LTO-8 And The Latest LTO Roadmap

John Zdechlik — Thu, 25 Jan 2018 22:39:04 +0000

last updated on 8/14/18 by John Zdechlik

The big news here is that LTO-8 drives can not read LTO-6 tapes. They can read and write LTO-7 tapes. In the past, LTO drives could always write one generation back and read 2 generations back. We believe this is because LTO-8 drives utilize tunnelling magnetoresistive (TMR) drive heads, instead of the giant magnetoresistive (GMR) drive heads used in previous LTO tape drive generations.

Here is a chart with some rough time and capacity estimates:

	LTO-1	LTO-2	LTO-3	LTO-4	LTO-5	LTO-6	LTO-7	LTO-8	LTO-9
Release date	2000^[5]	2003	2005	2007	2010^[6]	Dec. 2012^[7]	Dec. 2015^[8]^[9]^[10]	Dec. 2017		TBA	TBA	TBA	TBA
Native/raw data capacity	100 GB	200 GB	400 GB	800 GB	1.5 TB^[11]	2.5 TB^[12]	6.0 TB^[10]^[13]	12 TB ^[14]	9 TB	24 TB ^[11]^[15]	48 TB^[11]	96 TB ^[11]	192 TB ^[11]
Max uncompressed speed (MB/s)^[13]^{[Note 2]}	20	40	80	120	140	160	300^[16]	360	300	708	1,100	TBA	TBA
Max compressed speed (MB/s)	40	80	160	240	280	400	750	900	750	1,770	2,750	TBA	TBA
Time to write a full tape at max uncompressed speed(hh:mm)	1:25	1:25	1:25	1:50	3:10	5:30	5:55	9:15	8:20	TBA	TBA	TBA	TBA
Compression capable?	Yes, “2:1”					Yes, “2.5:1”				Planned, “2.5:1”^[15]^[17]
WORM capable?	No		Yes							Planned
Encryption capable?	No			Yes						Planned
Max. number of partitions	1 (no partitioning)				2	4				Planned
^ Previously unused LTO-7 tape, not an independent generation, part of LTO-8 generation. See: Compatibility ^ Maximum uncompressed speeds valid for full height drives. Half height drives may not attain the same speed. Check manufacturer’s specifications.

LTO – The Standard That Isn’t … Standard

What follows here is even more geekiness and dorkiness diving a little deeper into LTO.

Your Choice of Media Makes a HUGE Difference!

This is quite confusing and complicated. And there is information on multiple levels / dimensions.

Here’s the bottom line: Call us to purchase the correct, properly cleaned media for use in your system. It will save you tons of maintenance headaches down the road.

Special thanks to Dan at Midwest Technical Sales and Service for this information.

LTO-5 and Earlier Generations:

With HP tape drives use HP media.
With IBM drives use Fujifilm media

The HP media has a rougher surface than the Fujifilm media. We have observed significant debris build up when using HP media in IBM tape drives.

HP and IBM use different roller guides. HP used to rollers which are larger than the IBM rollers which there are 4 in number. HP rollers are smooth and only have 2 roller guides. IBM rollers have what could be called a surface with screw threads on 2 of the 4 rollers. The research on the screw threads is that IBM found that it reduced the tape flutter over the data read/write elements on the head assembly.

LTO-6 and LTO-7 – Metal Particle (MP) vs. Barium Ferrite (BaFe) Tapes:

The introduction of LTO-6 drives has bought with it a new tape media technology. Historically, all LTO media were based on Metal Particle (MP) technology, however, a new and additional technology has been introduced with LTO-6, namely Barium Ferrite (BaFe).

Why the 2 technologies, and where should they be used?

100% of LTO cartridges before LTO-6 were MP. That’s 200 million tapes! MP has offered robust and proven data protection. With LTO-6, however, it has reached its potential based on its areal density. In fact, the areal density requirement for LTO-6 is actually the same as LTO-5 … the number of tracks has however increased. MP technology will not cater for the capacity demands of forthcoming LTO-7 and LTO-8 technologies.

BaFe particles are smaller and have better magnetic potential. That becomes significant in the future as capacities increase but has no bearing for LTO-6. Both technologies perform equally from a performance and capacity standpoint, and there is no discernable difference in reliability.

HP, being the technology and market leader in LTO technology, has uniquely opted to introduce both technologies from the outset. The other 6 tape manufacturers have opted for one technology or the other, with some planning to possibly introduce the alternative sometime in the future.

HP recommends that customers continue to use the proven MP technology with LTO-6 drives. Note, however, that if for some reason an end-user has opted to standardize on BaFe tapes, these are also available with HP branding.

LTO-7 and LTO-8 -Barium Ferrite (BaFe) Tapes:

You only have one choice here and that is Barium Ferrite tapes.

What is TLR?

executive summary by John Z: TLR is a new, faster, fancier way of writing data to an LTO tape which will cause compatibility headaches for people using older drives and interface cards.

(note: this content is from yoyotta.com’s web site – thanks Martin!):

LTO drives and SAS interface TLR support

There is a SCSI protocol in the T10 SAS Protocol Layer (SPL-4) called TLR that is required for IBM tape drives.
Note that all LTO-7 and LTO-8 drives are manufactured by IBM.
With LTO-7 and LTO-8 the drive will use TLR because of the higher transfer speeds.
With LTO-6 the drive may use TLR for large file transfers.
If the SAS interface does not support TLR, then you will get read errors that are not signalled.
These errors would remain undetected unless the app used compares the data read back against a checksum of the written data.
HPE, IBM, Quantum, Tandberg and YoYotta only recommend SAS interfaces with TLR support.
mLogic mTape drives use a controller with TLR support, however some older units did not.
If you have verification issues you may be using the incorrect SAS host bus adapter (card).
If the interface does not support TLR then we recommend it’s replacement. Alternatively contact your dealer for assistance.

You can also check out lto.org and wikipedia for more information.

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