Glossary

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-A-

A-Cable: - The SCSI specifications define an A-Cable for use in Narrow SCSI (50-pin connector) applications. An Alt 1, A-Cable has 50-pin male high-density micro-D shielded or unshielded connectors. The shielded connector on an Alt 1, A-Cable is specified to have latch type fasteners. An Alt 2, A-Cable may be either an unshielded ribbon cable with a female connector having 2 rows of 25 pins on 0.1 inch centers or a shielded round cable with 25 twisted pairs and male centronics-type 50-contact connectors.

Active Negation: - SCSI signals are negative true logic, meaning that the signals are normally asserted for a "0". In the past, to change a "0" to a "1", the signal drive was simply removed and the signal allowed to "drift" to the unasserted state. For Ultra data throughput this method is barely fast enough but it is not fast enough for LVD or faster data throughputs. To overcome this, "active negation" is used to drive the signal to the unasserted state. This allows more rapid transitions for LVD and faster SCSI data throughput. The SCSI specifications recommend active negation for Ultra SCSI devices and specify it for LVD and faster.

ANSI - American National Standards Institute: - the coordinating organization for voluntary standards in the United States, SCSI is maintained by the X3T10 committee of ANSI.

Active Negation: - SCSI signals are negative true logic, meaning that the signals are normally asserted for a "0". In the past, to change a "0" to a "1", the signal drive was simply removed and the signal allowed to "drift" to the unasserted state. For Ultra data throughput this method is barely fast enough but it is not fast enough for LVD or faster data throughputs. To overcome this, "active negation" is used to drive the signal to the unasserted state. This allows more rapid transitions for LVD and faster SCSI data throughput. The SCSI specifications recommend active negation for Ultra SCSI devices and specify it for LVD and faster.

Arbitrated Loop Topology - a Fibre Channel topology that provides a (FC-AL) solution to attach multiple communicating ports in a loop

Arbitration: - the process of selecting one respondent from a collection of several candidates that request service concurrently. If a SCSI device needs to use the bus, it uses arbitration to determine if it can take control of the bus. If several devices arbitrate at the same time, the device with the highest priority wins.

ASPI - Advanced SCSI Programming Interface: - A SCSI software interface developed by Adaptec, Inc for sending commands to SCSI host adapters. Provides an insulating layer so that peripheral device designers do not have to deal with differences in SCSI host adapters. Refer to CAM, another SCSI software interface.

Asynchronous (ASYNC) transfer: - A method of transferring data that requires that the bus wait for a REQ-ACK handshake for each byte of data. This results in a maximum data transfer rate of 5 MBytes/second that decreases quickly with even small increases in cable length. All SCSI bus negotiations are carried on asynchronously, even on a synchronous SCSI bus. On a synchronous SCSI bus, only actual data transfers are accomplished synchronously.

Asynchronous Transmission Mode (ATM): - a type of packet that transmits fixed length unit of data

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-B-

B-Cable: - The SCSI-2 specifications defined a B-Cable for use with an A-Cable in Wide (16-bit) SCSI applications. It is identical in construction to the A-Cable. The B-Cable was rendered obsolete by the introduction of the P-Cable in the SCSI-3 specifications.

Bridge Controller: - A target controller that uses SCSI for the connection between the initiator and some other bus (or SCSI) to connect to the peripheral device. Bridge controllers are commonly used in RAID arrays or in optical disk or tape libraries.

Broadcast - sending a transmission to all N_Ports on a fabric

Burst Rate: - Many SCSI devices can send data much faster over the bus than they can recover them from the medium (see: sustained transfer rate). The data are buffered and sent in a burst at maximum speed over the bus, so the bus is utilized for only a short period of time. It is then released and can be used by other devices.

Bus Mastering: - A peripheral controller, such as a SCSI host adapter, which is capable of transferring data over the host bus without the host CPU's assistance, is called a bus master. Bus mastering delivers maximum relief of the host on I/Os, but it requires extra intelligence on the peripheral controller. (See also SCSI Bus Mastering.)

