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ADSP-BF561SKBCZ600 Datasheet(PDF) 9 Page - Analog Devices |
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ADSP-BF561SKBCZ600 Datasheet(HTML) 9 Page - Analog Devices |
9 / 60 page ADSP-BF561 Rev. A | Page 9 of 60 | May 2006 visor mode. (Note that general-purpose interrupts can be globally enabled and disabled with the STI and CLI instructions.) • CEC Interrupt Pending Register (IPEND) – The IPEND register keeps track of all nested events. A set bit in the IPEND register indicates the event is currently active or nested at some level. This register is updated automatically by the controller but may be read while in supervisor mode. The SIC allows further control of event processing by providing six 32-bit interrupt control and status registers. Each register contains a bit corresponding to each of the peripheral interrupt events shown in Table 2. • SIC Interrupt Mask Register (SIC_IMASK0, SIC_IMASK1) – This register controls the masking and unmasking of each peripheral interrupt event. When a bit is set in the register, that peripheral event is unmasked and will be processed by the system when asserted. A cleared bit in the register masks the peripheral event thereby prevent- ing the processor from servicing the event. • SIC Interrupt Status Register (SIC_ISR0, SIC_ISR1)– As multiple peripherals can be mapped to a single event, this register allows the software to determine which periph- eral event source triggered the interrupt. A set bit indicates the peripheral is asserting the interrupt; a cleared bit indi- cates the peripheral is not asserting the event. • SIC Interrupt Wakeup Enable Register (SIC_IWR0, SIC_IWR1) – By enabling the corresponding bit in this register, each peripheral can be configured to wake up the processor, should the processor be in a powered-down mode when the event is generated. Because multiple interrupt sources can map to a single general- purpose interrupt, multiple pulse assertions can occur simulta- neously, before or during interrupt processing for an interrupt event already detected on this interrupt input. The IPEND reg- ister contents are monitored by the SIC as the interrupt acknowledgement. The appropriate ILAT register bit is set when an interrupt rising edge is detected (detection requires two core clock cycles). The bit is cleared when the respective IPEND register bit is set. The IPEND bit indicates that the event has entered into the proces- sor pipeline. At this point the CEC will recognize and queue the next rising edge event on the corresponding event input. The minimum latency from the rising edge transition of the general- purpose interrupt to the IPEND output asserted is three core clock cycles; however, the latency can be much higher, depend- ing on the activity within and the mode of the processor. DMA CONTROLLERS The ADSP-BF561 has multiple, independent DMA controllers that support automated data transfers with minimal overhead for the DSP core. DMA transfers can occur between the ADSP-BF561 internal memories and any of its DMA-capable peripherals. Additionally, DMA transfers can be accomplished between any of the DMA-capable peripherals and external devices connected to the external memory interfaces, including the SDRAM controller and the asynchronous memory control- ler. DMA-capable peripherals include the SPORTs, SPI port, UART, and PPI. Each individual DMA-capable peripheral has at least one dedicated DMA channel. The ADSP-BF561 DMA controllers support both 1-dimen- sional (1-D) and 2-dimensional (2-D) DMA transfers. DMA transfer initialization can be implemented from registers or from sets of parameters called descriptor blocks. The 2-D DMA capability supports arbitrary row and column sizes up to 64K elements by 64K elements, and arbitrary row and column step sizes up to ± 32K elements. Furthermore, the column step size can be less than the row step size, allowing implementation of interleaved data streams. This feature is especially useful in video applications where data can be de- interleaved on the fly. Examples of DMA types supported by the ADSP-BF561 DMA controllers include: • A single linear buffer that stops upon completion. • A circular autorefreshing buffer that interrupts on each full or fractionally full buffer. • 1-D or 2-D DMA using a linked list of descriptors. • 2-D DMA using an array of descriptors, specifying only the base DMA address within a common page. In addition to the dedicated peripheral DMA channels, each DMA Controller has four memory DMA channels provided for transfers between the various memories of the ADSP-BF561 system. These enable transfers of blocks of data between any of the memories—including external SDRAM, ROM, SRAM, and flash memory—with minimal processor intervention. Memory DMA transfers can be controlled by a very flexible descriptor- based methodology or by a standard register-based autobuffer mechanism. Further, the ADSP-BF561 has a four channel Internal Memory DMA (IMDMA) Controller. The IMDMA Controller allows data transfers between any of the internal L1 and L2 memories. WATCHDOG TIMER Each ADSP-BF561 core includes a 32-bit timer, which can be used to implement a software watchdog function. A software watchdog can improve system availability by forcing the proces- sor to a known state, via generation of a hardware reset, nonmaskable interrupt (NMI), or general-purpose interrupt, if the timer expires before being reset by software. The program- mer initializes the count value of the timer, enables the appropriate interrupt, then enables the timer. Thereafter, the software must reload the counter before it counts to zero from the programmed value. This protects the system from remain- ing in an unknown state where software, which would normally reset the timer, has stopped running due to an external noise condition or software error. After a reset, software can determine if the watchdog was the source of the hardware reset by interrogating a status bit in the timer control register, which is set only upon a watchdog gener- ated reset. |
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