Non-maskable interrupts, 2 non-maskable interrupts, Nmi- generation – HP D315 User Manual

Chapter 4 System Support

The PCI interrupts can be configured by PCI Configuration Registers 60h..63h to share the
standard ISA interrupts (IRQn).

NOTE: The APIC mode is supported by the Windows NT, Windows 2000, and
Windows XP operating systems. Systems running the Windows 95 or 98 operating
system will need to run in 8259 mode.

Maskable interrupt processing is controlled and monitored through standard AT-type I/O-mapped
registers. These registers are listed in Table 4-6.

Table 4-6. Maskable Interrupt Control Registers

Table 4-6.

Maskable Interrupt Control Registers

I/O Port

Register

020h

Base Address, Int. Cntlr. 1

021h

Initialization Command Word 2-4, Int. Cntlr. 1

0A0h

Base Address, Int. Cntlr. 2

0A1h

Initialization Command Word 2-4, Int. Cntlr. 2

The initialization and operation of the interrupt control registers follows standard AT-type
protocol.

4.4.1.2 Non-Maskable

Interrupts

Non-maskable interrupts cannot be masked (inhibited) within the microprocessor itself but may be
maskable by software using logic external to the microprocessor. There are two non-maskable
interrupt signals: the NMI- and the SMI-. These signals have service priority over all maskable
interrupts, with the SMI- having top priority over all interrupts including the NMI-.

NMI- Generation

The Non-maskable Interrupt (NMI-) signal can be generated by one of the following actions:

♦ Parity errors detected on a PCI bus (activating SERR- or PERR-).
♦ Microprocessor internal error (activating IERRA or IERRB)

The SERR- and PERR- signals are routed through the MCP or MCP-2 component, which in turn
activates the NMI to the microprocessor.

Compaq D315 and hp d325 Personal Computers

Featuring the AMD Athlon XP Processor

Second Edition – April 2003

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