Esata questions & answers – LaCie FIREWIRE 800/400 User Manual

LaCie Biggest Quadra

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USB Questions & Answers

What is eSATA?

Your LaCie d2 Quadra Hard Drive uses the latest

in SATA technology, allowing interface (or bus) transfer

rates of up to 1.5Gb/s. SATA technology was originally

developed to serve as an internal interface, delivering

improved performance to internal connections. Soon

after, eSATA, a connector that can be used for SATA I

as well as SATA II, was developed, allowing for the use

of shielded cables outside the PC.

eSATA technology was developed to be rugged and

durable. eSATA connectors do not have the “L” shaped

design of other SATA connectors. In addition, the guide

features are vertically offset and reduced in size to pre-

vent the use of unshielded internal cables in external ap-

plications.

Initial Serial ATA technology removed the perfor-

mance bottleneck of the Parallel ATA specification, and

follows a clearly defined road map to greater and greater

data transfer rates and feature improvements.

Deriving its name from the way that it transmits

signals, in a single stream, or serially, Serial ATA op-

erates in a point-to-point topology. This connectiv-

ity methodology delivers the entire available interface

bandwidth to each device, allowing each device to op-

erate at its maximum throughput, and provides direct

communication between the device and the system at

any time, reducing arbitration delays associated with

shared bus topologies.

What are the key differences between SATA I
and SATA II technology?

For single drive configurations, SATA I, SATA II

and FireWire 800 will have about the same performance.

However, in a RAID0 configuration, SATA I and SATA

II will allow faster transfer rates than FireWire 800,

which may limit transfer rates.

What are the features and benefits of Serial
ATA and Serial ATA II?

The Serial ATA specification provides several key

features that will help spur widespread implementa-

tion:

Performance: Serial ATA is a point-to-point topol-

ogy, and does not have to share the bus, instead dedi-

cating full bandwidth to the device. These dedicated

links make creating a Serial ATA RAID array quick

and relatively inexpensive to implement.
Easy installation and configuration: There are no de-

vice IDs, termination or master/slave conflicts, and

the standard supports hot-plug connectivity. Drives

can be added, upgraded or removed without having

to power down the whole system.
Improved reliability: Serial ATA also uses 32-bit cy-

clic redundancy checking (CRC) on all transfers to

ensure correct data transmissions. Due to this CRC

capability, Serial ATA performs protection and re-

covery features at multiple levels: PHY layer, link

layer and transport and software layers.
Command optimization: Serial ATA utilizes Na-

tive Command Queing (NCQ) and first party direct

memory access (DMA) to intelligently order com-

mands in an internal queue within the drive, with-

out having to involve the host CPU. Judging its own

drive head’s angular and rotational position, the drive

selects a data transfer from the queue that will mini-

mize both its seek and rotational latencies.
Simplified structure: Serial ATA utilizes a more ef-

ficient signaling voltage (250mV vs. 5V for Parallel

ATA), and much smaller, thinner and compact cables

and connectors. Due to the simplified cabling (the

reduction in the number of pins and wires), the num-

ber of fault possibilities decreases.
Seamless integration: Serial ATA maintains register

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10. eSATA Questions & Answers