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SGDISK(8)                      GPT fdisk Manual                      SGDISK(8)
NAME
       sgdisk  - Command-line GUID partition table (GPT) manipulator for Linux
       and Unix
SYNOPSIS
       sgdisk [ options ] device
DESCRIPTION
       GPT  fdisk  is  a  text-mode  menu-driven  package  for  creation   and
       manipulation  of  partition  tables.  It  consists of two programs: the
       text-mode interactive gdisk and the command-line sgdisk. Either program
       will  automatically  convert  an  old-style  Master  Boot  Record (MBR)
       partition  table  or  BSD  disklabel  stored  without  an  MBR  carrier
       partition  to  the  newer  Globally  Unique Identifier (GUID) Partition
       Table (GPT) format, or will load a GUID partition table. This man  page
       documents the command-line sgdisk program.
       Some  advanced  data  manipulation  and recovery options require you to
       understand the distinctions between the main and backup data,  as  well
       as between the GPT headers and the partition tables. For information on
       MBR vs. GPT, as well as GPT terminology and structure, see the extended
       gdisk   documentation  at  http://www.rodsbooks.com/gdisk/  or  consult
       Wikipedia.
       The sgdisk program employs a user interface that's  based  entirely  on
       the  command  line, making it suitable for use in scripts or by experts
       who want to make one or two quick changes to a disk. (The  program  may
       query  the  user  when  certain  errors  are  encountered, though.) The
       program's name is based on sfdisk, but the  user  options  of  the  two
       programs are entirely different from one another.
       Ordinarily,  sgdisk  operates on disk device files, such as /dev/sda or
       /dev/hda under Linux,  /dev/disk0  under  Mac  OS  X,  or  /dev/ad0  or
       /dev/da0  under  FreeBSD.  The  program  can also operate on disk image
       files, which can be either copies of whole disks  (made  with  dd,  for
       instance)  or raw disk images used by emulators such as QEMU or VMWare.
       Note that only raw disk images are supported;  sgdisk  cannot  work  on
       compressed or other advanced disk image formats.
       The  MBR partitioning system uses a combination of cylinder/head/sector
       (CHS) addressing and logical block  addressing  (LBA).  The  former  is
       klunky  and limiting. GPT drops CHS addressing and uses 64-bit LBA mode
       exclusively. Thus, GPT data structures, and therefore  sgdisk,  do  not
       need to deal with CHS geometries and all the problems they create.
       For best results, you should use an OS-specific partition table program
       whenever possible. For example, you should make  Mac  OS  X  partitions
       with  the  Mac  OS X Disk Utility program and Linux partitions with the
       Linux gdisk, sgdisk, or GNU Parted programs.
       Upon start, sgdisk attempts to identify the partition type  in  use  on
       the  disk.  If  it  finds valid GPT data, sgdisk will use it. If sgdisk
       finds a valid MBR or BSD disklabel but no GPT data, it will attempt  to
       convert  the MBR or disklabel into GPT form. (BSD disklabels are likely
       to have unusable first and/or final  partitions  because  they  overlap
       with  the GPT data structures, though.) GPT fdisk can identify, but not
       use data in, Apple Partition Map (APM) disks, which are used on  680x0-
       and  PowerPC-based  Macintoshes. If you specify any option that results
       in changes to an MBR or BSD disklabel,  sgdisk  ignores  those  changes
       unless  the  -g  (--mbrtogpt),  -z (--zap), or -Z (--zap-all) option is
       used. If you use the -g option, sgdisk replaces the  MBR  or  disklabel
       with  a  GPT.  This  action  is  potentially dangerous! Your system may
       become unbootable, and partition type codes may become corrupted if the
       disk  uses  unrecognized  type  codes.  Boot  problems are particularly
       likely if you're multi-booting with any GPT-unaware OS.
       The MBR-to-GPT conversion will leave at least one gap in the  partition
       numbering  if  the original MBR used logical partitions. These gaps are
       harmless, but you can eliminate them by using the -s  (--sort)  option,
       if  you  like.  (Doing  this  may require you to update your /etc/fstab
       file.)
       When creating a fresh partition table, certain considerations may be in
       order:
       *      For data (non-boot) disks, and for boot disks used on BIOS-based
              computers with GRUB  as  the  boot  loader,  partitions  may  be
              created in whatever order and in whatever sizes are desired.
