Integrated Woz Machine

The Integrated Woz Machine (or IWM for short) is a single-chip version of the floppy drive controller for the Apple II. It was also employed in Macintosh computers.

History

When developing a floppy drive for the Apple II, Apple Inc. co-founder Steve Wozniak felt that the existing ones available on the market were too complicated, expensive and inefficient. Rather than adopting the existing floppy drives from Alan Shugart, Wozniak decided to keep only the drive mechanics and to develop his own electronics for both the drive as well as the controller.

Wozniak successfully came up with a working floppy drive with many fewer electronic components. Instead of storing 810 sectors (each holding 256 bytes of data) per track on a 5.25-inch floppy disk something standard at that time, Wozniak managed to squeeze as many as 13 sectors on each track using the same mechanics and the same storage medium. In a later revision, this number was bumped up to 16 sectors per track.

At first, the floppy drive controller was built with many ICs and a PROM. To cope with increasing orders, Wendell Sander at Apple later put all these components into one single chip and developed a single-chip version the IWM.[1]

Application and Updates

The IWM is essentially a disk controller on one IC. It was employed in the Apple IIgs and all Mac-models up to the Macintosh II. Later, an extended version, known as SWIM, was introduced. This new version added the capability of reading and writing FM- and MFM-formatted (PC-formatted) floppy disks. In later Mac models, more and more peripheral components were added to the SWIM, until Apple finally phased out floppy drives from the Macs. The floppy controller function still stayed in the chipset for a while, even though the provision of floppy drives for the Macs has ceased. For instance, the first iMacs still had a floppy drive connector on the motherboard, allowing a floppy drive to be retrofit by knowledgeable enthusiasts.

References

This article is issued from Wikipedia - version of the 1/8/2016. The text is available under the Creative Commons Attribution/Share Alike but additional terms may apply for the media files.