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-C-

• Alt 1 Cable - An A-cable having 50-pin male high-density micro-D connectors with spring-latch fasteners. May be nonshielded or shielded.
• Alt 2 Cable - An A-cable having 50-pin male Centronics-type connectors for round, shielded cabling or two rows of 25 pins on 0.1 inch centers for internal nonshielded ribbon cabling.
• A-Cable - A 50 pin narrow SCSI cable. See Alt 1 and Alt 2 above for the 4 types of A-Cable.
• B-Cable - Identical in construction to the A-cable introduced in SCSI-2 for use with WIDE SCSI. Never popular because of requirement for two cables. The B-cable was rendered obsolete by the introduction of the P-cable in SCSI-3. Use of WIDE SCSI immediately began to increase.
• L-Cable - A 110-pin high-density male micro-D connector considered for use in 32-bit WIDE SCSI systems. No longer viable as 32-bit SCSI was obsoleted in the SPI-3 document of SCSI-3.
• P-Cable - In SCSI-3, the P-cable is defined for 16-bit WIDE SCSI systems to eliminate the necessity to use two cables (an A-cable and a B-cable) for 16-bit WIDE SCSI. Uses 34 twisted pair cable (68 wires) and 68-pin high-density male micro-D connectors with 2-56 thumbscrew fasteners.
• Q-Cable - Physically and electrically identical to the P-cable. Both a P-cable and a Q-cable were specified for 32-bit WIDE SCSI buses. This cable is no long viable as 32-bit wide SCSI was rendered obsolete in the SPI-3 document of SCSI-3.

- Single-ended Cable - Strictly speaking there is a slight difference in cable pair placement between single ended and differential cables. However, careful selection of cable pairs avoids the necessity for manufacturers to build single ended as well as differential cables. Some cable manufacturers save manufacturing cost by deleting up to 25 of the ground wires in the narrow single ended SCSI cable. That drastically changes cable impedance and increases cross talk thereby causing problems, particularly with FAST SCSI and/or long cables. Although they may work over short distances (not more than four feet) they often cause errors resulting in SCSI retries and reduced data throughput. They will not work at all on differential SCSI. To save yourself headaches, purchase "differential" cables and do not use so called "single-ended" SCSI cables.

Channel: - a point-to-point link, the main task being transporting data from one point to another

Standard Connectors:

• IDC header - 50 pin insulation displacement connector (IDC) used with ribbon cables for nonshielded, internal SCSI cabling. Female type used on cables. SCSI terminology: Nonshielded Alternate 2-A Cable.
• Centronics type - This connector is a 50-pin version of the connector used for parallel printer ports for years. Specified in SCSI-1 and still an acceptable connector for narrow SCSI. Male connector used for cables, female for devices. Uses bail fasteners on the device-mounted female connector to secure the male connector. Often referred to as the "SCSI-1" connector. SCSI terminology: Shielded Alternative 1, A-cable.
• 50-pin high-density micro-D connector - Pin-and-socket connector. Smaller than the centronics-type. Specified to have spring-latch fasteners. Male connector used on cables; female on devices. SCSI terminology: Shielded (or non-shielded) Alternative 1, A-cable.
• 68-pin Micro-D high-density - Originally specified in SCSI-3 to allow the use of one cable for wide (16-bit) applications. This cable is called a P-cable. 68-pin version of the 50-pin micro-D high-density connector. Although the 2-56 thumbscrew fastener is specified in SCSI-3, some manufacturers have used the spring-latch fastener. Male connector used on cables; female on devices. Frequently referred to as the "SCSI-3" connector. SCSI terminology: Shielded (or non-shielded) Alternate 3, P-cable.
• 68-pin VHDCI (Very High Density Cable Interconnect) - Originally specified in SCSI-3. Ribbon contact construction similar to centronics type connector, but on smaller 0.8 mm (0.0315") pitch. Much smaller footprint allows up to four connectors to be mounted on a PC backplate. Called the VHDCI connector. SCSI terminology: Shielded Alternate 4 - P cable.
• 80-pin SCA (Single Connector Adapter) - Originally specified in the SCSI-3 specifications for device connection on hot-swap backplanes. Device ID is assigned by the backplane and power connections are included on the connector, so using peripherals with an SCA connector in a cabled system requires the use of an SCA to 68 pin (or 50 pin) adapter with provisions for peripheral power and assignment of ID. SCSI terminology: Non-shielded Alternate 4 - P cable.
  
