EP2C5F256C7N Datasheet, PDF(13/168 Page) Altera Corporation – Section I. Cyclone II Device Family Data Sheet

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EP2C5F256C7N Datasheet, PDF (13/168 Pages) Altera Corporation – Section I. Cyclone II Device Family Data Sheet

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2. Cyclone II Architecture

CII51002-3.1

Functional

Description

CycloneÂ® II devices contain a two-dimensional row- and column-based

architecture to implement custom logic. Column and row interconnects

of varying speeds provide signal interconnects between logic array

blocks (LABs), embedded memory blocks, and embedded multipliers.

The logic array consists of LABs, with 16 logic elements (LEs) in each

LAB. An LE is a small unit of logic providing efficient implementation of

user logic functions. LABs are grouped into rows and columns across the

device. Cyclone II devices range in density from 4,608 to 68,416 LEs.

Cyclone II devices provide a global clock network and up to four

phase-locked loops (PLLs). The global clock network consists of up to 16

global clock lines that drive throughout the entire device. The global clock

network can provide clocks for all resources within the device, such as

input/output elements (IOEs), LEs, embedded multipliers, and

embedded memory blocks. The global clock lines can also be used for

other high fan-out signals. Cyclone II PLLs provide general-purpose

clocking with clock synthesis and phase shifting as well as external

outputs for high-speed differential I/O support.

M4K memory blocks are true dual-port memory blocks with 4K bits of

memory plus parity (4,608 bits). These blocks provide dedicated true

dual-port, simple dual-port, or single-port memory up to 36-bits wide at

up to 260 MHz. These blocks are arranged in columns across the device

in between certain LABs. Cyclone II devices offer between 119 to

1,152 Kbits of embedded memory.

Each embedded multiplier block can implement up to either two 9 Ã 9-bit

multipliers, or one 18 Ã 18-bit multiplier with up to 250-MHz

performance. Embedded multipliers are arranged in columns across the

device.

Each Cyclone II device I/O pin is fed by an IOE located at the ends of LAB

rows and columns around the periphery of the device. I/O pins support

various single-ended and differential I/O standards, such as the 66- and

33-MHz, 64- and 32-bit PCI standard, PCI-X, and the LVDS I/O standard

at a maximum data rate of 805 megabits per second (Mbps) for inputs and

640 Mbps for outputs. Each IOE contains a bidirectional I/O buffer and

three registers for registering input, output, and output-enable signals.

Dual-purpose DQS, DQ, and DM pins along with delay chains (used to

Altera Corporation

2â1

February 2007

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