1. Guide to Operating Systems, 5th Edition
Chapter 7
Using and Configuring Storage Devices
Guide to Operating Systems, 5th Edition
Chapter 7
Using and Configuring Storage Devices

2. Objectives After completing this chapter, you will be able to:
Describe computer storage
Configure local disks
Work with different types of volumes and virtual disks
Describe cloud storage
Describe tape drive technologies
Work with storage management tools
Objectives
After completing this chapter, you will be able to:
Describe computer storage
Configure local disks
Work with different types of volumes and virtual disks
Describe cloud storage
Describe tape drive technologies
Work with storage management tools
Guide to Operating Systems, 5th Edition

3. An Overview of Computer Storage
Files and documents are stored on digital media
People want instant access to whatever they store
Cloud storage services are more popular than ever
An Overview of Computer Storage
Files and documents are stored on digital media
People want instant access to whatever they store
Cloud storage services are more popular than ever
Guide to Operating Systems, 5th Edition

4. What is Storage?
Storage – any digital medium that data can be written to and later retrieved
Long-term storage includes:
USB memory sticks (flash drives)
Secure Digital (SD) and Compact Flash (CF) cards
CDs and DVDs
Magnetic tape
Solid-state drives
Hard disk drives
What is Storage?
Storage – any digital medium that data can be written to and later retrieved
Long-term storage includes:
USB memory sticks (flash drives)
Secure Digital (SD) and Compact Flash (CF) cards
CDs and DVDs
Magnetic tape
Solid-state drives
Hard disk drives
Guide to Operating Systems, 5th Edition

5. What is Storage?
Solid-state drives (SSDs) are very popular for applications requiring greater speed, smaller size, and lower power requirements
Uses flash memory and high-speed interfaces
Has no moving parts and requires less power
Do not yet have the capacity of HDDs
Discussions of computer storage are mainly about traditional HDD storage
Most of the discussion of HDD storage applies to SSDs as well
What is Storage?
Solid-state drives (SSDs) are very popular for applications requiring greater speed, smaller size, and lower power requirements
Uses flash memory and high-speed interfaces
Has no moving parts and requires less power
Do not yet have the capacity of HDDs
Discussions of computer storage are mainly about traditional HDD storage
Most of the discussion of HDD storage applies to SSDs as well
Guide to Operating Systems, 5th Edition

6. Reasons for Storage Most uses of computer storage:
Operating system files
User applications
User documents
Virtual memory
Log files
Virtual machines
Database storage
Reasons for Storage
Most uses of computer storage:
Operating system files
User applications
User documents
Virtual memory
Log files
Virtual machines
Database storage
Guide to Operating Systems, 5th Edition

7. Storage Access Methods
Four categories of storage access methods:
Local storage
Direct-attached storage (DAS)
Network-attached storage (NAS)
Storage area network (SAN)
Storage Access Methods
Four categories of storage access methods:
Local storage
Direct-attached storage (DAS)
Network-attached storage (NAS)
Storage area network (SAN)
Guide to Operating Systems, 5th Edition

8. Storage Access Methods
Local storage - storage media with a direct, exclusive connection to the computer’s system board through a disk controller
Almost always inside the computer’s case
Usually refers to HDDs or SDDs instead of CD/DVDs
Provides rapid and exclusive access
Disadvantage: only the system where it’s installed has direct access to the storage medium
Storage Access Methods
Local storage - storage media with a direct, exclusive connection to the computer’s system board through a disk controller
Almost always inside the computer’s case
Usually refers to HDDs or SDDs instead of CD/DVDs
Provides rapid and exclusive access
Disadvantage: only the system where it’s installed has direct access to the storage medium
Guide to Operating Systems, 5th Edition

9. Storage Access Methods
Direct-attached storage (DAS) - similar to local storage but can also refer to one or more HDDs in an enclosure with its own power supply
A DAS device with its own enclosure and power supply can usually be configured as a disk array
Such as a RAID configuration
Some DAS have multiple interfaces so that more than one computer can access the storage medium simultaneously
Storage Access Methods
Direct-attached storage (DAS) - similar to local storage but can also refer to one or more HDDs in an enclosure with its own power supply
A DAS device with its own enclosure and power supply can usually be configured as a disk array
Such as a RAID configuration
Some DAS have multiple interfaces so that more than one computer can access the storage medium simultaneously
Guide to Operating Systems, 5th Edition

