9-track tape is a format for

magnetic-tape data storage Magnetic-tape data storage is a system for storing digital information on magnetic tape using digital recording. Tape was an important medium for primary data storage in early computers, typically using large open reels of 7-track, later ...

, introduced with the

IBM System/360 The IBM System/360 (S/360) is a family of mainframe computer systems announced by IBM on April 7, 1964, and delivered between 1965 and 1978. System/360 was the first family of computers designed to cover both commercial and scientific applicati ...

in 1964. The wide magnetic tape media and reels have the same size as the earlier

IBM 7-track IBM's first magnetic-tape data storage devices, introduced in 1952, use what is now generally known as 7-track tape. The magnetic tape is wide, and there are six data tracks plus one parity track for a total of seven parallel tracks that span ...

format it replaced, but the new format has eight data tracks and one parity track for a total of nine parallel tracks. Data is stored as

8-bit In computer architecture, 8-bit integers or other data units are those that are 8 bits wide (1 octet). Also, 8-bit central processing unit (CPU) and arithmetic logic unit (ALU) architectures are those that are based on registers or data bu ...

characters, spanning the full width of the tape (including the parity bit). Various recording methods have been employed during its lifetime as tape speed and data density increased, including PE ( phase encoding), GCR ( group-coded recording), and NRZI (

non-return-to-zero, inverted In telecommunications, a non-return-to-zero (NRZ) line code is a Binary coding, binary code in which ones are represented by one significant condition, usually a positive voltage, while zeros are represented by some other significant condition, ...

, sometimes pronounced "nur-zee"). Tapes come in various sizes up to in length. The standard size of a

byte The byte is a unit of digital information that most commonly consists of eight bits. Historically, the byte was the number of bits used to encode a single character of text in a computer and for this reason it is the smallest addressable un ...

was effectively set at eight

bit The bit is the most basic unit of information in computing and digital communication. The name is a portmanteau of binary digit. The bit represents a logical state with one of two possible values. These values are most commonly represented as ...

s with the S/360 and nine-track tape. For over 30 years the format dominated offline storage and data transfer, but by the end of the 20th century it was obsolete, and the last manufacturer of tapes ceased production in early 2002, with drive production ending the next year.

Typical operation

A typical 9-track unit consists of a tape transport—essentially all the mechanics that moves tape from reel to reel past the read/write and erase heads—and supporting control and data read/write electronics. The transport typically consists of a supply motor, a take-up motor, hubs for locking the tape reels in place, a capstan motor (though not necessarily a pinch roller, see below), tape head assembly, miscellaneous rollers which keep the tape in a precise path during operation, and vacuum columns which prevent tape 'snatch'. Data can become corrupted by stretched tape or variations in tape speed, so the transport has to guide the tape through without damaging its edges, move it with minimal wow and flutter, and give it a tension that is low but sufficient to keep the tape in constant contact with the read/write head. To load a tape, an operator removes the protective ring (frequently called a "tape seal belt" because its purpose is to prevent humidity and dust on the media) from the outside of the tape reel and installs the tape on the supply hub, then threads the tape leader through the various roller assemblies and onto the take-up reel, installing three or four winds of tape to provide enough friction for the take-up motor to be able to pull the tape. The operator then initiates an automatic sequence, often by a single press of a button, that closes the protective window, starts the vacuum system, then moves the tape forward until the beginning-of-tape (BOT) foil strip is detected by an optical sensor in the tape path. The control electronics then indicate to the controlling computer that the unit is ready for operation. Like its audio counterpart, moving tape past the read/write heads on a nine-track digital tape drive requires precise control, accomplished by a capstan motor. The capstan motor is designed for very smooth operation. Feedback to the control electronics is accomplished by a

tachometer A tachometer (revolution-counter, tach, rev-counter, RPM gauge) is an instrument measuring the rotation speed of a axle, shaft or disk, as in a motor or other machine. The device usually displays the revolutions per minute (RPM) on a calibrat ...

