Difference between revisions of "Extended Memory Interconnect"

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The '''Extended Memory Interconnect''' (usually given as the acronym: '''XMI''') was a [[bus]] introduced with the [[VAX 6000 series]], and also used in later [[Digital Equipment Corporation|DEC]] [[VAX]] computers, to cope with increased requirements, e.g bandwidth.
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The '''Extended Memory Interconnect''' (usually given as the acronym: '''XMI''') was a [[bus]] introduced with the [[VAX 6000 series]], and also used in other later [[Digital Equipment Corporation|DEC]] [[VAX]] computers, to cope with increased requirements, e.g bandwidth. It supports multiple processors, multiple memory modules, and multiple I/O adapters.  
  
 
==Overview==
 
==Overview==
  
The XMI bus supports multiple processors, multiple memory modules, and multiple I/O adapters. It consists of:
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The constituent elements of the XMI bus are:
  
* the electrical environment of the XMI bus,
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* the [[analog]] electrical element of the bus,
 
* the [[protocol]] observed by a node on the bus,
 
* the [[protocol]] observed by a node on the bus,
 
* the [[backplane]], and
 
* the [[backplane]], and
 
* the [[logic]] used to implement the protocol.
 
* the [[logic]] used to implement the protocol.
  
The XMI is limited length, [[synchronous]], and has centralized [[arbitration]] (individual [[bus grant line]]s run from the arbitrator to each slot in the backplane). Arbitration and data transfers use logically separate divisions of the bus, so they can occur in parallel.
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The XMI is of limited length, is [[synchronous]], and has centralized [[arbitration]] (individual [[bus grant line]]s run from the [[arbitrator]] to each slot in the backplane). Arbitration and data transfers use logically separate divisions of the bus, so they can occur in parallel.
  
It is also 'pended', which means that an operation can be left in an incomplete state, to allow other entities to use the bus. Several transactions can thus be in progress at any time, rather than forcing later operations to wait for the completion of an earlier operation before they can begin; this allows highly efficient use of the bus bandwidth.
+
It is also 'pended', which means that an operation can be left in an incomplete state, to allow other entities to use the bus, before resuming, and finishing. Several transactions can thus be in progress at any time, rather than forcing later operations to wait for the completion of an earlier operation before they can begin; this allows highly efficient use of the bus bandwidth.
  
The XMI is the primary interconnect for the [[VAX 6000 Model 200|VAX 6200]] system.
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The XMI is the primary interconnect for the [[VAX 6000 Model 200|VAX 6200]] system:
  
 
[[File:VAX 6200 Four-Processor System Block Diagram.png|thumb|400px|left|A four-processor VAX 6200 system]]
 
[[File:VAX 6200 Four-Processor System Block Diagram.png|thumb|400px|left|A four-processor VAX 6200 system]]
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The longword operations implement byte and word modes required by certain I/O devices.  
 
The longword operations implement byte and word modes required by certain I/O devices.  
  
The XMI has a 64 ns bus cycle. It has a bandwidth of 100 Mbytes per second; however, the usable bandwidth depends on transaction length:
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It has a 64 ns bus cycle, and a bandwidth of 100 Mbytes per second; however, the usable bandwidth depends on transaction length:
  
 
{| class="wikitable"
 
{| class="wikitable"
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|}
 
|}
  
==XMI Versions==
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==XMI versions==
  
The XMI bus started with the "+5V '''XMI-1'''" version which was developed to the "+3.3V '''XMI-2'''" version later on.
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The XMI bus started with the "+5V '''XMI-1'''" version, which was developed to the "+3.3V '''XMI-2'''" version later.
  
There was an upgrade kit option H9657-CU that takes a VAX 6000 Model 200, 300, or 400 system with an XMI-1 power system and upgrades it to a VAX 6000 Model 500 with an XMI-2 power system. The upgrade adds +3.3 volt power, an XMI-2 backplane preassembled with bus bars and cables, and an H7206-B power and logic unit.  
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There was an upgrade kit, option H9657-CU, which takes a VAX 6000 Model 200, 300, or 400 system with an XMI-1 power system, and upgrades it to a VAX 6000 Model 500, with an XMI-2 power system. The upgrade adds +3.3 volt power, an XMI-2 backplane pre-assembled with bus bars and cables, and an H7206-B power and logic unit.  
  
 
{{semi-stub}}
 
{{semi-stub}}
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==External links==
 
==External links==
  
* [http://www.bitsavers.org/pdf/dec/vax/6200/EK-620AA-TM-001_Tech_May88.pdf VAX 6200 Technical User's Guide] (EK-620AA-TM-001) - the XMI is covered in Chapter 2, pp. 37-91 of the PDF
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* [http://www.bitsavers.org/pdf/dec/vax/6200/EK-620AA-TM-001_Tech_May88.pdf VAX 6200 Technical User's Guide] (EK-620AA-TM-001) - the XMI is covered in Chapter 2 (pp. 37-91 of the PDF)
 
* [http://www.vaxhaven.com/images/f/fc/EK-650EB-UP-002.pdf EK-650EB-UP-002 VAX 6000 XMI Conversion Manual]
 
* [http://www.vaxhaven.com/images/f/fc/EK-650EB-UP-002.pdf EK-650EB-UP-002 VAX 6000 XMI Conversion Manual]
  

Revision as of 07:19, 19 March 2023

The Extended Memory Interconnect (usually given as the acronym: XMI) was a bus introduced with the VAX 6000 series, and also used in other later DEC VAX computers, to cope with increased requirements, e.g bandwidth. It supports multiple processors, multiple memory modules, and multiple I/O adapters.

Overview

The constituent elements of the XMI bus are:

  • the analog electrical element of the bus,
  • the protocol observed by a node on the bus,
  • the backplane, and
  • the logic used to implement the protocol.

The XMI is of limited length, is synchronous, and has centralized arbitration (individual bus grant lines run from the arbitrator to each slot in the backplane). Arbitration and data transfers use logically separate divisions of the bus, so they can occur in parallel.

It is also 'pended', which means that an operation can be left in an incomplete state, to allow other entities to use the bus, before resuming, and finishing. Several transactions can thus be in progress at any time, rather than forcing later operations to wait for the completion of an earlier operation before they can begin; this allows highly efficient use of the bus bandwidth.

The XMI is the primary interconnect for the VAX 6200 system:

A four-processor VAX 6200 system


The XMI supports:

  • Quadword-, octaword-, and hexword-length reads to memory
  • Quadword- and octaword-length memory writes
  • Longword-length read and write operations to I/O space

The longword operations implement byte and word modes required by certain I/O devices.

It has a 64 ns bus cycle, and a bandwidth of 100 Mbytes per second; however, the usable bandwidth depends on transaction length:

Usable XMI Bandwidth
Operation Bandwidth (Mbytes/second)
Longword (4 bytes) Read 31.25
Quadword (8 bytes) Read 62.50
Octaword (16 bytes) Read 83.30
Hexword (32 bytes) Read 100.00
Longword Write 31.25
Quadword Write 62.50
Octaword Write 83.30

XMI versions

The XMI bus started with the "+5V XMI-1" version, which was developed to the "+3.3V XMI-2" version later.

There was an upgrade kit, option H9657-CU, which takes a VAX 6000 Model 200, 300, or 400 system with an XMI-1 power system, and upgrades it to a VAX 6000 Model 500, with an XMI-2 power system. The upgrade adds +3.3 volt power, an XMI-2 backplane pre-assembled with bus bars and cables, and an H7206-B power and logic unit.

External links