307013-003 Datasheet, PDF(127/848 Page) Intel Corporation – Intel I/O Controller Hub 7

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307013-003 Datasheet, PDF (127/848 Pages) Intel Corporation – Intel I/O Controller Hub 7

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Functional Description

5.7

LPC DMA (Desktop and Mobile Only)

DMA on LPC is handled through the use of the LDRQ# lines from peripherals and

special encodings on LAD[3:0] from the host. Single, Demand, Verify, and Increment

modes are supported on the LPC interface. Channels 0â3 are 8 bit channels. Channels

5â7 are 16-bit channels. Channel 4 is reserved as a generic bus master request.

5.7.1 Asserting DMA Requests

Peripherals that need DMA service encode their requested channel number on the

LDRQ# signal. To simplify the protocol, each peripheral on the LPC I/F has its own

dedicated LDRQ# signal (they may not be shared between two separate peripherals).

The ICH7 has two LDRQ# inputs, allowing at least two devices to support DMA or bus

mastering.

LDRQ# is synchronous with LCLK (PCI clock). As shown in Figure 5-6, the peripheral

uses the following serial encoding sequence:

â¢ Peripheral starts the sequence by asserting LDRQ# low (start bit). LDRQ# is high

during idle conditions.

â¢ The next three bits contain the encoded DMA channel number (MSB first).

â¢ The next bit (ACT) indicates whether the request for the indicated DMA channel is

active or inactive. The ACT bit is 1 (high) to indicate if it is active and 0 (low) if it is

inactive. The case where ACT is low is rare, and is only used to indicate that a

previous request for that channel is being abandoned.

â¢ After the active/inactive indication, the LDRQ# signal must go high for at least

1 clock. After that one clock, LDRQ# signal can be brought low to the next

encoding sequence.

If another DMA channel also needs to request a transfer, another sequence can be sent

on LDRQ#. For example, if an encoded request is sent for channel 2, and then channel

3 needs a transfer before the cycle for channel 2 is run on the interface, the peripheral

can send the encoded request for channel 3. This allows multiple DMA agents behind an

I/O device to request use of the LPC interface, and the I/O device does not need to self-

arbitrate before sending the message.

Figure 5-6. DMA Request Assertion through LDRQ#

LCLK

5.7.2

LDRQ#

Start MSB

LSB ACT

Start

Abandoning DMA Requests

DMA Requests can be deasserted in two fashions: on error conditions by sending an

LDRQ# message with the âACTâ bit set to 0, or normally through a SYNC field during the

DMA transfer. This section describes boundary conditions where the DMA request needs

to be removed prior to a data transfer.

There may be some special cases where the peripheral desires to abandon a DMA

transfer. The most likely case of this occurring is due to a floppy disk controller which

has overrun or underrun its FIFO, or software stopping a device prematurely.

Intel Â® ICH7 Family Datasheet

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