       *      Boot disks for EFI-based systems require an EFI System Partition
              (gdisk internal code 0xEF00) formatted as FAT-32. I  recommended
              making  this  partition  550  MiB. (Smaller ESPs are common, but
              some EFIs have flaky  FAT  drivers  that  necessitate  a  larger
              partition for reliable operation.) Boot-related files are stored
              here. (Note that GNU Parted identifies such partitions as having
              the "boot flag" set.)
       *      Some boot loaders for BIOS-based systems make use of a BIOS Boot
              Partition (gdisk internal code 0xEF02), in which  the  secondary
              boot  loader  is  stored,  possibly  without  the  benefit  of a
              filesystem. (GRUB2 may optionally use such  a  partition.)  This
              partition  can  typically be quite small (roughly 32 to 200 KiB,
              although 1 MiB is more  common  in  practice),  but  you  should
              consult your boot loader documentation for details.
       *      If  Windows  is  to  boot  from  a GPT disk, a partition of type
              Microsoft Reserved (sgdisk internal code 0x0C01) is recommended.
              This  partition  should  be about 128 MiB in size. It ordinarily
              follows the EFI System Partition and  immediately  precedes  the
              Windows  data  partitions. (Note that GNU Parted creates all FAT
              partitions as this type,  which  actually  makes  the  partition
              unusable for normal file storage in both Windows and Mac OS X.)
       *      Some  OSes' GPT utilities create some blank space (typically 128
              MiB) after each partition. The intent is to enable  future  disk
              utilities  to use this space. Such free space is not required of
              GPT disks, but creating it may help in future disk maintenance.
OPTIONS
       Some options take no arguments, others take one argument  (typically  a
       partition  number),  and  others  take  compound  arguments  with colon
       delimitation. For instance, -n (--new)  takes  a  partition  number,  a
       starting  sector  number,  and an ending sector number, as in sgdisk -n
       2:2000:50000 /dev/sdc, which  creates  a  new  partition,  numbered  2,
       starting at sector 2000 an ending at sector 50,000, on /dev/sdc.
       Unrelated options may be combined; however, some such combinations will
       be nonsense (such as deleting a partition and then  changing  its  GUID
       type  code).   sgdisk  interprets options in the order in which they're
       entered, so effects can vary depending on order. For  instance,  sgdisk
       -s  -d 2 sorts the partition table entries and then deletes partition 2
       from the newly-sorted list; but sgdisk -d 2  -s  deletes  the  original
       partition 2 and then sorts the modified partition table.
       Error  checking  and  opportunities  to  correct mistakes in sgdisk are
       minimal. Although the program endeavors to keep the GPT data structures
       legal,  it  does  not  prompt  for  verification  before performing its
       actions. Unless you require a command-line-driven program,  you  should
       use  the interactive gdisk instead of sgdisk, since gdisk allows you to
       quit without saving your changes, should you make a mistake.
       Although sgdisk is based on the  same  partition-manipulation  code  as
       gdisk,  sgdisk  implements fewer features than its interactive sibling.
       Options available in sgdisk are:
       -a, --set-alignment=value
              Set the sector alignment multiple. GPT fdisk aligns the start of
              partitions  to  sectors  that are multiples of this value, which
              defaults to 1MiB  (2048  on  disks  with  512-byte  sectors)  on
              freshly  formatted  disks.  This alignment value is necessary to
              obtain optimum performance with Western Digital Advanced  Format
              and  similar  drives  with  larger  physical than logical sector
              sizes, with some types of RAID arrays, and with SSD devices.
       -A,
       --attributes=list|[partnum:show|or|nand|xor|=|set|clear|toggle|get[:bitnum|hexbitmask]]
              View or set  partition  attributes.  Use  list  to  see  defined
              (known)  attribute  values.  Omit the partition number (and even
              the device filename) when using this option. The others  require
              a  partition  number.  The show and get options show the current
              attribute settings (all attributes  or  for  a  particular  bit,
              respectively).  The  or,  nand,  xor,  =, set, clear, and toggle
              options enable you to change the attribute bit value.  The  set,
              clear,  toggle, and get options work on a bit number; the others
              work on a hexadecimal bit mask.  For  example,  type  sgdisk  -A
              4:set:2  /dev/sdc  to  set  the  bit  2  attribute  (legacy BIOS
              bootable) on partition 4 on /dev/sdc.
