PIC18F6585/8585/6680/8680
DS30491C-page 78
2004 Microchip Technology Inc.
4.10
Access Bank
The Access Bank is an architectural enhancement
which is very useful for C compiler code optimization.
The techniques used by the C compiler may also be
useful for programs written in assembly.
This data memory region can be used for:
Intermediate computational values
Local variables of subroutines
Faster context saving/switching of variables
Common variables
Faster evaluation/control of SFRs (no banking)
The Access Bank is comprised of the upper 160 bytes
in Bank 15 (SFRs) and the lower 96 bytes in Bank 0.
These two sections will be referred to as Access RAM
indicates the Access RAM areas.
A bit in the instruction word specifies if the operation is
to occur in the bank specified by the BSR register or in
the Access Bank. This bit is denoted by the ‘a’ bit (for
access bit).
When forced in the Access Bank (a = 0), the last
address in Access RAM Low is followed by the first
address in Access RAM High. Access RAM High maps
the Special Function Registers so that these registers
can be accessed without any software overhead. This is
useful for testing status flags and modifying control bits.
4.11
Bank Select Register (BSR)
The need for a large general purpose memory space
dictates a RAM banking scheme. The data memory is
partitioned into sixteen banks. When using direct
addressing, the BSR should be configured for the
desired bank.
BSR<3:0> holds the upper 4 bits of the 12-bit RAM
address. The BSR<7:4> bits will always read ‘0’s and
writes will have no effect.
A MOVLB instruction has been provided in the
instruction set to assist in selecting banks.
If the currently selected bank is not implemented, any
read will return all ‘0’s and all writes are ignored. The
Status register bits will be set/cleared as appropriate for
the instruction performed.
Each Bank extends up to 0FFh (256 bytes). All data
memory is implemented as static RAM.
A MOVFF instruction ignores the BSR since the 12-bit
addresses are embedded into the instruction word.
Registers” provides a description of indirect address-
ing which allows linear addressing of the entire RAM
space.
FIGURE 4-8:
DIRECT ADDRESSING
Note 1:
2:
The access bit of the instruction can be used to force an override of the selected bank (BSR<3:0>) to the
registers of the Access Bank.
3:
The MOVFF instruction embeds the entire 12-bit address in the instruction.
Data
Memory(1)
Direct Addressing
Bank Select(2)
Location Select(3)
BSR<3:0>
7
0
From Opcode(3)
00h
01h
0Eh
0Fh
Bank 0
Bank 1
Bank 14
Bank 15
1FFh
100h
0FFh
000h
EFFh
E00h
FFFh
F00h