  

Non-Standard Connectors:

• DB-25 - Not specified in the SCSI specifications, this 25-pin connector can support SLOW 8-bit (narrow) SCSI only and then only with very short cables. Apple Macintosh version became a de facto standard (totally incompatible with the pinout of the old Future Domain 25-pin SCSI connector). Male connector on cable; female on devices.
• 30-pin HDI - A non-standard connector created by Apple for reduced mounting space on their PowerBook notebooks. Not suitable for multiple SCSI devices or long cables because there are only 30 pins.
• DB-50, D-sub connector was used on some older Sun and DG computers for Narrow SCSI applications. 50 pins arranged in three rows.
• 60-pin high-density - A non-standard connector used by IBM. Early in the process of writing the SCSI-2 specification, the ANSI X3T9.2 committee specified a 60-pin connector for 8-bit SCSI that was later abandoned. IBM, however, retained this connector for their PS/2 systems. It is a 60-pin high-density micro-D male connector with spring-latch fasteners. The first 50-pin assignments are identical to the SCSI-2 high-density pinout and pins 51 to 60 are designated as "reserved".
  
  

Capacity: - Amount of memory (measured in megabytes or gigabytes) which can be stored in a disc drive or on a tape drive's data cartridge. Usually given as formatted capacity.

Controller: - a computer module that interprets signals between a host and a peripheral device.

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-D-

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-E-

E_Port - an expansion port on a switch. It is used to link multiple switches together into a Fibre Channel Fabric.

EPI - Enhanced Parallel Interface: - A technical report (X3T10/1143D) of the SCSI committee that describes configurations and extensions which are possible, but not defined, within the existing SCSI standards. This includes extending the SCSI bus length, converting from single-ended to differential SCSI, and hot plugging capabilities.

ESCON - Enterprise Systems connection

Expander: - Expanders were introduced in the EPI document of SCSI-3. Expanders are devices for doing things beyond the normal SCSI definitions that do not require a SCSI ID. Examples of expanders are SCSI enhancement devices such as SCSI Converters, SCSI Bus Extenders, SCSI RegeneratoRs, SCSI repeaters and SCSI switches.

Extender: - An electronic product designed to extend the distance at which peripheral devices may be placed from the host computer system. May use standard SCSI cables for parallel SCSI signals or fiber optic or coaxial cables for serial SCSI transmission. Termed an "expander" in SCSI-3.

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-F-

Fabric - a group of interconnections between ports that include a fabric element

FCP - Fibre Channel Protocol: - A document that shows how to adapt the SCSI-3 protocol to Fibre Channel.

FC-AL - Fibre Channel, Arbitrated Loop: - Refer to Fibre Channel.

F_Port - a port in the fabric where an N_port or NL_port may attach

FL_Port - a port in fabric where an Nport or an NL_Port may attach

FPT: - Refer to Terminator, Force Perfect Termination.

Fairness: - A system included in SCSI-3 which prevents fast devices with a higher priority from "hogging" the bus and preventing devices with a lower priority from gaining control of the bus. Must be used if QAS is implemented.

Fast SCSI: - Defined in the SCSI-2 specifications. Increased the maximum SCSI data throughput from 5 MBytes/second for 8-bit (NARROW) synchronous SCSI-1 to 10 Mbytes/sec. WIDE (16-bit) SCSI synchronous speed increased from 10 Mbytes/second to 20 Mbytes/ second. No effect on asynchronous SCSI speed.

Fast-20: - Refer to Ultra SCSI

Fast-40: - Refer to Ultra2 SCSI

Fast-80: - Refer to Ultra3 SCSI Also known as Ultra160 or Ultra 160/m.

Fast-160: - Refer to Ultra4 SCSI Also known as Ultra320.

Fast-Wide SCSI: - Usually refers to 16-bit (WIDE) SCSI with FAST data transfers of up to 20 MBytes/second. May also refer to 32-bit SCSI FAST data transfers (up to 40 MBytes/ second). Note that 32-bit wide SCSI was obsoleted in the SPI-3 document of SCSI 3.

Fibre Channel: - up to 2 Gigabit per second data transfer interface technology that maps several common transport protocols including IP and SCSI, allowing it to merge high-speed I/O and network functionality in a single connectivity technology; A high-speed, high-bandwidth serial protocol for channels and networks that interconnect over twisted-pair wires, coaxial cable or fiber optic cable. The "fabric" topology of Fibre Channel offers up to 16 million ports with cable lengths of up to 10 kilometers. SCSI will use the lower cost "Arbitrated Loop" topology (FC-AL) of Fibre Channel. FC-AL using fiber optic media offers speeds of up to 100 MBytes/sec and up to 127 ports all connected in serial with up to 25 meters between ports. Fibre Channel on copper wiring is available in several versions from 12.5 MBytes/sec with up to 100 meters of cable to 100 MBytes/sec with up to 25 meters of cable. Does not require ID switches or terminators. The FC-AL loop may be connected to a Fibre Channel "fabric" for connection to other nodes. SCSI on FC-AL will be expensive and will require some changes to software as well as hardware.