, usually an optical " tone wheel", to control tape velocity. Starting and stopping the capstan is controlled by ramp generators to ensure a properly sized inter-record gap, the gap between blocks of information. The vacuum system provides a physical buffer between the precision movements of the capstan and the large movements of the reels by storing a short length of tape in the vacuum column under relatively low tension. The vacuum columns are chambers open at one end, the openings being in line with the tape path before and after the capstan and roller assemblies. The amount of tape in the column is controlled by four optical or vacuum sensors on the sides of the columns. The control electronics keep the curve of the tape loop between the two inner sensors, cueing the supply reel to feed more or stop, and the take-up reel to take more or stop, as necessary. The outer two sensors, at the very top and bottom of the columns, serve to sense malfunctions in the feed mechanism during operation, prompting the control electronics to shut off all operation of the tape transport and vacuum system to prevent damaging the tape. Because of the tension provided by the vacuum columns and the design of the tape path, tape is usually kept in sufficient contact with the relatively high-friction coating on the capstan that a pinch roller is not used. Tape motion on many systems is bidirectional, i.e. tape can be read either forward or backward at the request of the controlling computer. Because the supply vacuum column keeps a small, constant tension in the reverse direction, the capstan can feed backwards without the tape bunching up or jumping out of its path. Unlike most audio tape systems, the capstan and head assemblies are always in contact with the tape, even during fast forward and reverse operations, only moving the head assembly away from the tape path during high-speed rewind. On some units, manufacturers provided a "fast search" capability which can move the tape quickly a certain number of blocks, then bring the tape to a halt and go back to read the requested data at normal speed. Tapes include an end-of-tape (EOT) foil strip. When EOT is encountered while writing, the computer program is notified of the condition. This gives the program a chance to write end-of-tape information on the tape while there is still enough tape to do so. The sensing of BOT and EOT is achieved by shining a small lamp at the tape's surface at an oblique angle. When the foil strip (glued to the tape) moves past the lamp a photo-receptor sees the reflected flash of light and triggers the system to halt tape motion. This is the main reason that photographic flash cameras are not allowed in data centers with 9-track tape drives since they can trick the tape drives into falsely sensing BOT and EOT. The above describes a typical transport system; however, manufacturers engineered many alternative designs. For example, some designs use a horizontal transport deck where the operator simply sets the tape reel in the supply reel bay, closes the door and presses the load button, then a vacuum system draws the tape along the path and onto a take-up hub within the mechanism. Some designs eliminate the vacuum columns in favor of a microprocessor-controlled direct drive design.

Technical details

9-track 800 NRZI and 1600 PE (phase encoding) tapes use a inter-record gap (IRG) between data records to allow the tape to stop and start between records. 6250

GCR GCR (or GCRS) may refer to: Science * Galactic cosmic ray, a cosmic ray from outside the Solar System * Geocentric Celestial Reference System, a coordinate system for near-Earth objects like satellites * Geological Conservation Review, a procedu ...

tapes use a tighter IRG. 9-track tapes have reflective stickers placed on the non-data side from the beginning of the tape and from the end of the tape to facilitate signaling the hardware to prevent the tape from unwinding from the hubs. These reflective stickers establish the beginning-of-tape (BOT) and end-of-tape (EOT) marks. of leader and trailer tape is sufficiently long to allow the tape to go down and up the air columns and wrap around the hub a few times. The extra in the trailer is to allow the operating system space to write a few blocks of data after the EOT mark to finalize the tape data segment in a multi-volume dataset. Operators commonly clip off a few inches of leader tape when it becomes frayed. If the leading reflective strip becomes detached from the tape it becomes difficult to read the data, since the BOT point of the dataset is no longer easily located and BOT orientation is nearly impossible. When this happens a new BOT strip is added to the tape and its former data is considered lost. Nine-track tapes have densities of 800, 1600, and 6250 8-bit bytes per inch, giving approximately 22.5MB, 45MB and 175MB respectively on a tape with the usual length of .

IBM generations

2400 Series

The 2400 Series Magnetic Tape Units were introduced with the System/360 and were the first to use 9-track tape. The dimensions of the tape and reels are identical to those used with 7-track units, such as the

IBM 729 The IBM 729 Magnetic Tape Unit was IBM's tape mass storage system from the late 1950s through the mid-1960s. Part of the IBM 7-track family of tape units, it was used on late 700, most 7000 and many 1400 series computers. Like its predecessor, ...

. But older 7-track tapes can be read and written only on special 2400 drives equipped with 7-track read and write heads and the 7-track compatibility option.

3400 Series

The 3400 Series Magnetic Tape Units were introduced with the

IBM System/370 The IBM System/370 (S/370) is a range of IBM mainframe computers announced as the successors to the IBM System/360, System/360 family on June 30, 1970. The series mostly maintains backward compatibility with the S/360, allowing an easy migrati ...

. The primary advantages of the 3400 system are the higher data density (6250 BPI) and support of the "autoloader" cartridge, first seen in the IBM 2420 model 7. Prior to the autoloader cartridge, tapes were sealed in a plastic "tape seal belt" that surrounded the reel and provided contamination protection and rack-hanging capability. The 3420's autoloader cartridge enables the tape operator to mount the reel directly on the hub without having to remove the seal belt. This provides a significant time saving and reduces operator errors, since the operator does not have to remove/replace the belt or thread the tape onto the take-up reel.