       -b, --backup=file
              Save partition data to a backup  file.  You  can  back  up  your
              current  in-memory  partition  table  to  a disk file using this
              option. The resulting file is a binary file  consisting  of  the
              protective  MBR, the main GPT header, the backup GPT header, and
              one copy of the partition table, in that order.  Note  that  the
              backup  is  of  the current in-memory data structures, so if you
              launch the program, make changes, and then use this option,  the
              backup will reflect your changes. If the GPT data structures are
              damaged, the backup  may  not  accurately  reflect  the  damaged
              state;   instead,  they  will  reflect  GPT  fdisk's  first-pass
              interpretation of the GPT.
       -c, --change-name=partnum:name
              Change the GPT name of a partition. This name is  encoded  as  a
              UTF-16  string,  but proper entry and display of anything beyond
              basic ASCII values requires suitable locale  and  font  support.
              For  the most part, Linux ignores the partition name, but it may
              be important in some OSes. If  you  want  to  set  a  name  that
              includes a space, enclose it in quotation marks, as in sgdisk -c
              1:"Sample Name" /dev/sdb. Note that the GPT name of a  partition
              is  distinct  from  the filesystem name, which is encoded in the
              filesystem's data structures.
       -C, --recompute-chs
              Recompute CHS values in protective or hybrid  MBR.  This  option
              can  sometimes  help if a disk utility, OS, or BIOS doesn't like
              the CHS values used by  the  partitions  in  the  protective  or
              hybrid  MBR. In particular, the GPT specification requires a CHS
              value of 0xFFFFFF for over-8GiB partitions, but  this  value  is
              technically  illegal by the usual standards. Some BIOSes hang if
              they encounter this value. This option  will  recompute  a  more
              normal  CHS value -- 0xFEFFFF for over-8GiB partitions, enabling
              these BIOSes to boot.
       -d, --delete=partnum
              Delete a partition. This  action  deletes  the  entry  from  the
              partition table but does not disturb the data within the sectors
              originally  allocated  to  the  partition  on  the  disk.  If  a
              corresponding  hybrid MBR partition exists, gdisk deletes it, as
              well, and expands any adjacent 0xEE  (EFI  GPT)  MBR  protective
              partition to fill the new free space.
       -D, --display-alignment
              Display  current  sector  alignment  value.  Partitions  will be
              created on multiples  of  the  sector  value  reported  by  this
              option. You can change the alignment value with the -a option.
       -e, --move-second-header
              Move backup GPT data structures to the end of the disk. Use this
              option if you've added disks to a RAID array,  thus  creating  a
              virtual  disk  with  space  that  follows  the  backup  GPT data
              structures. This command moves the backup GPT data structures to
              the end of the disk, where they belong.
       -E, --end-of-largest
              Displays  the  sector number of the end of the largest available
              block of sectors on the disk. A script may store this value  and
              pass it back as part of -n's option to create a partition. If no
              unallocated sectors are available,  this  function  returns  the
              value 0.
       -f, --first-in-largest
              Displays the sector number of the start of the largest available
              block of sectors on the disk. A script may store this value  and
              pass it back as part of -n's option to create a partition. If no
              unallocated sectors are available,  this  function  returns  the
              value  0.  Note  that  this  parameter  is  blind  to  partition
              alignment; when you actually create a partition, its start point
              might be changed from this value.
       -F, --first-aligned-in-largest
              Similar  to  -f  (--first-in-largest), except returns the sector
              number with the current alignment correction applied.  Use  this
              function if you need to compute the actual partition start point
              rather than a theoretical start point or the actual start  point
              if you set the alignment value to 1.
       -g, --mbrtogpt
              Convert  an MBR or BSD disklabel disk to a GPT disk. As a safety
              measure, use of this option is required on MBR or BSD  disklabel
              disks  if  you  intend to save your changes, in order to prevent
              accidentally damaging such disks.
       -G, --randomize-guids
              Randomize the disk's GUID and all partitions' unique GUIDs  (but
              not  their partition type code GUIDs). This function may be used
              after cloning a disk in order to render  all  GUIDs  once  again
              unique.
       -h, --hybrid
              Create  a  hybrid  MBR.  This  option  takes  from  one to three
              partition  numbers,  separated  by  colons,  as  arguments.  The
              created hybrid MBR places an EFI GPT (type 0xEE) partition first
              in the table, followed by the partition(s)  you  specify.  Their
              type  codes  are  based  on  the GPT fdisk type codes divided by
              0x0100, which is usually correct for Windows partitions. If  the
              active/bootable  flag  should  be set, you must do so in another
              program, such as fdisk.  The  gdisk  program  offers  additional
              hybrid MBR creation options.