FireWire: - Apple's name for their implementation of IEEE 1394. Refer to High Performance Serial Bus (IEEE 1394).

Full duplex - a communication protocol that permits simultaneous transmissions in both directions, usually with flow control.

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-G-

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-H-

HBA - Abbreviation for Host Bus Adapter: - this is the card that fits into the server workstation to provide the interface between the processor and Fibre Channel connection (loop, fabric); See Host Adapter.

HIPPI (High Performance Parallel Interface) - an ANSI standard for high speed transfer of information in a dual simplex manner over a short parallel bus

High Performance Serial Bus (IEEE 1394): - Serial SCSI in SCSI-3 will include mappings for IEEE 1394 as well as FC-AL and SSA. Designed by Apple as a serial replacement for parallel SCSI and called "FireWire" by them. Uses three twisted pair copper cables and, like other serial SCSI schemes has no terminators and no IDs to contend with. Logically it looks like a bus, just like parallel SCSI. It supports isochronous transfers so it is very attractive to time-dependent data applications such as video and audio. Currently supports transfers at 100 Megabits/second (about 10 MBytes/second) but devices are under development to increase this to 200 or 400 Megabits/second. Cable lengths can be up to 5 meters "per hop" with up to 63 nodes or devices. Just starting to show up in consumer electronics such as home entertainment systems with VCR, video cameras, etc.

Host Adapter: - The SCSI card or circuitry in a host computer that allows the host to communicate with the SCSI devices is called a host adapter. The name adapter (as opposed to controller) is tribute to the fact that all the intelligence is located in the target controller on the peripheral device.

Hot Plugging or Hot Swapping: - The ability to remove and replace SCSI devices on the bus. There are four "levels" or "cases" of hot plugging. Case 4 is true hot plugging as it requires that the bus remain running during the plugging action. Ask for Paralan's white paper on hot swapping of SCSI devices.

HSSDC-style Connector - high speed serial direct connect. Copper connector used on both 1-Gb and 2-Gb Fibre Channel devices.

HVD - High Voltage Differential: - Differential SCSI scheme that was defined in SCSI-2 and has been in use for years. HVD SCSI signals are TTL (5V). Not directly compatible with single ended or LVD SCSI unless a SCSI Converter is used. See also Differential SCSI and LVD. Note that HVD SCSI was obsoleted in the SPI-3 document of SCSI-3.

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-I-

I/O - input/output

ID: - The unique address of a SCSI device. 8-bit SCSI can have up to eight IDs; 16-bit up to sixteen IDs; 32-bit up to 32 IDs. There must be a minimum of one target and one initiator on the bus. SCSI IDs range from #00 to #07 for 8-bit; #00 to #15 for 16-bit; and #00 to #31 for 32 bit systems. The host is usually assigned ID #07 as it is the highest priority ID regardless of the width of the bus.

IEEE - Institute of Electrical and Electronic Engineers: - (Pronounced I triple E.) An organization that maintains electronics standards. See also: ANSI.

Information Units: - Information Units is one of the five optional features of Ultra3 SCSI as defined in the SPI-3 document. It is a form of SCSI packetization or encapsulation that is designed to reduce overhead and speed data transfers. The SCSI command and data phases are reduced from a seven to a three phase process and then further combines the status phase and message phase that occur after a data transfer. Also, the timing on the command phase, status phase and message phase is changed from asynchronous to synchronous which results in another reduction in overhead. An "SPI information unit" is a data structure that packetizes data, status, command, task attributes and CRC into various formats. An "information unit transfer" is a transfer of data, status, commands, task attributes, task management, and CRC using only SPI information transfers. Ultra160m (U160/m) SCSI does not include the Information Units option.

Initiator: - A device that begins a SCSI transaction by issuing a command to another device giving it a task to perform. Typically a SCSI host adapter is the initiator but targets may also become initiators.

