Supermicro Xeon P4X-0036-2M-800L Data Sheet
Product codes
P4X-0036-2M-800L
Intel® Xeon™ Processor with 800 MHz System Bus
Datasheet
95
9.0
Debug Tools Specifications
Please refer to the ITP700 Debug Port Design Guide for information regarding debug tool
specifications.
specifications.
provides collateral details.
9.1
Debug Port System Requirements
The Intel® Xeon™ processor with 800 MHz system bus debug port is the command and control
interface for the In-Target Probe (ITP) debugger. The ITP enables run-time control of the
processors for system debug. The debug port, which is connected to the front side bus, is a
combination of the system, JTAG and execution signals. There are several mechanical, electrical
and functional constraints on the debug port that must be followed. The mechanical constraint
requires the debug port connector to be installed in the system with adequate physical clearance.
Electrical constraints exist due to the mixed high and low speed signals of the debug port for the
processor. While the JTAG signals operate at a maximum of 75 MHz, the execution signals operate
at the common clock front side bus frequency (200 MHz). The functional constraint requires the
debug port to use the JTAG system via a handshake and multiplexing scheme.
interface for the In-Target Probe (ITP) debugger. The ITP enables run-time control of the
processors for system debug. The debug port, which is connected to the front side bus, is a
combination of the system, JTAG and execution signals. There are several mechanical, electrical
and functional constraints on the debug port that must be followed. The mechanical constraint
requires the debug port connector to be installed in the system with adequate physical clearance.
Electrical constraints exist due to the mixed high and low speed signals of the debug port for the
processor. While the JTAG signals operate at a maximum of 75 MHz, the execution signals operate
at the common clock front side bus frequency (200 MHz). The functional constraint requires the
debug port to use the JTAG system via a handshake and multiplexing scheme.
In general, the information in this chapter may be used as a basis for including all run-control tools
in Intel® Xeon™ processor with 800 MHz system bus-based system designs, including tools from
vendors other than Intel.
in Intel® Xeon™ processor with 800 MHz system bus-based system designs, including tools from
vendors other than Intel.
Note:
The debug port and JTAG signal chain must be designed into the processor board in order to use
the ITP for debug purposes.
the ITP for debug purposes.
9.2
Target System Implementation
9.2.1
System Implementation
Specific connectivity and layout guidelines for the Debug Port are provided in the ITP700 Debug
Port Design Guide.
Port Design Guide.
9.3
Logic Analyzer Interface (LAI)
Intel is working with two logic analyzer vendors to provide logic analyzer interfaces (LAIs) for use
in debugging Intel® Xeon™ processor with 800 MHz system bus systems. Tektronix* and
Agilent* should be contacted to obtain specific information about their logic analyzer interfaces.
The following information is general in nature. Specific information must be obtained from the
logic analyzer vendor.
in debugging Intel® Xeon™ processor with 800 MHz system bus systems. Tektronix* and
Agilent* should be contacted to obtain specific information about their logic analyzer interfaces.
The following information is general in nature. Specific information must be obtained from the
logic analyzer vendor.
Due to the complexity of Intel® Xeon™ processor with 800 MHz system bus-based
multiprocessor systems, the LAI is critical in providing the ability to probe and capture front side
bus signals. There are two sets of considerations to keep in mind when designing a Intel® Xeon™
processor with 800 MHz system bus-based system that can make use of an LAI: mechanical and
electrical.
multiprocessor systems, the LAI is critical in providing the ability to probe and capture front side
bus signals. There are two sets of considerations to keep in mind when designing a Intel® Xeon™
processor with 800 MHz system bus-based system that can make use of an LAI: mechanical and
electrical.