Difference between revisions of "Standard Disk Interconnect"

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The '''Standard Disk Interconnect''' (usually referred to by the acronym, '''SDI'''; sometimes called the '''Standard Disk Interface''') is a [[Digital Equipment Corporation|DEC]] designed [[disk]] [[drive]] to [[device controller|controller]] interface offering high performance, availability, and configuration flexibility. These characteristics make it suitable for use with [[PDP-11]]s and with [[VAX]] single and multiple [[Central Processing Unit|CPU]] systems.
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The '''Standard Disk Interconnect''' (usually referred to by the acronym, '''SDI'''; sometimes called the '''Standard Disk Interface''') is a [[Digital Equipment Corporation|DEC]] designed [[disk]] [[drive]] to [[device controller|controller]] interface, intended to support large [[mass storage]] devices. It is a key element of the [[Digital Storage Architecture]] (DSA), used with [[PDP-11]]s and with [[VAX]] single and multiple [[Central Processing Unit|CPU]] systems.
  
== SDI Family of DSA Products ==
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A new standard, it was introduced (in 1981) because no existing standard had the capabilities that DEC deemed necessary in the mass storage arena. SDI claims to offer high performance, availability, and configuration flexibility, and does so across a large range of configurations (ranging from small individual systems, to groups of large [[server]]s.
  
The family of [[Digital Storage Architecture|DSA]] products which implement the SDI consists of:
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A variant, the [[Standard Tape Interconnect]] (STI), is used with [[magnetic tape]] systems, and other sequential storage applications. It shares its physical connection technology (called the [[Standard Drive Bus]], SDB) with SDI; the higher layer [[protocol]]s are adapted to sequential storage needs.
  
* SDI Disk controllers:
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==Technical details==
 +
 
 +
The SDB drive to controller interconnect is a [[serial]] link which connects each drive directly (i.e. individually), or 'radially' (a term for such a device connection approach which DEC also used in its early machines), to its controller.
 +
 
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Logically, at a higher layer, SDI consists of a protocol by which a controller can recognize a drive's characteristics, direct its mechanical operation, store data on or retrieve data from it, and recognize and recover from error conditions.
 +
 
 +
==SDI Features==
 +
 
 +
To support DSA data integrity goals and provide compatibility and interchange, SDI controllers include advanced data integrity features:
 +
 
 +
* An advanced [[error-correction code]] (ECC).
 +
* An [[Error Detection Code]] (EDC) which verifies ECC computation logic and the ECC correction process, checks controller [[data path]]s, and indicates a forced error in case a hard media error causes sector replacement.
 +
* A Bad Block Replacement Algorithm which dynamically substitutes good [[disk block]]s for potentially defective ones. The goal of the DSA is to anticipate developing defects and retire blocks containing them before user data loss occurs.
 +
* Automatic Revectoring for transparent access to replaced blocks.
 +
* Quadruplicate Headers for verification of read/write head position prior to data transfer, even if media defects exist in the header area.
 +
* Firewalling against single failure points to detect and isolate single component failures so that no erroneous data is passed to the user.
 +
 
 +
==SDI Family of DSA Products==
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 +
The family of products which implement the SDI includes:
 +
 
 +
* SDI disk controllers:
 +
** [[UDA50]] ([[UNIBUS]])
 
** [[KDA50]] ([[QBUS]])
 
** [[KDA50]] ([[QBUS]])
 
** [[KDB50]] ([[VAX Bus Interconnect|VAXBI]])
 
** [[KDB50]] ([[VAX Bus Interconnect|VAXBI]])
 
** [[KDM70]] ([[Extended Memory Interconnect|XMI]])
 
** [[KDM70]] ([[Extended Memory Interconnect|XMI]])
** [[UDA50]] ([[UNIBUS]])
 
  
 
* SDI [[Hierarchical Storage Controller]]s (HSCs):
 
* SDI [[Hierarchical Storage Controller]]s (HSCs):
 
** [[HSC40]]
 
** [[HSC40]]
** [[HSC50 Mass-Storage Controller|HSC50]]
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** [[HSC50 Hierarchical Storage Controller|HSC50]]
 
** [[HSC60]]
 
** [[HSC60]]
 
** [[HSC65]]
 
** [[HSC65]]
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** [[HSC95]]
 
** [[HSC95]]
  
* SDI Disk Drives:
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* SDI disk drives:
 
** [[RA60]]
 
** [[RA60]]
 
** [[RA70]]
 
** [[RA70]]
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** [[RA92]]
 
** [[RA92]]
  
* SDI [[Solid State Disk]] Drives
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* SDI [[solid state disk]] drives
 