10. Storage Access Methods
Network-attached storage (NAS) - has an enclosure, power supply, slots for multiple HDDs, a network interface, and a built-in OS tailored for managing shared storage
Sometimes referred to as a storage appliance
NAS is typically dedicated to file sharing
NAS shares files through standard network protocols such as:
Server Message Block(SMB), Network File System (NFS), and File Transfer Protocol (FTP)
Storage Access Methods
Network-attached storage (NAS) - has an enclosure, power supply, slots for multiple HDDs, a network interface, and a built-in OS tailored for managing shared storage
Sometimes referred to as a storage appliance
NAS is typically dedicated to file sharing
NAS shares files through standard network protocols such as:
Server Message Block(SMB), Network File System (NFS), and File Transfer Protocol (FTP)
Guide to Operating Systems, 5th Edition

11. Storage Access Methods
Storage area network (SAN) - uses high-speed networking technologies to give servers fast access to large amounts of shared disk storage
Most common network technologies used in SANs are Fibre Channel and iSCSI
SANS use the concept of logical unit number (LUN) to identify a unit of storage
LUN is a logical reference point to a unit of storage that could refer to an entire array of disks, a single disk, or just part of a disk
Storage Access Methods
Storage area network (SAN) - uses high-speed networking technologies to give servers fast access to large amounts of shared disk storage
Most common network technologies used in SANs are Fibre Channel and iSCSI
SANS use the concept of logical unit number (LUN) to identify a unit of storage
LUN is a logical reference point to a unit of storage that could refer to an entire array of disks, a single disk, or just part of a disk
Guide to Operating Systems, 5th Edition

12. Storage Access Methods
Figure 7-1 A storage area network
Guide to Operating Systems, 5th Edition

13. Configuring Local Disks
Configuration of local disks can be divided into two categories:
Physical disk properties - involve disk capacity, physical speed, and the interface for attaching a disk to the system
Logical disk properties - include its format and the partitions or volumes created on it
Configuring Local Disks
Configuration of local disks can be divided into two categories:
Physical disk properties - involve disk capacity, physical speed, and the interface for attaching a disk to the system
Logical disk properties - include its format and the partitions or volumes created on it
Guide to Operating Systems, 5th Edition

14. Configuring Local Disks
Disk-storage terminology:
Disk drive - a physical component with a disk interface connector and a power connector
Volume - a logical unit of storage that can be formatted with a file system
A disk drive can contain one or more volumes
Partition - an older term that means the same thing as a “volume” but is used with basic disk
Formatting - prepares a disk with a file system used to organize and store files
Configuring Local Disks
Disk-storage terminology:
Disk drive - a physical component with a disk interface connector and a power connector
Volume - a logical unit of storage that can be formatted with a file system
A disk drive can contain one or more volumes
Partition - an older term that means the same thing as a “volume” but is used with basic disk
Formatting - prepares a disk with a file system used to organize and store files
Guide to Operating Systems, 5th Edition

15. Disk Capacity and Speed
The disk capacity you need depends on how the disk will be used
Distinct types of data should be kept on separate disks
Disk Capacity and Speed
The disk capacity you need depends on how the disk will be used
Distinct types of data should be kept on separate disks
Table 7-1 Storage unit equivalents
Guide to Operating Systems, 5th Edition

16. Disk Capacity and Speed
Disk capacity considerations:
On servers or high-performance workstations, the OS installation should be on a separate disk from data and applications
Virtual memory should be on its own disk, if possible
An SSD is also a good choice for the page file
Using RAID as a fault tolerance option, will combine multiple disks to make a single volume
Overall storage capacity is diminished
Disk Capacity and Speed
Disk capacity considerations:
On servers or high-performance workstations, the OS installation should be on a separate disk from data and applications
Virtual memory should be on its own disk, if possible
An SSD is also a good choice for the page file
Using RAID as a fault tolerance option, will combine multiple disks to make a single volume
Overall storage capacity is diminished
Guide to Operating Systems, 5th Edition