Other IBM units

While the earlier tape drives have vacuum columns, some IBM tape drives such as the 8809 drive (1980's) have a flat mount situation and no vacuum columns exist. Tapes are manually mounted and threaded. The drive supports both 800 and 1600 bpi. This drive is used on the

IBM System/36 The IBM System/36 (often abbreviated as S/36) was a midrange computer marketed by IBM from 1983 to 2000 - a multi-user, multi-tasking successor to the System/34. Like the System/34 and the older System/32, the System/36 was primarily prog ...

. On the IBM AS/400 and iSeries there is the 9348-012 and it is a table top drive, flat mounting, but it autoloads the tape reel and auto threads it. The 9348 supports 1600 and 6250 bpi density tapes.

Other information

The maximum data capacity of a 2400 ft reel, with 32,767 byte blocks and recorded at 6250 BPI is 170 megabytes. Typically, much smaller block sizes, such as 4K (4,096 bytes) are used, in which case the storage capacity of the tape is reduced to 113 megabytes. Depending on the operating system, tapes are formatted as either

EBCDIC Extended Binary Coded Decimal Interchange Code (EBCDIC; ) is an eight- bit character encoding used mainly on IBM mainframe and IBM midrange computer operating systems. It descended from the code used with punched cards and the corresponding si ...

(if IBM equipment is used) or ASCII, and are either "labeled" (if the data is preceded by a tape header, typically containing a tape name and date), "unlabeled" (if the tape contains no header) or have a "non-standard label" (the tape has a header, but it does not conform to the format expected by the equipment used to read the tape). Data is often written to the tape in blocks, instead of one record at a time. Between blocks, there is an interblock gap, which varies depending on the density, but is typically 5/8 to 3/4 of an inch long. To maximize the amount of data that is stored on a tape, the number of gaps has to be minimized. Additionally, data stored in blocks can be read and written more quickly than data stored one record at a time. The disadvantage is that data corruption within a block can cause multiple records to be lost.

Examples

File:Largetape1.jpg, Full size 1/2" tape reel in protective case File:2smalltapes.jpg, Two small 1/2" tapes, front and back File:Tapesticker.jpg,

Aluminum foil Aluminium foil (or aluminum foil in American English; occasionally called tin foil) is aluminium prepared in thin metal leaves. The foil is pliable and can be readily bent or wrapped around objects. Thin foils are fragile and are sometimes ...

strips mark the start and end of tape File:Tapeprotection.jpg, The

write protection Write protection is any physical mechanism that prevents writing, modifying, or erasing data on a device. Most commercial software, audio and video on writeable media is write-protected when distributed. Examples * IBM -inch magnetic tape re ...

ring prevents the tape from being written when removed File:NDOC magnetic tape library.jpg, A typical library of half-inch magnetic tape File:Magnetic-tape hg.jpg, 3M 777 High Grade 6250 CPI - Security Computer Tape

Standards

ANSI The American National Standards Institute (ANSI ) is a private nonprofit organization that oversees the development of voluntary consensus standards for products, services, processes, systems, and personnel in the United States. The organiz ...

INCITS The InterNational Committee for Information Technology Standards (INCITS), (pronounced "insights"), is an ANSI-accredited standards development organization composed of Information technology developers. It was formerly known as the X3 and NCITS ...

40-1993 (R2003) Unrecorded Magnetic Tape for Information Interchange (9-Track, 800 cpi haracters per inch NRZI; 1600 cpi, PE; and 6250 cpi,

) *

ISO The International Organization for Standardization (ISO ; ; ) is an independent, non-governmental, international standard development organization composed of representatives from the national standards organizations of member countries. Me ...

/IEC 1863:1990 9-track, 12.7 mm ( in)-wide magnetic tape for information interchange using NRZ1 at 32 ftpmm (flux transitions per millimeter, 800 flux transitions per inch or ftpi) or 32 cpmm (characters per millimeter, 800 characters per inch or cpi) * ISO/IEC 3788:1990 9-track, 12.7 mm ( in) wide magnetic tape for information interchange using phase encoding at 126 ftpmm (3,200 ftpi), 63 cpmm (1,600 cpi) * ANSI INCITS 54-1986 (R2002) Recorded Magnetic Tape for Information Interchange (6250 cpi, Group Coded Recording) * ANSI INCITS 27-1987 (R2003) Magnetic Tape Labels and File Structure for Information Interchange

Other drive manufacturers

Ampex Ampex Data Systems Corporation is an American electronics company founded in 1944 by Alexander M. Poniatoff as a spin-off of Dalmo-Victor. The name ''AMPEX'' is an acronym, created by its founder, which stands for Alexander M. Poniatoff Excell ...

Anritsu is a Japanese multinational corporation in the telecommunications electronics equipment market. A global pioneer for producing the world's first wireless telephone network, Anritsu's revenue numbers near US$782 million. History In Japan, Anr ...