       -i, --info=partnum
              Show  detailed  partition  information.  The summary information
              produced by the -p command necessarily omits many details,  such
              as  the  partition's unique GUID and the translation of sgdisk's
              internal partition type code to a plain type name. The -i option
              displays this information for a single partition.
       -j, --adjust-main-table=sector
              Adjust  the  location of the main partition table. This value is
              normally 2, but it may need to be increased in some cases,  such
              as  when  a system-on-chip (SoC) is hard-coded to read boot code
              from sector 2. I recommend against adjusting this  value  unless
              doing so is absolutely necessary.
       -l, --load-backup=file
              Load  partition  data  from  a  backup  file. This option is the
              reverse of the -b option. Note  that  restoring  partition  data
              from  anything  but  the  original disk is not recommended. This
              option will work even if the disk's original partition table  is
              bad;  however,  most other options on the same command line will
              be ignored.
       -L, --list-types
              Display a summary  of  partition  types.  GPT  uses  a  GUID  to
              identify  partition  types for particular OSes and purposes. For
              ease of  data  entry,  sgdisk  compresses  these  into  two-byte
              (four-digit  hexadecimal)  values  that  are  related  to  their
              equivalent MBR codes. Specifically, the MBR code  is  multiplied
              by  hexadecimal  0x0100.  For  instance, the code for Linux swap
              space in MBR is 0x82, and it's 0x8200  in  gdisk.  A  one-to-one
              correspondence  is  impossible,  though. Most notably, the codes
              for all varieties of FAT and  NTFS  partition  correspond  to  a
              single  GPT  code (entered as 0x0700 in sgdisk). Some OSes use a
              single MBR code but employ many more codes in  GPT.  For  these,
              sgdisk  adds  code  numbers  sequentially,  such as 0xa500 for a
              FreeBSD disklabel, 0xa501 for FreeBSD boot, 0xa502  for  FreeBSD
              swap,  and  so  on. Note that these two-byte codes are unique to
              gdisk and sgdisk. This option does not require you to specify  a
              valid disk device filename.
       -m, --gpttombr
              Convert disk from GPT to MBR form. This option takes from one to
              four partition numbers, separated by colons, as arguments. Their
              type  codes  are  based  on  the GPT fdisk type codes divided by
              0x0100. If the active/bootable flag should be set, you  must  do
              so  in another program, such as fdisk.  The gdisk program offers
              additional MBR conversion options. It is not possible to convert
              more  than  four  partitions  from GPT to MBR form or to convert
              partitions that start above the 2TiB mark  or  that  are  larger
              than 2TiB.
       -n, --new=partnum:start:end
              Create  a  new partition. You enter a partition number, starting
              sector, and an ending sector. Both start and end sectors can  be
              specified  in  absolute  terms as sector numbers or as positions
              measured  in  kibibytes  (K),  mebibytes  (M),  gibibytes   (G),
              tebibytes  (T),  or pebibytes (P); for instance, 40M specifies a
              position 40MiB from the start  of  the  disk.  You  can  specify
              locations  relative to the start or end of the specified default
              range by preceding the number by a '+' or '-' symbol, as in  +2G
              to specify a point 2GiB after the default start sector, or -200M
              to specify a point 200MiB before the last  available  sector.  A
              start  or  end  value of 0 specifies the default value, which is
              the start of the largest available block for  the  start  sector
              and  the  end  of  the  same block for the end sector. A partnum
              value of 0  causes  the  program  to  use  the  first  available
              partition  number.  Subsequent  uses  of  the -A, -c, -t, and -u
              options may also use 0 to refer to the same partition.
       -N, --largest-new=num
              Create a new partition that fills the largest available block of
              space  on  the disk. You can use the -a (--set-alignment) option
              to adjust the alignment, if desired. A num value of 0 causes the
              program to use the first available partition number.
       -o, --clear
              Clear out all partition data. This includes GPT header data, all
              partition definitions, and the protective MBR.  Note  that  this
              operation  will,  like  most other operations, fail on a damaged
              disk. If you want to prepare a disk you know to be  damaged  for
              GPT  use, you should first wipe it with -Z and then partition it
              normally. This option will work  even  if  the  disk's  original
              partition  table is bad; however, most other options on the same
              command line will be ignored.
