Jumper J9D3: Settings and Operation Mode  
J9D3  
Pins 2, 3  
Pins 1, 2  
NC  
Operation Mode  
Buzzer Volume Soft  
Buzzer Volume Loud.  
Buzzer Volume Off.  
44  
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Software Reference  
Software Reference  
4
4.1  
DRAM  
®
For DDR SDRAM Sizes and Configurations, see theIntel 80333 I/O Processor Developers  
Manual. This section also contains multiple examples of Address Register Programming.  
®
See the Intel 80333 I/O Processor Design Guide, section 8, table 34 for supported DDR333 and  
DDR-II configurations.  
®
For all registers relating to DRAM and other MCU related registers, see the Intel 80333 I/O  
Processor Developers Manual.  
4.2  
Components on the Peripheral Bus  
The 80333 has a peripheral bus which contains the following peripheral devices:  
Flash ROM  
CPLD  
Audio Buzzer  
Rotary Switch  
Hex Display  
Peripheral memory-Mapped Register Locations and all registers associated with PBI or the Peripheral  
®
Bus Interface Unit can be found in the Intel 80333 I/O Processor Developers Manual.  
45  
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Software Reference  
4.2.1  
Flash ROM  
®
The Flash ROM is an 8 MB Intel StrataFlash (part# 28F640) that sits on the Peripheral Bus and is  
accessed using PCE0.  
Figure 12.  
Flash Connection to Peripheral Bus  
Flash  
28F640J3C  
CS  
16-bit  
Intel® 80333  
I/O Processor  
8 Mb  
Intel® 80333 I/O Processor  
®
Under normal operation, the very first instruction access by the Intel XScale core begins at location  
0x0 on the 80333 Internal Bus. By default, address 0x0 is pointing to PCE0 where Flash is located.  
Currently, the Intel Flash Recovery Utility (FRU) can be used with the IQ80333. Another alternative  
to FRU would be to reprogram the Flash through JTAG or using Redboot commands, when Redboot  
is currently loaded onto the board. For more information on using Redboot to program the Flash,  
please see Redboot Manual.  
46  
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Software Reference  
4.2.2  
Peripheral Bus Memory Map  
The Table 41 is the physical memory map of the devices on the 80333 Peripheral Bus:  
Table 41.  
Peripheral Bus Memory Map  
Address Range (in Hex)  
Size  
Data Bus Width  
Description  
C000 0000 - C07F FFFF  
CE80 0000 -CE80 FFFF  
CE81 0000 -CE81 FFFF  
CE82 0000 -CE82 FFFF  
CE83 0000 -CE83 FFFF  
CE84 0000 -CE84 FFFF  
CE85 0000 -CE85 FFFF  
CE86 0000 -CE86 FFFF  
CE87 0000 -CE87 FFFF  
CE8D 0000 -CE8D FFFF  
CE8E 0000 -CE8E FFFF  
CE8F 0000 -CE8F FFFF  
8 MB  
8-bit or 16-bit  
8-bit  
Flash memory (re-mapped)  
Product Code  
64 KB  
64 KB  
64 KB  
64 KB  
64 KB  
64 KB  
64 KB  
64 KB  
64 KB  
64 KB  
64 KB  
8-bit  
Board Stepping  
CPLD Firmware Revision  
Discrete LEDs  
8-bit  
8-bit  
8-bit  
Hex Display Left  
Hex Display Right  
Buzzer Control  
8-bit  
8-bit  
8-bit  
32 KB NV RAM  
Rotary Switch  
8-bit  
8-bit  
ESN I/O  
8-bit  
Battery Status  
47  
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Software Reference  
4.3  
Board Support Package (BSP) Examples  
Examples provided in this section are based on the RedHat* RedBoot software running on the  
IQ80333.  
4.3.1  
Intel® 80333 I/O Processor Memory Map  
Figure 13 depicts the memory space for the 80333 (before RedBoot boots):  
®
Figure 13.  
