epm2210gm100i Altera Corporation, epm2210gm100i Datasheet - Page 23

epm2210gm100i

Manufacturer Part Number

epm2210gm100i

Description

Section I. Max Ii Device Family Data Sheet

Manufacturer

Altera Corporation

Datasheet

1.EPM2210GM100I.pdf (108 pages)

Current page: 23 of 108
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MultiTrack

Interconnect

Altera Corporation

March 2008

Clear and Preset Logic Control

LAB-wide signals control the logic for the register’s clear and preset

signals. The LE directly supports an asynchronous clear and preset

function. The register preset is achieved through the asynchronous load

of a logic high. MAX II devices support simultaneous

preset/asynchronous load and clear signals. An asynchronous clear

signal takes precedence if both signals are asserted simultaneously. Each

LAB supports up to two clears and one preset signal.

In addition to the clear and preset ports, MAX II devices provide a

chip-wide reset pin (DEV_CLRn) that resets all registers in the device. An

option set before compilation in the Quartus II software controls this pin.

This chip-wide reset overrides all other control signals and uses its own

dedicated routing resources (that is, it does not use any of the four global

resources). Driving this signal low before or during power-up prevents

user mode from releasing clears within the design. This allows you to

control when clear is released on a device that has just been powered-up.

If not set for its chip-wide reset function, the DEV_CLRn pin is a regular

I/O pin.

By default, all registers in MAX II devices are set to power-up low.

However, this power-up state can be set to high on individual registers

during design entry using the Quartus II software.

In the MAX II architecture, connections between LEs, the UFM, and

device I/O pins are provided by the MultiTrack interconnect structure.

The MultiTrack interconnect consists of continuous,

performance-optimized routing lines used for inter- and intra-design

block connectivity. The Quartus II Compiler automatically places critical

design paths on faster interconnects to improve design performance.

The MultiTrack interconnect consists of row and column interconnects

that span fixed distances. A routing structure with fixed length resources

for all devices allows predictable and short delays between logic levels

instead of large delays associated with global or long routing lines.

Dedicated row interconnects route signals to and from LABs within the

same row. These row resources include:

■

The DirectLink interconnect allows an LAB to drive into the local

interconnect of its left and right neighbors. The DirectLink interconnect

provides fast communication between adjacent LABs and/or blocks

without using row interconnect resources.

DirectLink interconnects between LABs

R4 interconnects traversing four LABs to the right or left

MAX II Device Handbook, Volume 1

MAX II Architecture

2–15

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