Data Sheet
June 1999
ORCA Series 3C and 3T FPGAs
PICs in the Series 3 FPGAs have significant local rout-
ing resources, similar to routing in the PLCs. This new
routing increases the ability to fix user pinouts prior to
placement and routing of a design and still maintain
routability. The flexibility provided by the routing also
provides for increased signal speed due to a greater
variety of signal paths possible.
Programmable Input/Output Cells
The programmable input/output cells (PICs) are
located along the perimeter of the device. The PIC’s
name is represented by a two-letter designation to indi-
cate on which side of the device it is located followed by
a number to indicate in which row or column it is
located. The first letter, P, designates that the cell is a
PIC and not a PLC. The second letter indicates the side
of the array where the PIC is located. The four sides
are left (L), right (R), top (T), and bottom (B). The indi-
vidual I/O pad is indicated by a single letter (either A, B,
C, or D) placed at the end of the PIC name. As an
example, PL10A indicates a pad located on the left
side of the array in the tenth row.
Included in the PIC routing is a fast path from the input
pins to the SLICs in each of the three adjacent PLCs
(one orthogonal and two diagonal). This feature allows
for input signals to be very quickly processed by the
SLIC decoder function and used on-chip or sent back
off of the FPGA. Also new to the Series 3 PIOs are
latches and FFs and options for using fast, dedicated
clocks called ExpressCLKs. These features will all be
discussed in subsequent sections.
Each PIC interfaces to four bond pads and contains the
necessary routing resources to provide an interface
between I/O pads and the PLCs. Each PIC is com-
posed of four programmable I/Os (PIOs) and significant
routing resources. Each PIO contains input buffers,
output buffers, routing resources, latches/FFs, and
logic and can be configured as an input, output, or
bidirectional I/O.
A diagram of a single PIO (one of four in a PIC) is
shown in Figure 22. Table 9 provides an overview of the
programmable functions in an I/O cell.
PIO LOGIC
AND
NAND
OR
NOR
XOR
XNOR
PULL-MODE
UP
PMUX
OUT1OUTREG
OUT2OUTREG
OUT1OUT2
DOWN
NONE
CLKIN
IN1
OUT1
OUT2
D0
D1 Q
0
0
PD
Q
D
CK
PAD
ECLK
SCLK
NORMAL
INVERTED
CK
SP
SD
LEVEL MODE
1
TS
ECLK
SCLK
D Q
CK
SP
LSR
TTL
INREGMODE
LSR
CMOS
1
RESET
SET
BUFFER
MODE
LATCHFF
LATCH
FF
CE
D0 Q
CK
RESET
SET
FAST
SLEW
SINK
1
IN2
LSR
LSR
CE_OVER_LSR
LSR_OVER_CE
ASYNC
0
ENABLE_GSR
DISABLE_GSR
5-5805(F).c
.
Figure 22 OR3C/Txxx Programmable Input/Output (PIO) Image from ORCA Foundry
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Lucent Technologies Inc.