CDC 8600

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The CDC 8600 was the last of Seymore Cray's supercomputer designs while working for Control Data. The "natural successor" to the CDC 6600 and CDC 7600, the 8600 was intended to be about 10 times as fast as the 7600, already the fastest computer on the market. Development started in 1968, shortly after the release of the 7600, but the project soon started to bog down. By 1971 CDC was having cash flow problems and the design was still not coming together, prompting Cray to leave the company in 1972. The 8600 design effort was eventually cancelled in 1974, and Control Data moved on to the CDC STAR-100 series instead.

In the 1960s computer design was based on mounting electronic components (transistors, resistors, etc.) on circuit boards. Several boards would be used up to make a discrete logic element of the machine, known as a "module". As computer power increased the complexity of the modules did too, any even a single faulty part or soldier joint would render the entire module inoperative. Cray was well known in the industry for making seemingly impossibly complex modules work.

Overall machine "cycle speed" is strongly related to the signal path -- the length of the wiring -- forcing high speed computers to make their modules as small as possible. This was at odds with the need to make the modules themselves more complex to increase computing power. By the late 1960s individual components and integrated circuits had stopped getting much smaller, so in order to increase the complexity of the machines, the modules would have to grow. Cray aimed to solve these contradictory problems by doing both, making each module larger and crammed with many more components, while at the same time making the computer as a whole smaller by packing the modules closer together inside the machine.

In the case of the 8600, this led to modules containing eight circuit boards about 8" by 6", resulting in a stack the size of a large textbook and using up about 3 kilowatts of power. Cooling the modules proved to be a major problem. Cray's refridgeration engineer, Dean Roush, formerly of Amanda, placed a sheet of copper inside each of the circuit boards, removing the heat to a copper block on one end where it was cooled by a freon system. This further increased the weight and complexity of the modules, to the point where each one weighed about 15 pounds. The modules were then packed into a mainframe chassis that was comparitively tiny, a cylinder about one meter across and high, sitting on top of a ring of power supplies. The external cooling system was considerably larger than the machine itself. Perhaps unsurprisingly, the 8600 bears a strong resemblance to the later Cray-1.

The components themselves were likewise improved over previous designs. The main CPU circuits moved to ECL-based logic, allowing the clock speed to be increased to 8 ns (120MHz) from the 7600's 27.5 -- an increase of about four times. Main memory was also moved to an ECL implementation and the machine was equipped with a whopping 256k-words (2 megabytes) standard. The memory was spread across 64 banks storing one bit of a word each, thereby allowing fast access even though the cycle time was about 22 ns. A high-speed core memory with a 20 ns access was also designed as a backup to the semiconductor version.

As if this were not enough, Cray decided that the 8600 would include four complete CPUs sharing the main memory. In order to improve overall throughput, the machine could be operated in a special mode in which a single instruction was sent to all four processors with different data. This technique, today known as SIMD, reduded the total number of memory accesses because the intruction was only read once, instead of four times. Each processor was about 2.5 times as fast as a 7600, so with all four running the machine as a whole would be about 10 times as fast.

The 8600 was the first CDC design to move to ASCII-based processing, and therefore used a 64-bit word instead of the earlier 60-bit word used on the 6600 and 7600.

In 1971 Control Data was undergoing a "belt tightening" due to the cost of an ongoing lawsuit against IBM, and all divisions were asked to reduce their payroll by 10%. Cray begged to be exempted in order to get the 8600 shipping, and when this request was refused he instead had his own pay cut to minimum wage to solve the problem.

By 1972 it appeared that even Cray's ledgendary module design abilities were failing him in the case of the 8600. Reliability was so poor that it was appeared impossible to get a whole machine working. This was not the first time this had happened, on the 6600 project Cray had to start over from scratch, and on the 7600 the machine was in production for some time before it started working reliably. In this case Cray decided the current design was a dead-end , and told William Norris (CDC's CEO) that the only way forward was to redesign the machine from scratch. At this point in time money was too tight to consider such a risky move, and Norris told Cray to continue with the existing design.

In 1972 Cray decided that he couldn't work under such conditions, and left CDC to form Cray Research. For his new work he abandoned the multiprocessor concept, concerned that software of the era would be unable to take full advantage of the CPUs. He may have come to this conclusion after the ILLIAC IV finally entered operation at about the same time.

CDC continued working on the 8600, but in 1974 the machine still didn't work. The competing STAR design had reached production quality at this point, and the 8600 project was then cancelled. In service STAR proved to have poor real-world performance, and when the Cray-1 entered the market in 1976, CDC was quickly pushed from the supercomputer market. An effort was made to re-enter the market in the 1980s with the ETA-10, but this ended poorly.