IP (Internet Protocol) - a set of protocols developed by Department of Defense to communicate between dissimilar computers across networks

IPI (Intelligent Peripheral Interface) - an ANSI standard for controlling peripheral devices by a host computer

Isochronous transfer: - A data transfer that is made within a specified timeframe. Very important for time dependent information such as audio and video. IEEE 1394 offers isochronous data transfer.

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-J-

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-L-

L_Port - an arbitrated loop port

LAN - Local Area Network

LC-style Connector - Compact optical connector used primarily with 2-Gb Fibre Channel devices. This connector can be fixed or pluggable.

L-Cable: - The L-Cable was proposed for use in 32-bit Wide SCSI applications with a shielded 110-pin male micro-D connector. Meant to eliminate the need for both a P-Cable and a Q-Cable in 32-bit Wide applications. No longer viable as 32-bit SCSI was obsoleted in the SPI-3 document of SCSI-3.

LUN - Logical Unit Number: - A method of expanding the number of SCSI devices that can be placed on one SCSI domain. Logical Unit Numbers address up to seven devices at each SCSI ID on an 8-bit bus or up to fifteen devices at each ID on a 16-bit bus.

LVD - Low Voltage Differential: - Originally defined in the SPI-2 document of SCSI-3, uses 3.3 volt logic so consumes less power, dissipates less heat and is faster than HVD SCSI.

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-M-

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-N-

N_Port - a port attached to a node for use with point to point or fabric topology

NARROW SCSI: - A SCSI implementation that has 8-bit data transfers. Most easily identified by its single 50-pin connector.

NL_Port - a port attached to a node for use in all three FC topologies

Node - a device that has at least one N_Port or NL_Port

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-O-

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-P-

P-Cable: - The SCSI-3 specifications defined the P-Cable for use in Wide (16-bit) SCSI applications. Uses 34 twisted pair cable and shielded 68-pin male high-density micro-D connectors with thumbscrew fasteners having a 2-56 thread. Eliminated the need for using both an A-Cable and a B-Cable in 16-bit Wide SCSI applications.

Packetization: - Refer to "Information Units".

Parity checking: - A simple way of detecting errors in SCSI data that is required to be built into all SCSI-2 devices. Counts the number of 1's in a byte of data and sets a parity bit so that the number is always odd or even. SCSI uses odd parity. You can use parity checking only if all devices on the bus use parity checking. Parity checking will be replaced by CRC in Ultra 4 SCSI.

Point-to-Point - a topology where two points communicate

Port - an access point in a device where a link attaches

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-Q-

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-R-

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-S-

SAN (Storage Area Network) - a dedicated, high-speed network that establishes a direct connection between storage elements and servers.

SASI - Shugart Associates Systems Interface: - The predecessor to the SCSI bus. Developed by Shugart Associates in 1979. The first intelligent hard disk interface designed for smaller computers. Defined single-ended SCSI and offered maximum data throughput of 1.5 Mbytes/second, asynchronous and 8-bit only. Expanded by ANSI Committee X3T9.2 and released as IEEE SCSI (now called SCSI-1) specification number X3.131-1986 in June of 1986.

SCA - Single Connector Attachment: - This 80-pin connector contains the SCSI signals, some control signals including device ID and power. Designed as a SCSI device connector for hot swap backplane systems. SCA-2, an enhanced version, is part of the SPI-2 document.

SCAM - SCSI Configured AutoMatically: - In combination with Intel/Microsoft's Plug-and-Play SCAM allowed users to interconnect SCSI host adapters and peripheral devices with no need to set configuration switches or jumpers. All configuration will be accomplished by the computer. SCAM rendered obsolete in SPI-3 document of SCSI-3.

SCSI - Small Computer Systems Interface: - An intelligent peripheral I/O interface with a standard, device independent protocol that allows many different peripheral devices to be attached to the host's SCSI port. Allows up to 8, 16 or 32 addresses on the bus depending on the width of the bus. Devices can include multiple hosts (initiators) and peripheral devices (targets) but must include a minimum of one of each. 32 bit SCSI was rendered obsolete in the SPI-3 document of SCSI-3. See SCSI-1 X3.131-1986.

SCSI-1: - A derivative of SASI. Specification first released by ANSI in 1986 as X3.131-1986. Originally included synchronous and asynchronous data transfers at speeds up to 5 Megatransfers per second (5 MBytes/sec for 8 bit). Defined the single-ended narrow interface with the "idc" internal connector and the centronics type external connector. Did not include definitions of a device independent interface.