Intel 80333 I/O Processor Memory Map  
ADDRESS  
0000 0000H  
Memoryless Boot Registers  
0000 0040H  
ATU Outbound Direct Addressing Window  
8000 0000H  
ATU Outbound Memory Translation Windows  
8800 0000H  
Code / Data External Memory  
ATU Outbound I/O Translation Window  
9000 0000H  
9001 0000H  
Code/Data  
External Memory  
FFFF E000H  
FFFF E900H  
Peripheral Memory-Mapped Registers  
I/O Processor Reserved  
Reserved  
Address  
Space  
External Memory  
FFFF FFFFH  
48  
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Software Reference  
4.3.2  
RedBoot* Intel® 80333 I/O Processor Memory Map  
Size  
(MB)  
Virtual Address  
Physical Address  
Description  
0x0000 0000  
0x8000 0000  
0x8800 0000  
0x9000 0000  
0x9010 0000  
0xA000 0000  
0xC000 0000  
0xC080 0000  
0xCE80 0000  
0xCE90 0000  
0xD000 0000  
0xF00 0000  
0x0000 0000  
2048  
128  
128  
1
SDRAM - 64-bit ECC  
0x8000 0000  
ATU Outbound Memory Translation Windows  
*
Unused  
0x9000 0000  
ATU OUtbound I/O Translation Window.  
*
255  
512  
8
Unused  
0x0000 0000  
SDRAM - 64 bit ECC Uncached  
Flash (PCE0#)  
Unused  
0xC000 0000  
*
224  
1
0xCE80 0000  
PCE1# - Uncached  
Unused  
*
23  
*
512  
1
Unused  
0xF00 0000  
*
Cache flush  
0xF010 0000  
254  
Unused  
PMMR - Intel®80333 I/O processor Memory Mapped  
Registers. Please see Chapter 17 of the Intel® 80333 I/O  
Processor Developer’s Manual for more details.  
0xFFF0 0000  
0xFFF0 0000  
1
4.3.3  
RedBoot Intel® 80333 I/O Processor Files  
Attached in the kit, find a copy of the RedHat eCos for IQ80333 CD. Once the CD is installed, you  
may find:  
The RedBoot initialization code source files from the following location:  
From the installed directory:  
..\RedHat\eCos\packages\hal\arm\xscale\iq80333\current\include  
The RedBoot binary image files (downloadable onto Flash) from the following location:  
From the installed directory:  
..\RedHat\eCos\loaders\iq80333  
To access RedHat GNUPro tools including RedBoot binaries and source code, you may also go to the  
following location on the Intel site:  
49  
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Software Reference  
4.3.4  
RedBoot Intel® 80332 I/O Processor DDR  
Memory Initialization Sequence  
In order to set the correct ECC bits, a DDR memory system (DIMM or discrete components) must be  
written to with a known value. This process requires 64-bit writes to the entire DDR memory intended  
for use. The following explains the sequence for memory initialization by RedBoot on an 80333 board  
with an ECC DIMM. It also includes an example for the scrub (ECC initialization) code.  
Initialization Sequence:  
1. Disable interrupts. (Technically they are disabled at reset, but for soft reset this is included.  
2. Init PBIU (Peripheral Bus Interface Unit) chip selects.  
3. Enable I cache.  
4. Move Flash to 0xF0000000.  
5. Set TTB and Enable MMU.  
6. Read DIM for memory parameters.  
7. Set Memory Parameters.  
8. Delay.  
9. Turn DDRAM on.  
10. Delay.  
11. Enable Data Cache.  
12. Enable BTB.  
13. Flush all.  
14. Clear ECC error logs.  
15. Battery Test.  
16. Enable ECC.  
17. Scrub loop: Write zeros to all memory locations  
mov  
mov  
mov  
mov  
mov  
mov  
mov  
mov  
mov  
r8, r4  
// save DRAM size  
r0, #-1  
r1, #-1  
r2, #-1  
r3, #-1  
r4, #-1  
r5, #-1  
r6, #-1  
r7, #-1  
ldr  
r11, = SDRAM_BASE  
// scrub Loop  
0:  
stmia  
subs  
bne  
r11!, {r0-r7}  
r12, r12, #32  
0
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IQ80321 and IQ80333 Comparisons  
IQ80321 and IQ80333 Comparisons A  
This appendix provides a brief description for differences between IQ80333 and IQ80321.  
®
®
Table 42.  
