ADDRESSING
MOTOROLA
ADDRESS GENERATION UNIT
4 - 21
The MOVE instruction in Figure 4-13 takes the contents of the X0 register and moves it
to a location in the X memory pointed to by (R2), and then (R2) is updated modulo 21. The
new value of R2 is not 90 (75+ 15), which would be the case if linear arithmetic had been
used, but rather is 69 since modulo arithmetic was used.
4.4.2.2.2
Mn=$8001 to $BFFF
In this range, the modulo (M) equals (Mn+1)-$8000, where Mn is the value in the modi-
fier register (see Table 4-2). This range firmly restricts the address register to the same
buffer, causing the address register to wrap around within the buffer. This multiple wrap-
around addressing feature reduces argument overhead and is useful for decimation,
interpolation, and waveform generation.
The address modification is performed modulo M, where M may be any power of 2 in the
range from 2
1
to 2
14
. Modulo M arithmetic causes the address register value to remain
within an address range of size M defined by a lower and upper address boundary. The
value M-1 is stored in the modifier register Mn least significant 14 bits while the two most
significant bits are set to ‘10’. The lower boundary (base address) value must have zeroes
in the k LSBs, where 2
k
= M, and therefore must be a multiple of 2
k
. The upper boundary
is the lower boundary plus the modulo size minus one (base address plus M-1).
0..010 00000
XD BUS
(84)
R2
(69)
(75)
(90)
LET:
M2
N2
R2
EXAMPLE: MOVE X0,X:(R2)+N
00.....0010100
00.....0001111
00.....1001011
MODULUS=21
OFFSET=15
POINTER=75
N2
+
(64)
21
X0
k=5
Figure 4-13 Modulo Modifier Example
Содержание DSP56K
Страница 12: ...xii LIST of TABLES MOTOROLA List of Tables Continued Table Page Number Title Number ...
Страница 13: ...MOTOROLA DSP56K FAMILY INTRODUCTION 1 1 SECTION 1 DSP56K FAMILY INTRODUCTION ...
Страница 25: ...MOTOROLA DSP56K CENTRAL ARCHITECTURE OVERVIEW 2 1 SECTION 2 DSP56K CENTRAL ARCHITECTURE OVERVIEW ...
Страница 31: ...MOTOROLA DATA ARITHMETIC LOGIC UNIT 3 1 SECTION 3 DATA ARITHMETIC LOGIC UNIT ...
Страница 50: ...DATA ALU SUMMARY 3 20 DATA ARITHMETIC LOGIC UNIT MOTOROLA ...
Страница 51: ...MOTOROLA ADDRESS GENERATION UNIT 4 1 SECTION 4 ADDRESS GENERATION UNIT ...
Страница 77: ...MOTOROLA PROGRAM CONTROL UNIT 5 1 SECTION 5 PROGRAM CONTROL UNIT ...
Страница 124: ...INSTRUCTION GROUPS 6 30 INSTRUCTION SET INTRODUCTION MOTOROLA ...
Страница 125: ...MOTOROLA PROCESSING STATES 7 1 SECTION 7 PROCESSING STATES STOP WAIT EXCEPTION NORMAL RESET ...
Страница 167: ...STOP PROCESSING STATE MOTOROLA PROCESSING STATES 7 43 ...
Страница 168: ...STOP PROCESSING STATE 7 44 PROCESSING STATES MOTOROLA ...
Страница 169: ...MOTOROLA PORT A 8 1 SECTION 8 PORT A ...
Страница 176: ...PORT A INTERFACE 8 8 PORT A MOTOROLA ...
Страница 177: ...MOTOROLA PLL CLOCK OSCILLATOR 9 1 SECTION 9 PLL CLOCK OSCILLATOR x x d Φ VCO ...
Страница 191: ...10 2 ON CHIP EMULATION OnCE MOTOROLA SECTION 10 ON CHIP EMULATION OnCE ...
Страница 218: ...USING THE OnCE MOTOROLA ON CHIP EMULATION OnCE 10 29 ...
Страница 604: ...INSTRUCTION ENCODING A 338 INSTRUCTION SET DETAILS MOTOROLA ...
Страница 605: ...MOTOROLA BENCHMARK PROGRAMS B 1 APPENDIX B BENCHMARK PROGRAMS T T T T T P1 P3 P2 P4 T T T ...
Страница 606: ...SECTION CONTENTS B 2 BENCHMARK PROGRAMS MOTOROLA SECTION B 1 INTRODUCTION 3 SECTION B 2 BENCHMARK PROGRAMS 3 ...
Страница 609: ...BENCHMARK PROGRAMS MOTOROLA BENCHMARK PROGRAMS B 5 ...
Страница 611: ...BENCHMARK PROGRAMS MOTOROLA BENCHMARK PROGRAMS B 7 ...
Страница 613: ...BENCHMARK PROGRAMS MOTOROLA BENCHMARK PROGRAMS B 9 ...
Страница 615: ...BENCHMARK PROGRAMS MOTOROLA BENCHMARK PROGRAMS B 11 ...