** [[ESE 20]]
 
** [[ESE 20]]
 
** [[ESE 25]]
 
** [[ESE 25]]
 
** [[ESE 50]]
 
** [[ESE 50]]
  
== SDI Features ==
+
==Further reading==
 
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To support DSA data integrity goals and provide compatibility and interchange, SDI controllers include advanced data integrity features:
+
* ''Digital Storage Technology Handbook'', 1989 (EC-H0374-45/89) - Chapter 4, The Digital Storage Interconnects
* An advanced [[Error-correction code|Error Correction Code]] (ECC) more than seven times as powerful as the industry's most common code.
+
* ''Digital Large System Mass Storage Handbook'', 1986 - Chapter 7, The Storage Interconnect
* An [[EDC|Error Detection Code]] (EDC) which verifies ECC computation logic and the ECC correction process, checks controller data paths, and indicates a forced error in case a hard media error causes sector replacement.
 
* A Bad Block Replacement Algorithm which dynamically substitutes good blocks for potentially defective ones. The goal of the DSA is to anticipate developing defects and retire blocks containing them before user data loss occurs.
 
* Automatic Revectoring for transparent access to replaced blocks.
 
* Quadruplicate Headers for verification of read/write head position prior to data transfer, even if media defects exist in the header area.
 
* Firewalling against single failure points to detect and isolate single component failures so that no erroneous data is passed to the user.
 
 
 
== SDI Interconnect ==
 
The SDI drive to controller interconnect is a [[serial]] [[bus]] which connects each drive directly, or radially, to its controller.
 
 
 
Electrically, SDI consists of four [[coaxial cable|coaxial]] signal carriers, two for moving user data, commands, and responses between drive and controller, and two for continuous real time transmission of drive and controller status information.
 
The SDI is [[transformer]] coupled, so drive and controller do not require a common [[direct current|DC]] [[ground]].
 
Transformer coupling both eliminates unpredictable and unrepeatable "[[ground loop]]" problems, and provides for installation flexibility, since SDI drives can be physically added to or removed from a subsystem without disrupting its operation.
 
 
 
Logically, SDI consists of a [[protocol]] by which a controller can recognize a drive's characteristics, direct its mechanical operation, store data on or retrieve data from it, and recognize and recover from error conditions.
 
  
 
==External links==
 
==External links==
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[[Category: DEC Mass Storage]]
 
[[Category: DEC Mass Storage]]
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[[Category: DEC Buses]]
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[[Category: SDI]]
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[[Category: DEC Interface Standards]]

Latest revision as of 14:29, 29 December 2023

The Standard Disk Interconnect (usually referred to by the acronym, SDI; sometimes called the Standard Disk Interface) is a DEC designed disk drive to controller interface, intended to support large mass storage devices. It is a key element of the Digital Storage Architecture (DSA), used with PDP-11s and with VAX single and multiple CPU systems.

A new standard, it was introduced (in 1981) because no existing standard had the capabilities that DEC deemed necessary in the mass storage arena. SDI claims to offer high performance, availability, and configuration flexibility, and does so across a large range of configurations (ranging from small individual systems, to groups of large servers.

A variant, the Standard Tape Interconnect (STI), is used with magnetic tape systems, and other sequential storage applications. It shares its physical connection technology (called the Standard Drive Bus, SDB) with SDI; the higher layer protocols are adapted to sequential storage needs.

Technical details

The SDB drive to controller interconnect is a serial link which connects each drive directly (i.e. individually), or 'radially' (a term for such a device connection approach which DEC also used in its early machines), to its controller.

Logically, at a higher layer, SDI consists of a protocol by which a controller can recognize a drive's characteristics, direct its mechanical operation, store data on or retrieve data from it, and recognize and recover from error conditions.

SDI Features

To support DSA data integrity goals and provide compatibility and interchange, SDI controllers include advanced data integrity features:

  • An advanced error-correction code (ECC).
  • An Error Detection Code (EDC) which verifies ECC computation logic and the ECC correction process, checks controller data paths, and indicates a forced error in case a hard media error causes sector replacement.
  • A Bad Block Replacement Algorithm which dynamically substitutes good disk blocks for potentially defective ones. The goal of the DSA is to anticipate developing defects and retire blocks containing them before user data loss occurs.
  • Automatic Revectoring for transparent access to replaced blocks.
  • Quadruplicate Headers for verification of read/write head position prior to data transfer, even if media defects exist in the header area.
  • Firewalling against single failure points to detect and isolate single component failures so that no erroneous data is passed to the user.

SDI Family of DSA Products

The family of products which implement the SDI includes:

Further reading

  • Digital Storage Technology Handbook, 1989 (EC-H0374-45/89) - Chapter 4, The Digital Storage Interconnects
  • Digital Large System Mass Storage Handbook, 1986 - Chapter 7, The Storage Interconnect

External links