Intel IQ80321 Evaluation Platform Board and  
Intel IQ80333 I/O Processor Evaluation Platform Board Comparisons  
Intel® IQ80333 I/O Processor Evaluation  
Features  
Intel® IQ80321 Evaluation Platform Board  
Platform Board  
I/O Processor  
80333  
Intel® 80321 I/O Processor  
Core/Microprocessor  
Technology  
Intel XScale® microarchitecture  
Intel XScale® microarchitecture  
Memory Technology  
Form Factor  
DDRII 400 MHz SDRAM DIMM  
PC1600 DDR SDRAM (100 MHz Clock)  
PC board that attaches to a PC/Server/Backplane Extended PC board that attaches to a  
by a PCI Express slot – Two PCI-X Expansion Slot PC/Server/Backplane – One PCI-X Expansion Slot  
PC/Server/Backplane  
Connection  
PCI-X 133 MHz/64-Bits or  
PCI 66 MHz/64 Bits  
PCI Express  
One PCI-X 100 MHz/64-bits  
One PCI-X 133 MHz/64-bit  
One PCI-X 133 MHz/64-bit  
Expansion Card Slot  
PCI/PCI-X Bridge  
IBM PCI-X Bridge  
PCI-X to PCI-X Bridge integrated with the  
Reference: IBM 133 PCI-X Bridge  
IQ80333l  
External interrupts are routed through the XINT  
pins on the 80321. They include INTA, INTB form  
External interrupts are routed through the XINT  
PCI-X expansion slot, INTA from 82544 GBE, and  
pins on the 80333. Please see Table 9 for more  
UART interrupt – Steering and Status registers are  
details.  
Interrupt Routing  
in 80321 – see Intel® 80321 I/O Processor  
Developer’s Manual  
Internal to 80333 – Refer to Intel® 80333 I/O  
Processor Developer’s Manual  
Internal to the 80321 - please refer to the Intel®  
80321 I/O Processor Developer’s Manual  
Timers  
2-bit/33-100MHz multiplexed bus with six  
chip-enables, Synch/Asynchronous (IQ80321  
operates in 33 MHz Asynchronous mode) –  
Refer to PBI section in the IIntel® 80321 I/O  
Processor Developer’s Manual.  
66 MHz multiplexed bus with two chip-enables,  
Synch/Asynchronous (80333 operates in 66 MHz  
Asynchronous mode) – Refer to PBI section in  
Intel® 80333 I/O Processor Developer’s Manual  
Local/Peripheral Bus  
8-bit or 16-bit, 8 MB accessed through Peripheral 16-bit, 8 MB accessed through Peripheral Bus  
Flash Memory  
Bus with chip-enable 0 (PCE0)  
with chip-enable 0 (PCE0))  
One UART on the Peripheral bus – 16C550  
device  
Serial Debug Port  
Two UARTs integrated within the 80333.  
Network Debug Port  
Rotary Switch  
LED HEX Display  
JTAG  
Intel® 82545EM GbE on the 100 MHz PCI-X bus Intel® 82544 GbE on the PCI-X bus  
Same  
Same  
Same  
Same  
20-PIN ARM Compliant  
20-PIN ARM Compliant  
Various Mictors  
Logic Analyzer Connection Through PCI-X or PCI Express  
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IQ80321 and IQ80333 Comparisons  
This Page Left Intentionally Blank  
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Getting Started and Debugger  
Getting Started and Debugger  
B
B.1  
Introduction  
This appendix pertains to Code|Lab version 2.3 and later which uses Microsoft's Visual Studio .NET.  
For Code|Lab version 2.2 and earlier, refer to appendix B.  
®
For more detailed information on JTAG and the 80333, please see the Intel 80333 I/O Processor  
JTAG Support White Paper.  
B.1.1  
Purpose  
The purpose of this appendix is to help the user setup and become familiar with the IQ80333 and  
other related hardware and software. This appendix steps the user through an example program using:  
Code|Lab EDE  
Code|Lab EDE debugger  
Macraigor* Raven* JTAG  
This programming also includes:  
software setup  
compiling linking  
debugging example code  
The user tours the major features of the debugger and explores some of the basics of debugging. By  
the end of this exercise, the user has been given a general understanding of the MGC* development  
tools and can begin working on new applications.  
B.1.2  
Necessary Hardware and Software  
This example uses the MGC Code|Lab plug-in for Microsoft* Visual Studio, the GNU* Pro compiler,  
the Macraigor Raven JTAG connector, and the 80333.  
B.1.3  
Related Documents  
Table 43.  
Related Documents  
Document Title  
Document #  
Intel® 80333 I/O Processor Developer’s Manual  
Intel® 80200 Processor based on Intel® XScaleMicroarchitecture Developer’s Manual  
Hot-Debug for Intel® XScaleCore Debug White Paper  
305432  
273411  
273539  
Code|Lab Debug for ARMa  
a.  
This document installs to C:\MGC\docs\codelab debug.pdf.  
Many of these documents load as part of MGC Code|Lab install (Start/Programs/ Accelerated  
Technology/Documentation). This menu contains both the ARM* ADS and Code|Lab documents.  