SCSI-2: - The next generation of SCSI by ANSI Committee X3T9.3 and released as specification X3.131-1994 in January of 1994. Arguably the most significant addition of SCSI-2 is the expanded definition of the common command set (CCS). Defines 16-bit and 32-bit WIDE data bus. Increases the maximum data throughput to 10 Megatransfers /second (10 MBytes/ second for 8-bit; 20 Megabytes/second for 16-bit; and 40 Megabytes/second for 32-bit). Added the smaller 50-pin high-density micro-D connector. Strongly recommends active terminators for single-ended bus. Backward compatible with SCSI-1.

SCSI-3: - An ANSI Committee X3T10 work in progress. With the new SCSI Architecture Model, a "SCSI-3" specification will not be published. Instead, a collection of stand-alone documents, each with its own rev number will be introduced. These documents include enhancements for parallel SCSI as well as definitions for serial SCSI to allow interface to serial buses such as Fibre Channel, SSA and FireWire. Parallel SCSI enhancements include Ultra SCSI (also called Fast-20) which doubles SCSI-2 speeds to a maximum data throughput of 20 Megatransfers/second (20 MBytes/sec for 8-bit SCSI; 40 MBytes/sec for 16-bit SCSI). The SPI-2 document of SCSI-3 includes Ultra2 SCSI (also called Fast-40) which doubles these data throughputs again and requires low voltage differential (LVD) signalling for 80 Mbyte/sec transfers.
The Ultra 160 (also called Fast 80) interface will be found in SPI-3 for 160 Mbyte/sec data transfers. SPI-3 obsoletes the 32-bit wide interface, the high voltage differential (HVD) interface and SCAM. Future enhancements will include 320 MBytes/second transfers. SCSI-3 defined a single cable (the P-cable) to eliminate the necessity to use two cables (the A-cable and B-cable) for 16-bit SCSI. The EPI document of SCSI-3 includes definitions for expanders including SCSI enhancement devices such as converters. The new interfaces are backward compatible with SCSI-2 as well as SCSI-1 via the single-ended interface.

SCSI Bus Mastering: - A method of controlling arbitration in a SCSI domain such that two segments of a SCSI bus will maintain proper arbitration protocols over distance without having to modify the arbitration timing of the devices on the bus.

SPI - The SCSI-3 Parallel Interface (pronounced "spy"): - The sections of the SCSI-3 specification dealing with parallel SCSI.

SSA - Serial Storage Architecture: - An open serial interface standard developed by IBM called Serial Storage Architecture that has been submitted to the ANSI X3T10.1 subcommittee for approval as an ANSI standard. Incorporates a dual port full-duplex module capable of maintaining four conversations simultaneously for a total of up to 80 MBytes/sec. Includes multiple signal paths for fault tolerance and provides hot plugging and automatic configuration when nodes are added. With shielded twisted pair cable, nodes can be up to 20 meters (65.6 feet) apart. The optical fiber implementation extends this to 2.5 Km. A loop configuration can support up to 127 nodes. Uses 9-pin miniature D-shell connectors with two twisted wire pairs. Requires modified system firmware when interfacing to SCSI. Mapping for SSA will be included in SCSI-3.

STA - SCSI Trade Association: - This organization was formed in October 1995, and is focused on developing and marketing parallel SCSI. STA is the response to the serial SCSI hype and its goal is to channel the support for parallel SCSI.

Segment: - This term was introduced in the EPI technical report. A SCSI bus segment is defined as two terminators and all devices between them. See also: domain.

Single-ended SCSI: - Refers to a manner in which the SCSI cable is driven by SCSI devices. Single-ended SCSI drives one signal line against ground. Susceptibility to noise limits the maximum allowable cable lengths. SLOW SCSI (up to 5 Megatransfers/second) cabling may be up to 6 meters (19.7 feet) long; FAST SCSI (up to 10 Megatransfers/second) cabling up to 3 meters (9.8 feet) long; and Ultra SCSI (up to 20 Megatransfers/ second) cabling up to 1.5 meters (4.9 feet) long with more than 5 active IDs and up to 3 meters (9.84 feet) with fewer than 5 active IDs. Single-ended and differential SCSI (HVD or LVD) are not compatible on the same bus segment without an electronic device such as a SCSI converter to convert between single-ended and differential. With rare exception, no software (driver) modifications are necessary for conversion between single-ended and differential. There are several variations of terminators developed for use with single-ended SCSI (refer to Terminators) and Differential SCSI).

