RESET PROCESSING STATE
MOTOROLA
PROCESSING STATES
7 - 33
mented to one (see Figure 7-13). During the execution of n2 in Figure 7-13, no interrupts
will be serviced. When LC finally decrements to one, the fetches are reinitiated, and
pending interrupts can be serviced.
Sequential REP packages will cause pending interrupts to be rejected until the sequence
of REP packages ends. REP packages are not interruptible because the instruction
being repeated is not refetched. While that instruction is repeating, no instructions are
fetched or decoded, and an interrupt can not be inserted. For example, in Figure 7-14, if
n1, n3, and n5 are all REP instructions, no interrupts will be serviced until the last REP
instruction (n5 and its repeated instruction, n6) completes execution.
7.4
RESET PROCESSING STATE
The processor enters the reset processing state when a hardware reset occurs and the
external RESET pin is asserted. The reset state:
1. resets internal peripheral devices;
2. sets the modifier registers to $FFFF;
3. clears the interrupt priority register;
4. sets the BCR to $FFFF, thereby inserting 15 wait states in all external memory
accesses;
5. clears the stack pointer;
6. clears the scaling mode, trace mode, loop flag, double precision multiply
mode, and condition code bits of the SR, and sets the interrupt mask bits of
the SR;
7. clears the data ROM enable bit, the stop delay bit, and the internal Y memory
disable bit, and
8. the DSP remains in the reset state until the RESET pin is deasserted.
When the processor deasserts the reset state:
9. it loads the chip operating mode bits of the OMR from the external mode select
pins (MODA, MODB, MODC), and
10. begins program execution at program memory address defined by the state of
bits MODA, MODB, and MODC in the OMR. The first instruction must be
fetched and then decoded before executing. Therefore, the first instruction
execution is two instruction cycles after the first instruction fetch.
Summary of Contents for DSP56K
Page 12: ...xii LIST of TABLES MOTOROLA List of Tables Continued Table Page Number Title Number ...
Page 13: ...MOTOROLA DSP56K FAMILY INTRODUCTION 1 1 SECTION 1 DSP56K FAMILY INTRODUCTION ...
Page 31: ...MOTOROLA DATA ARITHMETIC LOGIC UNIT 3 1 SECTION 3 DATA ARITHMETIC LOGIC UNIT ...
Page 50: ...DATA ALU SUMMARY 3 20 DATA ARITHMETIC LOGIC UNIT MOTOROLA ...
Page 51: ...MOTOROLA ADDRESS GENERATION UNIT 4 1 SECTION 4 ADDRESS GENERATION UNIT ...
Page 77: ...MOTOROLA PROGRAM CONTROL UNIT 5 1 SECTION 5 PROGRAM CONTROL UNIT ...
Page 124: ...INSTRUCTION GROUPS 6 30 INSTRUCTION SET INTRODUCTION MOTOROLA ...
Page 125: ...MOTOROLA PROCESSING STATES 7 1 SECTION 7 PROCESSING STATES STOP WAIT EXCEPTION NORMAL RESET ...
Page 167: ...STOP PROCESSING STATE MOTOROLA PROCESSING STATES 7 43 ...
Page 168: ...STOP PROCESSING STATE 7 44 PROCESSING STATES MOTOROLA ...
Page 169: ...MOTOROLA PORT A 8 1 SECTION 8 PORT A ...
Page 176: ...PORT A INTERFACE 8 8 PORT A MOTOROLA ...
Page 177: ...MOTOROLA PLL CLOCK OSCILLATOR 9 1 SECTION 9 PLL CLOCK OSCILLATOR x x d Φ VCO ...
Page 191: ...10 2 ON CHIP EMULATION OnCE MOTOROLA SECTION 10 ON CHIP EMULATION OnCE ...
Page 218: ...USING THE OnCE MOTOROLA ON CHIP EMULATION OnCE 10 29 ...
Page 604: ...INSTRUCTION ENCODING A 338 INSTRUCTION SET DETAILS MOTOROLA ...
Page 605: ...MOTOROLA BENCHMARK PROGRAMS B 1 APPENDIX B BENCHMARK PROGRAMS T T T T T P1 P3 P2 P4 T T T ...
Page 609: ...BENCHMARK PROGRAMS MOTOROLA BENCHMARK PROGRAMS B 5 ...
Page 611: ...BENCHMARK PROGRAMS MOTOROLA BENCHMARK PROGRAMS B 7 ...
Page 613: ...BENCHMARK PROGRAMS MOTOROLA BENCHMARK PROGRAMS B 9 ...
Page 615: ...BENCHMARK PROGRAMS MOTOROLA BENCHMARK PROGRAMS B 11 ...