M1AFS600-PQ208 Datasheet, PDF(25/334 Page) Microsemi Corporation – Fusion Family of Mixed Signal FPGAs

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M1AFS600-PQ208 Datasheet, PDF (25/334 Pages) Microsemi Corporation – Fusion Family of Mixed Signal FPGAs

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Fusion Family of Mixed Signal FPGAs

Routing Architecture

The routing structure of Fusion devices is designed to provide high performance through a flexible four-

level hierarchy of routing resources: ultra-fast local resources; efficient long-line resources; high-speed

very-long-line resources; and the high-performance VersaNet networks.

The ultra-fast local resources are dedicated lines that allow the output of each VersaTile to connect

directly to every input of the eight surrounding VersaTiles (Figure 2-8). The exception to this is that the

SET/CLR input of a VersaTile configured as a D-flip-flop is driven only by the VersaNet global network.

The efficient long-line resources provide routing for longer distances and higher-fanout connections.

These resources vary in length (spanning one, two, or four VersaTiles), run both vertically and

horizontally, and cover the entire Fusion device (Figure 2-9 on page 2-10). Each VersaTile can drive

signals onto the efficient long-line resources, which can access every input of every VersaTile. Active

buffers are inserted automatically by routing software to limit loading effects.

The high-speed very-long-line resources, which span the entire device with minimal delay, are used to

route very long or high-fanout nets: length Â±12 VersaTiles in the vertical direction and length Â±16 in the

horizontal direction from a given core VersaTile (Figure 2-10 on page 2-11). Very long lines in Fusion

devices, like those in ProASIC3 devices, have been enhanced. This provides a significant performance

boost for long-reach signals.

The high-performance VersaNet global networks are low-skew, high-fanout nets that are accessible from

external pins or from internal logic (Figure 2-11 on page 2-12). These nets are typically used to distribute

clocks, reset signals, and other high-fanout nets requiring minimum skew. The VersaNet networks are

implemented as clock trees, and signals can be introduced at any junction. These can be employed

hierarchically, with signals accessing every input on all VersaTiles.

Long Lines

L

L

L

Inputs

L

L

L

L

L

Ultra-Fast Local Lines

(connects a VersaTile to the

adjacent VersaTile, I/O buffer,

or memory block)

L

Note: Input to the core cell for the D-flip-flop set and reset is only available via the VersaNet global network connection.

Figure 2-8 â¢ Ultra-Fast Local Lines Connected to the Eight Nearest Neighbors

Revision 4

2-9

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