Specifications GAL20V8
Output Logic Macrocell (OLMC)
The following discussion pertains to configuring the output logic
macrocell. It should be noted that actual implementation is accom-
plished by development software/hardware and is completely trans-
parent to the user.
PAL Architectures
Emulated by GAL20V8
GAL20V8
Global OLMC Mode
20R8
20R6
20R4
20RP8
20RP6
20RP4
Registered
Registered
Registered
Registered
Registered
Registered
There are three global OLMC configuration modes possible:
simple, complex, and registered. Details of each of these modes
is illustrated in the following pages. Two global bits, SYN andAC0,
control the mode configuration for all macrocells. The XOR bit of
each macrocell controls the polarity of the output in any of the three
modes, while theAC1 bit of each of the macrocells controls the in-
put/output configuration. These two global and 16 individual archi-
tecture bits define all possible configurations in a GAL20V8 . The
information given on these architecture bits is only to give a bet-
ter understanding of the device. Compiler software will transpar-
ently set these architecture bits from the pin definitions, so the user
should not need to directly manipulate these architecture bits.
20L8
20H8
20P8
Complex
Complex
Complex
14L8
16L6
18L4
20L2
14H8
16H6
18H4
20H2
14P8
16P6
18P4
20P2
Simple
Simple
Simple
Simple
Simple
Simple
Simple
Simple
Simple
Simple
Simple
Simple
The following is a list of the PAL architectures that the GAL20V8
can emulate. It also shows the OLMC mode under which the
devices emulate the PAL architecture.
Compiler Support for OLMC
Software compilers support the three different global OLMC modes configured as clock and output enable, respectively. These pins
as different device types. These device types are listed in the table cannot be configured as dedicated inputs in the registered mode.
below. Most compilers have the ability to automatically select the
device type, generally based on the register usage and output In complex mode pin 1 and pin 13 become dedicated inputs and
enable (OE) usage. Register usage on the device forces the soft- use the feedback paths of pin 22 and pin 15 respectively. Because
ware to choose the registered mode. All combinatorial outputs with of this feedback path usage, pin 22 and pin 15 do not have the
OE controlled by the product term will force the software to choose feedback option in this mode.
the complex mode. The software will choose the simple mode only
when all outputs are dedicated combinatorial without OE control. In simple mode all feedback paths of the output pins are routed
The different device types listed in the table can be used to override via the adjacent pins. In doing so, the two inner most pins ( pins
the automatic device selection by the software. For further details, 18 and 19) will not have the feedback option as these pins are
refer to the compiler software manuals.
always configured as dedicated combinatorial output.
When using compiler software to configure the device, the user
must pay special attention to the following restrictions in each mode.
In registered mode pin 1 and pin 13 (DIP pinout) are permanently
Registered
Complex
Simple
Auto Mode Select
ABEL
CUPL
LOG/iC
OrCAD-PLD
PLDesigner
TANGO-PLD
P20V8R
G20V8MS
GAL20V8_R
"Registered"1
P20V8R2
P20V8C
G20V8MA
GAL20V8_C7
"Complex"1
P20V8C2
P20V8AS
G20V8AS
GAL20V8_C8
"Simple"1
P20V8C2
G20V8AS3
P20V8
G20V8
GAL20V8
GAL20V8A
P20V8A
G20V8
G20V8R
G20V8C
1) Used with Configuration keyword.
2) Prior to Version 2.0 support.
3) Supported on Version 1.20 or later.
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