53  
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Getting Started and Debugger  
B.2  
Setup  
B.2.1  
Hardware Setup  
®
Use Figure 14 and the rest of the Intel 80333 I/O Processor Evaluation Platform Board Manual, to  
set up the hardware.  
Connect the Raven to the host via the parallel port and to the evaluation board via the 20-pin  
JTAG connector.  
Note: The parallel port must be configured to EPP mode for the Macraigor Raven to work properly.  
The parallel port setting can be changed in the BIOS setup program or in Control Panel. More  
information on the Raven can be found at the Macraigor web site. Test software for the Raven is free  
and available for download at:  
Connect a serial cable from the evaluation board to the host.  
Note: The serial cable connects to the evaluation board with an RJ11 connector and connects to the host  
computer serial port via an RJ11 to DB9F adaptor. The serial port configuration is covered in the  
configuration section below.  
The 80333 plugs into a bus master PCI Express slot on the backplane or platform.  
®
Figure 14.  
Intel 80333 I/O Processor Hardware Setup Flow Chart  
Host  
Parallel Port Cable  
Serial Cable  
JTAG  
20-Pin JTAG Connector  
Evaluation Board  
Backplane or PCI-X Platform  
55  
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Getting Started and Debugger  
B.2.2  
Software Setup  
MGC Code|Lab is a plug-in to Microsoft Visual Studio .NET, therefore Microsoft Visual Studio .NET  
must already be loaded on the system. To load MGC Code|Lab, run setup.exe under the program  
directory.  
Note: Do not install over an old version of MGC Code|Lab. When necessary, uninstall Code|Lab with  
Add/Remove programs under the Control Panel before reinstalling.  
To view the soft copies of document, Adobe Acrobat Reader is needed. The latest version can be  
downloaded at (http://www.adobe.com).  
Figure 15.  
Software Flow Diagram  
MGC Code|Lab  
Macraigor DLL  
Debug Monitor Code  
Resides in the Flash  
Application Code  
Loads into Memory  
Flash  
Memory  
Evaluation Board  
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Getting Started and Debugger  
B.3  
New Project Setup  
B.3.1  
Creating a New Project  
1. Launch Code|Lab EDE for .NET.  
2. On the Start Page, select “New Project”.  
a. The “New Projects” window appears.  
b. Select “Code|Lab Projects” under Project Types and name the project “Project80333” in  
the name field.  
Note: The directory “Project80333” is created under the path specified in the Location box.  
c. Click OK.  
3. In the Code|Lab EDE Project Wizard Window:  
a. Select “RedHat GNU Tools for XScale” under “Build Toolset”.  
b. Select 80333 under “Project Template”.  
c. Select “Application” under “Project Type”.  
d. Click “Finish”.  
4. Close the “Start Page” by clicking on the X in the top right corner of the Start Page window.  
5. The new project is now in the “Solution Explorer” window. When this window is not open,  
open it by “View, Solution Explorer”.  
6. Right click on “Project80333” and select “Save Project80333”.  
zip file (…/Tester1LED) from the Software Support section, containing the example code files  
to the newly created project folder:  
Tester1LED.zip  
blink.c  
blink.h  
led.c  
led.h  
These files can be placed in any directory on the hard drive.  
8. Add the newly downloaded files to the project:  
a. In the “Solution Explorer” window, right click on “Project80333” and select “Add, Add  
Existing Item”.  
b. In the “Add Existing Item” window, use the drop-down menu under “Look In” to find the  
four files listed in step 7 on the hard drive. Select all four files and click “open”. The  
“Solution Explorer” window now shows these files under “Project80333”.  
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Getting Started and Debugger  
B.3.2  
Configuration  
Examine the main menu of Code|Lab EDE for .NET.  
File  
Edit  
Project  
View  
code|lab EDE  
Build, Debug  
Tools  
Window  
Help  
Since Code|Lab is a plug-in to Visual Studio, some of these menu items are Visual Studio and some  
are specific to Code|Lab. Click on any of these menu items and the drop-down menu displays the  
subordinate menu items. Many of these items have defined tool bar symbols, function keys, and  
keyboard patterns as alternatives.  
Note: Projects can be built under the “code|lab EDE” menu or under the “build” menu. Always use the  
“code|lab EDE” menu to perform Code|Lab project builds. Builds under the “build” menu invoke  
the Visual Studio C compiler.  
1. On the main menu, select “code|lab EDE, Configuration”.  
2. When the “code|lab EDE Configuration” window appears, click on each of the words in the  
left box. Notice that the rest of the window changes when you click on different parts of the  
menu tree. This is a typical feature of Code|Lab EDE for .NET.  
