KA750 CPU

From Computer History Wiki
Revision as of 18:47, 3 June 2022 by Jnc (talk | contribs) (Move impl technology to main 750 article; add PCS)
Jump to: navigation, search
VAX-11/750 system block diagram, showing the major KA750 functional units

The KA750 CPU was the CPU of the VAX-11/750.It was a synchronous microcoded design. Internally, there were several main busses connecting together functional units within the CPU:

  • MBus
  • WBus
  • Control store address (CSA)
  • RBus

The MBus and WBus are tri-state, 32 bits wide; fields in the micro-instructions specify the source which will use each bus on each cycle. The RBus connects scratchpad registers to the ALU and 'super rotator'.

Microcode supported micro-subroutines, up to 15 levels deep.

Components

The basic KA750 was implemented in four large PCBs:

  • L0002 Data Path Module (DPM) - arithmetical and logical functions, micro-sequencer
  • L0003 Memory Interconnect (MIC) - virtual memory translation buffer, cache, main memory interface
  • L0004 UNIBUS Interface (UBI) - UNIBUS control and function, ancillary functions
  • L0005 CPU Control Store (CCS) - microcode ROMs, interface to optional KU750 Writable Control Store (WCS - sometimes informally called the User Control Store - on a daughter-board of the CCS)

The L0005 CCS was later replaced by the L0008 Patchable Control Store (PCS). Originally, the concept was that the KA750's microcode would not change often, so it was stored in [[read-only memory|PROM (unlike the KL10 and KA780). This turned out to be incorrect; like most software, bugs were found regularly. The PCS is designed to store the basic microcode in PROM, but to allow it to be 'patched' dynamically.

CPU options use other boards:

  • L0006 - Remote Diagnostic Module (RDM)
  • L0001 - FP750 Floating-Point Accelerator (FPA)

The base CPU does support floating point, but implemented entirely in microcode; the FP750 increases floating-point performance substantially.

External links