17. Disk Capacity and Speed
Factors that affect the speed of HDDs:
Disk interface technology
Rotation speed - servers should have an HDD with a minimum speed of 7200 rpm (10,000-15,000 preferred)
Amount of cache memory installed MB cache sizes are common for server-class drives
Disk Capacity and Speed
Factors that affect the speed of HDDs:
Disk interface technology
Rotation speed - servers should have an HDD with a minimum speed of 7200 rpm (10,000-15,000 preferred)
Amount of cache memory installed MB cache sizes are common for server-class drives
Guide to Operating Systems, 5th Edition

18. Disk Interface Technologies
Disk interface - connects a disk to a computer system
Usually with some type of cable
The faster the bus, the faster the system can read from and write to the disk
Most common types of disk interfaces:
SATA
SAS
SCSI
Disk Interface Technologies
Disk interface - connects a disk to a computer system
Usually with some type of cable
The faster the bus, the faster the system can read from and write to the disk
Most common types of disk interfaces:
SATA
SAS
SCSI
Guide to Operating Systems, 5th Edition

19. Disk Interface Technologies
Serial ATA Drives (SATA) - have mostly replaced parallel ATA (PATA) drives
Advantages: faster transfer times and small cable size
SATA drives are inexpensive, fast, and reliable
Current standard: 3.2
Supports speeds up to 16 Gb/s
Disk Interface Technologies
Serial ATA Drives (SATA) - have mostly replaced parallel ATA (PATA) drives
Advantages: faster transfer times and small cable size
SATA drives are inexpensive, fast, and reliable
Current standard: 3.2
Supports speeds up to 16 Gb/s
Guide to Operating Systems, 5th Edition

20. Disk Interface Technologies
Small computer system interface (SCSI) drives - a parallel bus technology still used on some servers but has reached its performance limits
Latest variation is Ultra-640 which supports up to 640 MB/s transfer rates
Serial attached SCSI (SAS) - a newer, serial form of SCSI with transfer rates up to 6 Gb/s and higher
SATA drives can be connected to SAS backplanes
Backplane - a connection system that uses a printed circuit board instead of traditional cables to carry signals
Disk Interface Technologies
Small computer system interface (SCSI) drives - a parallel bus technology still used on some servers but has reached its performance limits
Latest variation is Ultra-640 which supports up to 640 MB/s transfer rates
Serial attached SCSI (SAS) - a newer, serial form of SCSI with transfer rates up to 6 Gb/s and higher
SATA drives can be connected to SAS backplanes
Backplane - a connection system that uses a printed circuit board instead of traditional cables to carry signals
Guide to Operating Systems, 5th Edition

21. Disk Interface Technologies
Partitioning methods offered by most OSs:
Master Boot Record (MBR) - most common method that has been around since DOS
Supports volume sizes up to 2 TB
GUID Partitioning Table (GPT) - support volumes sizes up to 18 exabytes (EB, a million terabytes)
Offer improved reliability through partition table replication and Cyclic Redundancy Check (CRC) protection of the partition table
Disk Interface Technologies
Partitioning methods offered by most OSs:
Master Boot Record (MBR) - most common method that has been around since DOS
Supports volume sizes up to 2 TB
GUID Partitioning Table (GPT) - support volumes sizes up to 18 exabytes (EB, a million terabytes)
Offer improved reliability through partition table replication and Cyclic Redundancy Check (CRC) protection of the partition table
Guide to Operating Systems, 5th Edition

22. Types of Volumes
RAID Arrays – Redundant array of inexpensive (or independent) disks
A disk configuration that uses space on multiple disks to from a single logical volume
RAID is commonly configured in one of two ways:
By the storage controller in hardware
Via the OS storage system in software
Hardware RAID provides better performance by offloading the OS from having to perform the processes involved in RAID
Types of Volumes
RAID Arrays – Redundant array of inexpensive (or independent) disks
A disk configuration that uses space on multiple disks to from a single logical volume
RAID is commonly configured in one of two ways:
By the storage controller in hardware
Via the OS storage system in software
Hardware RAID provides better performance by offloading the OS from having to perform the processes involved in RAID
Guide to Operating Systems, 5th Edition

