IPR-SRAM/QDRII Altera, IPR-SRAM/QDRII Datasheet - Page 40

IPR-SRAM/QDRII

Manufacturer Part Number

IPR-SRAM/QDRII

Description

IP CORE Renewal Of IP-SRAM/QDRII

Manufacturer

Altera

Type

MegaCorer

Datasheets

1.IP-SRAMQDRII.pdf (68 pages)

2.IPR-SRAMQDRII.pdf (5 pages)

Specifications of IPR-SRAM/QDRII

Software Application

IP CORE, Memory Controllers, SDRAM

Supported Families

HardCopy II, Stratix

Features

Automatic Concatenation Of Consecutive Reads And Writes, Easy-to-Use IP Toolbench Interface

Core Architecture

FPGA

Core Sub-architecture

HardCopy, Stratix

Rohs Compliant

Function

QDRII SRAM Controller

License

Renewal License

Lead Free Status / RoHS Status

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Block Description

3–8

QDRII SRAM Controller MegaCore Function User Guide

With more than one device, one cq/cqn pair and q bus are connected per

device in the width direction. For a device depth of two, it shares the q

and cq/cqn signals.

All the signals go out of the block with their associated internal cq clock,

so you can use Altera's resynchronization scheme or implement your

own.

Altera recommends the following read capture implementation for data

captures from QDRII SRAM devices when using complementary echo

clocks (cq and cqn signals).

The Stratix II IOE contains two input registers and a latch. The cq and

cqn echo clock signals clock the positive and negative half-cycle registers

during reads. The latch holds the negative half-cycle data until the next

rising edge on cq. However, the latch in the IOE is not recommended

when the complementary clocks do not have 50% duty cycle or skew,

because the latch, controlled by the cq clock, is still transparent until just

after the register clocked on the cqn signal captures the data.

Instead, the captured read data is recaptured with the cq echo clock in the

FPGA fabric using a zero-cycle path. The cq echo clock is routed into the

FPGA fabric using dedicated clock routing (Altera recommends global

routing) to provide minimum clock skew across all recapture registers. If

you do not have enough global clock network resources, you have the

option of using the regional clock network. Routing the cq over a clock

network adds delay. The Quartus II software fitter places and routes the

recapture registers so that the data delay is sufficient to meet the setup

and hold requirements at the device registers.

Figure 3–5

implementation.

You should only use regional routing if you run out of the global

clock networks.

shows a block diagram of the new read capture

MegaCore Version 9.1

Altera Corporation

November 2009

IPR-SRAM/QDRII Altera, IPR-SRAM/QDRII Datasheet - Page 40

IPR-SRAM/QDRII

Specifications of IPR-SRAM/QDRII

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