2 dma latency, 3 dma transfer rates – Intel 80C188XL User Manual

10-21

DIRECT MEMORY ACCESS UNIT

10.3.2 DMA Latency

DMA Latency is the delay between a DMA request being asserted and the DMA cycle being run.
The DMA latency for a channel is controlled by many factors:

•

Bus HOLD — Bus HOLD takes precedence over internal DMA requests. Using bus HOLD
will degrade DMA latency.

•

LOCKed Instructions — Long LOCKed instructions (e.g., LOCK REP MOVS) will
monopolize the bus, preventing access by the DMA Unit.

•

Inter-channel Priority Scheme — Setting a channel at low priority will affect its latency.

The minimum latency in all cases is four CLKOUT cycles. This is the amount of time it takes to
synchronize and prioritize a request.

10.3.3 DMA Transfer Rates

The maximum DMA transfer rate is a function of processor operating frequency and synchroni-
zation mode. For unsynchronized and source-synchronized transfers, the 80C186 Modular Core
can transfer two bytes every eight CLKOUT cycles. For destination-synchronized transfers, the
addition of two idle T-states reduces the bandwidth by two clocks per word.

Maximum DMA transfer rates (in Mbytes per second) for the 80C186 Modular Core are calcu-
lated by the following equations, where F

CPU

is the CPU operating frequency (in megahertz).

For unsynchronized and source-synchronized transfers:

For destination-synchronized transfers:

Because of its 8-bit data bus, the 80C188 Modular Core can transfer only one byte per DMA cy-
cle. Therefore, the maximum transfer rates for the 80C188 Modular Core are half those calculated
by the equations for the 80C186 Modular Core.

0.25

F

CPU

×

0.20

F

CPU

Ч