23. Types of Volumes Common volume types supported by most OSs:
Simple volume - resides on a single disk, basic or dynamic
Spanned volume - extends across two or more physical disks
RAID 0 volume - extends across two or more dynamic disks, but data is written to all disks in the volume equally
Types of Volumes
Common volume types supported by most OSs:
Simple volume - resides on a single disk, basic or dynamic
Spanned volume - extends across two or more physical disks
RAID 0 volume - extends across two or more dynamic disks, but data is written to all disks in the volume equally
Guide to Operating Systems, 5th Edition

24. Types of Volumes Common volume types supported by most OSs (cont’d):
RAID 1 volume (Mirrored volume ) - uses space from two dynamic disks and provides fault tolerance
Data written to one disk is duplicated, or mirrored, to the second disk
If one disk fails, the other has a copy of the data
RAID 5 volume - uses space from three or more dynamic disks and uses disk striping with parity
Parity information is used to re-create lost data after a disk failure
Types of Volumes
Common volume types supported by most OSs (cont’d):
RAID 1 volume (Mirrored volume ) - uses space from two dynamic disks and provides fault tolerance
Data written to one disk is duplicated, or mirrored, to the second disk
If one disk fails, the other has a copy of the data
RAID 5 volume - uses space from three or more dynamic disks and uses disk striping with parity
Parity information is used to re-create lost data after a disk failure
Guide to Operating Systems, 5th Edition

25. Types of Volumes Figure 7-2 A RAID 0 volume
Guide to Operating Systems, 5th Edition

26. Types of Volumes Figure 7-3 A RAID 1 volume
Guide to Operating Systems, 5th Edition

27. Types of Volumes Figure 7-4 A RAID 5 volume
Guide to Operating Systems, 5th Edition

28. Windows Volumes and Disk Types
Two Microsoft-specific volume definitions:
Boot volume - the volume where the \Windows folder is located (also called boot partition)
System volume - contains files the computer needs to find and load the Windows OS (also called system partition)
In Windows 2008 and later versions, it’s created automatically during installation if you’re installing an OS for the first time on a system
Not assigned a drive letter (can’t be viewed in File Explorer)
Windows Volumes and Disk Types
Two Microsoft-specific volume definitions:
Boot volume - the volume where the \Windows folder is located (also called boot partition)
System volume - contains files the computer needs to find and load the Windows OS (also called system partition)
In Windows 2008 and later versions, it’s created automatically during installation if you’re installing an OS for the first time on a system
Not assigned a drive letter (can’t be viewed in File Explorer)
Guide to Operating Systems, 5th Edition

29. Windows Volumes and Disk Types
Figure 7-5 Boot and system volumes in Disk Management
Guide to Operating Systems, 5th Edition

30. Windows Volumes and Disk Types
Basic Disks - accommodates only basic volumes
Can accommodate only simple volumes
Volumes on a basic disk are called “partitions”
Can support a maximum of four partitions
First three are primary partitions and the fourth is called an extended partition
Primary partition - can be assigned a drive letter, be marked active, and contain the Windows system volume
Extended partition - must be divided into logical drives
Windows Volumes and Disk Types
Basic Disks - accommodates only basic volumes
Can accommodate only simple volumes
Volumes on a basic disk are called “partitions”
Can support a maximum of four partitions
First three are primary partitions and the fourth is called an extended partition
Primary partition - can be assigned a drive letter, be marked active, and contain the Windows system volume
Extended partition - must be divided into logical drives
Guide to Operating Systems, 5th Edition

31. Windows Volumes and Disk Types
Dynamic Disks - a disk arrangement that can hold up to 128 volumes
Volumes can span multiple disks and be configured for RAID
Can hold the Windows boot or system partition, but only if converted to dynamic after Windows is already installed on the volume
To convert a basic disk to dynamic:
In Disk Management, right-click the disk and Convert to Dynamic Disk
Windows Volumes and Disk Types
Dynamic Disks - a disk arrangement that can hold up to 128 volumes
Volumes can span multiple disks and be configured for RAID
Can hold the Windows boot or system partition, but only if converted to dynamic after Windows is already installed on the volume
To convert a basic disk to dynamic:
In Disk Management, right-click the disk and Convert to Dynamic Disk
Guide to Operating Systems, 5th Edition

