Today it is undisputed that Konrad Zuse's Z3 was the first fully functional, program
controlled (freely programmable) computer of the world. The Mark II, the ENIAC and
the Colossus followed 1943 and later. The Z3 was presented on May 12, 1941 to an
audience of scientists in Berlin. The demonstration was a success.
Konrad Zuse was the creator of the first full automatic, programm controlled and
freely programmable, in binary floating point arithmetic working computer. The Z3
was finished in 1941.
The Z3 as the Z1 contained practically almost all features of modern day computers.
The Z3 was built with relays. The Z3 did not have a jump instruction. Konrad Zuse,
however, did know the jump instruction, as he implemented it in the micro code for
floating point calculations.
No picture of the original Z3 exists. The picture at the right side was taken from
a reconstruction made in early 1960 by Zuse KG, Bad Hersfeld. The reconstruction
was made for the 1964 Interdata industry fair in Munich. In 1967, it was on display
at the Montreal Expo, where it received great attention. It is now owned by the Deutsche
Museum in Munich.
The right cupboard contains the relays for the arithmetic unit. Also the relays on
the top of the left cupboard belong to the arithmetic unit. The relays in the left
cupboard with the light color belong to the memory (64 words a 22 bits). On the bottom
of the right cupboard the micro sequencers can be seen, which are the heart of the
control unit of the Z3. The micro sequencers are realized with stepwise relays. They
are used to reduce complicated arithmetic operations to additions or subtractions.
The input- and output devices can be seen on the left side. The decimal numbers are
converted to binary floating point numbers and vice versa. The punch tape reader
close to the input device makes the Z3 to a freelz programmable machine.
The block structure of the Z3. There is a separation of the components of the machine,
like the control unit, the memory, the arithmetic unit, and the input- and output
devices. The two Register R1 and R2 are short memories of 22 bits. An arithmetic
operation is performed as follows: R1 := R1 + R2. the contents of Register R1 is
added to the contents of Register R2 and the result is assigned to R1. R2 is set
to empty. The Z3 was a clocked machine of 5.3 Hertz.
Guestbook of May 12, 1941. Presentation of the fully operative Z3.
Drawings of the Z3. In the topmost image only a memory for 32 numbers with a word length of 22 Bits are drawn. The second image shows two cupboards for the memory.
The rebuilt Z3 from 1961.
From left to right: The input output device for decimal floating point numbers. Four digits for the mantissa and 17 digits for the exponent (-8 to +8). The clock frequency generated. The arithmetic exception handling.