       -O, --print-mbr
              Display  basic  MBR  partition  summary  data.   This   includes
              partition numbers, starting and ending sector numbers, partition
              sizes, MBR partition types  codes,  and  partition  names.  This
              option is useful mainly for diagnosing partition table problems,
              particularly on disks with hybrid MBRs.
       -p, --print
              Display  basic  GPT  partition  summary  data.   This   includes
              partition numbers, starting and ending sector numbers, partition
              sizes, sgdisk's partition types codes, and partition names.  For
              additional information, use the -i (--info) option.
       -P, --pretend
              Pretend to make specified changes. In-memory GPT data structures
              are altered according to other parameters, but changes  are  not
              written to disk.
       -r, --transpose
              Swap two partitions' entries in the partition table. One or both
              partitions may be empty, although swapping two empty  partitions
              is  pointless.  For  instance,  if  partitions  1-4 are defined,
              transposing 1 and 5 results in a table with partitions  numbered
              from  2-5.  Transposing  partitions in this way has no effect on
              their disk space allocation; it only alters their order  in  the
              partition table.
       -R, --replicate=second_device_filename
              Replicate  the  main  device's  partition table on the specified
              second device.  Note that the replicated partition table  is  an
              exact  copy,  including all GUIDs; if the device should have its
              own unique GUIDs, you should use the -G option on the new disk.
       -s, --sort
              Sort partition entries. GPT partition numbers need not match the
              order  of partitions on the disk. If you want them to match, you
              can use this option.  Note that some partitioning utilities sort
              partitions  whenever  they  make  changes.  Such changes will be
              reflected in your device filenames, so  you  may  need  to  edit
              /etc/fstab if you use this option.
       -t, --typecode=partnum:{hexcode|GUID}
              Change  a  single partition's type code. You enter the type code
              using  either  a  two-byte  hexadecimal  number,  as   described
              earlier,    or   a   fully-specified   GUID   value,   such   as
              EBD0A0A2-B9E5-4433-87C0-68B6B72699C7.
       -T, --transform-bsd=partnum
              Transform BSD partitions into GPT partitions. This option  works
              on BSD disklabels held within GPT (or converted MBR) partitions.
              Converted partitions' type  codes  are  likely  to  need  manual
              adjustment. sgdisk will attempt to convert BSD disklabels stored
              on the main disk when launched, but this conversion is likely to
              produce first and/or last partitions that are unusable. The many
              BSD variants means that the probability of sgdisk  being  unable
              to convert a BSD disklabel is high compared to the likelihood of
              problems with an MBR conversion.
       -u, --partition-guid=partnum:guid
              Set the partition unique GUID for an individual  partition.  The
              GUID may be a complete GUID or 'R' to set a random GUID.
       -U, --disk-guid=guid
              Set  the  GUID  for the disk. The GUID may be a complete GUID or
              'R' to set a random GUID.
       --usage
              Print a brief summary of available options.
       -v, --verify
              Verify disk. This option checks for a variety of problems,  such
              as  incorrect  CRCs  and  mismatched  main and backup data. This
              option does not automatically correct most problems, though; for
              that,  you  must  use  options  on the recovery & transformation
              menu. If no problems are found, this command displays a  summary
              of  unallocated  disk  space.  This option will work even if the
              disk's original partition table  is  bad;  however,  most  other
              options on the same command line will be ignored.
       -V, --version
              Display  program  version  information.  This option may be used
              without specifying a device filename.
       -z, --zap
              Zap (destroy) the GPT data structures and then  exit.  Use  this
              option if you want to repartition a GPT disk using fdisk or some
              other GPT-unaware program. This option  destroys  only  the  GPT
              data  structures; it leaves the MBR intact. This makes it useful
              for wiping out  GPT  data  structures  after  a  disk  has  been
              repartitioned  for  MBR  using  a  GPT-unaware utility; however,
              there's a risk that it will damage  boot  loaders  or  even  the
              start  of the first or end of the last MBR partition. If you use
              it  on  a  valid  GPT  disk,  the  MBR  will  be  left  with  an
              inappropriate EFI GPT (0xEE) partition definition, which you can
              delete using another utility.
       -Z, --zap-all
              Zap (destroy) the GPT and MBR data  structures  and  then  exit.
              This  option works much like -z, but as it wipes the MBR as well
              as the GPT, it's more suitable if you want to repartition a disk
              after  using  this  option,  and completely unsuitable if you've
              already repartitioned the disk.
       -?, --help
              Print a summary of options.
