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ADSST-EM-3035K Datasheet(PDF) 3 Page - Analog Devices |
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ADSST-EM-3035K Datasheet(HTML) 3 Page - Analog Devices |
3 / 20 page REV. 0 ADSST-EM-3035 –3– ARCHITECTURE OVERVIEW The ADSST-2185KST-133 instruction set provides flexible data moves and multifunction (one or two data moves with a computation) instructions. Every instruction can be executed in a single processor cycle. The ADSST-2185KST-133 assembly language uses an algebraic syntax for ease of coding and read- ability. A comprehensive set of development tools supports program development. Figure 1 is an overall block diagram of the ADSST-2185KST-133. The processor contains three independent computational units: the ALU, the multiplier/accumulator (MAC), and the shifter. The computational units process 16-bit data directly and have provisions to support multiprecision computations. The ALU performs a standard set of arithmetic and logic operations; division primitives are also supported. The MAC performs single-cycle multiply, multiply/add and multiply/subtract operations with 40 bits of accumulation. The shifter performs logical and arithmetic shifts, normalization, denormalization and derive exponent operations. The shifter can be used to efficiently implement numeric format control including multiword and block floating-point representations. The internal result (R) bus connects the computational units so the output of any unit may be the input of any unit on the next cycle. A powerful program sequencer and two dedicated data address generators ensure efficient delivery of operands to these com- putational units. The sequencer supports conditional jumps, subroutine calls, and returns in a single cycle. With internal loop counters and loop stacks, the ADSST-2185KST-133 executes looped code with zero overhead. No explicit jump instructions are required to maintain loops. Two data address generators (DAGs) provide addresses for simul- taneous dual operand fetches from data memory and program memory. Each DAG maintains and updates four address pointers. Whenever the pointer is used to access data (indirect addressing), it is post- modified by the value of one of four possible modify registers. A length value may be associated with each pointer to implement automatic modulo addressing for circular buffers. Efficient data transfer is achieved with the use of five internal buses: • Program Memory Address (PMA) Bus • Program Memory Data (PMD) Bus • Data Memory Address (DMA) Bus • Data Memory Data (DMD) Bus • Result (R) Bus The two address buses (PMA and DMA) share a single external address bus, allowing memory to be expanded off-chip, and the two data buses (PMD and DMD) share a single external data bus. Byte memory space and I/O memory space also share the external buses. Program memory can store both instructions and data, permitting the ADSST-2185KST-133 to fetch two operands in a single cycle, one from program memory and one from data memory. The ADSST-2185KST-133 can fetch an operand from program memory and the next instruction in the same cycle. When configured in host mode, the ADSST-2185KST-133 has a 16-bit Internal DMA port (IDMA port) for connection to external systems. The IDMA port is made up of 16 data/address pins and five control pins. The IDMA port provides transparent, direct access to the DSP’s on-chip program and data RAM. An interface to low cost byte-wide memory is provided by the Byte DMA port (BDMA port). The BDMA port is bidirectional and can directly address up to four megabytes of external RAM or ROM for off-chip storage of program overlays or data tables. The byte memory and I/O memory space interface supports slow memories and I/O memory-mapped peripherals with programmable wait state generation. External devices can gain control of external buses with bus request/grant signals ( BR, BGH, and BG). One execution mode (Go Mode) allows the ADSST-2185KST-133 to continue running from on-chip memory. Normal execution mode requires the processor to halt while buses are granted. The ADSST-2185KST-133 can respond to 11 interrupts. There are up to six external interrupts (one edge-sensitive, two level-sensitive, and three configurable) and seven internal inter- rupts generated by the timer, the serial ports (SPORTs), the Byte DMA port, and the power-down circuitry. There is also a master RESET signal. The two serial ports provide a complete synchronous serial interface with optional companding in hard- ware and a wide variety of framed or frameless data transmit and receive modes of operation. Each port can generate an internal programmable serial clock or accept an external serial clock. The ADSST-2185KST-133 provides up to 13 general purpose flag pins. The data input and output pins on SPORT1 can be alternatively configured as an input flag and an output flag. In addition, eight flags are programmable as inputs or outputs, and three flags are always outputs. A programmable interval timer generates periodic interrupts. A 16-bit count register (TCOUNT) decrements every n processor cycle, where n is a scaling value stored in an 8-bit register (TSCALE). When the value of the count register reaches zero, an interrupt is generated and the count register is reloaded from a 16-bit period register (TPERIOD). Serial Ports The ADSST-2185KST-133 incorporates two complete synchronous serial ports (SPORT0 and SPORT1) for serial communications and multiprocessor communication. Here is a brief list of the capabilities of the ADSST-2185KST-133 SPORTs. For additional information on Serial Ports, refer to the ADSP-2100 Family User’s Manual, Third Edition. • SPORTs are bidirectional and have a separate, double-buffered transmit and receive section. • SPORTs can use an external serial clock or generate their own serial clock internally. • SPORTs have independent framing for the receive and transmit sections. Sections run in a frameless mode or with frame synchro- nization signals internally or externally generated. Frame sync signals are active high or inverted, with either of two pulsewidths and timings. • SPORTs support serial data word lengths from 3 to 16 bits and provide optional A-law and M-law companding according to CCITT recommendation G.711. • SPORT receive and transmit sections can generate unique interrupts on completing a data-word transfer. • SPORTs can receive and transmit an entire circular buffer of data with only one overhead cycle per data-word. An interrupt is generated after a data buffer transfer. |
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