Difference between revisions of "GE-645"
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− | The '''GE-645''' was a | + | The '''GE-645''' was a large [[mainframe]] computer, created for use by the [[Multics]] project. It had hardware support for a [[single-level store]], around which Multics was organized, as well as [[paging]]; although the two are logically separate, the two were both implemented by the same hardware (the 'Appending Unit', the main addition to the [[GE-635]], of which it was an enhanced descendant). The Multics group selected the GE-645, proposed to it by [[General Electric]], after [[International Business Machines|IBM]] refused to add necessary features, such as [[virtual memory]], to the [[IBM System/360|System 360]]. |
− | [[Address]]es in the GE-645 were notionally 36 bits wide (it was a 36-bit machine, as was common for scientific computers in that period): an 18-bit [[segment]] number, and an 18-bit offset within the segment. Due to its legacy as a modified GE-635, | + | [[Address]]es in the GE-645 were notionally 36 bits wide (it was a 36-bit machine, as was common for scientific computers in that period): an 18-bit [[segment]] number, and an 18-bit offset within the segment. Due to its legacy as a modified GE-635, [[instruction]]s, and many of the internal [[register]]s in the CPU, did not directly handle full 36-bit addresses, though. |
+ | |||
+ | ==Registers== | ||
The CPU included a single-width [[accumulator]]; a single-width 'multiplier quotient'; eight half-with [[index register]]s; a half-width Instruction Counter (the [[Program Counter]]); a half-width Procedure Base Register (these last two together formed a full segment-addressed PC); a Descriptor Base Register (below); and eight Address Base Registers (likewise). | The CPU included a single-width [[accumulator]]; a single-width 'multiplier quotient'; eight half-with [[index register]]s; a half-width Instruction Counter (the [[Program Counter]]); a half-width Procedure Base Register (these last two together formed a full segment-addressed PC); a Descriptor Base Register (below); and eight Address Base Registers (likewise). | ||
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An Address Base Register (ABR) can be used to hold a segment number; an instruction can specify that its data address is formed from the segment number in an ABR, and an offset in the instruction. ABRs can also be paired, so that one contains an offset, and a second (specified in the first ABR) contains the segment. | An Address Base Register (ABR) can be used to hold a segment number; an instruction can specify that its data address is formed from the segment number in an ABR, and an offset in the instruction. ABRs can also be paired, so that one contains an offset, and a second (specified in the first ABR) contains the segment. | ||
+ | |||
+ | ==Modes== | ||
A GE-645 CPU operated in either Absolute mode, in which [[memory management]] was disabled; Master mode, in which the memory management was operational (although certain limitations were disabled), but there were no limitations on which [[instruction]]s could be executed; or Slave mode, in which all user code normally operated: | A GE-645 CPU operated in either Absolute mode, in which [[memory management]] was disabled; Master mode, in which the memory management was operational (although certain limitations were disabled), but there were no limitations on which [[instruction]]s could be executed; or Slave mode, in which all user code normally operated: | ||
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| Controlled access || No || Yes || Yes | | Controlled access || No || Yes || Yes | ||
|} | |} | ||
+ | |||
+ | ==Implementation== | ||
The basic overall [[architecture]] of the GE-645 was inherited from the GE-635 (although larger configurations were supported): it was a [[tightly-coupled]] [[multi-processor]], with all the [[Central Processing Unit|CPUs]] sharing access to a collection of [[multi-port memory]] modules. [[Input/output|I/O]] activities were handled by Input/Output Controller modules, which similarly shared access to the memory modules. | The basic overall [[architecture]] of the GE-645 was inherited from the GE-635 (although larger configurations were supported): it was a [[tightly-coupled]] [[multi-processor]], with all the [[Central Processing Unit|CPUs]] sharing access to a collection of [[multi-port memory]] modules. [[Input/output|I/O]] activities were handled by Input/Output Controller modules, which similarly shared access to the memory modules. | ||
+ | |||
