A42MX16-PQ208A Datasheet, PDF(5/78 Page) Actel Corporation – 40MX and 42MX Automotive FPGA Families

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A42MX16-PQ208A Datasheet, PDF (5/78 Pages) Actel Corporation – 40MX and 42MX Automotive FPGA Families

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40MX and 42MX Automotive FPGA Families

General Description

Actels' automotive-grade MX families provide a high-

performance, single-chip solution for shortening the

system design and development cycle, offering a cost-

effective alternative to ASICs for in-cabin telematics and

automobile interconnect applications. The 40MX and

42MX devices are excellent choices for integrating logic

that is currently implemented in multiple PALs, CPLDs,

and FPGAs.

The MX device architecture is based on Actelâs patented

antifuse technology implemented in a 0.45Âµm triple-

metal CMOS process. With capacities ranging from 3,000

to 54,000 system gates, the MX devices are live on

power-up and have one-fifth the standby power

consumption of comparable FPGAs. Actelâs MX FPGAs

provide up to 202 user I/Os and are available in a wide

variety of packages and speed grades.

The automotive-grade 42MX24 and 42MX36 include

system-level features such as IEEE Standard 1149.1 (JTAG)

Boundary Scan Testing and fast wide-decode modules. In

addition, the A42MX36 device offers dual-port SRAM for

implementing fast FIFOs, LIFOs, and temporary data

storage. The storage elements can efficiently address

applications requiring wide datapath manipulation.

flops can be constructed from logic modules whenever

required in the application.

The 42MX devices contain three types of logic modules:

combinatorial (C-modules), sequential (S-modules) and

decode (D-modules). Figure 1-2 illustrates the

combinatorial logic module. The S-module, shown in

Figure 1-3 on page 1-2, implements the same

combinatorial logic function as the C-module while

adding a sequential element. The sequential element can

be configured as either a D-flip-flop or a transparent

latch. The S-module register can be bypassed so that it

implements purely combinatorial logic.

A42MX24 and A42MX36 devices contain D-modules,

which are arranged around the periphery of the device.

D-modules contain wide-decode circuitry, providing a

fast, wide-input AND function similar to that found in

CPLD architectures (Figure 1-4 on page 1-2). The D-

module allows A42MX24 and A42MX36 devices to

perform wide-decode functions at speeds comparable to

CPLDs and PALs. The output of the D-module has a

programmable inverter for active HIGH or LOW

assertion. The D-module output is hardwired to an

output pin, and can also be fed back into the array to be

incorporated into other logic.

MX Architectural Overview

The MX devices are composed of fine-grained building

blocks that enable fast, efficient logic designs. All devices

within these families are composed of logic modules, I/O

modules, routing resources and clock networks, which

are the building blocks for fast logic designs. In addition,

the A42MX36 device contains embedded dual-port

SRAM modules, which are optimized for high-speed

datapath functions such as FIFOs, LIFOs and scratchpad

memory. A42MX24 and A42MX36 also contain wide-

decode modules.

Logic Modules

The 40MX logic module is an eight-input, one-output

logic circuit designed to implement a wide range of logic

functions with efficient use of interconnect routing

resources (Figure 1-1).

The logic module can implement the four basic logic

functions (NAND, AND, OR and NOR) in gates of two,

three, or four inputs. The logic module can also

implement a variety of D-latches, exclusivity functions,

AND-ORs and OR-ANDs. No dedicated hardwired latches

or flip-flops are required in the array; latches and flip-

Figure 1-1 â¢ 40MX Logic Module

D00

D01

D10

D11

Figure 1-2 â¢ 42MX C-Module Implementation

v3.1

1-1

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