AMD SC1201 User Manual
152
AMD Geode™ SC1200/SC1201 Processor Data Book
Core Logic Module
32579B
Figure 6-6. PCI Change to Sub-ISA and Back
6.2.6
AT Compatibility Logic
The Core Logic module integrates:
• Two 8237-equivalent DMA controllers with full 32-bit
addressing
• Two 8259A-equivalent interrupt controllers providing 13
individually programmable external interrupts
• An 8254-equivalent timer for refresh, timer, and speaker
logic
• NMI control and generation for PCI system errors and all
parity errors
• Support for standard AT keyboard controllers
• Positive decode for the AT I/O register space
• Reset control
6.2.6.1
DMA Controller
The Core Logic module supports industry standard DMA
architecture using two 8237-compatible DMA controllers in
cascaded configuration. The DMA functions supported by
the Core Logic module include:
architecture using two 8237-compatible DMA controllers in
cascaded configuration. The DMA functions supported by
the Core Logic module include:
• Standard seven-channel DMA support (Channels 5
through 7 are not supported)
• 32-bit address range support via high page registers
• IOCHRDY extended cycles for compatible timing trans-
fers
• Internal Sub-ISA bus master device support using
cascade mode
• NMI control and generation for PCI system errors and all
parity errors.
Note:
DMA interface signals are not available externally.
DMA Channels
The Core Logic module supports seven DMA channels
using two standard 8237-equivalent controllers. DMA Con-
troller 1 contains Channels 0 through 3 and supports 8-bit
I/O adapters. These channels are used to transfer data
between 8-bit peripherals and PCI memory or 8/16-bit ISA
memory. Using the high and low page address registers, a
full 32-bit PCI address is output for each channel so they
can all transfer data throughout the entire 4 GB system
address space. Each channel can transfer data in 64 KB
pages. Software initiated DMA requests are not supported.
using two standard 8237-equivalent controllers. DMA Con-
troller 1 contains Channels 0 through 3 and supports 8-bit
I/O adapters. These channels are used to transfer data
between 8-bit peripherals and PCI memory or 8/16-bit ISA
memory. Using the high and low page address registers, a
full 32-bit PCI address is output for each channel so they
can all transfer data throughout the entire 4 GB system
address space. Each channel can transfer data in 64 KB
pages. Software initiated DMA requests are not supported.
DMA Controller 2 contains Channels 4 through 7. Channel
4 is used to cascade DMA Controller 1, so it is not available
externally. Channels 5 through 7 support 16-bit I/O adapt-
ers to transfer data between 16-bit I/O adapters and 16-bit
system memory. Using the high and low page address reg-
isters, a full 32-bit PCI address is output for each channel
so they can all transfer data throughout the entire 4 GB
system address space. Each channel can transfer data in
128 KB pages. Channels 5, 6, and 7 transfer 16-bit
WORDs on even byte boundaries only. Channels 5 through
7 are not supported.
4 is used to cascade DMA Controller 1, so it is not available
externally. Channels 5 through 7 support 16-bit I/O adapt-
ers to transfer data between 16-bit I/O adapters and 16-bit
system memory. Using the high and low page address reg-
isters, a full 32-bit PCI address is output for each channel
so they can all transfer data throughout the entire 4 GB
system address space. Each channel can transfer data in
128 KB pages. Channels 5, 6, and 7 transfer 16-bit
WORDs on even byte boundaries only. Channels 5 through
7 are not supported.
FRAME#
TRDY#, IRDY#
GNT[x]
ROMCS#, DOCCS#,
PCI
Sub-ISA
T
CS
T
CP
DEVSEL#,STOP#
PAR,
PCI
AD[31:0],
C/BE[3:0]#
pull-up
IOCS0#, IOCS1#