+ | It was made from discrete [[transistor]]s; among the last computers to be so constructed. Very few were built; known instances were at MIT, GE Phoenix, [[Bell Labs]] Murray Hill, Rome Air Development Center, [[Honeywell]] Billerica, and Bull Paris. | ||
==External links== | ==External links== | ||
− | + | ||
− | * [http://www.bitsavers.org/pdf/ge/GE-645/LSB0468_GE-645_System_Manual_Jan1968.pdf GE-645 System Manual] | + | * [http://www.bitsavers.org/pdf/ge/GE-645/ GE-645] - documentation at [[Bitsavers]] |
+ | ** [http://www.bitsavers.org/pdf/ge/GE-645/LSB0468_GE-645_System_Manual_Jan1968.pdf GE-645 System Manual] | ||
* [https://multicians.org/fjcc2.html System Design of a Computer for Time Sharing Applications] | * [https://multicians.org/fjcc2.html System Design of a Computer for Time Sharing Applications] | ||
+ | * [https://multicians.org/ge635.html The GE-635s at Project MAC and BTL] - describes the creation of the 645 | ||
+ | * [https://www.multicians.org/features.html#tag2 Multics Hardware Features] - covers the creation of the GE-645 | ||
* [https://multicians.org/645-board.html GE-645 Circuit Board] | * [https://multicians.org/645-board.html GE-645 Circuit Board] | ||
[[Category: Mainframes]] | [[Category: Mainframes]] |
Latest revision as of 17:00, 12 January 2024
The GE-645 was a large mainframe computer, created for use by the Multics project. It had hardware support for a single-level store, around which Multics was organized, as well as paging; although the two are logically separate, the two were both implemented by the same hardware (the 'Appending Unit', the main addition to the GE-635, of which it was an enhanced descendant). The Multics group selected the GE-645, proposed to it by General Electric, after IBM refused to add necessary features, such as virtual memory, to the System 360.
Addresses in the GE-645 were notionally 36 bits wide (it was a 36-bit machine, as was common for scientific computers in that period): an 18-bit segment number, and an 18-bit offset within the segment. Due to its legacy as a modified GE-635, instructions, and many of the internal registers in the CPU, did not directly handle full 36-bit addresses, though.
Registers
The CPU included a single-width accumulator; a single-width 'multiplier quotient'; eight half-with index registers; a half-width Instruction Counter (the Program Counter); a half-width Procedure Base Register (these last two together formed a full segment-addressed PC); a Descriptor Base Register (below); and eight Address Base Registers (likewise).
The Descriptor Base Register (DBR) points to the 'descriptor segment', which is an array of 'segment descriptor words' (SDWs) - one for each segment in a process' address space. When switching to a different process, only the DBR needs to be reloaded.
An Address Base Register (ABR) can be used to hold a segment number; an instruction can specify that its data address is formed from the segment number in an ABR, and an offset in the instruction. ABRs can also be paired, so that one contains an offset, and a second (specified in the first ABR) contains the segment.
Modes
A GE-645 CPU operated in either Absolute mode, in which memory management was disabled; Master mode, in which the memory management was operational (although certain limitations were disabled), but there were no limitations on which instructions could be executed; or Slave mode, in which all user code normally operated:
Limitation | Mode | ||
---|---|---|---|
Absolute | Master | Slave | |
Privileged instructions | Yes | Yes | No |
Interrupt inhibit | Yes | Yes | No |
Instruction fetch | Absolute | Segmented | Segmented |
Operand fetch | Either | Segmented | Segmented |
Controlled access | No | Yes | Yes |
Implementation
The basic overall architecture of the GE-645 was inherited from the GE-635 (although larger configurations were supported): it was a tightly-coupled multi-processor, with all the CPUs sharing access to a collection of multi-port memory modules. I/O activities were handled by Input/Output Controller modules, which similarly shared access to the memory modules.
It was made from discrete transistors; among the last computers to be so constructed. Very few were built; known instances were at MIT, GE Phoenix, Bell Labs Murray Hill, Rome Air Development Center, Honeywell Billerica, and Bull Paris.
External links
- GE-645 - documentation at Bitsavers
- System Design of a Computer for Time Sharing Applications
- The GE-635s at Project MAC and BTL - describes the creation of the 645
- Multics Hardware Features - covers the creation of the GE-645
- GE-645 Circuit Board