32. Windows Volumes and Disk Types
Virtual hard disk (VHD) file - the format virtual machines running in Hyper-V use for their virtual disks
VHD files can also be created and mounted with Disk Management and used like physical disks
A VHD can also be mounted by double-clicking it in File Explorer (or right-click it and click Mount)
Virtual disks are portable
VHD files can be copied to any location for the purposes of backing up data or allowing it to be used by another computer
Windows Volumes and Disk Types
Virtual hard disk (VHD) file - the format virtual machines running in Hyper-V use for their virtual disks
VHD files can also be created and mounted with Disk Management and used like physical disks
A VHD can also be mounted by double-clicking it in File Explorer (or right-click it and click Mount)
Virtual disks are portable
VHD files can be copied to any location for the purposes of backing up data or allowing it to be used by another computer
Guide to Operating Systems, 5th Edition

33. Windows Volumes and Disk Types
Storage Spaces - a new features in Windows Server 2012 that provides flexible provisioning of virtual storage
Creates volumes from storage pools
Storage pools - a collection of physical disks from which virtual disks and volumes are created and assigned dynamically
Storage Spaces can allocate storage by using thin provisioning
Which uses dynamically expanding disks so that you can provision a large volume
Windows Volumes and Disk Types
Storage Spaces - a new features in Windows Server 2012 that provides flexible provisioning of virtual storage
Creates volumes from storage pools
Storage pools - a collection of physical disks from which virtual disks and volumes are created and assigned dynamically
Storage Spaces can allocate storage by using thin provisioning
Which uses dynamically expanding disks so that you can provision a large volume
Guide to Operating Systems, 5th Edition

34. Windows Volumes and Disk Types
Storage Spaces uses the concept of just a bunch of disks (JBOD)
Two or more disks appear as a single disk to the OS
With JBOD, you can add a physical disk to a storage pool
Storage Spaces features:
Disk pooling
A collection of physical disks viewed as a single storage space from which volumes can be provisioned for the server’s use.
Windows Volumes and Disk Types
Storage Spaces uses the concept of just a bunch of disks (JBOD)
Two or more disks appear as a single disk to the OS
With JBOD, you can add a physical disk to a storage pool
Storage Spaces features:
Disk pooling
Data deduplication
Flexible storage layouts
Storage tiering
Guide to Operating Systems, 5th Edition

35. Windows Volumes and Disk Types
Storage Spaces features:
Data deduplication
Data duplicated on a volume multiple times can be reduced to a single instance, thereby reducing space used on the volume.
Flexible storage layouts
Storage Spaces has three storage options, called layouts:
simple space, which can be a simple volume or RAID 0 volume;
mirror space, which is the same as a RAID 1 volume;
parity space, which is the same as a RAID 5 volume.
Windows Volumes and Disk Types
Storage Spaces uses the concept of just a bunch of disks (JBOD)
Two or more disks appear as a single disk to the OS
With JBOD, you can add a physical disk to a storage pool
Storage Spaces features:
Disk pooling
Data deduplication
Flexible storage layouts
Storage tiering
Guide to Operating Systems, 5th Edition

36. Windows Volumes and Disk Types
Storage Spaces features:
Data deduplication
Data duplicated on a volume multiple times can be reduced to a single instance, thereby reducing space used on the volume.
Flexible storage layouts
Storage Spaces has three storage options, called layouts:
Storage tiering – combines the speed of SSDs with the low cost and high capacity of HDDs.
Windows Volumes and Disk Types
Storage Spaces uses the concept of just a bunch of disks (JBOD)
Two or more disks appear as a single disk to the OS
With JBOD, you can add a physical disk to a storage pool
Storage Spaces features:
Disk pooling
Data deduplication
Flexible storage layouts
Storage tiering
Guide to Operating Systems, 5th Edition

37. Windows Volumes and Disks Types
Windows Volumes and Disk Types
Figure 7-6 Storage Spaces in Windows 10
Guide to Operating Systems, 5th Edition

