dec.pdp-1.three_men_working_near_system.ca1960.102652239.lgThe PDP-1 (Programmed Data Processor-1) was the first computer in Digital Equipment Corporation’s PDP series and was first produced in 1959. It is famous for being the computer most important in the creation of hacker culture at MIT, BBN and elsewhere.The PDP-1 was also the original hardware for playing history’s first game on a minicomputer, Steve Russell’s Spacewar!.


The PDP-1 used an 18-bit word size and had 4096 words as standard main memory (equivalent to 9,216 eight-bit bytes, though the system actually used six-bit bytes), upgradable to 65,536 words. The magnetic core memory’s cycle time was 5 microseconds (corresponding roughly to a “clock speed” of 200 kilohertz; consequently most arithmetic instructions took 10 microseconds (100,000 operations per second) because they used two memory cycles: one for the instruction, one for the operand data fetch. Signed numbers were represented in one’s complement. The PDP-1 had computing power roughly equivalent to a 1996 pocket organizer and a little less memory.

XD116-79A.lgThe PDP-1 was built mostly of DEC 1000-series System Building Blocks, using Micro-Alloy and Micro-Alloy-Diffused transistors with a rated switching speed of 5 MHz. The System Building Blocks were packaged into several 19-inch racks. The racks were themselves packaged into a single large mainframe case, with a hexagonal control panel containing switches and lights mounted to lay at table-top height at one end of the mainframe. Above the control panel was the system’s standard input/output solution, a punch tape reader and writer.


The design of the PDP-1 was based on the pioneering TX-0 computer, designed and built at MIT Lincoln Laboratory. Benjamin Gurley was the lead engineer on the project. After building the first models in December 1959, the first PDP-1 was delivered to Bolt, Beranek and Newman (BBN) in November 1960, and formally accepted the next April. In 1962, DEC donated the engineering prototype PDP-1 to MIT, where it was placed in the room next to its ancestor, the TX-0 computer, which was by then on indefinite loan from Lincoln Laboratory.

In this setting, the PDP-1 quickly replaced the TX-0 as the favourite machine among the budding hacker culture, and served as the platform for a wide variety of “firsts” in the computing world. Perhaps best known among these is one of the first computerized video games, Spacewar!, but among the list are the first text editor, word processor, interactive debugger, the first credible computer chess program, and some of the earliest computerized music.

dec.pdp-1_bob_savelle.c1963.102618913.lgThe PDP-1 sold in basic form for US$120,000 ($930,000 in 2013). BBN’s system was quickly followed by orders from Lawrence Livermore and Atomic Energy of Canada (AECL), and eventually 53 PDP-1s were delivered until production ended in 1969. All of these machines were still being actively used in 1970, and several were eventually saved. MIT’s example was donated to The Computer Museum, Boston, and from there ended up at the Computer History Museum (CHM). A late version of Spacewar! on paper tape was still tucked into the case. PDP-1 #44 was found in a barn in Wichita, Kansas in 1988, apparently formerly owned by one of the many aviation companies in the area, and rescued for the Digital Historical Collection, also eventually ending up at the CHM.[11] AECL’s computer was sent to Science North, but was later scrapped.

The launch of the PDP-1 marked a radical shift in the philosophy of computer design: it was the first commercial computer that focused on interaction with the user rather than just the efficient use of computer cycles.[12]


The PDP-1 used punched paper tape as its primary storage medium. Unlike punched card decks, which could be sorted and re-ordered, paper tape was difficult to physically edit. This inspired the creation of text-editing programs such as Expensive Typewriter and TECO. Because it was equipped with online and offline printers that were based on IBM electric typewriter mechanisms, it was capable of what, in 1980s terminology, would be called “letter-quality printing” and therefore inspired TJ-2, arguably the first word processor.

The console typewriter was the product of a company named Soroban Engineering. It was an IBM Model B Electric typewriter mechanism, modified by the addition of switches to detect keypresses, and solenoids to activate the typebars. It used a traditional typebar mechanism, not the “golfball” IBM Selectric typewriter mechanism, which was not introduced until the next year. Lettercase was selected by raising and lowering the massive type basket. The Soroban was equipped with a two-color inked ribbon (red and black), and the interface allowed color selection. Programs commonly used color-coding to distinguish user input from machine responses. The Soroban mechanism was unreliable and prone to jamming, particularly when shifting case or changing ribbon color, and was widely disliked.

Offline devices were typically Friden Flexowriters that had been specially built to operate with the FIO-DEC character coding used by the PDP-1. Like the console typewriter, these were built around a typing mechanism that was mechanically the same as an IBM Electric typewriter. However, Flexowriters were highly reliable and often used for long unattended printing sessions. Flexowriters had electromechanical paper tape punches and readers which operated synchronously with the typewriter mechanism. Typing was performed about ten characters per second. A typical PDP-1 operating procedure was to output text to punched paper tape using the PDP-1’s “high speed” (60 character per second) Teletype model BRPE punch, then to hand carry the tape to a Flexowriter for offline printing.

dec.pdp-1.three_men_working_near_system.ca1960.102652239.lgIn later years, DECtape drives were added to some PDP-1 systems, as a more convenient method of backing up programs and data, and to enable early timesharing. This latter application usually required a secondary storage medium for swapping programs and data in and out of core memory, without requiring manual intervention. For this purpose, DECtapes were far superior to paper tapes, in terms of reliability, durability, and speed. Early hard disks were expensive and notoriously unreliable; if available and working, they were used primarily for speed of swapping, and not for permanent file storage.

Graphics Display

The Type 30 Precision CRT display was a point-mode device capable of addressing 1024 by 1024 addressable locations at a rate of 20,000 points per second. A special “Display One Point On CRT” instruction was used to build up images, which had to be refreshed many times per second. The active display area was 9.25 inches square. A light pen could be used with the Type 30 to pick points on the display. An optional character generator and hardware for line and curve generation were available.

Computer music

A Brochure about the PDP-1

A Brochure about the PDP-1

MIT hackers also used the PDP-1 for playing music in four-part harmony, using some special hardware — four flip-flops directly controlled by the processor (the audio signal was filtered with simple RC filters). Music was prepared via Peter Samson’sHarmony Compiler, a sophisticated text-based program with some features specifically oriented toward the efficient coding of baroque music. Several hours of music were prepared for it, including Bach fugues, all of Mozart’s Eine kleine Nachtmusik, Christmas carols, and numerous popular songs.

Current status

Only three PDP-1 computers are still known to exist, and all three are in the collection of the Computer History Museum (CHM). One is the prototype formerly used at MIT, and the other two are production PDP-1C machines. One of the latter, serial number 55 (the last PDP-1 made) has been restored to working order, is on exhibit, and is demonstrated on two Saturdays every month. The restoration is described on a special web page of the Computer History Museum. The demonstrations include:

  • the game Spacewar!
  • graphics demonstrations such as Snowflake
  • playing music

At the Computer History Museum TX-0 alumni reunion in 1984, Gordon Bell said DEC’s products developed directly from the TX-2, the successor to the TX-0 which had been developed at what Bell thought was a bargain price at the time, about US$3 million. At the same meeting, Jack Dennis said Ben Gurley’s design for the PDP-1 was influenced by his work on the TX-0 display. [15]

Software simulations of the PDP-1 exist in SIMH and MESS, and binary image paper tapes of the software exist in the archives.

Extra Attachments:

via PDP-1 – Wikipedia, the free encyclopedia.