NS32FX164AV-25 National Semiconductor, NS32FX164AV-25 Datasheet - Page 8
NS32FX164AV-25
Manufacturer Part Number
NS32FX164AV-25
Description
IC IMAGING COMM SGNL PROC PLCC68
Manufacturer
National Semiconductor
Datasheet
1.NS32FX164AV-25.pdf
(102 pages)
Specifications of NS32FX164AV-25
Processor Type
Advanced Imaging/Communications Signal Processor SIAP™
Speed
50MHz
Voltage
5V
Mounting Type
Surface Mount
Package / Case
68-PLCC
Lead Free Status / RoHS Status
Contains lead / RoHS non-compliant
Features
-
Other names
*NS32FX164AV-25
Q1284286
Q1284286
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2 0 Architectural Description
2 1 2 Address Registers
The seven address registers are used by the processor to
implement specific address functions Except for the MOD
register that is 16 bits wide all the others are 32 bits A
description of the address registers follows
PC Program Counter The PC register is a pointer to the
first byte of the instruction currently being executed The PC
is used to reference memory in the program section
SP0 SP1 Stack Pointers The SP0 register points to the
lowest address of the last item stored on the INTERRUPT
STACK This stack is normally used only by the operating
system It is used primarily for storing temporary data and
holding return information for operating system subroutines
and interrupt and trap service routines The SP1 register
points to the lowest address of the last item stored on the
USER STACK This stack is used by normal user programs
to hold temporary data and subroutine return information
When a reference is made to the selected Stack Pointer
(see PSR S-bit) the terms ‘‘SP Register’’ or ‘‘SP’’ are used
SP refers to either SP0 or SP1 depending on the setting of
the S bit in the PSR register If the S bit in the PSR is 0 SP
refers to SP0 If the S bit in the PSR is 1 then SP refers to
SP1
Stacks in the Series 32000 architecture grow downward in
memory A Push operation pre-decrements the Stack Point-
er by the operand length A Pop operation post-increments
the Stack Pointer by the operand length
FP Frame Pointer The FP register is used by a procedure
to access parameters and local variables on the stack The
FP register is set up on procedure entry with the ENTER
instruction and restored on procedure termination with the
EXIT instruction
The frame pointer holds the address in memory occupied by
the old contents of the frame pointer
SB Static Base The SB register points to the global vari-
ables of a software module This register is used to support
relocatable global variables for software modules The SB
register holds the lowest address in memory occupied by
the global variables of a module
INTBASE Interrupt Base The INTBASE register holds
the address of the dispatch table for interrupts and traps
(Section 3 2 1)
MOD Module The MOD register holds the address of the
module descriptor of the currently executing software mod-
ule The MOD register is 16 bits long therefore the module
table must be contained within the first 64 kbytes of memo-
ry
2 1 3 Processor Status Register
The Processor Status Register (PSR) holds status informa-
tion for the microprocessor
The PSR is sixteen bits long divided into two eight-bit
halves The low order eight bits are accessible to all pro-
grams but the high order eight bits are accessible only to
programs executing in Supervisor Mode
(Continued)
8
C The C bit indicates that a carry or borrow occurred after
T The T bit causes program tracing If this bit is set to 1 a
L The L bit is altered by comparison instructions In a com-
K Reserved for use by the CPU
J Reserved for use by the CPU
F The F bit is a general condition flag which is altered by
Z The Z bit is altered by comparison instructions In a com-
N The N bit is altered by comparison instructions In a
U If the U bit is ‘‘1’’ no privileged instructions may be exe-
S The S bit specifies whether the SP0 register or SP1 reg-
P The P bit prevents a TRC trap from occurring more than
I
15
B
an addition or subtraction instruction It can be used with
the ADDC and SUBC instructions to perform multiple-
precision integer arithmetic calculations It may have a
setting of 0 (no carry or borrow) or 1 (carry or borrow)
TRC trap is executed after every instruction (Section
3 3 1)
parison instruction the L bit is set to ‘‘1’’ if the second
operand is less than the first operand when both oper-
ands are interpreted as unsigned integers Otherwise it
is set to ‘‘0’’ In Floating-Point comparisons this bit is
always cleared
many instructions (e g
use it to indicate overflow)
parison instruction the Z bit is set to ‘‘1’’ if the second
operand is equal to the first operand otherwise it is set
to ‘‘0’’
comparison instruction the N bit is set to ‘‘1’’ if the sec-
ond operand is less than the first operand when both
operands are interpreted as signed integers Otherwise
it is set to ‘‘0’’
cuted If the U bit is ‘‘0’’ then all instructions may be
executed When U
pervisor Mode when U
User Mode A User Mode program is restricted from exe-
cuting certain instructions and accessing certain regis-
ters which could interfere with the operating system For
example a User Mode program is prevented from
changing the setting of the flag used to indicate its own
privilege mode A Supervisor Mode program is assumed
to be a trusted part of the operating system hence it has
no such restrictions
ister is used as the Stack Pointer The bit is automatical-
ly cleared on interrupts and traps It may have a setting
of 0 (use the SP0 register) or 1 (use the SP1 register)
once for an instruction (Section 3 3 1) It may have a
setting of 0 (no trace pending) or 1 (trace pending)
If I
the NMI interrupt is accepted Trap enables are not af-
fected by this bit
FIGURE 2-2 Processor Status Register (PSR)
e
1 then all interrupts will be accepted If I
I
P S U N Z
e
0 the processor is said to be in Su-
e
8 7
integer arithmetic instructions
1 the processor is said to be in
F
J
K
L
e
0 only
T C
0
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