38. Volume Types in Linux/UNIX and Mac OS X
Linux/UNIX and Mac OS X share most terminology for managing storage
Linux volumes can be created using two methods:
Basic partitions – offers same restrictions as basic disks in Windows
Logical volume manager (LVM) – can create as many partitions as you have space and use RAID
LVM uses physical disk partitions called volume groups
From volume groups, logical volumes are created and assigned space
Volume Types in Linux/UNIX and Mac OS X
Linux/UNIX and Mac OS X share most terminology for managing storage
Linux volumes can be created using two methods:
Basic partitions – offers same restrictions as basic disks in Windows
Logical volume manager (LVM) – can create as many partitions as you have space and use RAID
LVM uses physical disk partitions called volume groups
From volume groups, logical volumes are created and assigned space
Guide to Operating Systems, 5th Edition

39. Volume Types in Linux/UNIX and Mac OS X
Virtual Disks in Linux – You can work with virtual disks in Linux by:
Creating an image file
Installing a file system on it
Mounting it into the file system
You can also use the Disks utility in GNOME to create a disk image from a hard disk or CD/DVD and attach a disk image
In Mac OS X, use the Disk Utility to create an image from an existing device or folder
Volume Types in Linux/UNIX and Mac OS X
Virtual Disks in Linux – You can work with virtual disks in Linux by:
Creating an image file
Installing a file system on it
Mounting it into the file system
You can also use the Disks utility in GNOME to create a disk image from a hard disk or CD/DVD and attach a disk image
In Mac OS X, use the Disk Utility to create an image from an existing device or folder
Guide to Operating Systems, 5th Edition

40. Volume Types in Linux/UNIX and Mac OS X
Figure 7-7 Creating a new disk in Mac OS X
Guide to Operating Systems, 5th Edition

41. Cloud Storage Cloud storage Advantage of cloud storage
Some or all of an organization’s data is stored on servers located offsite and maintained by a storage hosting company
Customers can manage storage by assigning permissions for user access
Advantage of cloud storage
Details of managing and backing up storage on local servers are offloaded to a third party
Examples: Dropbox, Microsoft OneDrive and Google Drive
Cloud Storage
Cloud storage
Some or all of an organization’s data is stored on servers located offsite and maintained by a storage hosting company
Customers can manage storage by assigning permissions for user access
Advantage of cloud storage
Details of managing and backing up storage on local servers are offloaded to a third party
Examples: Dropbox, Microsoft OneDrive and Google Drive
Guide to Operating Systems, 5th Edition

42. Tapes and Tape Drives
Tape backup systems are a traditional choice for backing up large amounts of data
Use magnetic storage and record data in sequential order
Disadvantage – to find a file near the end of the tape, the drive must first go through all of the data recorded prior to that file
Most popular for long-term storage
With disk drives growing into terabytes, tape drive technology is continuing to evolve in order to keep up
Tapes and Tape Drives
Tape backup systems are a traditional choice for backing up large amounts of data
Use magnetic storage and record data in sequential order
Disadvantage – to find a file near the end of the tape, drive must first go through all of the data recorded prior to that file
Most popular for long-term storage
With disk drives growing into terabytes, tape drive technology is continuing to evolve in order to keep up
Guide to Operating Systems, 5th Edition

43. Tapes and Tape Drives Table 7-2 Tape media capacities
Guide to Operating Systems, 5th Edition

44. DAT Drives DAT Drives - Digital audio tape
Use a 4-mm tape and the digital data storage (DDS) format
DDS-1 has a capacity of 2 GB (4 GB compressed)
Current standard is DDS-5 – storage capacity of 36 GB (72 GB compressed)
Backward compatible – can upgrade to a DDS-5 drive and still read DDS-4 tapes
Rated at an archival life of 10 years
Still used for audio recordings, but use for data storage is mostly replaced by other technologies
DAT Drives
DAT Drives - Digital audio tape
Use a 4-mm tape and the digital data storage (DDS) format
DDS-1 has a capacity of 2 GB (4 GB compressed)
Current standard is DDS-5 – storage capacity of 36 GB (72 GB compressed)
Backward compatible – can upgrade to a DDS-5 drive and still read DDS-4 tapes
Rated at an archival life of 10 years
Still used for audio recordings, but use for data storage is mostly replaced by other technologies
Guide to Operating Systems, 5th Edition

