Summary
The Rockwell PPS-4, short for "Parallel Processing System, 4-bit", was an early 4-bit microprocessor from Rockwell International, released in late 1972. Although practically unknown today, the PPS series was widely used in calculators, games and toys, and other embedded applications. Updated versions continued to be produced into the 1980s.
 PPS-4/1 single-chip model | |
| General information | |
|---|---|
| Launched | 1972 |
| Discontinued | 1990s |
| Common manufacturer(s) |
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| Performance | |
| Max. CPU clock rate | 256 kHz |
| Data width | 8 instruction, 4 data |
| Address width | 12 |
| Physical specifications | |
| Package(s) |
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The original version was implemented in a three-chip set, consisting of the CPU, a clock generator, and a user ROM. In 1975, the clock generator was integrated to produce the PPS-4/2 with a variety of ROM and RAM support chips. In 1976, the PPS-4/1 added user-customized ROM to produce a single-chip solution, running at a lower speed.
The release of the PPS-4/1 coincided with the release of the Rockwell PPS-8, an 8-bit version of the system. New support chips released for the PPS-8 also worked with the PPS-4/1. These later versions of the lineup continued to be produced into the 1980s. The PPS-8, however, was abandoned shortly after its introduction as more advanced 8-bit processors entered the market.
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Description edit
The PPS-4 was built on a metal gate process, compared to the contemporary Intel 4004 which was based on the more advanced silicon gate PMOS logic process. This required large amounts of power; it ran on a -17 VDC power supply while running at only 256 kHz, whereas the 4004 ran at 750 kHz on a 15 VDC supply.
The CPU, part number 10660,[a] was packaged in a 42-pin quad in-line package. The pins included a 12-pin address bus, 8-pin data bus and three 4-pin input/output ports that could be combined in different ways. Power supply and clock signals took up the rest of its 42 pins.
PPS-4's separate data and address buses meant it could read an 8-bit instruction in a single cycle. In contrast, the 16-pin 4004 had 4-bit data and address buses, meaning specifying a 12-bit address required external latches and several cycles to specify the address and then read an instruction. This meant the PPS-4 performed at roughly the same overall speed as the 4004 in spite of running at 1⁄3 the clock speed.
A complete system used the 10660 CPU, the 10706 clock generator in a 10-pin TO-5 package, and one of a variety of ROM or RAM chips. The clock was two-phase and based on a standard NTSC crystal due to their widespread availability.
The PPS-4/2 was introduced in the autumn of 1975, combining the clock chip onto the die and reducing the system to two chips, the 11660 CPU and a ROM or RAM. It also had a built-in LED controller. This would normally be used with the Memory/IO System chip, which combined 2 KB of ROM, 128 bytes of RAM, and 16 serial ports that could be combined in various ways.
The PPS-4/1 followed in early 1976, moving at last to a PMOS process, while most other companies had since moved to the new NMOS logic. This was designed to work with the recently released PPS-8, which also used the PMOS process. The two were designed to work with a common set of interface chips. A wide variety of PPS-4/1 models were produced, with different amounts of RAM, ROM and I/O ports build into the die. These versions ran much slower than the original models, between 40 and 100 kHz.
Notes edit
- ^ As noted by the designer Ray Lubow, the name was selected so that when it was fabricated onto the wafer it looked like "lubb0", as close to his name as possible.
References edit
- PPS Microprocessor Circuits for Microcomputers (PDF) (Technical report). Rockwell International. 10 January 1975.
- "Rockwell PPS-4/1 The other 4-bit Processor". The CPU Shack. 6 May 2013.
- PPS 4/2 Two-Chip Microcomputer System (PDF) (Technical report). Rockwell International. 1975.