3. Click on Toolsets.  
4. Click on the drop-down arrow and select “RedHat GNU Tools for XScale”. The build tool  
paths now appear in the box and must be modified as stated below in bold. Note that the  
assembler and the linker are invoked by GCC.  
a. “Compiler path: $(ToolDir)\BIN\XSCALE-ELF-GCC.EXE”.  
b. “Assembler path: $(ToolDir)\BIN\XSCALE-ELF-GCC.EXE”.  
c. “Linker path: $(ToolDir)\BIN\XSCALE-ELF-GCC.EXE”.  
d. “Librarian path: $(ToolDir)\BIN\XSCALE-ELF-AR.EXE”.  
5. In the left box, click on “Debugging, General”. When the checkboxes are available in your  
version, set all four debug options to “false”.  
6. Click “Apply” and click “OK”.  
7. On the main menu, click “code|lab EDE, Project Settings”.  
8. When the “code|lab Project Settings” window appears, click on “C/C++/Assembler” in the left  
box. Use the drop-down arrow to select “C compiler” for “Build Tool”.  
9. Edit the command line box at the bottom so that it contains the following:  
-v -Wall -specs=redboot.specs -gdwarf-2 -O0 -c -mcpu=xscale $(InputRelPath) -o  
$(OutDir)\$(InputName)$(OutputExt)  
10. Use the drop-down arrow to select “Assembler” for “Build Tool. Edit the command line box at  
the bottom so that it contains the following:  
-v -specs=redboot.specs -o $(OutDir)\$(InputName)$(OutputExt) $(InputRelPath)  
11. In the left box, click on “Linker”. Edit the command line box at the bottom so that it contains  
the following:  
-v -specs=redboot.specs -o $(OutDir)\$(ProjectName).elf $(ObjectFiles) $(Libraries)  
12. Click “Apply” and then click “OK”.  
13. In the “Solution Explorer” window, right click “Project80333” and select “Save  
Project80333”.  
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Getting Started and Debugger  
B.4  
Flashing with JTAG  
B.4.1  
Overview  
Code|Lab and Raven are capable of reading from, writing to, and erasing the contents of the Flash on  
the evaluation board. The board comes with RedBoot loaded in the Flash. RedBoot is the RedHat  
debug monitor which initializes the board and has some debug and diagnostic functions. It is capable  
of serial communication with the console of a debug program or with Microsoft HyperTerminal, and  
it prepares the board for accepting an application program.  
Code|Lab invokes a Flash programmer written by Macraigor. More information on the Flash  
programmer is located at:  
ory_C ode=Software.  
This Flash programmer only supports certain file formats: Intel Hex, Motorola srec and standard elf  
(executable and linking format). RedBoot.s19 and RedBoot.srec are both srec files.  
Macraigor offers conversion tools to convert existing file types to a supported file type. These  
conversion tools are located at:  
C:\MGC\codelab\codelab Debug\Macraigor\Flash Programmer  
The ReadMe.txt file describes the conversions tools. BinToS19.exe converts binary files to srec files  
and MakeIntelHex.exe converts a.out files to Intel Hex files. When using the BinToS19.exe  
conversion tool, use 0x0 for the starting address. For example, at the CMD prompt in the directory  
where BinToS19.exe is located, the command line looks like this:  
C:\MGC\codelab\codelab Debug\Macraigor\Flash Programmer>bintos19  
C:\temp\redboot_ROM.bin 0x0 c:\temp\redboot_ROM.s19  
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Getting Started and Debugger  
B.4.2  
Using Flash Programmer  
Note: The parallel port must be set to EPP mode or the Macraigor Raven does not work properly.  
for the IQ80333.  
1. Double click on the “Code|Lab Debug” icon on the desktop.  
The Connection Window appears.  
2. Select Macraigor JTAG Connect  
a. Click Setup.  
3. Select “ARM XScale”, correct LPT port, and “Raven” (do not press OK).  
4. Click Additional Options…, check Enable Option, then press Configure  
The Console Options windows now appears.  
5. Console Port: (Set appropriately)  
Baud Rate: 115200  
Data Bits: 8  
Parity: None  
Stop Bits: 1  
Then Press OK, OK, OK (this returns to the Connect window).  
6. Now press Connect.  
Assembly code now visible.  
7. Select “Memory/Flash…”  
The OCDemon Flash Memory Programmer window appears.  
8. The Flash programmer needs a file which is architecture specific, in this case. In the Flash  
programmer window, select “File/Open”, then choose the file “XscaleIQ80333.ocd” at:  
“C:\MGC\Embedded\codelab\codelab Debug\Macraigor\”.  