RETURN VALUES
       sgdisk returns various values depending on its success or failure:
       0      Normal program execution
       1      Too few arguments
       2      An error occurred while reading the partition table
       3      Non-GPT disk detected and no -g option, but operation requires a
              write action
       4      An error prevented saving changes
       5      An  error  occurred  while  reading standard input (should never
              occur with sgdisk, but may with gdisk)
       8      Disk replication operation (-R) failed
BUGS
       Known bugs and limitations include:
       *      The program compiles correctly only on Linux, FreeBSD,  and  Mac
              OS  X.  Linux  versions  for  x86-64 (64-bit), x86 (32-bit), and
              PowerPC (32-bit) have  been  tested,  with  the  x86-64  version
              having seen the most testing.
       *      The  FreeBSD  version  of the program can't write changes to the
              partition table to a disk when existing partitions on that  disk
              are  mounted.  (The  same problem exists with many other FreeBSD
              utilities, such as gpt, fdisk, and dd.) This limitation  can  be
              overcome  by  typing  sysctl  kern.geom.debugflags=16 at a shell
              prompt.
       *      The fields used to display the start and end sector numbers  for
              partitions  in  the  -p  option  are  14  characters  wide. This
              translates to a limitation of about 45 PiB. On larger disks, the
              displayed columns will go out of alignment.
       *      The  program  can  load  only  up  to  128 partitions (4 primary
              partitions and 124 logical partitions) when converting from  MBR
              format.  This  limit  can  be  raised  by  changing  the #define
              MAX_MBR_PARTS line  in  the  basicmbr.h  source  code  file  and
              recompiling;  however,  such  a  change  will  require  using  a
              larger-than-normal partition table. (The limit of 128 partitions
              was  chosen  because  that  number  equals  the  128  partitions
              supported by the most common partition table size.)
       *      Converting  from  MBR  format   sometimes   fails   because   of
              insufficient  space  at  the start or (more commonly) the end of
              the disk. Resizing the partition table (using the 's' option  in
              the experts' menu) can sometimes overcome this problem; however,
              in extreme cases it may be necessary to resize a partition using
              GNU Parted or a similar tool prior to conversion with gdisk.
       *      MBR  conversions work only if the disk has correct LBA partition
              descriptors. These descriptors should be  present  on  any  disk
              over  8 GiB in size or on smaller disks partitioned with any but
              very ancient software.
       *      BSD disklabel support can create first  and/or  last  partitions
              that overlap with the GPT data structures. This can sometimes be
              compensated by  adjusting  the  partition  table  size,  but  in
              extreme cases the affected partition(s) may need to be deleted.
       *      Because   of   the  highly  variable  nature  of  BSD  disklabel
              structures, conversions from this  form  may  be  unreliable  --
              partitions  may  be  dropped,  converted  in  a way that creates
              overlaps with other  partitions,  or  converted  with  incorrect
              start or end values. Use this feature with caution!
       *      Booting  after converting an MBR or BSD disklabel disk is likely
              to be disrupted. Sometimes re-installing a boot loader will  fix
              the  problem,  but  other  times  you  may  need  to switch boot
              loaders. Except on EFI-based platforms, Windows through at least
              Windows  7 RC doesn't support booting from GPT disks. Creating a
              hybrid  MBR  (using  the  'h'   option   on   the   recovery   &
              transformation  menu)  or  abandoning GPT in favor of MBR may be
              your only options in this case.
AUTHORS
       Primary author: Roderick W. Smith (rodsmith AT rodsbooks.com)
       Contributors:
       * Yves Blusseau (1otnwmz02 AT sneakemail.com)
       * David Hubbard (david.c.hubbard AT gmail.com)
       * Justin Maggard (justin.maggard AT netgear.com)
       * Dwight Schauer (dschauer AT gmail.com)
       * Florian Zumbiehl (florz AT florz.de)
SEE ALSO
       cfdisk (8), cgdisk (8), fdisk (8), gdisk (8),  mkfs  (8),  parted  (8),
       sfdisk (8) fixparts (8)
       http://en.wikipedia.org/wiki/GUID_Partition_Table
       http://developer.apple.com/technotes/tn2006/tn2166.html
       http://www.rodsbooks.com/gdisk/
AVAILABILITY
       The  sgdisk  command  is part of the GPT fdisk package and is available
       from Rod Smith.
Roderick W. Smith                    1.0.3                           SGDISK(8)