Removable Data StorageFuji
When used with Quantum's DLTIce™ functionality, any new, unused Super DLTtape II can be turned into a Write-Once-Read-Many (WORM) cartridge. As a result, the Fujifilm Super DLTtape II can meet today’s strict regulatory compliance requirements, including those mandated under SEC 17a-4. Fujifilm Super DLTtape II media has an archival life of 30 years, addressing the storage longevity concerns of IT managers and CTOs.
The Fujifilm Super DLTtape II cartridge is based on Fujifilm proprietary ATOMM (Advanced Super Thin-layer & High Output Metal Media) technology. The media incorporates a nonmagnetic lower layer with an ultra-thin upper layer of high-energy metal particles applied simultaneously to a base film. The result is extremely low self-demagnetization, increased high-frequency output and significantly higher recording density.
Super DLTtape II
Model #: Super DLTtape II
The new Fujifilm Super DLTtape II data cartridges provide the high capacity and performance capabilities essential to meet the needs of rapidly growing data centers, increasing storage requirements and regulatory compliance directives. Designed for use with the Quantum SDLT 600 tape drive, the Super DLTtape II format offers native capacity of 300 GB and transfer speeds of up to 36 MB a second.
When used with Quantum's DLTIce™ functionality, any new, unused Super DLTtape II can be turned into a Write-Once-Read-Many (WORM) cartridge. As a result, the Fujifilm Super DLTtape II can meet today’s strict regulatory compliance requirements, including those mandated under SEC 17a-4. Fujifilm Super DLTtape II media has an archival life of 30 years, addressing the storage longevity concerns of IT managers and CTOs.
The Fujifilm Super DLTtape II cartridge is based on Fujifilm proprietary ATOMM (Advanced Super Thin-layer & High Output Metal Media) technology. The media incorporates a nonmagnetic lower layer with an ultra-thin upper layer of high-energy metal particles applied simultaneously to a base film. The result is extremely low self-demagnetization, increased high-frequency output and significantly higher recording density.