45. DLT and SDLT Drives DLT Drives – Digital linear tape
Use half-inch wide magnetic tapes
Record data in tracks
Offers a high-speed search capability
Used in many automated tape backup systems
SDLT Drives – Super digital linear tape
Use both magnetic and optical recording methods
Laser technology can more accurately write data to the tape and allows for greater density of information
DLT/SDLT have an archival life of up to 30 years
DLT and SDLT Drives
DLT Drives – Digital linear tape
Use half-inch wide magnetic tapes
Record data in tracks
Offers a high-speed search capability
Used in many automated tape backup systems
SDLT Drives – Super digital linear tape
Use both magnetic and optical recording methods
Laser technology can more accurately write data to the tape and allows for greater density of information
DLT/SDLT have an archival life of up to 30 years
Guide to Operating Systems, 5th Edition

46. AIT and S-AIT Drives AIT Drives – Advanced intelligent tape (AIT)
Used mainly in midrange servers
Tapes have an erasable memory chip inside the cartridge that stores information normally written at the beginning of the tape
Can fast forward and pinpoint information faster
S-AIT Drives – Super advanced intelligent tape
Has a capacity of 500 GB/1.3 TB (native/compressed)
Both of these drives can sustain up to 30,000 tape passes and have an archival life of 30 years
AIT and S-AIT Drives
AIT Drives – Advanced intelligent tape (AIT)
Used mainly in midrange servers
Tapes have an erasable memory chip inside the cartridge that stores information normally written at the beginning of the tape
Can fast forward and pinpoint information faster
S-AIT Drives – Super advanced intelligent tape
Has a capacity of 500 GB/1.3 TB (native/compressed)
Both of these drives can sustain up to 30,000 tape passes and have an archival life of 30 years
Guide to Operating Systems, 5th Edition

47. LTO Drives LTO Drives – Linear tape open
Most widely accepted in high-end servers (because of high-speed performance)
Standards are open to the public and are nonproprietary
LTO Ultrium format was developed so that LTO tapes can be used in existing DLT tape drives
Fast data transfer speed up to 240 MBps (noncompressed data) and 120 MBps (compressed data)
Can sustain up to 260 tape passes and have an archival life of years
LTO Drives
LTO Drives – Linear tape open
Most widely accepted in high-end servers (because of high-speed performance)
Standards are open to the public and are nonproprietary
LTO Ultrium format was developed so that LTO tapes can be used in existing DLT tape drives
Fast data transfer speed up to 240 MBps (noncompressed data) and 120 MBps (compressed data)
Can sustain up to 260 tape passes and have an archival life of years
Guide to Operating Systems, 5th Edition

48. Storage Management Tools
This section covers:
Windows Storage Management Tools
Disk Management Tools in UNIX/Linux
Mac OS X Disk Utility
Storage Management Tools
This section covers:
Windows Storage Management Tools
Disk Management Tools in UNIX/Linux
Mac OS X Disk Utility
Guide to Operating Systems, 5th Edition

49. Windows Storage Management Tools
Windows Disk Management tool for hard drive and removable enables you to:
Create, format, and delete partitions
Manage partitions
Manage removable storage such as hard drives, DVD/CD-ROM drives, and flash drives
Convert a basic disk to a dynamic disk
Can access this tool from Computer Management console
And by right-clicking Start
Windows Storage Management Tools
Windows Disk Management tool for hard drive and removable enables you to:
Create, format, and delete partitions
Manage partitions
Manage removable storage such as hard drives, DVD/CD-ROM drives, and flash drives
Convert a basic disk to a dynamic disk
Can access this tool from Computer Management console
And by right-clicking Start
Guide to Operating Systems, 5th Edition

50. Windows Storage Management Tools
On Windows 2012/R2 and newer versions
You can use the File and Storage Services tool from Server Manager to manage volumes and Storage Spaces
Windows Storage Management Tools
On Windows 2012/R2 and newer versions
You can use the File and Storage Services tool from Server Manager to manage volumes and Storage Spaces
Guide to Operating Systems, 5th Edition