Skew: - Differences in the arrival times (or departure times) of signals in a parallel SCSI system. Skew is caused by small delay differences in the paths of each SCSI signal including small differences in the length of the wire pairs. Deskew delays in the timing specifications compensate for some skew. Skew becomes ever more important with the tighter timing tolerances required by increasing data throughput.

SLOW SCSI: - SCSI systems with up to 5 Megatransfers/second maximum synchronous data throughput.

Stub: - An unterminated SCSI bus section branching off the main SCSI bus. The SCSI specification dictates that a stub is to be no longer than 0.1 meters (4 inches) for single ended or LVD SCSI and no longer than 0.2 meters (8 inches) for HVD SCSI. Stubs cause lots of difficult-to-trace problems. Stubs are unavoidable but keep them to a minimum and remember that SCSI devices have stubs that cannot be removed (the PC board traces from the connector on a disk drive to its electronic circuitry are stubs).

Sustained Transfer Rate: - The sustained transfer rate is the rate at which a SCSI device can read (or write) data from the medium continuously. Using buffers, the actual rate on the SCSI bus is often much higher (also see: burst rate).

Switch - enabling devices for large fabrics. Can be connected together to allow scalability to thousands of nodes

Synchronous (SYNC) transfer: - A method of transferring data that does not require that the bus wait for a REQ-ACK handshake for each byte of data. Instead, the target is allowed to send a number of REQ pulses without waiting for return ACK pulses. This number of REQ pulses is called the "offset". Offset is the maximum number of unanswered REQ pulses that can exist at a given time and may be any number although it is normally something like 8. Offset eliminates the requirement to wait for an ACK for every REQ and avoids the effect of propagation delay in the SCSI cable. The result is a more efficient utilization of the SCSI bus bandwidth and gives a maximum data transfer rate of 5 Megatransfers/second for SCSI-1 NARROW, 10 Megatransfers/second for FAST SCSI and 20 Megatransfers/second for Ultra SCSI. All SCSI bus negotiations, even on a synchronous SCSI bus, are carried on asynchronously. On a synchronous SCSI bus, only the actual data transfers are accomplished synchronously.

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-T-

• Passive - Termed "Alternative 1" in SCSI-2 - The simplest form of terminator consisting of a 220 ohm resistor from TERMPWR to the signal line and a 330 ohm resistor from the signal line to ground. Low cost but has the disadvantage that any fluctuations in the TERMPWR voltage will show up on the signal lines of the bus which may cause data errors. SCSI-2 recommends the use of active terminators whenever possible for single-ended SCSI. Differential (HVD) SCSI uses only passive terminators.
• Active - Termed "Alternative 2" in SCSI-2 - Because fluctuations in the TERMPWR voltage supplied to passive terminators shows up as fluctuations in signal levels, active terminators include a voltage regulator to reduce the effect of fluctuations in TERMPWR to insignificance. Uses only a 110 ohm resistor from the regulator to the signal line which is a much closer match to the SCSI cable impedance. Results in more stable SCSI signals, less signal reflection and fewer data errors.
• Force Perfect Termination (FPT) - Not recognized in the SCSI specifications. Single-ended termination method utilizing diode switching and biasing to actively compensate for impedance mismatches between the SCSI cabling and the peripheral device. You should be aware that there are several designs of FPT that may not be totally compatible. Also, our customers have found that, generally speaking, FPT likes to "talk" only to FPT.
• LVD - Terminator - A form of active termination necessary for the LVD SCSI bus. Defined in the SPI-2 and SPI-3 documents of the SCSI-3 specifications. There are LVD only terminators and "multimode LVD" or "LVD/MSE" terminators. The latter should be used if there is a possibility that a single-ended device will be connected to the multimode LVD bus.
• LVD/MSE - LVD that uses "Multimode" transceivers. Depending on the voltage level appearing on the DIFFSENSE pin of the cable, the Multimode transceivers of LVD/MSE will be automatically configured for LVD or single-ended (SE). Most new SCSI designs will include Multimode transceivers.

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-U-

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-X-

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-Z-

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