9. Click the Program button.  
10. Click Browse and “Files of type:” All Files, then choose the “redboot_ROM.srec” file  
(downloaded and uncompressed from developer.com).  
11. Check box “Erase Target Flash Sector(s) Before Programming”.  
12. Click Program.  
The Flash now programs and verifies; click Close when 100% complete.  
13. Cycle power to the board to see that the LEDs on the board sequence “8.8.”, “A5”, “A6”,  
“S.L”, then “A1”.  
This is the normal LED sequence of RedBoot. The board may need to be reset more than once.  
Explore the other features of the Flash programming window. The contents of the Flash can be  
erased, copied to a file on the host, and verified against a file on the host.  
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Getting Started and Debugger  
B.5  
B.6  
Debugging Out of Flash  
JTAG debuggers can be used on two levels; with or without the source code. When the Flash is  
programmed, the debugger can monitor the executable code, halt it, step through it, and monitor the  
memory and registers. The executable code is disassembled so that the assembly code can be  
examined.  
Debugging with source code allows the user to examine the C code that is being executed. This  
requires that the source code is available and linked by the debugger to the executable code that is  
running on the evaluation board.  
Building an Executable File From Example Code  
1. Launch Code|Lab EDE and open “Project80333”.  
2. Select “code|lab EDE, Rebuild Project”.  
Note: A project can have more than one solution, but in this example, there is only one solution for the  
project, so there is no difference between “Build Project” and “Build Solution” in this example.  
Note: Rebuild cleans and builds. Clean deletes the old .o files in the project and build compiles, links, and  
produces the executable files.  
3. When there are errors, carefully go back through Section B.3.2, “Configuration”.  
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Getting Started and Debugger  
B.7  
Running the Code|Lab Debugger  
This section is provided to get the system up and running in the Code|Lab Debug environment, but it  
is not intended as a full-functional tutorial. Please refer to the MGC Code|Lab Debug Reference  
Manual for more detailed information.  
B.7.1  
Launching and Configuring Debugger  
1. In EDE, click on the icon that looks like a red bug. The “Connect” window appears.  
2. When not configured from Section B.4.2, “Using Flash Programmer”, go to Section B.4.2 and  
perform steps 2-5.  
3. Press Connect to enter debug mode.  
a. The Code|Lab Debug environment appears with the Assembly window open.  
Note: Mouseovers are available for most of the toolbar icons. (Leave the mouse over the debug icons  
across the top on the toolbar to see a brief explanation of each.)  
4. Click on the go icon and let RedBoot boot (takes a minute) until the RedBoot prompt  
“RedBoot>” appears in the Console window (click the Console tab at the bottom of the Debug  
window to view the Console window).  
5. From the console window:  
a. type “diag”.  
b. hit “Enter”.  
The RedBoot Diagnostic function is invoked.  
Try out a few of the tests as desired.  
6. Close the Debugger and EDE environment.  
7. Reset the board (cycle power).  
B.7.2  
Manually Loading and Executing an Application Program  
1. Launch the Code|Lab Debug Environment from the desktop icon.  
2. Ensure “File…/Program Load Options/Load Executable and Symbols” is checked.  
3. file, program load options, load executable and symbols.  
a. Select “file, open program, browse”.  
b. go find c:\<RedBoot downloaded Files>…\Test1LED\O\Test1LED.elf.  
4. Hit Go (80, 3, 32, and 21 cycle on the LEDs).  
5. Cycle power on the board.  
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Getting Started and Debugger  
B.7.3  
Displaying Source Code  
1. Launch the Code|Lab EDE Debugger and open the “Tester1LED” ELF program.  
Note: Use the File/Recent Programs menu for quick access.  
2. Select the “Files” view in the lower tab of the WorkSpace window.  
3. Bring up “blink.c” and “led.c” source code by double-clicking each filename.  
4. Use the “Windows” Menu to arrange the windows, or maximize, minimize, and resize  
manually as desired.  
5. Press the “Mixed” tab at the bottom of the “blink.c” window. Notice that the assembly along  
with each C statement.  
6. Press the “Source” tab to revert back to C code only.  
B.7.4  
Using Breakpoints  
Note the small gray circles on the sidebar beside each line of source code. Single-click any of these  
gray circles and a red dot appears. The red dot represents a break point. Single-click the red dot to  
remove it, or click the “Remove all breakpoints” icon.  
