EP1SGX10DF672C5N Altera, EP1SGX10DF672C5N Datasheet - Page 77

EP1SGX10DF672C5N

Manufacturer Part Number

EP1SGX10DF672C5N

Description

IC STRATIX GX FPGA 10KLE 672FBGA

Manufacturer

Altera

Series

Stratix® GXr

Datasheet

1.EP1SGX10CF672C7N.pdf (272 pages)

Specifications of EP1SGX10DF672C5N

Number Of Logic Elements/cells

10570

Number Of Labs/clbs

1057

Total Ram Bits

920448

Number Of I /o

362

Voltage - Supply

1.425 V ~ 1.575 V

Mounting Type

Surface Mount

Operating Temperature

0°C ~ 85°C

Package / Case

672-FBGA

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Number Of Gates

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MultiTrack

Interconnect

Altera Corporation

February 2005

In the Stratix GX architecture, connections between LEs, TriMatrix

memory, DSP blocks, and device I/O pins are provided by the

MultiTrack interconnect structure with DirectDrive

MultiTrack interconnect consists of continuous, performance-optimized

routing lines of different lengths and speeds used for inter- and intra-

design block connectivity. The Quartus II Compiler automatically places

critical design paths on faster interconnects to improve design

performance.

DirectDrive technology is a deterministic routing technology that ensures

identical routing resource usage for any function regardless of placement

within the device. The MultiTrack interconnect and DirectDrive

technology simplify the integration stage of block-based designing by

eliminating the re-optimization cycles that typically follow design

changes and additions.

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 repeatable performance when

migrating through different device densities. Dedicated row

interconnects route signals to and from LABs, DSP blocks, and TriMatrix

memory within the same row. These row resources include:

■

The direct link interconnect allows an LAB, DSP block, or TriMatrix

memory block to drive into the local interconnect of its left and right

neighbors and then back into itself. Only one side of a M-RAM block

interfaces with direct link and row interconnects. This provides fast

communication between adjacent LABs and/or blocks without using

row interconnect resources.

The R4 interconnects span four LABs, three LABs and one M512 RAM

block, two LABs and one M4K RAM block, or two LABs and one DSP

block to the right or left of a source LAB. These resources are used for fast

row connections in a four-LAB region. Every LAB has its own set of R4

interconnects to drive either left or right.

interconnect connections from an LAB. R4 interconnects can drive and be

driven by DSP blocks and RAM blocks and horizontal IOEs. For LAB

interfacing, a primary LAB or LAB neighbor can drive a given R4

interconnect. For R4 interconnects that drive to the right, the primary

LAB and right neighbor can drive on to the interconnect. For R4

interconnects that drive to the left, the primary LAB and its left neighbor

Direct link interconnects between LABs and adjacent blocks.

R4 interconnects traversing four blocks to the right or left.

R8 interconnects traversing eight blocks to the right or left.

R24 row interconnects for high-speed access across the length of the

device.

Stratix GX Device Handbook, Volume 1

Figure 4–8

Stratix GX Architecture

shows R4

technology. The

4–11

EP1SGX10DF672C5N Altera, EP1SGX10DF672C5N Datasheet - Page 77

EP1SGX10DF672C5N

Specifications of EP1SGX10DF672C5N

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