NH82801FBM S L89K Intel, NH82801FBM S L89K Datasheet - Page 182

NH82801FBM S L89K

Manufacturer Part Number

NH82801FBM S L89K

Description

Manufacturer

Intel

Datasheet

1.NH82801FBM_S_L89K.pdf (786 pages)

Specifications of NH82801FBM S L89K

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Functional Description

5.16.2.2

5.16.2.3

5.16.2.4

182

Note: IDE interrupts cannot be communicated through PCI devices or the serial IRQ stream.

Bus Master IDE Timings

Interrupts

The timing modes used for Bus Master IDE transfers are identical to those for PIO transfers. The

DMA Timing Enable Only bits in IDE Timing register can be used to program fast timing mode for

DMA transactions only. This is useful for IDE devices whose DMA transfer timings are faster than

its PIO transfer timings. The IDE device DMA request signal is sampled on the same PCI clock

that DIOR# or DIOW# is de-asserted. If inactive, the DMA Acknowledge signal is de-asserted on

the next PCI clock and no more transfers take place until DMA request is asserted again.

The ICH6 can generate interrupts based upon a signal coming from the PATA device, or due to the

completion of a PRD with the ‘I’ bit set. The interrupt is edge triggered and active high. The PATA

host controller generates IDEIRQ.

When the ICH6 IDE controller is operating independently from the SATA controller (D31:F2),

IDEIRQ will generate IRQ14. When operating in conjunction with the SATA controller (combined

mode), IDE interrupts will still generate IDEIRQ, but this may in turn generate either IRQ14 or

IRQ15, depending upon the value of the MAP.MV (D31:F2:90h:bits 1:0) register. When in

combined mode and the SATA controller is emulating the logical secondary channel (MAP.MV =

1h), the PATA channel will emulate the logical primary channel and IDEIRQ will generate IRQ14.

Conversely, if the SATA controller in combined mode is emulating the logical primary channel

(MAP.MV=2h), IDEIRQ will generate IRQ15.

Bus Master IDE Operation

To initiate a bus master transfer between memory and an IDE device, the following steps are

required:

1. Software prepares a PRD table in system memory. The PRD table must be DWord-aligned and

2. Software provides the starting address of the PRD Table by loading the PRD Table Pointer

3. Software issues the appropriate DMA transfer command to the disk device.

4. The bus master function is engaged by software writing a 1 to the Start bit in the Command

5. Once the PRD is loaded internally, the IDE device will receive a DMA acknowledge.

6. The controller transfers data to/from memory responding to DMA requests from the IDE

7. At the end of the transfer, the IDE device signals an interrupt.

8. In response to the interrupt, software resets the Start/Stop bit in the command register. It then

must not cross a 64-KB boundary.

The interrupt bit and Error bit in the Status register are cleared.

visible by software, the Current Base and Current Count registers. These registers hold the

current value of the address and byte count loaded from the PRD table. The value in these

registers is only valid when there is an active command to an IDE device.

device. The IDE device and the host controller may or may not throttle the transfer several

times. When the last data transfer for a region has been completed on the IDE interface, the

next descriptor is fetched from the table. The descriptor contents are loaded into the Current

Base and Current Count registers.

reads the controller status followed by the drive status to determine if the transfer completed

successfully.

Intel

I/O Controller Hub 6 (ICH6) Family Datasheet

NH82801FBM S L89K Intel, NH82801FBM S L89K Datasheet - Page 182

NH82801FBM S L89K

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