Difference between revisions of "KS10"

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| design type =  clocked synchronous [[microcode]]d
 
| design type =  clocked synchronous [[microcode]]d
 
| uword width = 96
 
| uword width = 96
| ucode length = 2K words
+
| ucode length = 2K
| clock speed = 20 MHz
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| clock speed = 300 nsec (micro-cycle)
 
| cache size = 512 words
 
| cache size = 512 words
<!-- | memory speed = 1.0 μsec (fast), 1.8 μsec (slow) -->
+
| cache speed = 300 nsec
 +
| memory speed = 0.9 μsec
 
| memory mgmt = [[paging]], 512-word pages
 
| memory mgmt = [[paging]], 512-word pages
 
| operating system = [[TOPS-10]], [[TOPS-20]], [[Incompatible Timesharing System|ITS]]
 
| operating system = [[TOPS-10]], [[TOPS-20]], [[Incompatible Timesharing System|ITS]]
 
| predecessor = [[KL10]]
 
| predecessor = [[KL10]]
| successor = [[None]]
+
| successor = None
 
<!-- | price = US$200K (CPU), US$500K-1M (system) -->
 
<!-- | price = US$200K (CPU), US$500K-1M (system) -->
 
}}
 
}}
  
The '''KS10''' was the fourth and last generation of [[PDP-10]] processors (themselves, exact re-implementations of the earlier [[PDP-6]] architecture). It was built out of [[LS TTL]] [[chip]]s, along with [[AMD 2901]] bit slice chips, on four [[DEC card form factor|super hex]] cards.
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The '''KS10''' was the fourth and last generation of [[PDP-10]] processors (themselves, exact re-implementations of the earlier [[PDP-6]] architecture). It was intended as a small, low-cost entry model, not as a replacement for the earlier [[KL10]] [[mainframe]].
 +
 
 +
It was built out of [[LS TTL]] [[chip]]s, along with [[AMD 2901]] 4-bit-wide bit slice chips. The [[Central Processing Unit|CPU]] was on four [[DEC card form factor|super hex]] cards:
 +
 
 +
* DPE data path
 +
* DPM data path
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* CRA control store
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* CRM control store
 +
 
 +
Additional cards held:
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* CSL - the console (driven by an [[Intel 8080|Intel 8080A]]), and bus arbitrator
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* MMC - [[main memory]] controller
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* MMA - memory array modules (2 to 8)
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* UBA - [[UNIBUS]] adapters (2; one for the [[disk]]s, the other for everthing else)
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 +
A separate page table maps the UNIBUS [[address space]] into the KS10's main memory for [[Direct Memory Access|DMA]] operations. The UNIBUS which is used for the disks is run in 18-bit mode (the two parity lines on the UNIBUS are recycled into two extra data lines), and has an [[RH11 MASSBUS controller|RH11]] to drive the [[MASSBUS]] to the disks (only MASSBUS disks are supported, since an 18-bit data path is needed).
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8 different sets of CPU [[register]]s are provided, to speed up [[interrupt]] handling. The main memory uses [[ECC]] for error detection (and possibly correction).
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[[Category:DEC CPUs]]

Revision as of 02:35, 20 October 2017


KS10
Manufacturer: Digital Equipment Corporation
Architecture: PDP-10
Year Introduced: 1978
Form Factor: small mainframe
Word Size: 36 bits
Logic Type: LS TTL ICs
Design Type: clocked synchronous microcoded
Microword Width: 96
Microcode Length: 2K
Clock Speed: 300 nsec (micro-cycle)
Cache Size: 512 words
Cache Speed: 300 nsec
Memory Speed: 0.9 μsec
Physical Address Size: 19 bits (some had 20)
Virtual Address Size: 18 bits
Memory Management: paging, 512-word pages
Operating System: TOPS-10, TOPS-20, ITS
Predecessor(s): KL10
Successor(s): None


The KS10 was the fourth and last generation of PDP-10 processors (themselves, exact re-implementations of the earlier PDP-6 architecture). It was intended as a small, low-cost entry model, not as a replacement for the earlier KL10 mainframe.

It was built out of LS TTL chips, along with AMD 2901 4-bit-wide bit slice chips. The CPU was on four super hex cards:

  • DPE data path
  • DPM data path
  • CRA control store
  • CRM control store

Additional cards held:

  • CSL - the console (driven by an Intel 8080A), and bus arbitrator
  • MMC - main memory controller
  • MMA - memory array modules (2 to 8)
  • UBA - UNIBUS adapters (2; one for the disks, the other for everthing else)

A separate page table maps the UNIBUS address space into the KS10's main memory for DMA operations. The UNIBUS which is used for the disks is run in 18-bit mode (the two parity lines on the UNIBUS are recycled into two extra data lines), and has an RH11 to drive the MASSBUS to the disks (only MASSBUS disks are supported, since an 18-bit data path is needed).

8 different sets of CPU registers are provided, to speed up interrupt handling. The main memory uses ECC for error detection (and possibly correction).