Place a breakpoint on the following lines of code in “blink.c”:  
displayLED(leds[8],leds[0]); /* LED display '80' */  
displayLED(leds[0],leds[3]); /* LED display '03' */  
displayLED(leds[3],leds[2]); /* LED Display '32' */  
displayLED(leds[2],leds[1]); /* LED display '21' */  
displayLED(leds[16],leds[16]); /* LED display ' ' */  
1. Click the “Go” icon.  
The yellow arrow stops at the first break point and the HEX display does not change.  
2. Click the “Go” icon again.  
The last instruction has now been executed and an “80” is displayed.  
3. Continue on in this fashion, watching the lines execute only as they are called, while the  
yellow arrow shows exactly what line is up next in execution.  
4. Click the “Remove all breakpoints” icon.  
5. Press “Go” again and notice that the program loop is infinite.  
6. Press the “Halt” icon to stop execution.  
7. Close the debugger and cycle power to the board.  
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Getting Started and Debugger  
B.7.5  
Stepping Through the Code  
The “led.c” file contains a function that is called from code in “blink.c”. This exercise steps through  
the code and utilizes a few of the most common step tools.  
1. Launch the debugger, open Tester1LED, and open the “blink.c” and “led.c” files.  
2. Set a breakpoint on the following line in “blink.c”: displayLED(leds[8],leds[0]); /* LED  
display '80'*/  
3. Press Go.  
Program execution sit on the first breakpoint.  
4. Press the “Step Over” icon and notice how execution jumps over the function call to the next  
line of execution.  
5. Now try the “Step Into” icon and note that the pointer has now jumped into the function  
“displayLED”, which is located in the “led.c” file.  
6. Press the “Step Over” icon again and watch the pointer advance within the function to the next  
executable line.  
7. Now press the “Step Out of” icon and notice how execution leaves the called function and  
waits on the next executable line in “blink.c”.  
8. The animate icon can also be used to provide a “Step Into” effect that occurs at a specified  
time interval (default of 1 second). This can be modified in the “Settings” section of the  
“View/Options” menu. Experiment with this as desired.  
9. Use Halt to stop the animate mode before the next breakpoint.  
10. Also note that Go can be pressed at any time to continue execution from the current line to the  
next breakpoint or program end.  
B.7.6  
Setting Code|Lab Debug Options  
Besides the Animate debug time interval setting briefly mentioned in step 8 of the previous exercise,  
many useful options can be accessed from the “View/Options” menu.  
1. Experiment here by bringing up the Registers window (click and change the view options  
between binary and decimal; for example).  
Hint: Settings tab, Interface, Radix  
2. Also try bringing up the Memory window (click) and change the number of columns between  
4 and 2 and notice the changes.  
Hint: Settings tab, Memory Window, Number of Columns  
Note: Press window icons a second time to remove them from view.  
Again, there are many features of the debug environment not discussed here. Please see the Code|Lab  
manuals for a full description of debug features.  
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B.8  
Exploring the Code|Lab Debug Windows  
This section discusses some basics of the debug environment. Some of these windows and concepts  
have been dealt with during previous exercises in this manual. However, many new windows are also  
discussed and basic interaction exercises are given. Begin this section by launching the Code|Lab  
Debugger environment and connection via the JTAG port.  
B.8.1  
B.8.2  
Toolbar Icons  
Placing the mouse arrow on any icon displays the text function of that icon. When the icon launches a  
special window (i.e., Watch, Memory, Call Trace, etc.), the icon brings that window up on the first  
click and removes the window when pressed again.  
Workspace Window  
Click on the Workspace icon. Click on the Files and Browse tabs and examine the contents. Note that  
there are more files than the original source files. When you double-click on the source files, blink.c  
and led.c, the source window appears for that file. When you double-click on an included file, the  
debugger is not be able to find the file.  
B.8.3  
B.8.4  
B.8.5  
Source Code  
The source code windows are opened by double-clicking on the source files in the Workspace  
window under the files tab. Viewing of mixed Assembly and C code or C code only, is controlled by  
the tabs at the bottom of these windows.  
4 Debug and Console Windows  
The Debug window displays debugger activity messages while the Debug tab is displayed. Script  
commands can be entered manually at the top of the window. Serial output is displayed while the  
Console tab is active. Commands for the running application can be entered at the top of this window.  
Memory Window  
Click on the Memory window icon. Change the address at the top of the window to 0xffffe100 and  
click on the green arrow to the right (or press Enter). This changes the viewable starting address of the  
Memory window. The ATU header begins at 0xffffe100 and contains a known number (8086). Also  
look at the base and limit registers for the memory and Flash devices, at 0xffffe508 and ffffe688  
®
respectively, since they were initialized by RedBoot. Use the Intel 80333 I/O Processor Developers  
Manual, to see what the values mean.  
