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Direct Memory Access

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Title: Direct Memory Access


1
Direct Memory Access
  • Presentation by
  • Leena Jacob

2
To be tackled
  • The basic computer
  • Improvements made to the basic computer
  • Interrupt handler
  • DMA
  • DMA Controller in BF533
  • Example code that demonstrates setting up the DMA

3
The basic computer
  • Steps involved in storing data to the memory by
    the I/O device
  • CPU signals I/O device
  • I/O places data on the bus and signals to CPU
  • CPU reads the data into a register and signals to
    I/O
  • CPU signals memory
  • Memory writes data to some location
  • Memory signals CPU that it is done.

4
Deficiencies of CPU I/O
  • No other useful CPU operations can be
    accomplished while waiting for I/O
  • Early I/O devices were very slow, thus
    compounding the problem

5
Interrupt Improvements
  • The better option is for the I/O device to
    interrupt the processor with an interrupt signal
    whenever it is ready with a data.
  • CPU can then service the interrupt and get back
    to whatever it was doing before.
  • This requires an interrupt handler.

6
Direct Memory Channel Improvement
  • Interrupt processing requires explicit op-code
    cycles to perform I/O transfers
  • Next improvement is a separate peripheral module
    to perform direct memory access (DMA).
  • It is also the bus arbitrator.
  • There can only be one user of the data bus so
    processor must wait if DMA is transferring data.
  • DMA controller tells the processor when the DMA
    has completed the transfer.

7
DMA Block Diagram
  • Interrupt line

CPU
DMA Module
External I/O lines
cycle state signals
address setup
Address bus
Data bus
RAM
8
Sharing of the op-code cycles
  • Op-code cycles have two distinct parts
  • One part involves RAM access
  • Read the OP code from program memory (fetch)
  • Read/write data from/to data RAM addresses
    (decode and writeback)
  • Second part involves only CPU operations
  • (execute)
  • Perform data manipulation using CPU registers as
    source(s) and destination(s) of data
  • DMA device performs RAM access during this second
    portion of the op-code cycle

9
DMA Controller in BF533
  • Between memory and memory (MDMA) (Memory DMA)
  • Between memory and the I/O through a serial or
    parallel port (SPI, PPI,UART).
  • There are 12 DMA channels for various transfers.
  • Two ways of programming DMA transfers
  • Descriptor-based
  • Register-based

10
Descriptor-based DMA
  • Descriptor-based DMA transfers require a set of
    parameters stored within memory to initiate a DMA
    sequence.
  • This sort of transfer allows the chaining
    together of multiple DMA sequences.
  • In descriptor-based DMA operations, a DMA channel
    can be programmed to automatically set up and
    start another DMA transfer after the current
    sequence completes.

11
Register-based DMA
  • Register-based DMA allows the processor to
    directly program DMA control registers to
    initiate a DMA transfer.
  • On completion, the control registers may be
    automatically updated with their original setup
    values for continuous transfer, if needed.

12
DMA Registers
  • DMA registers fall into three categories
  • Parameter registers, such as
  • DMAx_CONFIG and DMAx_X_COUNT
  • Current registers, such as DMAx_CURR_ADDR and
    DMAx_CURR_X_COUNT
  • Control/Status registers, such as
    DMAx_IRQ_STATUS and
  • DMAx_PERIPHERAL_MAP

13
Video Interface

                             

                             
DMA
VideoInPort
Decoder
Video source
PPI Interface
Memory
Display Unit
PPI Interface
Encoder
VideoOutPort
BF533
14
Example code for video Input
  • //Configure the Interrupt service routine
  • CALL BF533_EZ_KIT_ISR_Config
  • //Configure the SDRAM
  • CALL BF533_EZ_KIT_SDRAM_Config
  • //Configure the DMA in Stop Mode
  • CALL BF533_EZ_KIT_DMA_Config
  • //Configure the PPI 8bit, ITU-656 mode, Input
    Mode, Active Field Only......
  • CALL BF533_EZ_KIT_PPI_Config

15
Example code that sets-up DMA
  • Config_DMA_Input
  • //Target address of the DMA
  • r0.h 0x0 r0.l 0x0
  • P0.L lo(DMA0_START_ADDR)
  • P0.H hi(DMA0_START_ADDR)
  • P0 R0
  • //DMA0_Y_COUNT
  • R0.L 0x020D
  • P0.L lo(DMA0_Y_COUNT)
  • P0.H hi(DMA0_Y_COUNT)
  • WP0 R0.L
  • //DMA0_Y_MODIFY
  • R0.L 0x0001
  • P0.L lo(DMA0_Y_MODIFY)
  • P0.H hi(DMA0_Y_MODIFY)
  • WP0 R0.L
  • //PPI Peripheral is used
  • r0 0x0000(z)
  • P0.L lo(DMA0_PERIPHERAL_MAP)
  • P0.H hi(DMA0_PERIPHERAL_MAP)
  • WP0 R0.L
  • //DMA Config Enable DMA Memory write DMA
    Discard DMA FIFO before start enable
    assertation of interrupt Enable STOP DMA
  • P0.L lo(DMA0_CONFIG)
  • P0.H hi(DMA0_CONFIG)
  • r0 DMAEN WNR RESTART DI_EN(z)
  • WP0 R0.L

16
Interrupt service routine
  • //clear DMA interrupt
  • P0.L lo(DMA0_IRQ_STATUS)
  • P0.H hi(DMA0_IRQ_STATUS)
  • R0.L WP0
  • BITSET(R0,0)
  • WP0 R0.L

17
Tackled today
  • The basic computer
  • Improvements made to the basic computer
  • Interrupt handler
  • DMA
  • DMA Controller in BF533
  • Example code that demonstrates setting up the DMA
  • Importance of DMA transfers in DSP algorithms

18
References
  • http//engr.smu.edu/levine/ee8304/4
  • Analog Devices BF533 hardware manual
  • http//www.technology.niagarac.on.ca/courses/comp5
    30/DMANotes.htm
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