GS8672Q20BGE-450I Datasheet, PDF(1/28 Page) GSI Technology

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GS8672Q20BGE-450I Datasheet, PDF (1/28 Pages) GSI Technology – On-Chip ECC with virtually zero SER

GS8672Q20/38BE-500/450/400

165-Bump BGA

Commercial Temp

Industrial Temp

72Mb SigmaQuad-II+TM

Burst of 2 ECCRAMTM

500 MHzâ400 MHz

1.8 V VDD

1.5 V I/O

Features

â¢ 2.5 Clock Latency

â¢ On-Chip ECC with virtually zero SER

â¢ Simultaneous Read and Write SigmaQuadâ¢ Interface

â¢ JEDEC-standard package

â¢ Dual Double Data Rate interface

â¢ Byte Write Capability

â¢ Burst of 2 Read and Write

â¢ On-Die Termination (ODT) on Data (D), Byte Write (BW),

and Clock (K, K) outputs

â¢ 1.8 V +100/â100 mV core power supply

â¢ 1.5 V HSTL Interface

â¢ Pipelined read operation

â¢ Fully coherent read and write pipelines

â¢ ZQ pin for programmable output drive strength

â¢ IEEE 1149.1 JTAG-compliant Boundary Scan

â¢ Pin-compatible with 36Mb and144Mb devices

â¢ 165-bump, 15 mm x 17 mm, 1 mm bump pitch BGA package

â¢ RoHS-compliant 165-bump BGA package available

SigmaQuadâ¢ ECCRAM Overview

The GS8672Q20/38BE are built in compliance with the

SigmaQuad-II+ ECCRAM pinout standard for Separate I/O

synchronous ECCRAMs. They are 75,497,472-bit (72Mb)

ECCRAMs. The GS8672Q20/38BE SigmaQuad ECCRAMs

are just one element in a family of low power, low voltage

HSTL I/O ECCRAMs designed to operate at the speeds needed

to implement economical high performance networking

systems.

Clocking and Addressing Schemes

The GS8672Q20/38BE SigmaQuad-II+ ECCRAMs are

synchronous devices. They employ two input register clock

inputs, K and K. K and K are independent single-ended clock

inputs, not differential inputs to a single differential clock input

buffer.

Each internal read and write operation in a SigmaQuad-II+ B2

ECCRAM is two 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-II+ B2 ECCRAM is always one address

pin less than the advertised index depth (e.g., the 4M x18 has

an 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 Soft Error Rate (SER) events such as cosmic rays,

alpha particles. The resulting SER 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. SER

quoted above is based on reading taken at sea level.

However, the On-Chip Error Correction (ECC) will be

disabled if a âHalf Writeâ operation is initiated. See the Byte

Write Contol section for further information.

tKHKH

tKHQV

Parameter Synopsis

-500

2.0 ns

0.45 ns

-450

2.2 ns

0.45 ns

-400

2.5 ns

0.45 ns

Rev: 1.01c 8/2017

1/28

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

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