Note: The tabs at the bottom allow the selection of two memory regions to observe.  
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Getting Started and Debugger  
B.8.6  
Registers Window  
Close all the active windows, then bring up the Registers window. Resize the this window and its  
columns to get a good view of all the registers. Notice that there is a Flags tab at the bottom of this  
window. This is useful for seeing the system flags defined by the CPSR. These are important  
especially during conditional code execution (see the ARM Architecture Reference Manual for more  
detail), but the flags are not changed during this exercise.  
Click on the registers tab of the registers window and click the Animate icon. Notice how the register  
values change during program execution (red values are those that were modified during the last  
execution cycle). Click the Halt icon at any time, then try right clicking a register row and selecting  
“Go To Memory”. Notice how the Memory window is brought up and the address contained in that  
register is shown.  
Click on the registers tab. Red means that the register value changed since the last fetch as opposed to  
black which represents no change. Register values can be manually changed in this window.  
B.8.7  
Watch Window  
It is often useful during the debugging process to keep an eye on a few select program variables.  
1. Open the Tester1LED Program and bring up “led.c”.  
2. Click the “Watch” icon to bring up the Watch window.  
3. Now add the “left” and “right” variables from “led.c” to the watch window.  
Note: For each variable double click the variable name to highlight it, then drag it to the watch window.  
4. Click the “Animate” icon and observe the changes.  
Note: When focus goes back to the Assembly window during this process, try putting a breakpoint in  
led.c, then hit Go.  
B.8.8  
Variables Window  
The Variables behaves very similarly to the Watch window, except that it shows all active variables.  
Bring up the Variables window, click Animate, and watch the changes.  
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B.9  
Debugging Basics  
B.9.1  
Overview  
Debuggers allow developers to interrogate application code by allowing program flow control, data  
observation, and data manipulation. The flow control functions include the ability to single-step  
through the code, step into functions, step over functions, and run to breakpoint (hardware or  
software). The data observation and manipulation functions include access to memory, registers, and  
variables. The combination of the flow control and data functions allows the developer to debug  
problems as they occur or to validate the application code. As the size of an application grows, the  
need to be able to narrow down the cause of a problem to a few lines of code is imperative.  
Debuggers have a finite set of capabilities and limitations. Debuggers can give insight that is difficult  
to obtain without them, but they can fail when they are not used within the limits of their  
functionality. They are intrusive by definition. They are software programs that interact with software  
monitors or hardware (JTAG) to control a target program. Ultimately, the debugger works best when  
the developer understands what it can and can not do and uses it within those constraints.  
B.9.2  
Hardware and Software Breakpoints  
®
The following section provides a brief overview of breakpoints. See the Intel 80333 I/O Processor  
Developers Manual, for more detailed information.  
B.9.2.1  
Software Breakpoints  
Software breakpoints are setup and utilized via debugger utilities (such as Code|Lab). The abilities of  
software breakpoints were seen in Section B.7 of this Guide. Program execution can be halted at a  
particular line of code, stepped through, and executed again to the next breakpoint via debuggers.  
During this process, register values, memory address contents, variable contents, and many other  
useful pieces of information can be monitored.  
B.9.2.2  
Hardware Breakpoints  
Hardware breakpoints step and breakpoint in code in either ROM or RAM without altering the code,  
stacks, or other target information. Hardware breakpoints handle difficult issues, by providing the  
ability to set the processor conditions that cause the program to halt. Use hardware breakpoints to  
locate problems such as reentrance, obscure timing, etc.  
The 80333 contains two instruction breakpoint address registers (IBCR0 and IBCR1), one data  
breakpoint address register (DBR0), one configurable data mask/address register (DBR1), and one  
data breakpoint control register (DBCON). The 80333 also supports a 256 entry, trace buffer, that  
records program execution information. The registers to control the trace buffer are located in CP14.  
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Getting Started and Debugger  
B.9.3  
Exceptions/Trapping  
A debug exception causes the processor to re-direct execution to a debug event handling routine. The  
®
Intel 80200 processor debug architecture defines the following debug exceptions:  
instruction breakpoint  
data breakpoint  
software breakpoint  
external debug break  
exception vector trap  
trace-buffer full break  
When a debug exception occurs, the processor actions depend on whether the debug unit is  
configured for Halt mode or Monitor mode.  
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