51. Windows Storage Management Tools
Figure 7-8 File and Storage Services on Windows Server 2012 R2
Guide to Operating Systems, 5th Edition

52. Disk Management Tools in UNIX/Linux
Common command-line utilities: fdisk, format, sfdisk, and cfdisk
sfdisk and cfdisk enable you to verify partitions, list information about partitions, and repartition a disk
Command-line utility mount – mounts a file system so that you can use a disk partition
Many need to manually mount file systems for DVD/CD-ROM or flash drives
In Linux with the GNOME desktop, there are GUI tools to manage disk storage
Disk Management Tools in UNIX/Linux
Common command-line utilities: fdisk, format, sfdisk, and cfdisk
sfdisk and cfdisk enable you to verify partitions, list information about partitions, and repartition a disk
Command-line utility mount – mounts a file system so that you can use a disk partition
Many need to manually mount file systems for DVD/CD-ROM or flash drives
In Linux with the GNOME desktop, there are GUI tools to manage disk storage
Guide to Operating Systems, 5th Edition

53. Disk Management Tools in UNIX/Linux
Table 7-3 Summary of UNIX/Linux disk management commands
Guide to Operating Systems, 5th Edition

54. Disk Management Tools in UNIX/Linux
Figure 7-10 The Disks utility in Linux
Guide to Operating Systems, 5th Edition

55. Mac OS X Disk Utility Can partition, format, and manage hard drives
Can also manage DVD/CD-ROM drives, removable hard drives, flash drives, and other storage
For removable media
You can use the Disk Utility to mount, eject media, burn a CD or DVD, and perform other actions
Because Mac OS X is UNIX-based, you can also open a terminal window and use the mount command to manage storage media
Mac OS X Disk Utility
Can partition, format, and manage hard drives
Can also manage DVD/CD-ROM drives, removable hard drives, flash drives, and other storage
For removable media
You can use the Disk Utility to mount, eject media, burn a CD or DVD, and perform other actions
Because Mac OS X is UNIX-based, you can also open a terminal window and use the mount command to manage storage media
Guide to Operating Systems, 5th Edition

56. Summary
Storage is any digital media that data can be written to and later retrieved from
All computers require at least some storage but servers usually require more than client computers
The main methods of storage access are local, DAS, NAS, and SAN
Configuration of local disks can be divided into two broad categories: physical disk properties and logical properties
Disk types include basic disks and dynamic disks
Summary
Storage is any digital media that data can be written to and later retrieved from
All computers require at least some storage but servers usually require more than client computers
The main methods of storage access are local, DAS, NAS, and SAN
Configuration of local disks can be divided into two broad categories: physical disk properties and logical properties
Disk types include basic disks and dynamic disks
Guide to Operating Systems, 5th Edition

57. Summary
Storage Spaces provides flexible provisioning of virtualized storage by using storage pools
Storage Spaces uses the concept of just a bunch of disks (JBOD)
Two or more disks are abstracted to appear as a single disk to the OS
With cloud storage, some or all of an organization’s data is stored on servers located offsite and managed by a storage hosting company
Summary
Storage Spaces provides flexible provisioning of virtualized storage by using storage pools
Storage Spaces uses the concept of just a bunch of disks (JBOD)
Two or more disks are abstracted to appear as a single disk to the OS
With cloud storage, some or all of an organization’s data is stored on servers located offsite and managed by a storage hosting company
Guide to Operating Systems, 5th Edition

58. Summary
Tape backup systems are a relatively inexpensive and traditional choice for backing up large amounts of data
Storage management tools in Windows include Disk Management and File and Storage Services
Linux has a number of command-line tools plus the Disks GUI tool
Mac OS X includes many of the same Linux command-line tools, plus the Disk Utility tool
Summary
Tape backup systems are a relatively inexpensive and traditional choice for backing up large amounts of data
Storage management tools in Windows include Disk Management and File and Storage Services
Linux has a number of command-line tools plus the Disks GUI tool
Mac OS X includes many of the same Linux command-line tools, plus the Disk Utility tool
Guide to Operating Systems, 5th Edition