DMA Controller is a peripheral core for microprocessor systems. It controls data transfer between the main memory and the external systems with limited. Microprocessor & Interfacing. Lecture DMA Controller ECS DEPARTMENT. DRONACHARYA COLLEGE OF ENGINEERING. The DMA controller temporarily borrows the address bus, data bus and control bus from the microprocessor and transfers the data directly from the external.
|Published (Last):||20 April 2009|
|PDF File Size:||4.78 Mb|
|ePub File Size:||11.16 Mb|
|Price:||Free* [*Free Regsitration Required]|
The is a four-channel device that can be expanded to include any number of DMA channel inputs. The is capable of DMA transfers at rates of up to 1.
Each channel is capable of addressing a full 64k-byte section of memory and can transfer up to 64k bytes with a single programming. The operates in four different modes, depending upon the number of bytes transferred per cycle and number of ICs used:.
DMA Controller (8237 Programming Examples)
Memory-to-memory transfer can be performed. This means data can be transferred from one memory device to another memory device. The channel 0 Current Address register is the source for the data transfer and channel 1 and the transfer terminates when Current Word Count register becomes 0. In auto initialize mode the address and count values are restored upon reception of an end of process EOP signal. This happens without any CPU intervention. It is used to repeat the last transfer.
At the end of transfer an auto initialize will occur configured to do so. In single mode only one byte is transferred per request. For every transfer, the counting register is decremented and address is incremented or decremented depending on programming. When the counting register reaches zero, the terminal count TC signal is sent to the card.
The transfer continues until end of process EOP either internal or external is activated which will trigger terminal count TC to the card. Auto-initialization may be programmed in this mode. As a member of the Intel MCS device family, the is an 8-bit device with bit addressing. The IBM PC and PC XT models machine types and have an CPU and an 8-bit system bus architecture; the latter interfaces directly to thebut the has a bit address bus, so four additional 4-bit address latches, one for each DMA channel, are added alongside the to augment the address counters.
However, because these external latches are separate from the address counters, they are never automatically controllrr or decremented during DMA operations, making it impossible to perform a DMA operation across a 64 KiB address boundary. For this mode of transfer, the width of controler data bus is essentially immaterial to the as long as it is connected to a data bus at least 8 bits wide, for programming the registers. So that it can address bit words, it is connected to the address bus in such a way that it counts even addresses 0, 2, 4, Like the firstit is augmented with controller address-extension registers.
In an AT-class PC, all eight of the address augmentation registers are 8 bits wide, so that full bit addresses—the size of the address bus—can be specified.
DMA transfers on any channel still cannot cross a 64 KiB boundary. Because the memory-to-memory DMA mode operates by transferring a byte from the source memory location to an internal controllfr 8-bit register in the and then from the temporary register to the destination memory location, this mode could not be used for bit memory-to-memory DMA, as the temporary register is not large enough.
DMA Controller ( Programming Examples) – ppt video online download
Additionally, memory-to-memory bit DMA would require use of channel 4, conflicting with its use to cascade the that handles the 8-bit DMA channels. Consequently, a limitation on these machines is that the DMA controllers with their companion address “page” extension registers only can address 16 MiB of memory, according to the original design oriented around the CPU, which itself has this same controllre limitation.
This technique is called “bounce buffer”.
In general, it loses any overall speed benefit associated with DMA, but it may be necessary if a peripheral requires to be accessed by DMA due to either demanding timing requirements or hardware interface inflexibility. Although this device may not appear as a discrete component in modern personal computer systems, it does appear within system controller chip sets. For example, the P ISP integrated system peripheral controller has two DMA internal controllers programmed almost exactly like the From Wikipedia, the free encyclopedia.