* Burroughs *

Cipher Data Products Cipher Data Products, Inc., was an American computer company based in San Diego, California, and active from 1968 to 1992. The company was once a leading manufacturer of magnetic-tape data drives and media for minicomputers, becoming a pioneer in ...

Control Data Control Data Corporation (CDC) was a mainframe and supercomputer company that in the 1960s was one of the nine major U.S. computer A computer is a machine that can be Computer programming, programmed to automatically Execution (computing), ...

Digital Equipment Corporation Digital Equipment Corporation (DEC ), using the trademark Digital, was a major American company in the computer industry from the 1960s to the 1990s. The company was co-founded by Ken Olsen and Harlan Anderson in 1957. Olsen was president until ...

* Digi-Data * Fujitsu *

Hewlett-Packard The Hewlett-Packard Company, commonly shortened to Hewlett-Packard ( ) or HP, was an American multinational information technology company. It was founded by Bill Hewlett and David Packard in 1939 in a one-car garage in Palo Alto, California ...

(incl. Dynec/Dymec) *

Kennedy Kennedy may refer to: People * Kennedy (surname), including any of several people with that surname ** Kennedy family, a prominent American political family that includes: *** Joseph P. Kennedy Sr. (1888–1969), American businessman, investor, ...

* Innovative Data Technology (IDT/Alston) * Laser Magnetic Storage /

Philips Koninklijke Philips N.V. (), simply branded Philips, is a Dutch multinational health technology company that was founded in Eindhoven in 1891. Since 1997, its world headquarters have been situated in Amsterdam, though the Benelux headquarter ...

LMS /

Plasmon In physics, a plasmon is a quantum of plasma oscillation. Just as light (an optical oscillation) consists of photons, the plasma oscillation consists of plasmons. The plasmon can be considered as a quasiparticle since it arises from the quant ...

LMS * M4 Data * Overland Data *

PerkinElmer PerkinElmer, Inc., previously styled Perkin-Elmer, is an American global corporation that was founded in 1937 and originally focused on precision optics. Over the years it went into and out of several different businesses via acquisitions and di ...

Pertec Computer Pertec Computer Corporation (PCC), formerly Peripheral Equipment Corporation (PEC), was a computer company based in Chatsworth, California which originally designed and manufactured peripherals such as floppy disk, floppy drives, tape drives, inst ...

* Qualstar *

SE Labs (EMI) SE, Se, or Sé may refer to: Initialisms * Standard Edition (e.g. Java Platform, Standard Edition) * Special Edition * Second Edition (e.g. Windows 98 Second Edition) Arts and entertainment * ''Sé'' (album), by Lúnasa, 2006 * Se (instrume ...

* STC / Storage Technology Corp, ( StorageTek (STK) after name change), (acquired by

SUN The Sun is the star at the centre of the Solar System. It is a massive, nearly perfect sphere of hot plasma, heated to incandescence by nuclear fusion reactions in its core, radiating the energy from its surface mainly as visible light a ...

, now a division of

Oracle Corp Oracle Corporation is an American multinational computer technology company headquartered in Austin, Texas. Co-founded in 1977 in Santa Clara, California, by Larry Ellison, who remains executive chairman, Oracle was the third-largest softwar ...

). * Wangco

Media manufacturers

* 3M (later spun off into

Imation GlassBridge Enterprises, Inc., formerly Imation Corporation, is an American holding company. Through its subsidiary, Glassbridge focuses primarily on investment and asset management. The company was founded in 1996 under its original name o ...

) — The first manufacturer of 9-track tape. *

Graham Magnetics Graham Magnetics, Inc., was an American computer data storage company independently active from 1964 to 1995. Founded as Datatape, Inc., by 1966, it had opened its new magnetic tape factory in Graham, TX and changed its name to Graham Magnetics. ...

— The last manufacturer to produce new 9-track tape (2001).

References

UNISERVO The UNISERVO tape drive was the primary I/O device on the UNIVAC I computer. It was the first tape drive for a commercially sold computer. The UNISERVO used metal tape: a thin strip of nickel-plated phosphor bronze (called Vicalloy) 1200 feet lo ...

br>IIIAIIIC
Magnetic Tape Subsystem Technical Bulletins * H
7976A7978A7980A (88780AB)
(1600 PE, 6250 GCR
HP 7974A 1600 PE
at hpmuseum.net * (7980A, 88780AB) * * Brochures for M4 Data: ** ** ** * *

Large Scale Systems Museum in New Kensington, Pennsylvania working DEC and IBM equipment with half-inch tape (September 2021)
{{DEFAULTSORT:9 Track Tape Computer storage tape media Computer-related introductions in 1964 Tape 9 Track Magnetic data storage