GS81313LD36GK-833I Datasheet, PDF(1/26 Page) GSI Technology – 4Mb x 36 and 8Mb x 18 organizations available

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GS81313LD36GK-833I Datasheet, PDF (1/26 Pages) GSI Technology – 4Mb x 36 and 8Mb x 18 organizations available

GS81313LD18/36GK-833/714/625

260-Pin BGA

Com & Ind Temp

HSTL I/O

144Mb SigmaQuad-IIIeâ¢

Burst of 4 ECCRAMâ¢

Up to 833 MHz

1.25V ~ 1.3V VDD

1.2V ~ 1.3V VDDQ

Features

â¢ 4Mb x 36 and 8Mb x 18 organizations available

â¢ 833 MHz maximum operating frequency

â¢ 833 MT/s peak transaction rate (in millions per second)

â¢ 120 Gb/s peak data bandwidth (in x36 devices)

â¢ Separate I/O DDR Data Buses

â¢ Non-multiplexed SDR Address Bus

â¢ One operation - Read or Write - per clock cycle

â¢ Burst of 4 Read and Write operations

â¢ 3 cycle Read Latency

â¢ On-chip ECC with virtually zero SER

â¢ 1.25V ~ 1.3V core voltage

â¢ 1.2V ~ 1.3V HSTL I/O interface

â¢ Configurable ODT (on-die termination)

â¢ ZQ pin for programmable driver impedance

â¢ ZT pin for programmable ODT impedance

â¢ IEEE 1149.1 JTAG-compliant Boundary Scan

â¢ 260-pin, 14 mm x 22 mm, 1 mm ball pitch, 6/6 RoHS-ï

compliant BGA package

SigmaQuad-IIIeâ¢ Family Overview

SigmaQuad-IIIe ECCRAMs are the Separate I/O half of the

SigmaQuad-IIIe/SigmaDDR-IIIe family of high performance

ECCRAMs. Although very similar to GSI's second generation

of networking SRAMs (the SigmaQuad-II/SigmaDDR-II

family), these third generation devices offer several new

features that help enable significantly higher performance.

Clocking and Addressing Schemes

The GS81313LD18/36GK SigmaQuad-IIIe ECCRAMs are

synchronous devices. They employ three pairs of positive and

negative input clocks; one pair of master clocks, CK and CK,

and two pairs of write data clocks, KD[1:0] and KD[1:0]. All

six input clocks are single-ended; that is, each is received by a

dedicated input buffer.

CK and CK are used to latch address and control inputs, and to

control all output timing. KD[1:0] and KD[1:0] are used solely

to latch data inputs.

Each internal read and write operation in a SigmaQuad-IIIe B4

ECCRAM is four times wider than the device I/O bus. An

input data bus de-multiplexer is used to accumulate incoming

data before it is simultaneously written to the memory array.

An output data multiplexer is used to capture the data produced

from a single memory array read and then route it to the

appropriate output drivers as needed. Therefore, the address

field of a SigmaQuad-IIIe B4 ECCRAM is always two address

pins less than the advertised index depth (e.g. the 8M x 18 has

2M addressable index).

On-Chip Error Correction Code

GSI's ECCRAMs implement an ECC algorithm that detects

and corrects all single-bit memory errors, including those

induced by SER events such as cosmic rays, alpha particles,

etc. The resulting Soft Error Rate of these devices is

anticipated to be <0.002 FITs/Mb â a 5-order-of-magnitude

improvement over comparable SRAMs with no on-chip ECC,

which typically have an SER of 200 FITs/Mb or more.

All quoted SER values are at sea level in New York City.

Speed Grade

-833

-714

-625

Parameter Synopsis

Max Operating Frequency

833 MHz

714 MHz

625 MHz

Read Latency

3 cycles

VDD

1.2V to 1.35V

Rev: 1.13 7/2016

1/26

Specifications cited are subject to change without notice. For latest documentation see http://www.gsitechnology.com.

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